Kontaktorer, motorskydd och motorövervakning - Tesys

a:932:{i:0;s:114:"se.com/tesysCatalog 2023Innovative and connectedsolutions for motor startersTeSys> Control> Protect> Power> Active";i:1;s:2223:"TeSysLegalInformation The information provided in this Catalog contains description of Schneider Electric products, solutions and services (“Offer”) with technical specifications and technical characteristics of the performance of the corresponding Offer.The content of this document is subject to revision at any time without notice due to continued progress in methodology, design and manufacturing.To the extent permitted by applicable law, no responsibility or liability is assumed by Schneider Electric and its subsidiaries for any type of damages arising out of or in connection with (i) informational content of this Catalog not conforming with or exceeding the technical specifications, or (ii) any error contained in this Catalog, or (iii) any use, decision, act or omission made or taken on basis of or in reliance on any information contained or referred to in this Catalog.SCHNEIDER ELECTRIC MAKES NO WARRANTY OR REPRESENTATION OF ANY KIND, WHETHER EXPRESS OR IMPLIED, AS TO WHETHER THIS CATALOG OR ANY INFORMATION CONTAINED THEREIN SUCH AS PRODUCTS AND SERVICES WILL MEET REQUIREMENTS, EXPECTATIONS OR PURPOSE OF ANY PERSON MAKING USE THEREOF.Schneider Electric brand and any trademarks of Schneider Electric and its subsidiaries referred to in this Catalog are property of Schneider Electric or its subsidiaries. All other brands are trademarks of their respective owners.This Catalog and its content are protected under applicable copyright laws and provided for informative use only. No part of this Catalog may be reproduced or transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), for any purpose, without the prior written permission of Schneider Electric.Copyright, intellectual, and all other proprietary rights in the content of this Catalog (including but not limited to software, audio, video, text, and photographs) rests with Schneider Electric or its licensors. All rights in such content not expressly granted herein are reserved. No rights of any kind are licensed or assigned or shall otherwise pass to persons accessing this information.TrademarksQR Code is a registered trademark of DENSO WAVE INCORPORATED in Japan and other countries.";i:2;s:989:"1www.se.comEnter in your catalogue TeSysTeSys is an innovative motor control and management solution from the global market leader. TeSys offers connected, efficient products and solutions for switching and protection of motors and electrical loads in compliance with all major global electrical standards.ASSEMBLED MOTOR STARTERSFully coordinatedTeSys ControlEnclosed switch-disconnectors and motor startersComplementary technical information: coordination and standardsTeSys ControlHybrid motor startersTeSys ControlUltra motor startersTeSys ControlOpen motor startersA1A2A3A4A5Enclosed startersCoordination and standards> ARCHITECTURE of your TeSys catalogue > TeSys Protect Components for protecting motors> TeSys Active Connected components for motor circuits> TeSys Control Components for controlling motors> TeSys Power Components for powering motorsOpen motor startersHybrid motor startersUltra motor starters> PART ATeSys components are classified by function:";i:3;s:1234:"2COMPONENTSfor conventional solutions:TeSys K series (ex-TeSys K, LRK)- 0 to 16 A (AC-3)TeSys Deca series (ex-TeSys GV2, GV3, GV4, TeSys D, LRD, LR9D)- 9 to 150 A (AC-3)TeSys Giga series (ex-TeSys GV5, GV6, TeSys LRG)- 185 to 800 A (AC-3)> PART BCOMPONENTSfor advanced solutions:TeSys Ultra series (ex-TeSys U)- 0 to 38 A (AC-3)TeSys T series (ex-TeSys T)- 0 to 800 A (AC-3)TeSys island series (ex-TeSys island)- 0 to 80 A (AC-3)B1B2B3B4B5B6B7B8B9C1C2Linergy BZ, HK Busbar systemsTeSys PowerDeca, Giga and Modular Motor circuit breakersTeSys PowerSwitch-disconnector fusesTeSys PowerFuse carriersTeSys ControlSwitch-disconnectorsGV, LAD, U Wiring systems for motor startersTeSys ProtectLRK, Deca, Giga Overload relaysTeSys ControlF High power contactorsTeSys ControlGiga High power contactorsTeSys ControlSK, K, SKGC, Deca, Modular and other ContactorsTeSys ControlSK, K, Deca Control relaysB11B10Power busbar systemsWiring systemsSwitch- disconnectorsFuse carriersControl relaysContactorsOverload relaysTeSys ActiveIsland motor startersTeSys Active T motor management systemMotor management devicesControl and monitoring island> PART CSwitch- disconnector fusesHigh power contactorsHigh power contactorsMotor circuit breakers";i:4;s:1345:"3Start smart. Run smart. With TeSys motor controls.Stay smart with the world's best-selling motor control solutions from the inventor of the world's first contactor - Schneider Electric™.For almost a century, TeSys motor controls have driven the industry with innovations in motor protection, monitoring, and control.It started with the introduction of the industry's first BAR contactor in 1924, and today, the legacy of innovation is built into every TeSys motor control device.Best-in-class safety and reliability, plug-and-play architecture, and flexible functionality mean TeSys motor control solutions can meet your requirements across a wide range of applications, from the most common to the most advanced.Wherever you are and anywhere your projects come together, you can trust Schneider Electric and TeSys contactors, circuit breakers, relays, and switches for unmatched reliability, complete compatibility with international standards, and the robust support of the Schneider Electric global supply network.Start smart, run smart and stay smart with TeSys motor controls.19241935197320002004200820162019202120211st BAR Contactor1st Enclosed Motor Starter1st Modular ContactorTeSys D Contactor1st Modular 3 in 1 Motor StarterTeSys D GreenGV3 MSP with TeSys IslandTeSys GigaTeSys DecaA Century OF INNOVATION AND LEADERSHIP";i:5;s:2090:"4Superior safety for all industriesTeSys motor controls come with all of the isolation, protection and emergency handling you need to comply with international codes. High-contrast covers identify safety-critical devices to prevent inadvertent manual operation. Every TeSys contactor is both mechanically linked and equipped with mirror contacts for safety applications and wherever auxiliary contact state reliability is critical.HVACEnsure 24/7 availability of your HVAC system with reliable products that can reach high ambient temperatures without derating.ConveyingDecentralize the control cabinet of your conveyor line and benefit from up to 80% space reduction.GensetMake certain your generator starts even in the harshest conditions with robust TeSys solutions.PumpingOptimize single or multi-drive boosters for industry or infrastructure with energy and cost-effective solutions.PackagingKeep pace with the most demanding, high-end packing applications with solutions that can perform 30 million AC53a electrical cycles, like TeSys H.Oil and GasKeep your employees and assets safe and improve uptime in onshore and offshore applications: pipeline operations: LNG and natural gas processing: and refining and petrochemical applications.Water and WastewaterOptimize the treatment and delivery of safer water by reducing energy usage and lowering operating costs.Food and BeverageServe your customers with environmentally friendly products to improve sustainability, efficiency, and flexibility, allowing you to adapt to changing customer habits.Online selection toolEcoStruxure™ Motor Control ConfiguratorFor Direct-On-Line and Star-Delta starters, motor circuit breakers with advanced protection, motor management relays, configurations for total coordination, drives, and soft starters. No matter what kind of starting method you need, our online EcoStruxure™ Motor Control Starter Configurator  will help you to quickly and easily select the optimal combination of components to ensure maximized motor safety, protection, and uptime.Scan or click on the QR code";i:6;s:1592:"5 news TeSysEDITO NEW VISUAL ASPECT NEW TESYS FUNCTION NAMES Welcome to your NEW TeSys catalog! Your catalog continues to evolve, as it does year after year. The first evolution concerns the products, it will bring a Premium design to your control panels thanks to the main TeSys components that now present the same visual homogeneity. The structuring of the components naming is the second point of evolution, it answers the need to classify the products by function and by range in the selection tools, the catalog and the Schneider Electric website (www.se.com). The last new feature is the presence of a product reference table at the end of the commercial part of each chapter (before the information for designers). It allows you to quickly check the availability of a product variant and access its technical data sheet online. The design of the TeSys core offer is evolving. Circuit breakers, contactors and several other components are now sharing a modern look giving the control panel a new and qualitative visual aspect. Schneider Electric's identity is fully revealed by the green parts. TeSys components are grouped by function name, for easier identification. These functions are related to motor, power, control and protection. TeSys Active gathers the devices providing built-in communication with motor monitoring and control functions. > TeSys Protect: Components for protecting motors> TeSys Active: Connected components for motor circuits> TeSys Control: Components for controlling motors> TeSys Power: Components for powering motors";i:7;s:1305:"6 news TeSys NEW TESYS COMPONENT SERIES NAMES NEW TESYS COMPONENTS FULL NAMES AT A GLANCE Series names group conventional components (circuit breakers, contactors, relays, overcurrent relays) by current rating ranges.- 0 to 16 A > TeSys K Series- 9 to 150 A > TeSys ‘Deca’ Series- 115 to 800 A > TeSys ‘Giga’ Series. TeSys advanced components have a specific classification.- 0 to 38 A All-in-one starters > TeSys ‘Ultra’ Series- 0 to 80 A Motor Control/Protection/Monitoring system > TeSys ‘island’ Series. Other TeSys component names remain unchanged (TeSys F, TeSys B, TeSys T).Old names> NEW names: TeSys Function - Component SeriesComplementary indicationsTeSys Vario, mini VarioTeSys Control – Switch-disconnectorsTeSys DF TeSys LSTeSys Power – Fuse carriersDF type LS typeTeSys GSTeSys Power – Switch-disconnector fusesTeSys GV2 TeSys GV3 TeSys GV4TeSys Power – Deca circuit breakers Frame 2 Frame 3 Frame 4TeSys GV5 TeSys GV6TeSys Power – Giga circuit breakers Frame 5 Frame 6TeSys DTeSys Control – Deca control relays TeSys Control – Deca contactorsTeSys LRD, LR9DTeSys Protect – Deca overload relaysTeSys HTeSys Control – Hybrid motor startersTeSys UTeSys Control – Ultra motor startersTeSys islandTeSys Active – island motor starter";i:8;s:495:"Enclosed startersCoordination and standardsA/1Open motor startersHybrid motor startersUltra motor startersPart A2.0ASSEMBLED MOTOR STARTERSFULLY COORDINATEDTeSys ControlEnclosed switch-disconnectors and motor startersFrom 0.25 to 40 kWA1/1TeSys ControlOpen motor startersFrom 0.06 to 315 kWA2/1TeSys ControlHybrid motor startersUp to 3 kW From 9 A to 32 AA3/1TeSys ControlUltra motor startersFrom 0.09 to 18.5 kWA4/1Complementary technical information: coordination and standardsA5/1";i:9;s:3:"A/2";i:10;s:845:"A1/1Enclosed startersEnclosed switch-disconnectorsContentPageProduct selectorA1/2Enclosed switch-disconnectors A1/3Enclosed standard startersProduct selectorA1/6Direct-on-line startersAccessories A1/7Reverser starters A1/13Star-delta startersA1/15Enclosed safety startersProduct selectorA1/17Safety direct-on-line startersAccessories A1/18Safety reverser starters A1/21Enclosures and components for customer assembliesEnclosures (with buttons) A1/26Components A1/30TeSys ControlEnclosed switch-disconnectors and motor startersChapter A1 Technical Data for Designers A1/37Enclosed Motor Starter Solution GuideThe software to help you to select intuitively your enclosed motor starter solution.The Enclosed Motor Starter Solution Guide software is available for both PC and iPad.TeSysControl";i:11;s:1179:"A1/2Enclosed startersWith numerous advantages to meet OEM’s most common needsp IEC or ULp Multiple ratings and sizesp IP65p Additional polesp Replaceable switch bodiesTeSys ControlEnclosed switch-disconnectorsDB414490.epsSelection criteriaSolutionsIthe (A)Load power (kW)Circuit isolationEmergency stopIP55IP65IECUL & CSASee page10...1404...45 (400 V)pppVBFA1/310...1404...45 (400 V)ppppVCFA1/310...324...15 (400 V)ppppVCFNA1/332...175 (Ithe IEC) 20...115 (Ith UL)10...50 HP (480 V)pppppVCpGUNA1/42Choose your enclosed switch-disconnector in the Solutions area, note the radical of the product references 1Identify your need (1 line one or more) in the Selection criteria area (example.: Load 5 kW– Emergency Stop - IEC)Range of pre-assembled casings with handle and their rotary switch They can be fixed on a wall, a panel, or on the chassis of a machine. For simple isolation and/or control of an electrical circuit. Red/yellow handle provides a clear indication of the device safety function (1), while black handle is usually dedicated to ON/OFF control.(1) Conforming to IEC 60947-3 and IEC 60204.Selection in 2 stepsPB121471.epsIntroduction & selection table";i:12;s:3306:"A1/3Enclosed startersTeSys ControlEnclosed switch-disconnectors / Ready-to-useDimensions:page A1/38Schemes:page A1/39Control + Disconnection (IEC)Enclosed switch-disconnectors, ready to be fixed on workshop wall or directly on the machine and wired to main supply circuit and to load.Functions / Range / Specificities: bDirect Control: ON/OFF of 3-phase motor (black handle) or ON/Emergency Stop (red handle) b23 IEC motor starters, for 3P motors from 4 to 45 kW (10 to 140 A) b6 UL motor starters for 3P motors from 5 to 30 HP (240 V) bPadlockable handle (1 to 3 padlocks – not included) bSealable, lockable cover when handle in position 1 (up to 63 A rating).Included: brotary switch-disconnector body bhandle.Enclosures for ON / Emergency Stop – IP65 – conforming IEC 60947-3, IEC 60204 (1)OperatorlthePower AC-23 at 400 VIncorpor- ated switch bodyPossible attach- ments (2)With ground plateReference (3) Weight Overall dimensions (4)WxHxDHandleFront plate Dim.mmAkWkgmmRed, standard, padlockable with up to 3 padlocks(Ø 4 to Ø 8 shank)Yellow60 x 60104V022NoVCF02GE0.50090x146x131Ye sVCF02GEGP0.56090x146x131165.5V012NoVCF01GE0.50090x146x131Ye sVCF01GEGP0.56090x146x131207.5V02NoVCF0GE0.50090x146x131Ye sVCF0GEGP0.56090x146x1312511V12NoVCF1GE0.50090x146x131Ye sVCF1GEGP0.56090x146x1313215V22NoVCF2GE0.50090x146x1315022V33NoVCF3GE0.930157x180x1526330V43NoVCF4GE0.930157x180x152Red, long, padlockable with up to 3 padlocks (Ø 4 to Ø 8 shanks)Yellow90 x 9010037V51NoVCF5GEN2.190241x291x190.514045V61NoVCF6GEN2.190241x291x190.5Protection of sensitive equipment: ground plate available for VCF02GE...VCF1GE – see page A1/5.Enclosures for ON / Emergency Stop – IP65 - conforming IEC 60947-3 (1) OperatorlthePower AC-23 at 400 VIncorpor- ated switch bodyPossible attachments (2)Reference (3)Weight Overall dimensions (4)WxHxDHandleFront plate Dim.mmAkWkgmmRed padlockable, either by 1 (Ø 8 shank) or by 3 padlocks (Ø 6 shank)Yellow60 x 60104VN122VCFN12GE0.42282.5x131x106165.5VN202VCFN20GE0.42282.5x131x106207.5V00VCFN25GE0.51282.5x131x1062511V10VCFN32GE0.51282.5x131x1063215V20VCFN40GE0.51282.5x131x106Enlosures for ON/OF F– IP65 – conforming IEC 60947-3, IEC 60204 (1) Black, standard, padlockable with up to 3 padlocks(Ø 4 to Ø 8 shank)Black60 x 60104V022VBF02GE0.50090x146x131165.5V012VBF01GE0.50090x146x131207.5V02VBF0GE0.50090x146x1312511V12VBF1GE0.50090x146x1313215V22VBF2GE0.50090x146x1315022V33VBF3GE0.930157x180x1526330V43VBF4GE0.930157x180x152Black, long, padlockable with up to 3 padlocks (Ø 4 to Ø 8 shank)Black90 x 9010037V51VBF5GEN2.190241x291x190.514045V61VBF6GEN2.190241x291x190.5(1) For characteristics of switch-disconnectors, please consult your Regional Sales Office.(2) Number of add-on modules that can be attached.(3) Enclosure not suitable in atmosphere contaminated with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.Note: For VCF and VBF enclosures from 02GE to 2GE, only one auxiliary contact block VZ7 or VZ20 can be mounted.VCFN12GEPB121473.epsVBF0GEPB121223.epsPB121471.epsVCF0GEPB121220.epsVCF3GEPB121472.epsVCF5GENPB121474.epsVBF6GENProduct references";i:13;s:2143:"A1/4Enclosed startersTeSys ControlEnclosed switches (UL) / Ready-to-use - Additional modulesDimensions:page A1/40Schemes:pages A1/39 and A1/40Additional modules for VZ switch bodies Enclosed switches include a VZ switch body. Additional modules can be plugged on 1 or 2 sides of the switch body to provide additional contacts or extra connectivity.Common modules for enclosed switch disconnectors – with exceptions (3)DescriptionRatingReferenceAMain pole module (mounted in enclosure)10VZ02 (not for VCxGUN starters) 16VZ01 (not for VCxGUN starters) 20VZ0 (not for VCxGUN starters) 25VZ132VZ250VZ363VZ4Neutral pole modules with early make and late break contacts10 to 32VZ1150 and 63VZ12100 and 140VZ13Earthing modules10 to 32VZ1450 and 63VZ15100 and 140VZ16DescriptionType of contactsReferenceAuxiliary contact block modules with 2 auxiliary contactsN/O + N/C (4)VZ7N/O + N/OVZ20(1) For characteristics of switch-disconnectors, please consult your Regional Sales Office.(2) Enclosure not suitable in atmosphere contaminated with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) Not compatible with VpF5GEN, VpF6GEN, VC5GUN, VC6GUN, VCFN12GE, VCFN20GE. (4) Late make N/O, early break N/C contacts.VZ0 Main pole580589.epsVZ11 Neutral pole580594.epsVZ15 Earthing terminal580595.epsVZ20 Auxiliary contacts580596.epsControl + Disconnection (UL)ON / Emergency Stop – IP65 Conforming UL508 CSA22.2 n° 14, IEC 60947-3, IEC 60204 (1) OperatorRatingStandard power ratingsof UL motorsIncor-porated switch bodyPossible attach-mentsReference (2)WeightOverall dimensions (1)WxHxDHandleFront plate Dim.IEC (Ith)UL600 V240 V480 V600 VmmAAHPHPHPkgmmRed, standard, padlockabl e with up to 3 padlocks(Ø 4 to Ø 8)Yellow 60 x 60 322051010V12VC1GUN0.500121x164x132.1402551015V22VC2GUN0.500121x164x132.16345102030V32VC3GUN0.930164x193x132.18063153040V42VC4GUN0.930164x193x132.1Red, long, padlockable with up to 3 padlocks(Ø 4 to Ø 8)Yellow 90 x 90125100255050V51VC5GUN2.190241x291x190.5175115305060V61VC6GUN2.190241x291x190.5VC1GUNPB107201.epsVC3GUNPB107202.epsVC5GUNPB121472.epsProduct references";i:14;s:1006:"A1/5Enclosed startersTeSys ControlEnclosed switch-disconnectors / Ready-to-use - Additional modules - AccessoriesAdditional modules for switch bodies Specific modules for VCFN12GE and VCFN20GEDescriptionRatingReferenceAMain pole modules 10VZN1216VZN20Neutral pole module with early make and late break contacts10 and 16VZN11Earthing module10 and 16VZN14DescriptionType of contactsReferenceAuxiliary contact block modules1 N/O late make contactVZN051 N/C early break contactVZN06VZN11580597.epsVZN14580598.epsVZN05580599.epsSchemes:page A1/39VGP1PB121222.epsVGPCLIP1PB121224.epsAccessories for enclosed switch-disconnectorsGround plate and accessories for VCF02GE, VCF01GE, VCF0GE, VCF1GEMetallic ground plate, for shielded cables connection. To be installed between back of enclosed switch-disconnectors, 2 fixing screws. Cable shield grounding ensured by 2 clamps, clamping from Ø11 to 14 mmFor switch bodyReference Ground plate + 2 clamps + 2 screws VGP12 clamps + 2 screwsVGPCLIP1Product references";i:15;s:1750:"A1/6Enclosed startersp IEC p Multiple ratings and sizesp IP55, IP65p IK08, IK09p Totally or partially pre-wiredTeSys ControlEnclosed standard startersDB414490.epsDB414490.epsSelection in 2 steps2Choose your starter in the Solutions area by adding column contents, note the radical of the product references (example: LE1D + LRD) 1Identify your need (1 line one or more) in the Selection criteria area (example: Load 5 kW – ON/OFF control with overload protection)Standard startersThey are used to isolate a circuit, to protect and/or to control a motorCustomized protectionEnclosed starter offer is available in fully pre-equipped and pre-wired enclosures, also in partially pre-equipped enclosures to be completed with protective components of the required rating AccessoriesAdditional accessories provide reinforced sealing, padlock locking, additional contacts... Range of pre-assembled motor starters, with pushbuttons, selectors, protection and control components in a robust casingThey can be fixed on a wall, on a panel, or on the chassis of a machine. They provide an operator with an easy access with visual simplicityNumerous advantages to meet OEM’s most common needsSelection criteriaSolutionsLoad Power (kW) / 400VCircuit isolationDirect starter - ON/OFFReverser ON/REVERSE/OFFShort circuit protectionOverload protectionStar - deltaProtection device to be added by customer(of appropriate rating)See page0.25..7.5ppLE1M35 LRDA1/74 ... 30LE1DA1/80.02... 30ppGV2PCGV3PCGV2L A1/9+ A1/100.02... 30pppGV2PCGV3PCGV2P A1/9+ A1/100.06... 11GV2MCGV3MPGV2MEA1/112.2 ... 15LE4KLE4DLR2KLRDA1/122.2 ... 30ppLE2KLE2DLR2KLRDA1/132.2 ... 15pppLE8KLE8DLR2KLRDA1/147.5...30pppLE3DLRDA1/157.5...18.5pppppLE6DLRDA1/16Introduction & selection table";i:16;s:2597:"A1/7Enclosed startersControl + Protection against Overloads bDirect Control: ON/OFF of 3-phase motor bMotor protection: motor OFF in case of overload – manual reset with the red pushbutton. bIndication: yellow light activated with the contactor coil. bThe LE1M35 starter, combined with short-circuit protection components, provides type 1 or type 2 coordination, depending on the type of devices used.Range:b 10 IEC motor starters, for 3P motors from 0.25 to 7.5 kW (400V AC)b Configurable pushbuttons: impulse or latchedb Conforming to IEC 60947-4-1 standardb Degree of protection IP65 , according IEC 60529b Ambient air temperature in operation -5 to +40°Cb Operating position: same as K series contactorsb Material: self extinguishing ABS.Included (standard version):b 1 contactor LC1Kpp (1)b 1 thermal overload relay LR2K (2)b 1 green Start button “I”,b 1 red Stop/Reset button “O/R”,b 1 yellow operating indicatorb earth + neutral terminals at bottom of enclosure.For supply voltages between 380 and 440 V (codes Q7, V7, N7 or R7) the control circuit is pre-wired between phases. For other supply voltages, the control circuit must be wired by the customer.Direct-on-line startersStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Setting range of thermal overload relay LR2KBasic reference, to be completed by adding the voltage code (3) (4)Overall dimensions (5)WxHxD220 V230 V240 V380 V 400 V 415 VkWkWkWkWAmm0.120.120.250.250.54...0.8LE1M35pp0578x160x1080.180.180.370.370.8...1.2LE1M35pp0678x160x1080.250.250.550.551.2...1.8LE1M35pp0778x160x1080.370.371.10.751.8...2.6LE1M35pp0878x160x1080.550.551.51.52.6...3.7LE1M35pp1078x160x1081.10.752.22.23.7...5.5LE1M35pp1278x160x1081.51.1335.5...8LE1M35pp1478x160x1082.22.2448...11.5LE1M35pp1678x160x108335.55.510...14LE1M35pp2178x160x1083.747.57.512...16LE1M35pp2278x160x108Replacement contactorLC1KppA80-Coil voltage codesVolts a 50/60 Hz24110220230240380400415440CodeB7F7M7P7U7Q7V7N7R7(1) K contactor characteristic: refer to chapter B8.(2) LR2K overload relay characteristics: refer to chapter B11.(3) Remove the 2 last numbers if the thermal overload relay is not required. Example: LE1M35P7 instead of LE1M35P714.(4) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. TeSys ControlEnclosed standard starters / DOL / Ready-to-usePB121458.epsLE1M35ppppDimensions:page A1/41Schemes:page A1/41Product references";i:17;s:2951:"A1/8Enclosed startersControl + Protection against Overloads bON/OFF motor starters: 1-way rotation control of 3-phase motor, by green & red pushbuttons bMotor protection against overload: manual reset with the red pushbutton or remotely. Range: b8 direct-on-line starters for 3P motors from 4 to 30 kW (9 to 65 A AC-3) bChoice of up to 12 AC coil voltages for control supply circuit (depending on starter rating).Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: v IP65, v IK07 for LED09...D35, v IK09 for LE1D40A...D65A bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: LE1D09... D35 polycarbonate (2) bLEpD40A... D65A steel sheet.Included:b 1 pre-wired LC1D contactorb 2 Harmony XB5 pushbuttons.An LRD overload relay of the required rating must be ordered separately and wired at bottom of the contactor.Direct on-line starters Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Max. current Ith up toBasic reference, to be completed by adding the voltage code (3)WeightOverall dimensions (4)WxHxD220 V230 V380 V400 V415 V440 V500 V660 V690 VkWkWkWkWkWkWAkgmm2.24445.55.59LE1D09pp0.92088x166x128.535.55.55.57.57.512LE1D12pp0.92088x166x128.547.57.57.591017LE1D18pp1.015101x201x153.55.5111111151522LE1D25pp1.015101x201x153.57.515151518.518.526.5LE1D35pp4.320101x201x153.51118.52222223040LE1D40App4.820200x300x158.515222530303350LE1D50App4.850200x300x158.518.5303737373765LE1D65App4.850200x300x158.5Variants (pre-assembled)DescriptionAvailable variants for starterSuffix to be added to the starter reference (3)No pushbuttons on coverLE1D09...D65App A04 1 blue Reset button “R” LE1D09...D65App A05 1 3-position stay put selector switch (“I”-“O”-“II”) (“I”: Automatic Start; “O”: Stop; “II”: Manual Start) 1 blue Reset button “R”LE1D09...D25ppA091 2-position stay put selector switch “O”-“I” (“O”: Stop; “I”: Manual Start) 1 blue Reset button “R”LE1D09...D25ppA13 Mounting of an LC1D09 contactor in an enclosure identical to LE1D18LE1D09P7 LE1D09P7A13TCoil voltage codes (3)Volts a 50/60 Hz2448110115120220230240380400415440LE1D09 to D35B7E7F7FE7G7M7P7U7Q7V7N7R7LE1D40A to D65A–––FE7––P7–Q7–––TeSys ControlEnclosed standard starters / DOL / to be completed with Deca (1) overload relay LE1DppPB112260.epsPB121670.tifLRDpp+(1) LRD overload relay selection: product reference page A1/33, more details in chapter B11.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents ketones, alcohol, aromatic hydrocarbons).(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.Dimensions:page A1/46Schemes: page A1/47Product references";i:18;s:2309:"A1/9Enclosed startersDimensions:page A1/43Schemes: page A1/43TeSys ControlEnclosed standard starters / DOL / to be completed with Deca (1) magnetic circuit breakerControl + Isolation + Protection against Short circuits 2 solutions according to the required current rating.GV2PC + GV2L > up to 23 A (Ithe) GV3PC + GV3L > up to 55 A (Ithe)The GV2L or GV3L circuit breaker of the required rating must be ordered separately. bCircuit isolation bON/OFF motor starters: 1-way rotation control of 3-phase motor bPadlocking: vin ON or OFF position (PGV2PC01, GV3PC01), vin OFF position (GV2PC02, GV3PC02).Suitable circuit breakers: bGV2L - 12 ratings (3P motors from 0.09 to 11 kW - 400/415 V AC) bGV3L - 3 ratings (3P motors from 18.5 to 30 kW - 400/415 V AC).Enclosures characteristics: bConforming to IEC 60947-2 bDegree of protection according IEC 60529: vIP65, IK08 (for GV2PC), vIK09 (for GV3PC) bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue): 690V bMaterial: GV2PC polycarbonate (2), GV3PC steel sheet.Included:b GV rotary handle.Enclosures fitted with padlockable rotary handleCompositionTypeReferenceOverall dimensions (3)WxHxDmm bInsulating enclosure bBlack handle,padlockable in ON/OFF positionSurface mountingFor GV2LGV2PC0188x166x163 bInsulating enclosure b Red handle on yellow background, padlockable in OFF positionSurface mountingFor GV2LGV2PC0288x166x163b Metal enclosureb Black handle, padlocking in ON/OFF positionb Circuit breaker/handle adapterSurface mountingFor GV3LGV3PC01200x300x200b Metal enclosureb Red handle, padlocking in OFF positionb Circuit breaker/handle adapterSurface mountingFor GV3LGV3PC02200x300x200GV2L, GV3L product references: add code to product reference (4)Ithe (A)0.40.6311.62.546.3913172123GV2L codes030405060708101416202122Ithe (A)354155GV3L codes405065(1) GV2, GV3 circuit breaker not included - characteristics: refer to chapter B6.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (4) Example: for Ithe 17 A, magnetic circuit breaker is GV2L20.+GV2PC01GV2LPB112219.epsPB121671.eps+GV3PC02GV3LPB112222.epsPB121678.epsProduct references";i:19;s:2394:"A1/10Enclosed startersDimensions:page A1/43Schemes: page A1/43TeSys ControlEnclosed standard starters / DOL / to be completed with Deca (1) thermal-magnetic circuit breakerControl + Isolation + Protection against Short circuits and Overloads For OEM, 2 solutions according to the required current rating.GV2PC + GV2P > up to 23 A (Ithe) GV3PC + GV3P > up to 55 A (Ithe)The enclosure includes a rotary handle. The GV2P or GV3P circuit breaker of the required rating must be ordered separately. bCircuit isolation bON/OFF motor starters: 1-way rotation control of 3-phase motor bPadlocking: vin ON or OFF position (GV2PC01, GV3PC01), vin OFF position (GV2PC02, GV3PC02).Suitable circuit breakers: bGV2P - 14 ratings (3P motors from 0.06 to 11 kW - 400/415 V AC) bGV3P - 2 ratings (3P motors from 18.5 to 30 kW - 400/415 V AC).Enclosures characteristics: bConforming to IEC 60947-2 bDegree of protection according IEC 60529: IP65, IK08 (for GV2PC), IK09 (for GV3PC) bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue) 690V bMaterial: GV2PC polycarbonate (2), GV3PC steel sheet.Included: bGV rotary handle.Enclosures fitted with padlockable rotary handleCompositionTypeReferenceOverall dimensions (3)WxHxDmm bInsulating enclosure bBlack handle,padlockable in ON/OFF positionSurface mountingFor GV2LGV2PC0188x166x163 bInsulating enclosure b Red handle on yellow background, padlockable in OFF positionSurface mountingFor GV2LGV2PC0288x166x163b Metal enclosureb Black handle, padlocking in ON/OFF positionb Circuit breaker/handle adapterSurface mountingFor GV3LGV3PC01200x300x200b Metal enclosureb Red handle, padlocking in OFF positionb Circuit breaker/handle adapterSurface mountingFor GV3LGV3PC02200x300x200GV2P, GV3P product references: add code to product reference (4)Ithe (A)0.160.250.40.6311.62.546.3913172123GV2P codes0102030405060708101416202122Ithe (A)354155GV3P codes405065(1) GV2, GV3 circuit breaker not included - characteristics: refer to chapter B6.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (4) Example: for Ithe 17 A, magnetic circuit breaker is GV2P20.+GV2PC01GV2PppPB112219.epsPB121672.eps+GV3PC02GV3PppPB112222.epsPB121680.epsProduct references";i:20;s:2775:"A1/11Enclosed startersDimensions:page A1/44Schemes:page A1/45TeSys ControlEnclosed standard starters / DOL / to be completed with Deca (1) thermal-magnetic circuit breaker (ref. GV2ME)Control + Isolation + Protection against Short circuits and Overloads For OEM, 2 solutions, according to the enclosure installation mode:GV2MC surface mounting enclosure for GV2ME circuit breakerGV2MP flush mounting enclosure for GV2ME circuit breaker.The GV2ME circuit breaker of the required rating must be ordered separately. bCircuit isolation bON/OFF motor starters: 1-way rotation control of 3-phase motor bShort-circuit and adjustable overload protection bPadlocking in OFF position.Suitable circuit breakers: bGV2ME - 14 ratings (3P motors from 0.06 to 11 kW - 400/415 V AC).Enclosures characteristics: bConforming to IEC 60947-2; IEC 60947-4-1 bDegree of protection according IEC 60529: refer to selection chart bOperational voltage (Ue) 690 V bMaterial: polycarbonate (2).Included: bGV2E01 or GV2E02 sealing kit (fixed on the front plate).Enclosures for thermal-magnetic circuit breakers GV2METypeDegree of protectionPossible no. of side mounting auxiliary contact blocks on GV2MEReferenceWeightOverall dimensions (3)WxHxDLH sideRH sidekgmmSurface mounting, double insulated with protective conductor. Sealable coverIP4111GV2MC010.29093x147x84IP5511GV2MC020.30093x147x84orGV2MCK04 (4)0.42093x147x145.5IP55 for temperature < +5 °C11GV2MC030.30093x147x84Flush mounting, with protective conductorIP41 (front face)11GV2MP010.115106.5x140x83IP41 (front face reduced flush mounting)–1GV2MP030.115106.5x140x98IP55 (front face)11GV2MP020.130106.5x140x83IP55 (front face reduced flush mounting)–1GV2MP040.130106.5x140x98GV2ME product references: add code to product reference (5)Ithe (A)0.160.250.40.6311.62.546.3913172123GV2ME codes0102030405060708101416202122GV2MC, GV2MP enclosures with complementary circuit breaker and mushroom head pushbutton allow the construction of safety direct-on-line starters conforming INRS and VDE0113.Surface and flush mounting enclosures, mushroom heads, circuit breakers and undervoltage release cover a large number of applications.(1) Characteristics of GV2ME circuit breakers and additives: refer to page A1/32.(2) Enclosure not suitable in atmosphere contaminated with harsh substances (detergents,chlorine solvents, ketones, alcohol, aromatic hydrocarbons). (3) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light (4) Enclosure GV2MCK04 is fitted with a GV2K04 mushroom head Emergency stop pushbutton as standard.(5) Example: for Ithe 17 A, magnetic circuit breaker is GV2ME20.GV2MC02, GV2MC03PB121459.epsGV2MEppPB121673.tif+GV2MP01, GV2MP02PB112216.epsGV2MEppPB121673.tif+Product references";i:21;s:3282:"A1/12Enclosed startersDimensions:page A1/48Schemes:page A1/49TeSys ControlEnclosed standard starters / DOL / to be completed with LR2K, Deca (1) overload relaysControl + Isolation + Protection against Short circuits and Overloads bON/OFF motor starters: 1-way rotation control of 3-phase motor, by green & red pushbuttons Option: no pushbutton on cover bCircuit disconnection by side black handle bProtection against short circuits by NFC fuses type aM (to be ordered separately) bMotor protection against overload – manual reset with the red pushbutton or remotely. Option: cover with just a “Reset” blue pushbutton.An LR2K or LRD overload relay of the required rating must be ordered separately and wired at bottom of the contactor (1).Ranges: b8 partially pre-equipped enclosures to build-up 3P motor starters from 2.2 to 15 kW (6 to 35 A AC-3) bChoice of 5 coils for LE4Kpp, 12 coils for LE4Dpp, for control with different AC voltages.Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: vIP65, IK09 for LE4KIP65, vIK07 for LE4D, bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: LE4K and LE4D polycarbonate (2). Included: b1 fuse carrier with external side handle b1 pre-wired LC1K or LC1D contactor b2 Harmony XB5 pushbuttons.Direct-on-line startersStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Max. current lth up toFuses to be fitted by the customerBasic reference, to be completed by adding the voltage code (3) (4)WeightOverall dimensions (5)WxHxD220 V230 V380 V400 V415 V440 V500 V660 V690 VSizeType aMkWkWkWkWkWkWAAkgmm1.52.22.23––610 x 3810LE4K065pp1.450206x165x1462.2444––910 x 3812LE4K095pp1.450206x165x146orLE4D09pp (6)1.960217x348x175.52.24445.5–910 x 3812LE4D09pp1.960217x348x175.535.55.55.57.5–1210 x 3816LE4D12pp1.960217x348x175.547.59910–1810 x 3820LE4D18pp2.200217x348x175.55.511111115–2510 x 3825LE4D25pp2.200217x348x175.57.515151518.518.526.514 x 5132LE4D35pp5.190217x348x175.5Voltages code (4)Volts2448110115120220230240380400415440a 50/60 HzLE4DB7E7F7FE7G7M7P7U7Q7V7N7R7LE4K–––––M7P7U7Q7V7––Supply voltages between 380 and 440 V (codes Q7, V7, N7 or R7): pre-wired control circuit between phases.Other supply voltages: control circuit must be wired by the customer.(1) LR2K, LRD overload relay selection: product references page A1/33, more details in chapter B11.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons.(3) LE4Dppp (with P7 and V7 coil) with no pushbutton on cover: add “A04” to product reference (example: LE4D25V7A04).LE4Dppp (with P7 and V7 coil) with overload “Reset” blue pushbutton only on cover: > add “A05” to full product reference.(4) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light .(6) Selection according to dimensions and the number of operating cycles, please consult your Regional Sales Office.PB121460.epsPB123794.tif+LE4KppppLR2KppPB121463.epsPB121670.tif+LE4DppppLRDppProduct references";i:22;s:2924:"A1/13Enclosed startersDimensions:page A1/46Schemes: page A1/47TeSys ControlEnclosed standard starters / Reverser / to be completed with LR2K, Deca (1) overload relaysReverse Control + Isolation + Protection against Overloads bON/REVERSE/OFF motor starters: 2-way rotation control of 3-phase motor vby black I-II position spring return selector, red STOP/RESET pushbuttons for LE2Kpp starters vby black ON ↑ , ON ↓ pushbuttons, red STOP/RESET pushbutton for LE2Dpp starters bMotor protection against overload: manual reset with the red pushbutton or remotely.An LR2K or LRD overload relay of the required rating must be ordered separately and wired at bottom of the contactor.Ranges: bfor 3P motors from 4 to 30 kW (9 to 65 A AC-3), in 11 ranges of reverser starters bChoice of up to 7 AC coils voltages (depending on starter) for control supply circuit.Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: IP65, IK07 for LED09pppD35, IK09 for LE2K and LEpD40ApppD65A, bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: LE2K and LEpD09pppD35 polycarbonate (2) bLEpD40Appp D65A steel sheet.Included: b2 pre-wired LC1K or LC1D contactor b3 Harmony XB5 pushbuttons - or -1 Harmony XB5 pushbutton + 1 Harmony XB5 switch.Reversing startersStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Maximum current Ith up toBasic reference, to be completed by adding the voltage code (3)WeightOverall dimensions (4)WxHxD220 V230 V380 V400 V415 V440 V500 V660 V690 VkWkWkWkWkWkWAkg1.52.22.23––6LE2K065pp1.080175x165x1462.2444––9LE2K095pp1.080175x165x146LE2D09pp (5)2.100101x201x153.5––––5.55.59LE2D09pp2.100101x201x153.535.55.55.57.57.512LE2D12pp2.100101x201x153.547.57.57.591017LE2D18pp2.410101x201x153.55.5111111151522LE2D25pp2.570101x201x153.57.515151518.518.526.5LE2D35pp4.100101x201x153.51118.52222223040LE2D40App5.270200x300x17415222530303350LE2D50App5.470200x300x17418.5303737373765LE2D65App5.470200x300x174Coil voltage codes (3)Volts a 50/60 Hz2448110115120220230240380400415440LE2D40A to D65A–––FE7––P7–Q7–––LE2D09 to D35B7––––M7P7U7Q7V7N7–LE2K–––––M7P7U7Q7V7––(1) LR2K, LRD overload relay selection: product references page A1/33, more details in chapter B11.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons.(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (5) Selection according to dimensions and the number of operating cycles, please consult your Regional Sales Office.PB121465.epsPB123794.tif+LE2K09pppLR2KppPB112274.epsPB121670.tif+LE2D12pppLRDppProduct references";i:23;s:3286:"A1/14Enclosed startersDimensions:page A1/48Schemes:page A1/49TeSys ControlEnclosed standard starters / DOL / to be completed with LR2K, Deca (1) overload relaysReverse Control + Isolation + Protection against Short circuits and Overloads bON/REVERSE/OFF motor starters: 2-way rotation control of 3-phase motor vLE8Kppstarters, by white ↑, black ↓, red Stop/Reset pushbuttons vLE8Dpp starters, by black I-II position spring return selector, red Stop/Reset pushbutton vOption: no pushbutton on cover bCircuit disconnection by side black handle bProtection against short circuits by NFC fuses type aM (to be ordered separately) bMotor protection against overload: manual reset with the red pushbutton or remotely. LE8D option: cover with just a “Reset” blue pushbutton. An LR2K or LRD overload relay of the required rating must be ordered separately and wired at bottom of a the contactor.Ranges: b8 partially pre-equipped enclosures to build-up 3P motor reversers from 2.2 to 15 kW (6 to 35 A AC-3) bChoice of 3 coils for control with different AC voltages.Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: IP65, IK09 for LE8KIP65, IK07 for LE8D bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: LE8K and LE8D09pppD35 polycarbonate (2). Included: b1 fuse carrier with external side handle b2 pre-wired LC1K or LC1D contactors b3 Harmony XB5 pushbuttons - or -1 Harmony XB5 pushbutton + 1 Harmony XB5 switch.Reversing startersStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Maximum current Ith up toFuses to be fitted by the customerBasic reference, to be completed by adding the voltage code (3) (4)WeightOverall dimensions (5)WxHxD220 V230 V380 V400 V415 V440 V500 V660 V690 VSizeType aMkWkWkWkWkWkWAAkg1.52.22.23––610 x 3810LE8K065pp1.600206x165x1462.2444––910 x 3812LE8D09pp (6)3.550217x348x182––––5.5–910 x 3812LE8D09pp3.550217x348x18235.55.55.57.5–1210 x 3816LE8D12pp3.550217x348x18247.59910–1710 x 3820LE8D18pp3.700217x348x1825.511––––2210 x 3825LE8D25pp4.670217x348x1827.515151518.518.526.514 x 5132LE8D35pp5.800217x348x182Voltage codes (4)Volts a 50/60 Hz2448110115120220230240380400415440LE8 K, LE8 D––––––P7–Q7V7––(1) LR2K, LRD overload relay selection: product references page A1/33, more details in chapter B11.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons.(3) LE8Kppppp, LE8Dpppp (with P7 and V7 coil) with no pushbutton on cover: add “A04” to product reference (example: LE8K065P7A04, LE8D25V7A04) LE4Dpppp (with P7 and V7 coil) with only one pushbutton on cover: overload “Reset” blue pushbutton > add “A05”to full product reference.(4) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (6) Selection according to dimensions and the number of operating cycles, please consult your Regional Sales Office.PB121466.epsPB123794.tif+LE8KppppLR2KppPB112301.eps+LE8DppppLRDppPB121670.tifProduct references";i:24;s:2387:"A1/15Enclosed startersTeSys ControlEnclosed standard starters / Star-delta / to be completed with Deca (1) overload relaysDimensions:page A1/50Schemes:page A1/50Star-delta Control + Protection against Overload bStar-delta starting of 3-phase motor: ON by green pushbutton, OFF by red pushbutton. Option: no pushbutton on cover vMaximum operating rate: 30 starts/hour. vMaximum starting time: 30 seconds. vDelay of 40 ms ±15 ms at changeover by LAD S2 timer on delta contactor to provide sufficient time for star contactor to break. bMotor protection against overload: manual reset with the red pushbutton or remotely.An LRD overload relay of the required rating must be ordered separately and wired at bottom of the contactor.Range: b4 partially pre-equipped enclosures to build-up 3P motor starters from 7.5 to 30 kW. Choice of 7 coils for control with different AC voltages.Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: IP65, IK07 bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: polycarbonate (2). Included: b3 pre-wired LC1D contactors b2 Harmony XB5 pushbuttons. Star-delta startersStandard power ratings of squirrel cage motors Mains voltage - delta connectionBasic reference, to be completed by adding the voltage code (3) (4)WeightOverall dimensions (5)WxHxD220 V380/400 V415 V440 VkWkWkWkWkg47.57.57.5LE3D09pp 3.650186x348x175.55.5111111LE3D12pp 3.650186x348x175.51118.52222LE3D18pp3.750186x348x175.511222626LE3D35pp5.160186x348x175.5Voltage codes (4)Volts a 50/60 Hz24220230240380400415LE3 DB7M7P7U7Q7V7N7(1) LRD overload relay selection: product references page A1/33, more details in chapter B11 - Select appropriate overload relay for setting at 0.58 of the full load rated motor current.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons). (3) LE3Dpppp (with P7 and V7 coil) with no pushbutton on cover: add “A04”to product reference (example: LE3D18P7A04).(4) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. 105552_SE.eps+LE3DLRDppPB121670.tifProduct references";i:25;s:2502:"A1/16Enclosed startersTeSys ControlEnclosed standard starters / Star-delta / to be completed with Deca (1) overload relaysDimensions:page A1/42Schemes:page A1/42Star-delta Control + Disconnection + Protection against Short circuits and Overloads bStar-delta starting of 3-phase motor: ON by green pushbutton, OFF by red pushbutton. Options: no pushbutton, “Reset” pushbutton only vMaximum operating rate: 30 starts/hour. vMaximum starting time: 30 seconds. vDelay of 40 ms ±15 ms at changeover by LAD S2 timer on delta contactor to provide sufficient time for star contactor to break. bCircuit disconnection by side black handle bProtection against short circuits by NFC fuses type aM (to be ordered separately) bMotor protection against overload: manual reset with the red pushbutton or remotely.An LRD overload relay of the required rating must be ordered separately and wired at bottom of the contactor.Range: b4 partially pre-equipped enclosures to build-up 3P motor starters from 7.5 to 30 kW choice of 7 coils for control with different AC voltages.Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection according IEC 60529: IP65, IK07 bAmbient air temperature in operation -5 to +40°C bOperating position: same that as contactors bMaterial: polycarbonate (2). Included: b1 fuse carrier with external side handle b3 pre-wired LC1D contactors b2 Harmony XB5 pushbuttons. Star-delta startersStandard power ratings of squirrel cage motors Mains voltage - delta connectionFuses to be fitted by the customerBasic reference, to be completed by adding the voltage code (3)WeightOverall dimensions (4)WxHxDSizeType aM220 V380/400 V415 V440 VkWkWkWkWkg47.57.57.510 x 3820LE6D09pp3.900217x348x175.55.511111110 x 3825LE6D12pp 3.900217x348x175.51118.5222214 x 5140LE6D18pp4.850217x348x175.5Voltage codesVolts a 50/60 Hz24230400LE6 DB7P7V7(1) LRD overload relay selection: product references page A1/33, more details in chapter B11 - Select appropriate overload relay for setting at 0.58 of the full load rated motor current.(2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons).(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.PB121469.eps+LE6DppppLRDppPB121670.tifProduct references";i:26;s:1390:"A1/17Enclosed startersRange of pre-assembled safety motor starters, with mushroom pushbuttons, protection and control components in a robust casingThey can be fixed on a wall, on a panel, or on the chassis of a machine. They provide the operator with safety machine controls complying with IEC 60204-1.With numerous advantages to meet OEM’s most common needsDB414490.epsDB414490.epsSelection in 2 stepsSelection criteriaSolutionsLoad Power (kW) / 400 V supplyDirect starter ON/OFFReverser ON/REVERSE/OFFShort circuit / overload protectionPower circuit isolationVisible isolation by rotary switchIsolated control circuit by transfoSee page0.06...4pppLG7KA1/184 ... 9LG7DA1/180.06... 4ppppLG1KA1/194... 9LG1DA1/190.06... 4ppppLJ7KA1/200.06... 5.5pppLG8KA1/210.06 ... 4ppppLJ8KA1/220.06 ... 15pppGV2MCK04GV2MEGV2AXA1/232Choose your Solutions by adding column contents, note the radical of the product references (example: LG1D) 1Identify your need (on a single line) in the Selection criteria area (example: Load 5 kW – Visible circuit isolation, ON/OFF control with short circuit / overload protection)Safety startersThey provide similar functions as standard starters but also include emergency stops to comply with IEC 60204-1 machine safety standards.p IEC p Multiple ratings and sizesp IP55p IK07p Pre-wiredTeSys ControlEnclosed safety starters Introduction & selection table";i:27;s:3061:"A1/18Enclosed startersTeSys ControlEnclosed safety starters / DOL / Ready-to-useFor Control + Isolation + Short circuit / Overload ProtectionEnclosed safety motor starters complying with IEC 60204-1 “Safety of machinery” standards. bON/OFF motor starters: 1-way rotation control of 3-phase motor bEmergency stop bElectrical circuit isolation, lockable (from LG7K09) with up to 3 padlocks bShort circuit protection bOverload protection bUndervoltage protection (LG7K06: with additional undervoltage release module).Switching back on power supply after tripping must be a deliberate action.Range: b12 pre-equipped enclosed safety starters from 0.06 to 9 kW.Enclosures characteristics: bConforming to IEC 60947-1, IEC 60204-1 bDegree of protection according IEC 60529: IP55, IK07 bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue) 690 V bOperating position: same that as contactors bMaterial: polycarbonate (1). Included: b1 GV2ME thermal magnetic circuit breaker (with mushroom emergency stop with LG7K06) (2) b1 LC1K or LC1D pre-wired contactor b1 Harmony emergency stop pushbutton (from LG7K09) b2 Harmony XB5 pushbuttons. b1 GVAX undervoltage release module (from LG7K09).Additional GVAXpp undervoltage release module for LG7K06 – to be ordered separately.Additional GV2SNpp Indicator light – to be ordered separately.Non-reversing starters (with pushbutton control of isolation)Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Circuit breakerDust & damp protected starterWeightOverall dimensions (4)WxHxDSetting range of thermal tripsBasic reference, to be completed by adding the voltage code (3)220/ 230 V 400/ 415 V 440 VkWkWkWAkg–0.060.060.16...0.25LG7K06pp021.300175x165x1770.060.090.120.25...0.40LG7K06pp031.300175x165x177–0.180.180.40...0.63LG7K06pp041.300175x165x1770.120.250.370.63...1LG7K06pp051.300175x165x1770.250.550.551...1.6LG7K06pp061.300175x165x1770.370.751.11.6...2.5LG7K06pp071.300175x165x1770.751.51.52.5...4LG7K06pp081.300175x165x1771.12.234...6.3LG7K06pp101.300175x165x1771.5446...10LG7K09pp141.450175x165x17735.55.59...14LG7D12pp161.600175x165x17747.5913...18LG7D18pp201.630175x165x17749917...23LG7D18pp211.630175x165x177Voltage codes (3)Volts a 50/60 Hz24220/ 230230380/ 400400400/415 for LG7K)LG7K, LG7DB7M7P7Q7V7N7(1) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons).(2) LG7K09, D12, D18: the Emergency Stop function is performed by an undervoltage trip module acting on the circuit breaker. This circuit breaker is always pre-wired for use on 380/400/415 V 50 Hz supply.For a 60 Hz supply, please consult your Regional Sales Office.(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.LG7K06PB121470.epsLG7K09, LG7DppPB111886.epsDimensions:page A1/52Schemes:page A1/53Product references";i:28;s:2812:"A1/19Enclosed startersFor Control + Visible Isolation + Short circuit /Overload ProtectionEnclosed safety motor starters complying with IEC 60204-1 “Safety of machinery” standards. bON/OFF motor starters: 1-way rotation control of 3-phase motor bEmergency stop bElectrical circuit isolation, lockable with up to 3 padlocks bShort circuit protection bOverload protection bUndervoltage protection (with additional undervoltage release module).Switching back on power supply after tripping must be a deliberate action.Range: b12 pre-equipped enclosed safety starters from 0.06 to 9 kW.Enclosures characteristics: bConforming to IEC 60947-1, IEC 60204-1 bDegree of protection according IEC 60529 : IP55, IK07 bAmbient air temperature in operation -5 to + 40°C bOperational voltage (Ue) 690 V bOperating position: same that as contactors bMaterial: polycarbonate (1) bEnclosure cannot be opened when energized in position “I”.Included: b1 GV2ME thermal magnetic circuit breaker b1 LC1K (LG1K starters) or LC1D (LG1D starters) pre-wired contactor b Switch with rotary red/yellow handle for isolation and emergency b2 Harmony XB5 pushbuttons.Additional GVAXpp undervoltage release module – to be ordered separately.Additional GV2SNpp indicator light – to be ordered separately.Non-reversing starters (with rotary operator for control of isolation)Enclosure cannot be opened when energised in position “I”.Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Circuit breakerDust & damp protected starterWeightOverall dimensions (3)WxHxDSetting range of thermal tripsBasic reference, to be completed by adding the voltage code (2) 220/ 230 V 400/ 415 V 440 VkWkWkWAkg–0.060.060.16...0.25LG1K065pp020.970175x165x1650.060.090.120.25...0.40LG1K065pp030.970175x165x165–0.180.180.40...0.63LG1K065pp040.970175x165x1650.120.250.250.63...1LG1K065pp050.970175x165x1650.250.550.551...1.6LG1K065pp060.970175x165x1650.370.751.11.6...2.5LG1K065pp070.970175x165x1650.751.51.52.5...4LG1K065pp080.970175x165x1651.12.234...6.3LG1K065pp100.970175x165x1651.5446...10LG1K095pp141.120175x165x16535.55.59...14LG1D122pp161.270175x165x16547.5913...18LG1D182pp201.290175x165x16549917...23LG1D182pp211.290175x165x165Voltage codes (2)Volts a 50/60 Hz220/ 230230380/ 400400400/415 (for LG1K)LG1K, LG1DM7P7Q7V7N7(1) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents,ketones, alcohol, aromatic hydrocarbons).(2) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(3) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.TeSys ControlEnclosed safety starters / DOL / Ready-to-useLG1K065PB111894.epsDimensions:page A1/52Schemes:page A1/53Product references";i:29;s:3999:"A1/20Enclosed startersFor Control + Isolation + Short circuit / Overload Protection, with isolated 24 V control circuitEnclosed safety motor starters complying with IEC 60204-1 “Safety of machinery” standards. bON/OFF motor starters: 1-way rotation control of 3-phase motor bEmergency stop (1) bElectrical circuit isolation, lockable on LJ7K09 with up to 3 padlocks bShort circuit protection bOverload protection bProtection against voltage drops for LJ7K09p For LJ7K06, a GVAXpp undervoltage trip may be added bPossible signaling with GV2SNpp indicator (to be ordered separately).Switching back on power supply after tripping must be a deliberate action.Range: b9 pre-equipped enclosed safety starters from 0.06 to 4 kW.Enclosures characteristics: bConforming to IEC 60947-1, IEC 60204-1 bDegree of protection according IEC 60529: IP55, IK07 bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue) 690 V bOperating position: same that as contactors bMaterial: polycarbonate (2). Included: b1 GV2ME thermal magnetic circuit breaker with mushroom emergency stop (release on ¼ turn), b1 LC1K pre-wired contactor b2 Harmony XB5 pushbuttons b1 Integral transformer: 400/24 V, 25 VA b1 GVAX undervoltage release module (with LJ7K09).Additional GVAXpp undervoltage release module for LJ7K06 - to be ordered separately.Additional GV2SNpp indicator light – to be ordered separately. bTerminal allowing the connection of a volt-free contact, if required, in the control circuit.Non-reversing motor starters with integral transformer, pre-wired for operation on a 3-phase 380 to 400 V 50 Hz supply (with pushbutton control of isolator function)Standard power ratings of 3-phase motors 50 Hz in category AC-3Circuit breakerDust and damp protected starterWeightOverall dimensions (5)WxHxDSetting range of thermal tripsReference (3) (4)380/400 VkWAkg0.060.16...0.25LJ7K06Q7022.270175x165x1770.090.25...0.40LJ7K06Q7032.270175x165x1770.250.63...1LJ7K06Q7052.270175x165x1770.551...1.6LJ7K06Q7062.270175x165x1770.751.6...2.5LJ7K06Q7072.270175x165x1771.52.5...4LJ7K06Q7082.270175x165x1772.24...6.3LJ7K06Q7102.270175x165x17746...10LJ7K09Q7142.270175x165x146Variants (pre-assembled) (4)DescriptionVariants availablefor starterSuffix to be added to the starter reference (6)With Emergency Stop No control pushbuttonsLJ7K06Q705...K09Q714A04With padlocking facility (fitted as standard on LJ7 K09)LJ7K06Q705...K06Q710A29Without circuit breaker (8) (or undervoltage release voltage)LJ7(7)Without circuit breaker (8)With Emergency Stop No control pushbuttonsLJ7K09Q7A04Without circuit breaker (8)Without Emergency Stop (if the emergency stop is on the machine)LJ7K09Q7A39Without circuit breaker (8)Without Emergency Stop No control pushbuttonsLJ7K09Q7A04A39TeSys ControlEnclosed safety starters / DOL / Ready-to-use(1) LJ7K06: the mushroom head type Emergency Stop acts mechanically on the circuit breaker. LJ7K09: the Emergency Stop function is performed by an undervoltage trip GVAX385, acting on the circuit breaker. This circuit breaker is always supplied pre-wired for use on 380/400 V 50 Hz. (2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) In the reference, the voltage code Q7 (380/400 V) indicates the power supply voltage to which the starter will be connected, it being assumed that the contactor has a a 24 V coil (see control circuit scheme).(4) Some combinations of variants / control voltage may not be available. Please consult us.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (6) Example: LJ7K06Q705A04.(7) Delete the last 2 digits of the selected starter reference. Example: LJ7K06Q705 becomes LJ7K06Q7.(8) Circuit breaker to be ordered separately. References GV2ME: see chapter B6 “Circuit breakers”.LJ7K06PB111880.epsDimensions:page A1/54Schemes:page A1/55Product references";i:30;s:3106:"A1/21Enclosed startersTeSys ControlEnclosed safety starters / Reverser / Ready-to-useFor Control + Isolation + Short circuit / Overload ProtectionFor OEM, the enclosed safety motor reverser starters comply with IEC 60204-1 “Safety of machinery” standards. bON/REVERSE/OFF motor starters: 2-way rotation control of 3-phase motor bEmergency stop (1) bElectrical circuit isolation, lockable on LG8K09 and LG8K12 with up to 3 padlocks bShort circuit protection (switching back on power supply after tripping must be a deliberate action) bOverload protection bProtection against voltage drops for LG8K09, LG8K12. For LG8K06, a GVAXpp undervoltage trip may be added. bPossible signaling with GV2SNpp indicator (to be ordered separately).Range: b10 pre-equipped enclosed safety inverter starters from 0.06 to 5.5 kW.Enclosures characteristics: bConforming to IEC 60947-1, IEC 60204-1 (1) bDegree of protection according IEC 60529: IP55, IK07 bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue) 690 V bOperating position: same that as contactors bMaterial: polycarbonate (2) . Included: b2 LC1K prewired contactors b1 GV2ME thermal magnetic circuit breaker with mushroom emergency stop (release on ¼ turn) b1 “Stop” black pushbutton + 1 2-position spring return selector switch “I – II” b1 GVAX undervoltage release module with LG8K09, LG8K12 (to be ordered separately for LG8K06).Reversing starters (with pushbutton control of isolation)Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Circuit breakerDust & damp protected starterWeightOverall dimensions (4)WxHxDSetting range of thermal tripsBasic reference, to be completed by adding the voltage code (3)220/ 230 V 400/ 415 V 440 VkWkWkWAkg–0.060.060.16...0.25LG8K06pp021.640175x165x1770.060.090.120.25...0.40LG8K06pp031.640175x165x177–0.180.180.40...0.63LG8K06pp041.640175x165x1770.120.250.250.63...1LG8K06pp051.640175x165x1770.250.550.551...1.6LG8K06pp061.640175x165x1770.370.751.11.6...2.5LG8K06pp071.640175x165x1770.751.51.52.5...4LG8K06pp081.640175x165x1771.12.234...6.3LG8K06pp101.640175x165x1771.5446...10LG8K09pp141.640175x165x17735.55.59...14LG8K12pp161.640175x165x177Voltage codes (3)Volts a 50/60 Hz220/ 230380/ 400400/ 415M7Q7N7(1) LG8K06: the mushroom head type Emergency Stop acts mechanically on the circuit breaker. LG8K09, LG8K12: the Emergency Stop function is performed by an undervoltage trip, acting on the circuit breaker. This circuit breaker is always supplied pre-wired for use on 380/400/415 V 50 Hz. For a 60 Hz supply, please consult your Regional Sales Office. (2) Avoid allowing the material to come into contact with strong bases (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(4) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light.LG8K06PB111898.epsLG8K09PB111899.epsDimensions:page A1/52Schemes:page A1/53Product references";i:31;s:3592:"A1/22Enclosed startersTeSys ControlEnclosed safety starters / DOL / Ready-to-useFor Control + Isolation + Short circuit /Overload Protection, with isolated 24 V control circuitFor OEM, the enclosed safety motor reverser starters comply with IEC 60204-1 “Safety of machinery” standards. bON/REVERSE/OFF motor starters: 2-way rotation control of 3-phase motor bEmergency stop (1) bElectrical circuit isolation, lockable on LJ8K09 with up to 3 padlocks bShort circuit protection (switching back on power supply after tripping must be a deliberate action) bOverload protection bProtection against voltage drops for LJ8K09. For LJ8K06, a GVAXpp undervoltage trip may be added bPossible signaling with GV2SNpp indicator (to be ordered separately).Range: b9 pre-equipped enclosed safety inverter starters from 0.06 to 4 kW.Enclosures characteristics: bConforming to IEC 60947-1, IEC 60204-1 bDegree of protection according IEC 60529: IP55, IK07 bAmbient air temperature in operation -5 to +40°C bOperational voltage (Ue) 690 V bOperating position: same that as contactors bMaterial: polycarbonate (2).Included: b2 LC1K prewired contactors b1 GV2ME thermal magnetic circuit breaker with mushroom emergency stop (release on ¼ turn) b1 Integral transformer: 400/24 V, 25 VA b1 “Stop” black pushbutton + 1 2-position spring return selector switch “I – II” b1 GVAX undervoltage release module with LJ8K09 (to be ordered separately for LJ8K06). bTerminal allowing the connection of a volt-free contact, if required, in the control circuit.Reversing motor starters with integral transformer, pre-wired for operation on a 3-phase 380 to 400 V 50 Hz supply (with pushbutton control of isolator function)Standard power ratings of 3-phase motors 50 Hz in category AC-3Circuit breakerDust and damp protected starterWeightOverall dimensions (5)WxHxDSetting range of thermal tripsReference (3) (4)380/400 VkWAkg0.060.16...0.25LJ8K06Q7022.650175x165x1770.180.40...0.63LJ8K06Q7042.650175x165x1770.250.63...1LJ8K06Q7052.650175x165x1770.551...1.6LJ8K06Q7062.650175x165x1770.751.6...2.5LJ8K06Q7072.650175x165x1771.52.5...4LJ8K06Q7082.650175x165x1772.24...6.3LJ8K06Q7102.650175x165x17746...10LJ8K09Q7142.650175x165x146Variants (pre-assembled) (4))DescriptionVariants availablefor starterSuffix to be added to the starter referenceWithout circuit breaker (7) (or undervoltage release voltage)LJ8(6) (1) LJ8K06: the mushroom head type Emergency Stop acts mechanically on the circuit breaker. LJ8K09: the Emergency Stop function is performed by an undervoltage trip GVAX385, acting on the circuit breaker. This circuit breaker is always supplied pre-wired for use on 380/400 V 50 Hz. (2) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(3) In the reference, the voltage code Q7 (380/400 V) indicates the power supply voltage to which the starter will be connected, it being assumed that the contactor has a a 24 V coil (see control circuit scheme).(4) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.(5) Dimensions of standard versions, comprising (if any) handle, pushbutton, indicator light. (6) Delete the last 2 digits of the selected starter reference. Example: LJ8K09Q714 becomes LJ8K09Q7. (7) Circuit breaker to be ordered separately. References GV2ME: see chapter B6 “Circuit breakers”.LJ8K06PB111898.epsLJ8K09PB111899.epsDimensions:page A1/54Schemes:page A1/55Product references";i:32;s:1166:"A1/23Enclosed startersTeSys ControlEnclosure for safety starters / DOL / to be completed with ref. GV2ME, GVAXGV2MCK04 enclosure is fitted with a mushroom pushbutton.It allows, with addition of a circuit breaker and undervoltage trip, the construction of a safety direct-on-line starter conforming INRS and VDE0113. Enclosures characteristics: bConforming to IEC 60947-2; IEC 60947-4-1 bDegree of protection according IEC 60529: refer to selection chart bOperational voltage (Ue) 690 V bMaterial : polycarbonate (1).EnclosureEnclosure for thermal-magnetic circuit breakers GV2ME TypeDegree of protectionPossible no. of side mounting auxiliary contact blocks on GV2MEReferenceWeightOverall dimensions WxHxDLH sideRH sidekgSurface mounting, double insulated with protective conductor. Sealable coverIP5511GV2MCK040.42093x147x145.5GV2ME circuit beaker, GVAX undervoltage trip Product references: page A1/32.(1) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons). GV2MCK04PB112215.epsGVAXpppPB121677.epsGV2MEppPB121673.tif++Dimensions:page A1/44Schemes:page A1/45Product references";i:33;s:22:"A1/24Enclosed starters";i:34;s:93:"A1/25Enclosed startersTeSys ControlEnclosures, components, for customer assembliesSpare parts";i:35;s:1410:"A1/26Enclosed startersTeSys ControlEnclosures / To be completed with switch bodiesDimensions:page A1/38Schemes:page A1/39Empty enclosures with rotary handleIP65 enclosure with red padlockable handle operator and yellow front plate (for mounting a main or Emergency Stop switch-disconnector)ltheFor switch bodyNb. of possible add. module attachments Reference (1) Weight AAkg10...32VN12, VN20 V02...V2 2VCFXGE10.34010...32V02...V2 4VCFXGE40.66050...63V3 - V4 3VCFXGE20.660100.... 140V5 - V6 1VCFXGE61.04IP65 enclosure with black padlockable handle and black front plate (for mounting a main switch-disconnector)10...32VN12, VN20 V02...V2 2VBFXGE10.34010...32V02...V2 4VBFXGE40.66050...63V3-V4 3VBFXGE20.660100.... 140V5 - V6 1VBFXGE61.04Switch bodies to fit VCFX, VBFX enclosures (2)Standard applicationsDescriptionRatingReferenceWeight Akg3-pole switch-disconnectors10 VN120.11016 VN200.110High performance applicationsDescriptionRatingReferenceWeight Akg3-pole switch-disconnectors10 V020.20016 V010.20020 V00.20025 V10.20032 V20.20050 V30.50080 V40.500125V50.900175V60.900(1) Enclosure not suitable in atmosphere contaminated with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(2) For characteristics of switch-disconnectors, please consult your Regional Sales Office.VCFXGE4PB121229.epsVBFXGE2PB121230.epsV0PB121728.epsV4PB121232.epsProduct references";i:36;s:2565:"A1/27Enclosed startersTeSys ControlEnclosures for DOL starters / To be completed with ref. GV2ME, LC1KDimensions:page A1/51Schemes:page A1/51Empty enclosures with sealing deviceCompositionReferenceInsulating enclosure with GV2E01 sealing deviceLE1GVMEKInsulating enclosure with GV2E01 sealing device, neutral terminalLE1GVMEKA59Direct-on-line starters characteristics (based on LE1GVMEK enclosure + GV2ME circuit breaker + LC1K contactor assemblies)Functions / range / specificities: bCircuit Isolation bProtection against short circuit bMotor protection: motor OFF in case of overload – manual reset with the black pushbutton. bON/OFF motor control bFunctions can be completed with optional components: remote control, signaling. Enclosures characteristics: bConforming to IEC 60947-4-1 standard bDegree of protection IP55 , according IEC 60529 bAmbient air temperature in operation -5 to +40°C bOperating position: same as K series contactors bMaterial: polycarbonate (1). b6 ratings of direct-on-line starters from 0.37 to 5.5 kW (400 V AC) can be realized, based the combinations of circuit breaker + contactor to be ordered separately: vGV2ME thermal magnetic circuit breaker, of the required rating (see below) vLC1K contactor, of the required rating (see below) voptional accessories (indicating light, On pushbutton, sealing kit...). Circuit breakers + contactors - Type 1 coordination (2)Standard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic current 13 IrthFor customer assembly400/ 415 V440 V500 VMotor circuit breaker ReferenceContactor Reference to be completed with the coil voltage code (3)kWkWkWAA0.37 0.55 -0.37 0.55 -0.37 0.55 0.751...1.622.5GV2ME06LC1K0610pp0.75 -0.75 1.1- 1.11.6...2.533.5GV2ME07LC1K0610pp1.1 1.5- 1.51.5 2.22.5...451GV2ME08LC1K0610pp2.2 -2.2 3- 34...6.378GV2ME10LC1K0610pp3 4- 44 5.56...10138GV2ME14LC1K0910pp5.55.57.59...14170GV2ME16LC1K1210ppCoil voltage codesVolts24110220/230230230/240380/400a 50/60 HzB7F7M7P7U7Q7c BW3-----BW3 coil: low consumption (1.5 W), wide range (0.7...1.3 Uc) with integral suppression device as standard.(1) Avoid placing this material in contact with harsh substances (detergents, chlorine solvents, ketones, alcohol, aromatic hydrocarbons).(2) Extract from Coordination tables see chapter A6.(3) Please check the availability of your variant in the index page A1/34. The SEARCH function of your viewer can be used.LE1GVMEK, LE1GVMEKA59PB112286.epsGV2MEppPB121673.tifLC1K0610ppPB123778.epsProduct references";i:37;s:659:"A1/28Enclosed startersEmpty enclosures for starters without isolating deviceHead(s) mounted on coverDesigned for use withReferenceWithoutLE1D09 and D12DE1DS1A04LE1D18...D35DE1DS2A04LE2D09...D35DE1DS2A041 flush blue head “R”LE1D09 and D12DE1DS1A05LE1D18...D35DE1DS2A05LE2D09...D35DE1DS2A051 flush green head “I” 1 projecting red head “O”LE1D09 and D12DE1DS1LE1D18...D35DE1DS21 flush blue head “R” 1 switch with 2 fixed positionsLE1D09 and D12DE1DS1A13LE1D18...D35DE1DS2A13DE1DS1A04PB112264.epsDE1DS1A05PB112269.epsDE1DS1PB112259.epsDE1DS1A13PB112275.epsTeSys ControlEmpty enclosures for standard startersDimensions:page A1/46Product references";i:38;s:466:"A1/29Enclosed startersTeSys ControlEmpty enclosures for safety startersEmpty enclosures for security startersDesigned for use withHead(s) mounted on coverAdd-on blocksReferenceLG7WithoutDE1KS217A041 flush white head “I” 1 projecting black head “O”DE1KS217A061 flush white head “I” 1 projecting black head “O”1 head emergency stopPadlocking devicesDE1KS217A06A37DE1KS217A06A37PB111886.epsDE1KS217A06PB111891.epsDimensions:page A1/52Product references";i:39;s:1569:"A1/30Enclosed startersAccessoriesDescriptionSold in lots ofUnit referenceWeightkgPadlocking device (6) for GV2ME operator (padlocking is only possible in the “O” position)1 to 3 padlocks Ø 4 to 8 mm1GV2V010.075Mushroom head pushbutton Ø 40 mm, red, IP55Spring return (2)1GV2K0110.052Emergency stopLatching (2) Key release, key n° 4551GV2K0210.160Turn to release1GV2K0310.115Turn to release, padlockable1GV2K04 (1)0.120Sealing kitFor enclosures and front plateIP 55 for temperature between+5 °C and +40 °C10GV2E010.012IP 55 for temperature between-20 °C and +40 °C10GV2E020.012Linergy passthrough neutral terminal block – 6 mm² 41 A single-level 1x1 screw50NSYTRV62BL0.015End cover for Linergy screw single-level terminal block50NSYTRAC22BL0.003(1) Circuit breaker to be ordered separatly. Commercial references of GV2ME01 to M22: see chapter B6 “Circuit breakers”.(2) Supplied with IP55 GV2E01 sealing kit. To be fitted with enclosure GV2Mp01.(3) Padlockable in “O” position using Ø 4 to 8 mm shank padlocks.Separate front plate for GV2ME Provides a sealing cover to GV2ME circuit breaker, on any kind of front panel.Front plateDescriptionReferenceWeightkgFor direct control, through a panel, of a chassis mounted GV2MEIP55GV2CP210.800TeSys ControlTeSys Control accessories for standard and safety startersGV2V01PB111915.epsGV2K021PG113130.epsNSYTRV62BLPB502236.epsGV2CP21PB112218.epsGV2K04PB112393.epsGV2E01 – GV2E02PB121228.epsGV2K011PB112390.epsGV2K0318274.epsNSYTRAC22BLPB502246.epsProduct references";i:40;s:1365:"A1/31Enclosed startersTeSys ControlTeSys Control accessories for standard and safety startersHeads for Start and Stop/Reset pushbuttonsDescriptionFor use onUnit referenceFlush, green “I” (1)LE1, LE3, LE4, LE6 D09...D35ZB5AA331Projecting, red “O” (1)LEpD09...D35ZB5AL432Adaptation kit for head ZB5AL432LE1D09 and D12LAD9091LE1D18...D35,LE2D09...D35LAD91810LE3, LE4, LE6 and LE8 D09...D35LAD9T4Heads for Reset pushbuttonsFlush, blue “R” (2)LEpD09...D35 + ZB5AA0ZBA639 (3)Adaptation kit for head ZB5AA0 + ZBA639LE1D09 and D12LAD9092LE1D18...D35, LE2D09...D35LAD91810LE3, LE6, LE4 and LE8D09...D35LAD9T4Heads for selector switches3-position stay putLE1D09...D35ppA09ZB5AD32-position stay putLE1D09...D35ppA13ZB5AD23-position spring return to centreLE2D09...D35 LE8D09...D35ZB5AD5Contact blocks1 N/O spring returnLEpD09...D35ZENL11111 N/C spring returnLEpD09...D35ZENL1121Mounting for contact blockLE1D09 and D12LAD90909LE1D18...D35,LE2, LE3, LE4, LE6 and LE8D09...D35LAD91809(1) Remember to order adaptation kit LAD9091 or LAD91810 or LAD9T4, depending on size.(2) Remember to order adaptation kit LAD9092 or LAD91810 or LAD9T4, depending on size.(3) Sold in lots of 10.ZB5AA331PB121233.epsZB5AL432PB121234.epsLAD9091DB403452.epsZB5ADpPF141168.epsZENL1111PB121236.epsLAD90909DB403455.epsPB121237.epsPB121235.epsProduct references";i:41;s:1855:"A1/32Enclosed startersTeSys ControlDeca circuit breakers ref. GV2ME, undervoltage tripsThermal magnetic circuit breakers, with screw clamp terminals GV2ME with pushbutton controlStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips (2)Magnetic tripping current Id ± 20 %Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkA%kWkA%kWkA%AA–––––– –––0.1...0.161.5GV2ME010.06gg––– –––0.16...0.252.4GV2ME020.09gg––– –––0.25...0.405GV2ME030.12 0.18ggg g– –– –– – 0.37 –g –g –0.40...0.638GV2ME040.25gg––– 0.55gg0.63...113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g gg g g – 0.75 1.1– g g– g g1...1.622.5GV2ME060.75gg1.1gg 1.53751.6...2.533.5GV2ME071.1 1.5g gg g1.5 2.2g gg g 2.2 33 375 752.5...451GV2ME082.2gg350100 43754...6.378GV2ME103 4g gg g4 5.510 10100 100 5.5 7.53 375 756...10138GV2ME145.5 –15 –50 –7.5 –6 –75 – 9 113 375 759...14170GV2ME167.515509675 1537513...18223GV2ME209154011475 18.537517...23327GV2ME2111154015475 –––20...25327GV2ME22 (3)GV2ME technical characteristics: see in chapter B6.Undervoltage trip, INRS (can only be mounted on GV2ME) Safety device for dangerous machines conforming to INRS and VDE0113Side (1 block on RH side of circuit breaker GV2 ME)110...115 V50 HzGVAX11560 HzGVAX116127 V60 HzGVAX115220...240 V50 HzGVAX22560 HzGVAX226380...400 V50 HzGVAX38560 HzGVAX386415...440 V50 HzGVAX415440 V60 HzGVAX385GVAX technical characteristics: see in chapter B6.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2MC or MP, please consult your Regional Sales Office. g > 100 kA. GV2MEppPB121673.tifGVAXpppPB121677.epsProduct references";i:42;s:1510:"A1/33Enclosed startersTeSys ControlLR2K, Deca thermal overload relaysThermal overload relays - selection tableLR2K thermal overload relays can be mounted on all 3P LC1K contactors with screw clamp connectors.Class 10 A (the standard specifies a tripping time of between 2 and 10 seconds at 7.2 In)Relay setting rangeFuses to be used with selected relayMaximum ratingTypeReferenceaMgGBS88AAAA0.11...0.160.250.5–LR2K03010.16...0.230.250.5–LR2K03020.23...0.360.51–LR2K03030.36...0.5411.6–LR2K03040.54...0.812–LR2K03050.8...1.2246LR2K03061.2...1.8266LR2K03071.8...2.64810LR2K03082.6...3.741016LR2K03103.7...5.561616LR2K03125.5...882020LR2K03148...11.5102520LR2K031610...14163225LR2K032112...16204032LR2K0322LRD thermal overload relays can only be mounted on LC1D contactors of same size ratio and with screw clamp connectors.Relay setting range (A)Fuses to be used with selected relayFor use with contactor LC1ReferenceaM (A)gG (A)BS88 (A)Class 10 A (1) for connection by screw clamp terminals or connectors0.10...0.160.252–D09...D38LRD010.16...0.250.52–D09...D38LRD020.25...0.4012–D09...D38LRD030.40...0.6312–D09...D38LRD040.63...124–D09...D38LRD051...1.6246D09...D38LRD061.6...2.54610D09...D38LRD072.5...461016D09...D38LRD084...681616D09...D38LRD105.5...8122020D09...D38LRD127...10122020D09...D38LRD149...13162525D12...D38LRD1612...18203532D18...D38LRD2116...24255050D25...D38LRD2223...32406363D25...D38LRD3230...38408080D32 and D38LRD35PB123794.tifLR2KppLRDppPB121670.tifProduct references";i:43;s:2846:"A1/34Enclosed startersTeSys ControlEnclosed switch-disconnectors and motor starters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roduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:44;s:3064:"A1/35Enclosed startersTeSys ControlEnclosed switch-disconnectors and motor startersProduct referencesLE2D18P7LE2D18V7LE2D25M7LE2D25N7LE2D25P7LE2D25V7LE2D35P7LE2D35V7LE2D40AP7LE2D40AQ7LE2D65AQ7LE2K064N7LE2K065M7LE2K065P7LE2K065Q7LE2K065U7LE2K065V7LE2K095U7LE2K095V7LE3D09B7LE3D09N7LE3D09P7LE3D09P7A04LE3D09Q7LE3D09V7LE3D09V7A04LE3D12B7LE3D12M7LE3D12N7LE3D12P7LE3D12P7A04LE3D12Q7LE3D12U7LE3D12V7LE3D18B7LE3D18M7LE3D18N7LE3D18P7LE3D18P7A04LE3D18Q7LE3D18U7LE3D18V7LE3D35M7LE3D35N7LE3D35P7LE3D35Q7LE3D35U7LE3D35V7LE4D09B7LE4D09M7LE4D09P7LE4D09P7A04LE4D09P7A05LE4D09Q7LE4D09R7LE4D09U7A05LE4D09V7LE4D09V7A04LE4D12B7LE4D12E7LE4D12F7LE4D12M7LE4D12N7LE4D12P7LE4D12P7A04LE4D12P7A05LE4D12Q7LE4D12V7LE4D12V7A04LE4D12V7A05LE4D18B7LE4D18F7LE4D18M7LE4D18N7LE4D18P7LE4D18Q7LE4D18U7LE4D18V7LE4D18V7A05LE4D25B7LE4D25F7LE4D25M7LE4D25N7LE4D25P7LE4D25P7A05LE4D25Q7LE4D25V7LE4D35B7LE4D35M7LE4D35N7LE4D35P7LE4D35U7LE4D35V7LE4K065P7LE4K065V7LE6D09B7LE6D12B7LE6D12P7LE6D12V7LE6D18B7LE6D18P7LE6D18V7LE8D09V7LE8D12P7LE8D12Q7LE8D12V7LE8D18V7LE8D25V7LE8D35V7LE8K065P7LG1D122M716LG1D122P716LG1D122Q7LG1D122Q716LG1D182M720LG1D182M721LG1D182N720LG1D182Q7LG1D182Q720LG1K065M703LG1K065M705LG1K065M705A37LG1K065M706LG1K065M707LG1K065M707A37LG1K065M708LG1K065M710LG1K065M710A37LG1K065N705LG1K065N706LG1K065N708LG1K065N710LG1K065P703LG1K065P707LG1K065P708LG1K065P710LG1K065Q7LG1K065Q702LG1K065Q703LG1K065Q704LG1K065Q705LG1K065Q706LG1K065Q706A37LG1K065Q707LG1K065Q707A37LG1K065Q708LG1K065Q708A37LG1K065Q710LG1K065Q710A37LG1K065V702LG1K065V704LG1K065V706LG1K065V710LG1K095M7LG1K095M714LG1K095M714A37LG1K095N714LG1K095P714LG1K095Q7LG1K095Q714LG1K095Q714A37LG7D12B716LG7D12M7LG7D12M716LG7D12N716LG7D12P716LG7D12Q716LG7D12V716LG7D18B720LG7D18B721LG7D18M7LG7D18M720LG7D18M721LG7D18P720LG7D18Q7LG7D18Q720LG7D18Q721LG7D18V720LG7K06B703LG7K06B704LG7K06B706LG7K06B707LG7K06B710LG7K06B710A04LG7K06M7LG7K06M702LG7K06M703LG7K06M704LG7K06M705LG7K06M705A04LG7K06M705A29LG7K06M706LG7K06M707LG7K06M707A04LG7K06M707A39LG7K06M708LG7K06M708A04LG7K06M708A29LG7K06M710LG7K06M710A04LG7K06M710A29LG7K06N704LG7K06N705LG7K06N706LG7K06N707LG7K06N710LG7K06P704LG7K06P708LG7K06P710LG7K06Q7LG7K06Q702LG7K06Q704LG7K06Q705LG7K06Q706LG7K06Q706A29LG7K06Q707LG7K06Q707A29LG7K06Q708LG7K06Q708A29LG7K06Q710LG7K06Q710A29LG7K06V707LG7K06V708LG7K06V710LG7K09M7LG7K09M714LG7K09M714A04LG7K09N714LG7K09P714LG7K09Q714LG7K09V714LG8K06B707LG8K06M7LG8K06M702LG8K06M704LG8K06M705LG8K06M706LG8K06M707LG8K06M710LG8K06N705LG8K06N706LG8K06N707LG8K06Q7LG8K06Q702LG8K06Q703LG8K06Q704LG8K06Q705LG8K06Q706LG8K06Q707LG8K06Q707A14LG8K06Q708LG8K06Q708A39LG8K06Q710LG8K09M7LG8K09M714LG8K09N714LG8K09Q714LG8K12Q716LJ7K06Q7LJ7K06Q702LJ7K06Q703LJ7K06Q705LJ7K06Q705A04LJ7K06Q705A29LJ7K06Q706LJ7K06Q706A04LJ7K06Q707LJ7K06Q707A04LJ7K06Q707A29LJ7K06Q708LJ7K06Q708A04LJ7K06Q708A29LJ7K06Q710LJ7K06Q710A04LJ7K09Q7LJ7K09Q714This document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:45;s:1514:"A1/36Enclosed startersTeSys ControlEnclosed switch-disconnectors and motor startersProduct referencesLJ7K09Q714A04LJ7K09Q7A04A39LJ8K06Q702LJ8K06Q704LJ8K06Q705LJ8K06Q706LJ8K06Q707LJ8K06Q707A04LJ8K06Q708LJ8K06Q710LJ8K09Q7LJ8K09Q714LR2K0301LR2K0302LR2K0303LR2K0304LR2K0305LR2K0306LR2K0307LR2K0308LR2K0310LR2K0312LR2K0314LR2K0316LR2K0321LR2K0322LRD01LRD02LRD03LRD04LRD05LRD06LRD07LRD08LRD10LRD12LRD14LRD16LRD21LRD22LRD32LRD35NSYTRAC22BLNSYTRV62BLV0V01V02V1V2V3V4V5V6VBD0VBD01VBD02VBD1VBD2VBDN12VBDN20VBF0VBF01VBF01GEVBF02VBF02GEVBF0GEVBF1VBF1GEVBF2VBF2GEVBF3VBF3GEVBF4VBF4GEVBF5VBF5GENVBF6VBF6GENVBFXGE1VBFXGE2VBFXGE4VBFXGE6VC1GUNVC2GUNVC3GUNVC4GUNVC5GUNVC6GUNVCCD0VCCD01VCCD02VCCD1VCCD2VCCDN12VCCDN20VCCF0VCCF01VCCF02VCCF1VCCF2VCCF3VCCF4VCCF5VCCF6VCD0VCD01VCD02VCD1VCD2VCDN12VCDN20VCF0VCF01VCF01GEVCF01GEGPVCF02VCF02GEVCF02GEGPVCF0GEVCF0GEGPVCF1VCF1GEVCF1GEGPVCF1YZVCF2VCF2GEVCF3VCF3GEVCF4VCF4GEVCF5VCF5GENVCF6VCF6GENVCFN12GEVCFN20GEVCFN25GEVCFN32GEVCFN40GEVCFXGE1VCFXGE2VCFXGE4VCFXGE6VGP1VGPCLIP1VN12VN20VVD0VVD1VVD2VVD3VVD4VVE0VVE1VVE2VVE3VVE4VZ0VZ01VZ02VZ1VZ10VZ11VZ12VZ13VZ14VZ15VZ16VZ17VZ17L127VZ17L69VZ18VZ2VZ20VZ26VZ27VZ28VZ29VZ3VZ30VZ31VZ4VZ45VZ7VZ8VZ9VZN05VZN06VZN08VZN11VZN12VZN14VZN17VZN19VZN20VZN26VZN30Z01ZB5AA331ZB5AD2ZB5AD3ZB5AD5ZB5AL432ZENL1111ZENL1121This document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:46;s:401:"A1/37Enclosed startersTechnical Data for DesignersEnclosed startersContentsSwitch-disconnectors ..........................A1/38 to A1/40Direct-on-line starters ...............A1/41, A1/43 to A1/49 .....................................................................and A1/51Star-delta starters .............................A1/42 and A1/50Starters for safety applications ............A1/52 to A1/55";i:47;s:727:"A1/38Enclosed startersDimensionsVCFN12GE to VCFN40GE82,510613190==812822.epsCable glands: 2x ISO 20 top and bottom, 2x ISO 16 rear. VCF or VBF02GE to 4GE, VCFppGEGP and VCFpGEGP,VCFX or VBFXGE1 to GE4cc1ba==H812821.epsabcc1HVpF02GE to VpF2GE, VpFXGE1 VCFppGEGP and VCFpGEGP (1)9014685131130VpF3GE and VpF4GE (2)157180107152164VpFXGE2 and VpFXGE4 (2)157 180107152164(1) Cable glands: 2x ISO 16 rear, 4x ISO 20/25 top and bottom.(2) Cable glands: 4x ISO 25/32 rear, 4x ISO 25/32 top and bottom.VCF or VBF5GEN and 6GEN218,5241268,5= = 291128190,54xØ4,2DF569395.epsTeSys ControlEnclosed switch-disconnectorsDimensionsReferences:pages A1/3 and A1/26Schemes:page A1/39Ref.";i:48;s:374:"A1/39Enclosed startersSchemesSwitch-disconnectorsEnclosed or switch bodiesMain pole moduleNeutral pole module1/L12/T13/L24/T25/L36/T3812826.eps812827.eps812828.epsAuxiliary contact blocksVZ7VZ20VZN05VZN0622211314812829.eps13142423812830.eps1314812831.eps2221812832.epsTeSys ControlEnclosed switch-disconnectorsReferences:pages A1/3 and A1/26Dimensions: page A1/38SchemesRef.";i:49;s:597:"A1/40Enclosed startersTeSys ControlEnclosed switch-disconnectors / UL - CSADimensionsVC1GUN and VC2GUNFixing (rear view)12187132,1164981414xØ4,2DF569403.epsVC3GUN and VC4GUNFixing (rear view)87132,11641931411704xØ4,2DF569404.epsVC5GUN and VC6GUNFixing (rear view)128190,5218,5241268,52914xØ4,2DF569405.epsSchemesSwitch-disconnectorsEnclosed switch-disconnectors or switch bodiesMain pole moduleNeutral pole module1/L12/T13/L24/T25/L36/T3DF569406.epsDF569407.epsDF569408.epsAuxiliary contact block modulesVZ7VZ2022211314DF569409.eps13142423DF569410.epsReferences:page A1/4Dimensions, schemesRef.";i:50;s:981:"A1/41Enclosed startersTeSys ControlEnclosed standard starters / DOLDimensionsLE1M35 (1)108DF533790.eps78160DF533791.eps130 (5"1/8)DF533792.epsKnock-outs or blanking plugs for cable glandsEnclosure typeAt topAt bottomPGISOPGISOLE1 M2 x 13 to 2 x 212 x 20 or 2 x 252 x 13 to 2 x 212 x 20 or 2 x 25(1) Can be mounted on machine panel or frame. Knock-outs for 4 x 13 P cable glands. SchemesLE1M35Choice of type of control built into the productIO/R1234561314A1A2246L1L2L3Reset/ORT1T2T3DF533793.epsUWV2461/L13/L25/L3M– KM1DF533794.epsControl by latching pushbuttonsControl by spring return pushbuttonsIABO9596– KM1– H1A2A11413KM1DF533795.epsIAB1413O/R9596– KM1– H1A2A1– KM1DF533796.eps ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral380 V, 400 V, 415 V, 440 VL3L1Other voltagesFor customer assemblyOther voltagesAll voltages (440 V max)For customer assemblyReferences: page A1/7Dimensions, schemesRef.";i:51;s:954:"A1/42Enclosed startersDimensionsLE6D09...D18c1348330===18631=DF533835.epsc1Standard version175.5Variant A04167Variant A05175.5Knock-outs or blanking plugs for cable glandsType of enclosureAt topAt bottomPGISOPGISOLE6D09...D18 –2 x 20 or 2 x 25 or 2 x 32 or 2 x 40–2 x 20 or 2 x 25 or 2 x 32 or 2 x 40 SchemesLE6D09...D18– KM2123456– KM3123456– KM1123456U1V1W1U2V2W2135246– Q11/L123/L245/L36U1V1W1U2V2W2246Recommended cabling for reversal of motor rotation (standard motor, viewed from shaft end)DF533838.epsA1A2– KM1– KM3– KM2– KM1l– KM2A1A2– KM3– KM1A1A2– KM2– KM2BOAQ1Q1DF533839.epsConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral terminal380 V, 400 V, 415 V, 440 VL3L1Other voltagesTerminal 1Terminal 2Other voltagesAll voltages (600 V max)For customer assemblyTeSys ControlEnclosed standard starters / Star-delta References: page A1/16Dimensions, schemesRef.";i:52;s:678:"A1/43Enclosed startersDimensionsGV2PCpp166 88120 432 x Ø 5,3(1)DB403024R.eps(1) Top face: 2 knock-outs for ISO20 cable glands. Bottom face: 2 knock-outs for ISO20 cable glands.GV3PCpp 152 48 155 200 300 255 4 x Ø 10,3(1)DB403023.eps(1) Top face: 1 blanking plug for ISO32 cable gland. Bottom face: 2 blanking plugs for ISO32 cable gland + 1 blanking plug for ISO20 cable gland.SchemesGV2LGV2P2/T14/T26/T31/L13/L25/L3DF533746.eps2/T14/T26/T31/L13/L25/L3812203R.epsGV3LGV3P2/T14/T26/T31/L13/L25/L3DF533746.eps2/T14/T26/T31/L13/L25/L3812203R.epsTeSys ControlEnclosed standard starters / DOLReferences:pages A1/9 to A1/10Dimensions, schemesRef.";i:53;s:853:"A1/44Enclosed startersTeSys ControlEnclosed standard starters / DOLDimensionsSurface mounting enclosure GV2MC0p14784(1)93=130===DF523443.eps(1) Top face: 2 knock-outs for ISO20/25 cable glands or Pg16 or 16mm conduits. Bottom face: 2 knock-outs for ISO20/25 cable glands or Pg16 or 16mm conduits.Surface mounting enclosure GV2MCK0414784145,5(1)=130===93DF523444.eps(1) Top face: 2 knock-outs for ISO20/25 cable glands or Pg16 or 16mm conduits. Bottom face: 2 knock-outs for ISO20/25 cable glands or Pg16 or 16mm conduits.MountingFlush mounting enclosures GV2MP0p (panel cut-out)GV2MP0pGV2MP01, MP02GV2MP03, MP04Front plate GV2CP211...6a12140=127==93,5=106,571936,511713371==9,5DF523445.eps1...41276937,511821133==6211,5812202.epsGV2aMP01, MP02–MP03, MP0486References:pages A1/11 and A1/23Schemes: page A1/45Dimensions, mountingRef.";i:54;s:871:"A1/45Enclosed startersTeSys ControlCircuit breaker and auxiliaries / accessoriesSchemesGV2MEpp2/T14/T26/T31/L13/L25/L3812203.epsInstantaneous auxiliary contactsGVAE1 13141211or812204.epsGVAE11 13142221812205.epsGVAE20 13142324812206.epsInstantaneous auxiliary contacts and fault signalling contactsGVAD0110 GVAD0101 GVAD1010 GVAD1001 53549695812209.eps52519695812208.eps97985354812207.eps97985152812210.epsInstantaneous auxiliary contactsShort-circuit signalling contactsGVAN11GVAN20GVAM11(62)32(61)3143(73)44(74)812211.eps(64)34(63)3343(73)44(74)812212.eps050608812213.epsUndervoltage tripsGVAUpppGVASpppGVAXpppD1D2812214.epsC1C2812215.epsD1D2E1E2812216.epsWiring diagram for undervoltage trip used on potentially dangerous machines, conforming to INRS2/T14/T26/T31/L13/L25/L3D1D2E2E110 AgG maxi812217.epsReferences:pages A1/11 and A1/23Dimensions: page A1/44SchemesRef.";i:55;s:941:"A1/46Enclosed startersTeSys ControlEnclosed standard starters / DOL, Reverser DimensionsLE1D09 and D12LE1D09ppT LE1D18...D35 and LE2D09...D35LE1D40A...D65A LE2D40A...D65Ac1166150===88=DF533754.epsc1183==101201DF533755.eps 255 155 200c1 300 6 6=4xØ10,3=DB403018.epsc1c1c1LE1DLE2DLE1DLE2DStandard version128.5Standard version153.5160Standard version158.5174Variant A04120Variant A04145145Variant A04150150Variant A05128.5Variant A05153.5153.5Variant A05158.5158.5Variant A09120Variant A09160–Variant A13120Variant A13160–LE2K06 and K091461208417515016519DF533757.epsKnock-outs or blanking plugs for cable glandsType of enclosureAt topAt bottomPGISOPGISOLE1D09 and D12–2 x 20–2 x 20LE1D18...D35 and LE2D09...D35–2 x 20 or 2 x 25–2 x 20 or 2 x 25LE1 and LE2D40A...D65A–1 x 32–1 x 20 and 2 x 32LE2K06 and K092 x 13 and 2 x 164 x 202 x 13 and 2 x 164 x 20References:pages A1/8, A1/13 and A1/28Schemes:page A1/47DimensionsRef.";i:56;s:1173:"A1/47Enclosed startersTeSys ControlEnclosed standard starters / DOL, Reverser SchemesLE1D09...D65ALE1D09...D65ALE1D09...D65A with variant A04 or A05L1L2– KM1UVWL3DF533760.epsBAA1A2– KM1– KM1OIDF533761.eps13142122AOl– KM1BA1A2– KM1Remote controlDF533762.epsLE2K06, K09LE2K06, K09– KM1– KM2L1L2L3UVWDF533763.eps– KM2A B– KM1– KM2– KM1– KM2– KM1A1A2A1A2ODF533764.epsLE2D09...D65ALE2D09...D65ALE2D40A...D65A with variants A04 or A05– KM1– KM2L1L2L3UVWDF533766.epsA1A2– KM1– KM2– KM2AA1A2– KM2– KM1B– KM1– S1IIIDF533767.eps– KM2A1A2– KM12122– KM2AOA1A2– KM2– KM1BRl l– KM1Remote controlDF533768.epsLE1D09...D65A, LE2D09...D65A ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral terminal380 V, 400 V, 415 V, 440 VL3L1Other voltagesTerminal 1Terminal 2Other voltagesOther voltages (600 V max)For customer assemblyLE2K06, K09 ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V220 V, 230 V, 240 VL3Neutral380 V, 400 V, 415 VL3L1Other voltagesOther voltages (440 V max)For customer assemblyReferences:pages A1/8 and A1/13Dimensions:page A1/46SchemesRef.";i:57;s:668:"A1/48Enclosed startersTeSys ControlEnclosed standard starters / DOL, reverserDimensionsLE4K06 and K09, LE8K06 and K09LE4D09...D35, LE8D09...D35c12084175150165(1)1201931DF510938.epsc1348330===18631=DF533774.epsc1c1LE4KLE8KLE4DLE8DStandard version146146Standard version175.5182Variant A05–139Variant A04167167(1) For LE8 only.Variant A05175.5175.5Knock-outs or blanking plugs for cable glandsType of enclosureAt topAt bottomPGISOPGISOLE4 and LE8D09...D35 –2 x 20 or 2 x 25 or 2 x 32 or 2 x 40–2 x 20 or 2 x 25 or 2 x 32 or 2 x 40LE4 and LE8K06 and K092 x 13 and 2 x 164 x 202 x 13 and 2 x 164 x 20References:pages A1/12 and A1/14Schemes:page A1/49DimensionsRef.";i:58;s:1378:"A1/49Enclosed startersTeSys ControlEnclosed standard starters / DOL, ReverserSchemesLE4K06, K09 LE4D09...D35LE4K06, K09LE4D09...D35LE4D09...D35 with variant A04 or A05– Q1– KM1L1L2L3UWVDF533777.eps– KM1– Q1OI– KM1A1A2ABDF533778R.epsBAA1A2– KM1– KM11817Q1Q1OIDF533779.eps13142122Ol– KM1A2A1– KM1Q1– F1BARemote controlDF533781.epsLE8K06, K09 LE8D09...D35LE8K06, K09LE8D09...D35– Q1– KM1– KM2L1L2L3UVWDF533782.eps– KM2– KM1– KM2– KM2– KM1A1A2– Q1– KM1A1A2ABODF510940.epsA1A2– KM1– KM2– KM2A1A2– KM2– KM1– KM1Q1Q1AB– S1IIIODB425052.epsLE4D09 and D12, LE8D09 and D12 ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral380 V, 400 V, 415 V, 440 VL3L1Other voltagesTerminal 1Terminal 2Other voltagesOther voltages (600 V max)For customer assemblyLE4D18...D35, LE8D18...D35 ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral terminal380 V, 400 V, 415 V, 440 VL3L1Other voltagesTerminal 1Terminal 2Other voltagesOther voltages (600 V max)For customer assemblyLE4K06, K09, LE8K06, K09 ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V220 V, 230 V, 240 VL3Neutral380 V, 400 V, 415 VL3L1Other voltagesOther voltages (440 V max)For customer assemblyReferences:pages A1/12 and A1/14Dimensions:page A1/48SchemesRef.";i:59;s:1065:"A1/50Enclosed startersDimensionsLE3D09...D35c1348330===186=DF533808.epsc1Standard version175.5Variant A04167Variant A05175.5Knock-outs or blanking plugs for cable glandsType of enclosureAt topAt bottomPGISOPGISOLE3D09...D35 –2 x 20 or 2 x 25 or 2 x 32 or 2 x 40–2 x 20 or 2 x 25 or 2 x 32 or 2 x 40 SchemesLE3D09...D35LE3D09...D35– KM2– KM3– KM1U1V1W1U2V2W2L1L2L3U1V1W1U2V2W2Recommended cabling for reversal of motor rotation (standard motor, viewed from shaft end).DF533813.epsA1A2– KM1– KM3– KM2– KM1– KM2A1A2– KM3– KM1A1A2– KM2– KM2BAOIYLDF533814.epsNote: in accordance with current installation regulations, short-circuit protection must be provided by fuses or a circuit breaker. ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral terminal380 V, 400 V, 415 V, 440 VL3L1Other voltagesTerminal 1Terminal 2Other voltagesAll voltages (600 V max)For customer assemblyTeSys ControlEnclosed standard starters / Star-deltaReferences: page A1/15 Dimensions, schemesRef.";i:60;s:616:"A1/51Enclosed startersTeSys ControlEnclosures for DOL startersDimensionsLE1GVMEK8694183201DF533800.eps==101DF533801.epsKnock-outs or blanking plugs for cable glandsEnclosure typeAt topAt bottomISOISOLE1GV2 x 20 or 2 x 25 2 x 20 or 2 x 25 SchemesLE1GVMEKL1L2L3– KM1– Q1DF533802.epsA1A2OI– KM1– KM1– Q1ABExternal controlDF533803.eps ConnectionsPower voltageControl circuit voltageAB380 V, 400 V, 415 V, 440 V220 V, 230 V, 240 VL3Neutral380 V, 400 V, 415 V, 440 VL3L1Other voltagesFor customer assemblyOther voltagesAll voltages (440 V max)For customer assemblyReferences: page A1/27Dimensions, schemesRef.";i:61;s:650:"A1/52Enclosed startersTeSys ControlEnclosed safety starters / DOLDimensionsLG1K06, K09 LG1D12, D18LG7K06, K09, LG7D12, D18 LG8K06, K09, K1212016584175150165DF533971R.eps146 (2)120177 (1)84175150165(1)(2)(3)DF533972.eps(1) Emergency Stop for starters LGpK06.(2) Emergency Stop for starters LGpK09, K12, D12 et D18.(3) Only for LG7. Knock-outs or blanking plugs for cable glandsType of enclosureAt topAt bottomLG1K and LG1D2 x 13 P and 2 x 16 P2 x 13 P and 2 x 16 PLG7K and LG7D2 x 13 P and 2 x 16 P2 x 13 P and 2 x 16 PLG8K2 x 13 P and 2 x 16 P2 x 13 P and 2 x 16 P References:pages A1/18, A1/19 and A1/21Schemes:page A1/53DimensionsRef.";i:62;s:1020:"A1/53Enclosed startersTeSys ControlEnclosed safety starters / DOLSchemesLG1K06, K09, D12, D18LG1K06, K09, D12, D18L3T3L2T2L1T1– Q11352– Q246– KM1123456U1W1V1DF533973.eps380/400 V, code Q7 or 400/415 V, code N7220/230 V, code M7KM1/1 KM1/5 – KM1– KM1– S2131413141112A2A1– S1Ph NDF533974.epsLG7K06LG7K09, D12, D18LG7K06, K09, D12, D182461/L13/L25/L3– KM1123456U1W1V1– Q1DF533975.eps1/L1– Q13/L25/L3– F1U1W1V1– KM1135246246D1D2E1E2DF533976.eps380/400 V, code Q7 or 400/415 V, code N7220/230 V, code M7KM1/1 KM1/5 – KM1– KM1– S2131413141112A2A1– S1Ph NDF533977.epsLG8K06LG8K09, K12LG8K06, K09, K121/L1– Q13/L25/L3UWV– KM1– KM2135135246246246DF533978.eps1/L1– Q13/L25/L3UWV– KM1– KM2135135246246246D1D2E1E2DF533979.eps380/400 V, code Q7 or 400/415 V, code N7220/230 V, code M711KM2/5 KM2/1 – KM1– KM2– KM11213145453– KM22122A1A2A1A2– S1– S210– KM213145453– KM12122– S220Ph NDF533980.eps References:pages A1/18, A1/19 and A1/21Dimensions:page A1/52SchemesRef.";i:63;s:335:"A1/54Enclosed startersTeSys ControlEnclosed safety starters / DOL, ReverserDimensionsLJ7K06, LJ8K0617712084175150165DF533994.epsLJ7K09, LJ8K0914612084175150165DF533995.epsCut-outs or blanking plugs for cable glands at the top and at the bottom 2 x 13 P and 2 x 16 P. References:pages A1/20 and A1/22Schemes:page A1/55DimensionsRef.";i:64;s:966:"A1/55Enclosed startersTeSys ControlEnclosed safety starters / DOL, ReverserSchemesLJ7K06LJ7K092461/L13/L25/L3– KM1123456U1W1V1– Q1DF533996.eps– KM1/5– KM1/1– KM1– X1– KM1– S2– F14 A131413141112A1A2– S1– T1400/24 V25 VA1221DF533997.eps1/L1– Q13/L25/L3– F1U1W1V1M3 – KM1135246246D1D2E1E2DF533998.eps – KM1/5– KM1/1– KM1– X1– KM1– S2– F14 A131413141112A1A2– S1– T1400/24 V25 VA1221DF533999.epsLJ8K061/L1– Q13/L25/L3UWV– KM1– KM2135135246246246DF534000.eps11– KM1– KM2– KM11223245453– KM22122A1A2A1A2– S1– S210– KM213145453– KM12122– S220– KM2/1– KM2/5– T1400/24 V25 VA– F121DF534001.epsLJ8K091/L1– Q13/L25/L3UWV– KM1– KM2135135246246246D1D2E1E2DF534002.eps 11– KM1– KM2– KM11223245453– KM22122A1A2A1A2– S1– S210– KM213145453– KM12122– S220– KM2/1– KM2/5– T1400/24 V25 VA– F121DF534001.eps References:pages A1/20 and A1/22Dimensions:page A1/54SchemesRef.";i:65;s:22:"A1/56Enclosed starters";i:66;s:1105:"A2/1Open motor startersTeSys ControlOpen, pre-cabled motor startersDirect-on-line and reversing startersCompositionRangePageMotor circuit breaker + contactor (direct-on-line) Coordination type 1Up to 4 kWA2/2Motor circuit breaker + 2 contactors (reversing) Coordination type 1Up to 5.5 kWA2/3Motor circuit breaker + contactor (direct-on-line) Coordination type 1Up to 15 kWA2/4Motor circuit breaker + 2 contactors (reversing) Coordination type 1Up to 15 kWA2/5Motor circuit breaker + contactor (direct-on-line) Coordination type 2 to be assembled by customerUp to 30 kWA2/6Motor circuit breaker + 2 contactors (reversing) Coordination type 2 to be assembled by customerUp to 30 kWA2/7Star-delta starters3 contactors + 1 time delay aux. block Up to 132 kWA2/8Star-delta starters for customer assemblySeparated components and mounting kitsfor suggested motor starter components combinations - on plate or mounting railUp to 132 kWA2/10Separated components for suggested motor starter combinations - on chassisUp to 315 kWKM1KM3KM226768631459A2/14Technical Data for Designers A2/17Chapter A2 TeSysControl";i:67;s:1903:"A2/2Open motor startersD.O.L. starters, non-reversing, from 0.37 to 4 kW at 400/415 V, type 1 coordinationThis pre-assembled combination comprises:b 1 motor circuit breaker GV2ME,b 1 3-pole contactor LC1K,b 1 combination block GV2AF01. CharacteristicsStarter typeGV2ME06K1ME07K1ME08K1ME10K1ME14K1Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA5050505050440 VkA5050505015500 VkA5050505010 (4 kW)6 (5.5 kW)ReferencesD.O.L. starters, non-reversingStandard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyPre-assembledWeight 400/ 415 V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (2)Basic reference, to be completed by adding the voltage code (3)kWkWkWAAkg0.370.55–0.370.55–0.370.550.751...1.622.5GV2ME06LC1K06GV2ME06K1pp0.4600.75–0.751.1–1.11.6...2.533.5GV2ME07LC1K06GV2ME07K1pp0.4601.11.5–1.51.52.22.5...451GV2ME08LC1K06GV2ME08K1pp0.4602.2–2.23–34...6.378GV2ME10LC1K06GV2ME10K1pp0.46034–445.56...10138GV2ME14LC1K09GV2ME14K1pp0.460Add-on blocksDescriptionSold in lots ofUnit referenceCombination block between circuit breaker and contactor10 GV2AF01(1) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3, see page B6/21.(2) Please consult your Regional Sales Office.(3) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used.Volts24110220/230230230/240380/400a 50/60 HzB7F7M7P7U7Q7c (4)BW3–––––(4) Coil: low consumption (1.5 W), wide range (0.7...1.3 Uc) with integral suppression device as standard.GV2ME08K1ppPB123801.tifDimensions:page A2/18Schemes:page A2/20TeSys ControlDirect-on-line starters - with overload protection - up to 5.5 kWProduct referencesProduct references";i:68;s:2071:"A2/3Open motor startersD.O.L. starters, reversing, from 0.37 to 4 kW at 400/415 V, type 1 coordinationThis pre-assembled combination comprises:b 1 motor circuit breaker GV2ME,b 1 3-pole reversing contactor LC2K,b 1 combination block GV2AF01. CharacteristicsStarter typeGV2ME06K2ME07K2ME08K2ME10K2ME14K2Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA5050505050440 VkA5050505015500 VkA5050505010 (4 kW)6 (5.5 kW)ReferencesD.O.L. starters, reversingStandard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyPre-assembledWeight 400/ 415 V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (2)Basic reference, to be completed by adding the voltage code (3)kWkWkWAAkg0.370.55–0.370.55–0.370.550.751...1.622.5GV2ME06LC2K06GV2ME06K2pp0.4600.75–0.751.1–1.11.6...2.533.5GV2ME07LC2K06GV2ME07K2pp0.4601.11.5–1.51.52.22.5...451GV2ME08LC2K06GV2ME08K2pp0.4602.2–2.23–34...6.378GV2ME10LC2K06GV2ME10K2pp0.46034–445.56...10138GV2ME14LC2K09GV2ME14K2pp0.460Add-on blocksDescriptionSold in lots ofUnit referenceCombination block between circuit breaker and contactor10 GV2AF01(1) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3, see page B6/21.(2) Please consult your Regional Sales Office.(3) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used.Volts24110220/230230230/240380/400a 50/60 HzB7F7M7P7U7Q7c (4)BW3–––––(4) Coil: low consumption (1.5 W), wide range (0.7...1.3 Uc) with integral suppression device as standard.Note: The combinations are valid for IE2 motors and IE3 with maximum starting current = 7.5 x motor rating current (see pages A5/4 and A5/5).GV2ME06K2ppDimensions:page A2/18Schemes:page A2/20TeSys ControlReversing starters - with overload protection - up to 5.5 kWProduct referencesProduct referencesPB123802.tif";i:69;s:2226:"A2/4Open motor startersD.O.L. starters, non-reversing, from 0.06 to 15 kW at 400/415 V, type 1 coordinationThis pre-assembled combination comprises:b 1 motor circuit breaker GV2ME,b 1 3-pole contactor LC1D,b 1 combination block GV2AF3. CharacteristicsStarter typeGV2DM102 to DM110DM114DM116DM132Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA50501510440 VkA501586500 VkA50664ReferencesD.O.L. starters, non-reversingStandard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyPre-assembledWeight 400/ 415 V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (2)Basic reference, to be completed by adding the voltage code (2) (3)kWkWkWAAkg0.060.06–0.16...0.252.4GV2ME02LC1D09ppGV2DM102pp (4)0.5960.75–0.751.1–1.11.6...2.533.5GV2ME07LC1D09ppGV2DM107pp (4)0.5961.11.5–1.51.52.22.5...451GV2ME08LC1D09ppGV2DM108pp (4)0.5962.2–2.23–34...6.378GV2ME10LC1D09ppGV2DM110pp (4)0.59634–445.56...10138GV2ME14LC1D09ppGV2DM114pp (4)0.5965.55.57.59...14170GV2ME16LC1D12ppGV2DM116pp0.601151518.524...32416GV2ME32LC1D32ppGV2DM132pp0.651 Add-on blocksDescriptionMounting of GV2Sold in lots ofUnit referenceCombination block between circuit breaker and contactor5 rail10 GV2AF3Mounting plate LAD 31110GV2AF4(1) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3, see page B6/21.(2) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts24220230a 50/60 HzB7M7P7c (5)BD––(3) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used. (4) Type 2 coordination also possible, see page A5/11.(5) Only available for GV2DM. Coil with integral suppression device as standard.Note: The combinations are valid for IE2 motors and IE3 with maximum starting current = 7.5 x motor rating current (see pages A5/4 and A5/5).GV2DM102ppPB121676.epsDimensions:page A2/18Schemes:page A2/20TeSys ControlDirect-on-line starters - with overload protection - up to 15 kWProduct references";i:70;s:2203:"A2/5Open motor startersD.O.L. starters, reversing, from 0.12 to 15 kW at 400/415 V, type 1 coordinationThis pre-assembled combination comprises:b 1 motor circuit breaker GV2 ME,b 1 3-pole reversing contactor LC2 D,b 1 combination block GV2AF3. CharacteristicsStarter typeGV2DM202 to DM210DM214DM216DM220DM221DM222DM232Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA50501515151510440 VkA501588666500 VkA501066444ReferencesD.O.L. starters, reversing (2)Standard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyPre-assembledWeight 400/ 415V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (3)Basic reference, to be completed by adding the voltage code (4) (5)kWkWkWAAkg0.120.18–0.18––0.40...0.638GV2ME04LC2D09ppGV2DM204pp0.9630.250.370.250.37––0.63...113GV2ME05LC2D09ppGV2DM205pp0.963–0.55––0.55–0.370.550.751...1.622.5GV2ME06LC2D09ppGV2DM206pp0.9631.11.5–1.51.52.22.5...451GV2ME08LC2D09ppGV2DM208pp 0.9639111117...23327GV2ME21LC2D25ppGV2DM221pp1.063151518.524...32416GV2ME32LC2D32ppGV2DM232pp1.073Add-on blocksDescriptionMounting of GV2Sold in lots ofUnit referenceCombination block between circuit breaker and contactor5 rail10 GV2AF3Mounting plate LAD 31110GV2AF4(1) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3, see page B6/21.(2) Type 2 coordination also possible, see page B6/21.(3) See page B8/22.(4) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts24220230a 50/60 HzB7M7P7c (6)BD––(5) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used.(6) Coil with integral suppression device as standard.Note: The combinations are valid for IE2 motors and IE3 with maximum starting current = 7.5 x motor rating current (see pages A5/4 and A5/5).GV2DM202ppPB121683.epsDimensions:page A2/18Schemes:page A2/20TeSys ControlReversing starters - with overload protection - up to 15 kWProduct references";i:71;s:2841:"A2/6Open motor startersD.O.L. starters, non-reversing, from 0.06 to 30 kW at 400/415 V, type 2 coordinationTo be assembled by customer, using:b 1 motor circuit breaker GV2P,b 1 3-pole contactor LC1D,b 1 combination block GV2AF3. CharacteristicsStarter typeGV2P02 to P110P14P16 P20P21P22P32Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA13013013050505050440 VkA1301305020202020500 VkA130504210101010ReferencesD.O.L. starters, non-reversing Standard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyWeight 400/ 415 V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (2)kWkWkWAAkg0.060.06–0.16...0.252.4GV2P02LC1D09pp0.686–0.090.090.12–0.25...0.405GV2P03LC1D09pp0.6860.120.18–0.18––0.40...0.638GV2P04LC1D09pp0.6860.250.370.250.37––0.63...113GV2P05LC1D09pp0.686–0.55––0.55–0.370.550.751...1.622.5GV2P06LC1D09pp0.6860.75–0.751.1–1.11.6...2.533.5GV2P07LC1D09pp0.6861.11.5–1.51.52.22.5...451GV2P08LC1D09pp0.6962.2–2.23–34...6.378GV2P10LC1D09pp0.73634–445.56...10138GV2P14LC1D09pp0.7365.5–5.57.57.599...14170GV2P16LC1D25pp0.7417.59–13...18223GV2P20LC1D25pp0.7369111117...23327GV2P21LC1D25pp0.74111–1520...25327GV2P22LC1D25pp0.741151518.524...32416GV2P32LC1D32pp0.74118.5––30...40560GV3P401 (5)LC1D50App1.725–18.52230...40560GV3P401 (5)LC1D65App1.73022––37...50700GV3P501 (5)LC1D50App1.725–223037...50700GV3P501 (5)LC1D65App1.7303037–48...65910GV3P651 (5)LC1D65App1.730Add-on blocksDescriptionMounting of GV2Sold in lots ofUnit referenceCombination block between circuit breaker and contactor5 rail10 GV2AF3(1) The breaking performance of circuit breakers GV2P can be increased by adding a current limiter GV1L3, see page B6/11.(2) See page B8/22.(3) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts24220230a 50/60 HzB7M7P7c (6)BD––(4) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used. (5) Circuit breaker supplied without downstream EverLink® power terminal block, which is required for vertical mounting. For side by side mounting, use a GV3P circuit breaker with terminal blocks and the GV3S set of S-shape busbars (see page B8/42).(6) Coil with integral suppression device as standard. Note: The combinations are valid for IE2 motors and IE3 with maximum starting current = 7.5 x motor rating current (see pages A5/4 and A5/5).GV2Ppp + LC1D09 + GV2AF3PB121702.tifGV3P651+LC1D65AppDimensions:pages A2/18 and A2/19Schemes:page A2/21PB121675.epsPB121684.epsTeSys ControlDirect-on-line starters - with overload protection - up to 30 kWProduct references";i:72;s:2835:"A2/7Open motor startersDimensions:pages A2/18 and A2/19Schemes:page A2/21D.O.L. starters, reversing, from 0.06 to 30 kW at 400/415 V, type 2 coordinationTo be assembled by customer, using:b 1 motor circuit breaker GV2P,b 1 3-pole reversing contactor LC2D,b 1 combination block GV2AF3. CharacteristicsStarter typeGV2P02 to P10P14P16P20P21P22P32Breaking capacity (lq)(1)Conforming to IEC 60947-4-1400/415 VkA13013013050505050440 VkA1301305020202020500 VkA130504210101010ReferencesD.O.L. starters, reversing Standard power ratings of 3-phase motors 50/60 Hz in AC-3Setting range of thermal tripsFixed magnetic tripping current 13 IrthFor customer assemblyWeight 400/ 415 V440 V500 VMotor circuit- breaker ReferenceContactorReference to be completed (2)kWkWkWAAkg0.060.06–0.16...0.252.4GV2P02LC2D09pp1.053–0.090.090.12–0.25...0.405GV2P03LC2D09pp1.0530.120.18–0.18––0.40...0.638GV2P04LC2D09pp1.0530.250.370.250.37––0.63...113GV2P05LC2D09pp1.053–0.55––0.55–0.370.550.751...1.622.5GV2P06LC2D09pp1.0530.75–0.751.1–1.11.6...2.533.5GV2P07LC2D09pp1.0531.11.5–1.51.52.22.5...451GV2P08LC2D09pp1.0732.2–2.23–34...6.378GV2P10LC2D09pp1.15334–445.56...10138GV2P14LC2D09pp1.1535.5–5.57.57.599...14170GV2P16LC2D25pp1.1637.59–13...18223GV2P20LC2D25pp1.1539111117...23327GV2P21LC2D25pp1.16311–1520...25327GV2P22LC2D25pp1.163151518.524...32416GV2P32LC2D32pp1.16318.5––30...40560GV3P401 (5)LC2D50App2.750–18.52230...40560GV3P401 (5)LC2D65App2.76022––37...50700GV3P501 (5)LC2D50App2.750–223037...50700GV3P501 (5)LC2D65App2.7603037–48...65910GV3P651 (5)LC2D65App2.760Add-on blocksDescriptionMounting of GV2Sold in lots ofUnit referenceCombination block between circuit breaker and contactor5 rail10 GV2AF3(1) The breaking performance of circuit breakers GV2P can be increased by adding a current limiter GV1L3, see page B6/11.(2) See page B8/22.(3) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts24220230a 50/60 HzB7M7P7c (6)BD––(4) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used.(5) Circuit breaker supplied without downstream EverLink® power terminal block, which is required for vertical mounting. For side by side mounting, use a GV3P circuit breaker with terminal blocks and the GV3S set of S-shape busbars (see page B8/42).(6) Coil with integral suppression device as standard. Note: The combinations are valid for IE2 motors and IE3 with maximum starting current = 7.5 x motor rating current (see pages A5/4 and A5/5).GV2Ppp + LC1D09 + GV2AF3PB121701.epsGV3P651+LC2D65AppPB121675.epsPB121685.epsTeSys ControlReversing starters - with overload protection - up to 30 kWProduct references";i:73;s:2675:"A2/8Open motor startersPlate mounted starters without isolating deviceMaximum operating rate: 30 starts/hour. Maximum starting time: 30 seconds.Standard power ratings of squirrel cage motorsMains voltage - delta connectionAuxiliary contacts available on each contactor line delta starStar delta mechanical interlock Basic reference, to be completed by adding the voltage code (2) (3)Weight220/ 230 V380/ 400 V415 V440 VKM2KM3KM1kWkWkWkWkg47.57.57.5–––– (4) –1WithLC3D09App1.5305.5111111–––– (4)–1WithLC3D12App1.5301118.52222–––– (4)–1WithLC3D18App1.73015253030–––– (4)–1WithLC3D32App 2.03037757575–11– (4)–– (4)WithoutLC3D80pp5.200WithLC3D80ppA645.40063110110110–11– (4) –– (4)WithoutLC3D115pp (5)11.800WithLC3D115ppA64 (5)12.10075132132147–11– (4) –1 (4)WithoutLC3D150pp (5)12.100WithLC3D150ppA64 (5)12.100Rail mounted starters (35 mm 7 rail) without isolating deviceStandard power ratings of squirrel cage motorsMains voltage - delta connectionAuxiliary contacts available on each contactor Star delta mechanical interlock Basic reference, to be completed by adding the voltage code (2) (3)Weightlinedeltastar220/ 230 V380/ 400 V415 V440 VKM2KM3KM1kWkWkWkWkgMaximum operating rate: 12 starts/hour. Maximum starting time: 30 seconds.47.57.57.5–––– –1WithLC3K09pp0.740Maximum operating rate: 30 starts/hour. Maximum starting time: 30 seconds47.57.57.5–––– (4) –1WithLC3D090App1.5305.5111111–––– (4)–1WithLC3D120App1.5301118.52222–––– (4)–1WithLC3D180App1.73015253030–––– (4)–1WithLC3D320App2.030(1) Protection must be provided by the addition of a thermal overload relay, to be ordered separately. Select appropriate overload relay for setting at 0.58 of the full load rated motor current (see pages B11/4 and B11/5).(2) Standard control circuit voltages:Volts a 50/60 Hz24 36 4248 110 220230240380400415440Star-delta starters LC3K09CodeB7 C7D7 E7 F7 M7 P7 U7 ––––Star-delta starters LC3D09A...D150, LC3D090A...D320ACodeB7 –D7 E7 F7 M7P7 U7 Q7 V7 N7 R7For other voltages, please consult your Regional Sales Office.(3) Please check the availability of your variant in the index page A2/16. The SEARCH function of your viewer can be used.(4) One auxiliary contact block type LADN can also be fitted, see page B8/36.(5) These starters consist of contactors LC1D115 or D150 without connectors.PB123808.epsLC3D32AppIntroduction:page A2/22Dimensions:page A2/23Schemes:page A2/24TeSys ControlStar-delta starters - up to 132 kW (1)Product referencesi";i:74;s:24:"A2/9Open motor starters";i:75;s:58:"Open motor startersA2/10KM1KM3KM2KM3KM1KM21c1c21a1baaaaa1b";i:76;s:3463:"A2/11Open motor startersStar-delta starters without mechanical interlock, for customer assembly on plate or on mounting rail (2)Starters for direct combination with a circuit breakerMaximum operating rate: 30 starts/hour. Maximum starting time: 30 secondsStandard power ratings of squirrel cage motors (3) Mains voltage-delta connectionThermal-magnetic motor circuit breakerReferences in italics are available in CEE zone onlyContactors (basic references, to be completed by adding the voltage code) (4)400/ 415 V440 VlinedeltastarkWkWKM2KM3KM17.57.5GV2ME20 or GV2ME20APLC1D09pp LC1D09pp LC1D09pp –9GV2ME20 or GV2ME20APLC1D12pp LC1D12pp LC1D09pp 911GV2ME21 or GV2ME21APLC1D12pp LC1D12pp LC1D09pp 11–GV2ME22 or GV2ME22APLC1D12pp LC1D12pp LC1D09pp 1515GV2ME32 or GV2ME32APLC1D18ppLC1D18ppLC1D09pp Separate componentDescriptionIllustration item no.ReferenceMounting kit comprising: power circuit connections and1 time delay contact block LADS2aLAD912GVStarters for mounting separately from upstream protectionMaximum operating rate: 30 starts/hour. Maximum starting time: 30 seconds.Standard power ratings of squirrel cage motors (3) Mains voltage - delta connectionContactors (basic references, to be completed by adding the voltage code) (4)Separate components (see below)220/ 230 V380/ 400 V415 V440 VlinedeltastarkWkWkWkWKM2KM3KM1Component types47.57.57.5LC1D09pp LC1D09pp LC1D09pp D095.5111111LC1D18pp (6)LC1D12pp LC1D09pp D121118.52222LC1D25pp (7)LC1D25pp (7)LC1D09pp D1815253030LC1D32ppLC1D32ppLC1D18pp D3218.5373737LC1D40App LC1D40App LC1D40App D4030555959LC1D50AppLC1D50AppLC1D40App D5037757575LC1D80ppLC1D80ppLC1D50AppD8063110110110LC1D115ppLC1D115ppLC1D80pp D115 (5)75132132147LC1D150ppLC1D150ppLC1D115ppD150 (5)Separate componentsDescriptionIllustration item no.For components type (5)ReferenceWithout timer LADS2Mounting kit comprising:- 1 time delay contact block LADS2 (D09...D80) (3),- power circuit connections (D09...D80),- screws and clamps for fixing contactors to the plate (D40...D80).1 a1 b1 cLC1D09 to D38 (8)LAD91217LAD91218LC1D09 to D38 (9)LAD93217LAD93218D40 and D50LA9D5017– D80LA9D8017–Equipment mounting plates2LC1D09 to D38LA9D12974D80LA9D80973(1) Protection must be provided by the addition of a thermal overload relay, to be ordered separately. Select appropriate overload relay for setting at 0.58 of the full load rated motor current, see pages B11/4 and B11/5.(2) For mounting, assembly and cabling: please refer to installation instructions supplied with the equipment.(3) See comments on page A2/22.(4) See page B8/22.(5) For D115 and D150 components, see illustration and separate parts on pages A2/12 and A2/13.(6) A D12 component is adequate for the application, but use of a D18 is recommended. (connection capacity, correct use of power connection kit and connections).(7) A D18 component is adequate for the application, but use of a D25 is recommended. (connection capacity, correct use of power connection kit and connections).(8) For assembly of 3 contactors of the same physical size (depth).(9) For assembly of 3 contactors with star contactor physically smaller (depth).Introduction: page A2/22Dimensions: pages A2/23 and A2/24Schemes:page A2/24TeSys ControlTeSys Control components for assembling Star-delta starters - up to 147 kW (1)Product referencesi";i:77;s:43:"Open motor startersA2/121371291110385461488";i:78;s:1465:"A2/13Open motor startersStarters for mounting separately from upstream protectionSeparate components (continued)DescriptionIllustration item no.For use onNo.Sold in lots ofUnitreferenceWeightkgInstantaneous auxiliary contact blocks 1 N/O1D115 (star)11LADN100.020Control relay3D115, D15011CAD320.320Time delay auxiliary contact blocks4D115, D15011LADT20.060Lead sealing kit for time delay auxiliary contact blocks5D115, D15011LA9D9010.005Thermal magnetic circuit breaker for control circuit (200...415 V)6D115, D15026GB2CB050.060Set of 3 connectors for wider terminations (optional)7D115, D15011LA9FG9800.200Set of power connections with fixing accessories8D11511LA9D115170.800D15011LA9D150171.050Spare volt free terminals9D115, D150110DZ3HA30.007210DZ3GA30.006Lug-connector terminal block10D115, D150110AB1BC95350.236End stop11D115, D1503100AB1AB8M350.005Mounting rail 5 35 mm12D115, D150110NSYDPR250.210Pre-slotted mounting plate13D115, D15011AM3PA651.950Screw with captive washer14D115, D15012100AF1VA6180.0062100AF1VA4100.002(1) Protection must be provided by the addition of a thermal overload relay, to be ordered separately. Select appropriate overload relay for setting at 0.58 of the full load rated motor current, see pages B11/4 and B11/5.Introduction: page A2/22Dimensions: pages A2/23 and A2/24Schemes:page A2/24TeSys ControlTeSys Control components for assembling Star-delta starters - up to 147 kW (1)Product referencesi";i:79;s:44:"Open motor startersA2/14KM1KM3KM226768631459";i:80;s:2073:"A2/15Open motor startersStar-delta starters with mechanical interlock for customer assembly on back-panelMaximum operating rate: 30 starts/hour. Maximum starting time: 30 seconds. For selection of TeSys Giga Contactors (2), overload relay (3) and circuit breaker (3) at different operating voltages, please refer to coordination tables pages A5/29, A5/38 and A5/39.For Star-delta 'Power' and 'Control' circuit diagrams, please refer to page A2/26.Separate components (4)DescriptionIllustration item no.For use onNo.Sold in lots ofUnit referenceCircuit breakers1G115...G50011GV5P220...GV6P50011NSX250...NSX63011NS800...NS1000Electronic thermal overload relays2G115...G50011LR9G115... LR9G500 (4)Auxiliary contact blocks 1NO + 1NC3G115...G5003-LAG8N113P(Supplied with the contactor)Timer4G115...G50011RE17RMMWSMounting Rail5G115...G500110NSYSDR200Sets of power connections6G115...G500 (LDY) (5)11LA9GQQ330G115...G500 (LDY) (5)11LA9GSS330G115...G500 (LDY) (5)11LA9GTT330LD: G265...G500 (5) Y: G115...G225 (5)11LA9GSQ331Flexible terminal extensions for MCCB7G115...G22511LA9G3111G265...G50011LA9G3112Mechanical interlock kit8G115...G50011LA9G970G265...G500 # G115...G22511LA9G971Thermal magnetic circuit breakerfor 5 A control circuit9G115...G50026GB2CB10(1) Protection shall be provided by a thermal-magnetic circuit breaker or by a magnetic circuit breaker and an overload relay combination. (2) The contactors are supplied with wide band AC/DC coils with 1 NO + 1 NC auxiliary contact block. Please refer to pages B9/10 to B9/13 for the complete references of the contactors.(3) The protection device settings should be adjusted according to motor characteristics and conditions of use.(4) Please refer to pages B11/11 to B11/14 for details on LR9G electronic overload relays.(5) L- Line contactor/ D- Delta contactor/ Y- Star contactor.Introduction:page A2/22Dimensions:page A2/25Schemes:page A2/26 TeSys ControlTeSys Control components for assembling Star-delta starters - up to 450 kW (1)Product referencesi";i:81;s:1482:"A2/16Open motor startersTeSys ControlOpen pre-cabled motor starters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roduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:82;s:237:"A2/17Open motor startersTechnical Data for DesignersOpen pre-cabled motor startersContentsNon-reversing / Reversing starters ..... A2/18 to A2/21 Star-delta starters ............................... A2/22 to A2/26 ";i:83;s:735:"A2/18Open motor startersGV2MEppKpppOn mounting rail NSYSDR200GV2MEppK1ppGV2MEppK2pp668711810690.eps45152810691.eps90152810689.epsGV2DMpppppOn mounting rail NSYSDR200GV2DM1ppppGV2DM2ppppc1c810692.eps45b810693.eps90b810694.epsGV2DMppppp contactor with AC or DC coil on mounting rail NSYSDR200GV2DMp02pp to DMp20ppDMp21pp to DMp32ppb177187c106113c196103GV2Ppp + LCpD09 + GV2AF3On mounting rail NSYSDR200GV2Ppp + LC1Dpp + GV2AF3GV2Ppp + LC2Dpppp + GV2AF3c1cd1d810697.eps45186DB432509.eps90186DB432510.epsLC1D, LC2D contactor with AC or DC coil on mounting railGV2P02 to P08P10 to P32c111118c1101108d107107d19797References:pages A2/2 to A2/7 Schemes:pages A2/20 and A2/21Dimensions, mountingTeSys ControlOpen pre-cabled motor startersRef.";i:84;s:856:"A2/19Open motor startersGV3Ppp1 + LC1D40A...D65A (for customer assembly)Vertical mounting (1)Side by side mounting with S-shape busbar system GV3 S (2)23112013655141120 +30DF538605.eps136141119138DF538606.epsGV3Ppp1 + LC2D40A...D65A (for customer assembly)Vertical mounting (1)Side by side mounting with S-shape busbar system GV3 S (2)233119127263.eps138183127264.eps(1) For several side-by-side motor starters, the maximum current allowed is equal to the nominal current under 400 V.Example: 55 A for a 30 kW motor under 400 V, for a GV3 P65 circuit breaker and a LC1 D65A contactor association.(2) The maximum current allowed is equal to 90 % of maximum current. Example: 45 A for a LC1 D50A contactor.References:pages A2/6 and A2/7 Schemes:page A2/21Dimensions, mountingTeSys ControlOpen pre-cabled motor starters Ref.";i:85;s:538:"A2/20Open motor startersGV2MEppK1ppGV2MEppK2pp2/T14/T26/T31/L13/L25/L31/L13/L25/L3T1/2T2/4T3/613/NO14A1A2810708.eps2/T14/T26/T31/L13/L25/L31/L13/L25/L3T1/2T2/4T3/613/NOT1/2T2/4T3/61413/NO14A1A21/L13/L25/L3A1A2810704.epsGV2DM1ppppGV2DM2pppp2/T14/T26/T31/L13/L25/L31/L13/L25/L3T1/2T2/4T3/6A1A21413/NO2221/NC810702.eps2/T14/T26/T31/L13/L25/L314A1A2123456L1L2L3123456UVW13/NO1413/NOA1A22221/NC2221/NCGV2DM2••••-SCH-2-M810706.epsReferences:pages A2/2 to A2/5 Dimensions:page A2/18SchemesTeSys ControlOpen pre-cabled motor starters Ref.";i:86;s:576:"A2/21Open motor startersGV2Ppp + LC1DppppGV2Ppp + LC2Dpppp2/T14/T26/T31/L13/L25/L31/L13/L25/L3T1/2T2/4T3/6A1A21413/NO2221/NC810703.eps2/T14/T26/T31/L13/L25/L314A1A2123456L1L2L3123456UVW13/NO1413/NOA1A22221/NC2221/NCGV2DP2••••-SCH-2-M810707.epsMechanical interlock with integral electrical contactsControl circuit aControl circuit c— KM1A1A2A1A201010202— KM2DF580417.eps— KM1A2A2010202— KM201A1A1DF580418.eps— KM1— KM2A1A2A2A1DF580419.epsReferences:pages A2/6 and A2/7 Dimensions:pages A2/18 and A2/19SchemesTeSys ControlOpen pre-cabled motor starters Ref.";i:87;s:1886:"A2/22Open motor startersStar-delta starting This method of starting is applicable to motors on which all 6 stator terminals are accessible and whose delta connection voltage corresponds to the mains voltage. Star-delta starting should be used for motors starting on no-load or having a low load torque and gradual build-up: - the starting torque in star connection is reduced to one third of the direct starting torque, i.e. about 50 % of the rated torque. - the starting current in star connection is about 1.8 to 2.6 times the rated current. The transition from star to delta connection must occur when the machine has run up to speed. A too rapid build-up in load torque would cause the stabilised run-up speed to be too low and would therefore eliminate any advantage in this method of starting: this is the case with certain machines whose load torque depends on the machine speed (a characteristic of centrifugal machines, for example). All star-delta starters are supplied with a special LADS2 or LA2KT2p time delay relay which imposes a delay on the delta contactor during the transition period in order to allow the star contactor sufficient breaking time. For ratings D115 and D150, this function is performed by a time delay auxiliary contact block LADT2 and a control relay.(1) Motor manufacturers generally specify machine load torques. Example: maximum resistive torque on completion of star-delta start (expressed as a proportion of the rated torque).0123456700,250,500,75112DF522661.epsCurrentSpeed1 Starting in direct delta connection2 Starting in star connection1 Starting in direct delta connection2 Starting in star connection3 Resistive torque of the machineTorqueSpeed00,500,250,500,751123(1)1 1,52 2,5DF522662.epsReferences:pages A2/8 to A2/15Dimensions:pages A2/23 to A2/25Schemes:pages A2/24 and A2/26IntroductionTeSys ControlStar-delta startersRef.";i:88;s:951:"A2/23Open motor startersDimensionsLC3K plate mounted, pre-assembledLC3D09A...D32A pre-assembled or 3 x LC1D09A...D32A (customer assembly) + components94110175150DF522685.epsc4124b90==a110KM2KM3KM1110DF522684.epsOn starters LC3D09A to D18A, a connection block is mounted on the upper part of contactor KM2, increasing the overall height of the product by 6.5 mm.LC3D09AD12AD18AD32Aa143143144165b26.526.526.532.5cwith LADS139139139145with LADS and sealing cover143143143149LC3D80 pre-assembled or 3 x LC1D80 (customer assembly) + components175 (1)45143263281==60=100/110===DF522683.eps(1) +4 mm with sealing coverLC3D115, D150 pre-assembled or 3 x LC1D115...D150 (customer assembly) + componentsaGHcb810835.epsReferences:pages A2/8 to A2/13Introduction:page A2/22Schemes:page A2/24abcGHLC3D115 or 3 x LC1D with componentsD115450555205425525LC3D150 or 3 x LC1D with componentsD150450555205425525Dimensions, mountingTeSys ControlStar-delta startersRef.i";i:89;s:1305:"A2/24Open motor startersDimensionsLC3D090A à D320A on NSYSDR mounting rail, pre-assembledcb2xØ7160175KM2KM3KM1810837.epsLC3D090A à D180AD320Ab153137cwith LADS139145with LADS and sealing cover143149SchemesLC3K, LC3D09A to D80LC3D090A to D320ALC3KLC3DU1V1W1U2V2W2246– KM2123456– KM3123456– KM1123456U1V1W1U2V2W2135246L1L2L3(1)DB425050.epsKM2/1 (N)OTTIYLKM3/5 – KM3– KM2– KM1– KM15453A1A2A1A2A1A2A1A2– KM1– KM32122222115169596– KM21413DF510490.epsA1A2– KM1131421222221– KM35556– KM21314– KM19596KM3/5Ol6867– KM2A1A2– KM32221– KM1A1A2– KM21314– KM2KM3/1N(2)DF510488.epsNote: LC3D09A to D18A: Mechanical interlock between KM3 and KM1.LC3D115 and D150– KM2123456– KM3123456– KM1123456U1V1W1U2V2W2135246L1L2L3U1V1W1U2V2W2246DB425051.epsRecommended cabling for reversal of motor rotation (standard motor, viewed from shaft end).A1A2– KM113142122162161– KM35556– KM2184183– KM19596– F1– F1Ol153154– KM2A1A2– KA1A1A2– KM2153154– KM1– F2 1716768– KM2172– KM11314A1A2– KM3– KA1YL(2)DB419877.eps(1) Recommended cabling for reversal of motor rotation (standard motor, viewed from shaft end).(2) Remote control.References:pages A2/8 to A2/13Dimensions:page A2/23Dimensions, mounting, schemesTeSys ControlStar-delta startersRef.";i:90;s:976:"A2/25Open motor startersDimensionsTeSys Giga star-delta starters with mechanical interlock for customer assembly on back-panelBACDEFGFHJJIBCDEJJKMLLDB439476.epsCircuit BreakerLine & Delta ContactorStar ContactorOverload relayOverall widthOverall heightOverall depthABCDEFGHIJK LMNSX250LC1G115 ...225LC1G115 ...225LR9G115/ LR9G225351258716679.153592.792.7350364523193NSX400/ NSX630LC1G115 ...225LC1G115 ...225LR9G115/ LR9G2254520011816679.153592.792.7350364565.5193NSX400/ NSX630LC1G265...500LC1G115 ...225LR9G5004520011818781.8545115103.853510.5428670225NSX400/ NSX630LC1G265 ...500LC1G265 ...500LR9G5004520011818781.8545115115450463670225NS800LC1G265 ...500LC1G115 ...225LR9G50019920021718781.8545115103.853510.5428804.6225NS800LC1G265 ...500LC1G265 ...500LR9G50019920021718781.8545115115450463804.6225Note: All dimensions are in mm.References:pages A2/14 and A2/15Introduction:page A2/22Schemes:page A2/26Dimensions, mountingTeSys ControlStar-delta startersiRef.";i:91;s:744:"A2/26Open motor startersReferences:pages A2/14 and A2/15Introduction:page A2/22Dimensions:page A2/25SchemesTeSys ControlStar-delta startersTeSys Giga star-delta motor ‘Power’ circuit diagramThermal magnetic circuit breaker + contactorsMagnetic circuit breaker + contactors + overload relayKM3123456KM1123456U1V1W1U2V2W2KM21352/T14/T26/T31/L13/L25/L3246DB439329.eps123456KM1123456U1V1W1U2V2W2135246KM2KM3135L1L2L32/T14/T26/T31/L13/L25/L3DB438528.epsTeSys Giga star-delta motor ‘Control’ circuit diagram22(-)(+)21181513142214141313A1A2A1A2A1A221161596Overload relay95FStartTimerStopKM1REREKM3KM2KM1KM2REKM3KM1KM2DB438529.epsRecommended timing relay (RE): Zelio Timer ref. RE17RMMWS (12...240 V AC/DC 50/60 Hz – 8 A AC/DC contacts) iRef.";i:92;s:769:"A3/1Hybrid motor startersTeSys ControlHybrid motor startersIntroductionA3/2TeSys Hybrid motor startersType of productRange PageUltra-compact starters IEC ratingsStandard starters, screw or spring terminals, direct-on-line or reverseUp to 3 kW AC53aUp to 9 A AC51 A3/6Safety starters, screw or spring terminals,direct-on-line or reverseUltra-compact starters UL ratingsStandard starters, screw or spring terminals,direct-on-line or reverseUp to 3 hp AC53aUp to 9 A AC51 A3/7Safety starters, screw or spring terminals,direct-on-line or reverseTeSys Deca Circuit breakers for a group of startersSelection of magnetic motor circuit breakersTeSys GV2L – rotary knob TeSys GV2LE – rocker leverUp to 32 A A3/8Technical Data for Designers A3/11Chapter A3 TeSysControl";i:93;s:752:"A3/2IntroductionHybrid motor startersTeSys ControlHybrid motor startersThe most compact 3 KW / 400 V starter in the worldEasy to integrateEasy Design Up to 75 % of space reductionp Ultra-compact 22.5 mm starterp Reversing starter in the same widthp Maximum space savings for group starter architectureLong electrical durability p Suitable for high demanding applicationp 30 000 000 of AC53a electrical cyclesp Direct mounting installation on DIN railp Control terminals on the upper sidep Power terminal on the lower sidep Wide range setting motor protectionp Automatic, manual or remote reset after thermal tripp Wide range of control voltage22.5 mmPB114721_r.epsWith printed QR code, refering directly to the product data sheet. ";i:94;s:676:"IntroductionA3/3Hybrid motor startersTeSys ControlHybrid motor startersHybrid motor starters are a solution dedicated to low footprint applications, in industries as food and beverage, logistics, and durable goods.Standard versionp 2 ratings: - 2.4 A 400 V AC53a- 6.5 A 400 V AC53ap 2 control voltages: - 24 V DC - 110 V / 230 V ACSafety versionp Safe Torque Off embedded:- SIL3 according to IEC61508-1 - Ple according to ISO13849-1 p ATEX:- As associated devices for motor protection PB114714_r.epsPB114712_r.epsPB114718-r.epsPB114716_r.epsp 2 terminal types:- Screw clamps- Springp Can provide up to 3 functions:- Forward running- Reverse running- Overload protection";i:95;s:756:"A3/4IntroductionHybrid motor startersTeSys ControlHybrid motor startersPB114712_r.epsPB123814.epsPB123831.epsStart: conduction through the semiconductor.Stop: the semiconductor becomes non-conducting.Contact closure under zero voltage. No electrical arc: the contact is preserved.The semiconductor is non-conducting.Before the opening of the contact the semiconductor is triggered.Contact opening: - no arc: the contact is preserved.Hybrid technology: Each contact is coupled with a power semiconductor for switching Higher number of on/off switches, extended dura-bility. 12131040DB418917.eps12311040DB418918.epsPB114711_r.epsDirect-on-lineConventional Hybrid Standard starterORReverseClosingOpeningHow does the hybrid technology work ? Hybrid";i:96;s:449:"IntroductionA3/5Hybrid motor startersConventional Hybrid Safety starterTeSys ControlHybrid motor starters PB114715.eps101393.eps107014.epsPB114716_r.eps101393.eps107014.epsDirect-on-lineReverseHybrid Safety starter p Immediate respect of the highest safety standardsp Simplified design of your safety electrical architecturep Quicker panel implementation101393.eps107014.epsPB123814.epsPB123829.eps101393.eps107014.epsORPB123831.epsPB123830.eps";i:97;s:2151:"A3/6Hybrid motor startersTeSys ControlDOL/Reverser, Standard/Safety Hybrid startersPB114711.epsPB114715.epsStarters for asynchronous motors - AC53a utilization category: Standard starters hybrid per IEC ratingsStarters3- phases motor: max power (KW) for various voltageCurrent rangeCommercial references (1)220 V230 V380 V400 V415 V440 V500 VADirect-on-line Screw terminals0.370.370.750.750.750.751.10.18...2.4LZ1H2X4pp1.51.52.233331.5...6.5LZ1H6X5ppSpring terminals0.370.370.750.750.750.751.10.18...2.4LZ1H2X43pp1.51.52.233331.5...6.5LZ1H6X53ppReverseScrew terminals0.370.370.750.750.750.751.10.18...2.4LZ2H2X4pp1.51.52.233331.5...6.5LZ2H6X5ppSpring terminals0.370.370.750.750.750.751.10.18...2.4LZ2H2X43pp1.51.52.233331.5...6.5LZ2H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).Safety starters hybrid per IEC ratingsStarters3- phases motor: max power (KW) for different tensionsCurrent rangeCommercial references (1)220 V230 V380 V400 V415 V440 V500 VADirect-on-line Screw terminals0.370.370.750.750.750.751.10.18...2.4LZ7H2X4pp1.51.52.233331.5...6.5LZ7H6X5ppSpring terminals0.370.370.750.750.750.751.10.18...2.4LZ7H2X43pp1.51.52.233331.5...6.5LZ7H6X53ppReverseScrew terminals0.370.370.750.750.750.751.10.18...2.4LZ8H2X4pp1.51.52.233331.5...6.5LZ8H6X5ppSpring terminals0.370.370.750.750.750.751.10.18...2.4LZ8H2X43pp1.51.52.233331.5...6.5LZ8H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).Starters for resistive load AC51 utilization category:StartersResistive load current ApplicationCommercial references (1)AScrew terminals2.4StandardLZ1H2X4ppSafetyLZ7H2X4pp9StandardLZ1H6X5ppSafetyLZ7H6X5ppSpring terminals2.4StandardLZ1H2X43ppSafetyLZ7H2X43pp9StandardLZ1H6X53ppSafetyLZ7H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).LZ1H2X4BDLZ7H2X4BDProduct references (per IEC ratings)Description:pages A3/12 and A3/13Characteristics:pages A3/14 and A3/15Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18i";i:98;s:1851:"A3/7Hybrid motor startersTeSys ControlDOL/Reverser, Standard/Safety Hybrid startersPB114713.epsPB114716.epsStarters for asynchronous motors - AC53a utilization category: Standard starters hybrid per UL ratingsStarters3- phases motor in HPCurrent rangeCommercial references (1)208 V220 V - 240 V440 V - 480 VADirect-on-line Screw terminals1/21/210.18...2.4LZ1H2X4pp11.531.5...6.5LZ1H6X5ppSpring terminals1/21/210.18...2.4LZ1H2X43pp11.531.5...6.5LZ1H6X53ppReverseScrew terminals1/21/210.18...2.4LZ2H2X4pp11.531.5...6.5LZ2H6X5ppSpring terminals1/21/210.18...2.4LZ2H2X43pp11.531.5...6.5LZ2H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).Safety starters hybrid per UL ratingsStarters3- phases motor in HPCurrent rangeCommercial references (1)208 V220 V - 240 V440 V - 480 VADirect-on-line Screw terminals1/21/210.18...2.4LZ7H2X4pp11.531.5...6.5LZ7H6X5ppSpring terminals1/21/210.18...2.4LZ7H2X43pp11.531.5...6.5LZ7H6X53ppReverseScrew terminals1/21/210.18...2.4LZ8H2X4pp11.531.5...6.5LZ8H6X5ppSpring terminals1/21/210.18...2.4LZ8H2X43pp11.531.5...6.5LZ8H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).Starters for resistive load AC51 utilization category:StartersResistive load current ApplicationCommercial references (1)AScrew terminals2.4StandardLZ1H2X4ppSafetyLZ7H2X4pp9StandardLZ1H6X5ppSafetyLZ7H6X5ppSpring terminals2.4StandardLZ1H2X43ppSafetyLZ7H2X43pp9StandardLZ1H6X53ppSafetyLZ7H6X53pp(1) Remplace the ●● in the reference by the bobine code: BD (24 V DC) or FU (110-230 V AC).LZ1H2X43BDLZ8H6X5BDProduct references (per UL ratings)Description:pages A3/12 and A3/13Characteristics:pages A3/14 and A3/15Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18i";i:99;s:710:"A3/8Hybrid motor startersMagnetic motor circuit breakers:b GV2L: rotary knob type - Ue = 500 Vb GV2LE: rocker lever type - Ue = 415 V.Selection of the circuit breaker Type 1 coordination according to IEC/EN 60947-4-2Maxlq Number of H Reference Circuit breaker 2.4 A6.5 ARotaryRockerAkA0.450.01–GV2L03GV2LE030.6350.01–GV2L04GV2LE04150.011GV2L05GV2LE051.650.011GV2L06GV2LE062.535.011GV2L07GV2LE07412.511GV2L08GV2LE086.38.021GV2L10GV2LE10107.041GV2L14GV2LE14145.052GV2L16GV2LE16184.072GV2L20GV2LE20254.0103GV2L22GV2LE22323.0134GV2L32GV2LE32TeSys ControlDeca Magnetic circuit breakers for group protectionPB121671_R.epsPB114721_r.epsPB114721_r.epsPB114721_r.epsPB114721_r.epsGV2L + LZ2H2X4BDSelection table";i:100;s:25:"A3/9Hybrid motor starters";i:101;s:631:"A3/10Hybrid motor startersTeSys ControlHybrid motor startersLZ1H2X43BDLZ1H2X43FULZ1H2X4BDLZ1H2X4FULZ1H6X53BDLZ1H6X53FULZ1H6X5BDLZ1H6X5FULZ2H2X43BDLZ2H2X43FULZ2H2X4BDLZ2H2X4FULZ2H6X53BDLZ2H6X53FULZ2H6X5BDLZ2H6X5FULZ7H2X43BDLZ7H2X43FULZ7H2X4BDLZ7H2X4FULZ7H6X53BDLZ7H6X53FULZ7H6X5BDLZ7H6X5FULZ8H2X43BDLZ8H2X43FULZ8H2X4BDLZ8H2X4FULZ8H6X53BDLZ8H6X53FULZ8H6X5BDLZ8H6X5FUProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:102;s:375:"A3/11Hybrid motor startersTechnical Data for Designers Hybrid motor startersContentsDescription ..........................................A3/12 to A3/13 Characteristics .....................................A3/14 to A3/15Curves .................................................A3/16 to A3/17Dimensions and schemes ..................................A3/18";i:103;s:1914:"A3/12Hybrid motor startersTeSys ControlHybrid motor startersDescriptionIdentification of terminals / Indicators / Setting means and procedureSetting procedure0.180.562.4Te SysLZ2HX24FU110-230VAC1.021.481.94TRIP/ERRSET12Power supply of control circuitsRemote reset circuitFault indication circuitNominal currentadjustmentStatus LED’sManual Set/ResetPower L1-L2-L3Motor circuit T1-T2-T3QR code: link toproduct informationBADB418903.epsSTEPACTION1Lift the cover on the front of the Hybrid motor starter to access the SET/RESET button.2Press and hold down the SET/RESET button for at least 6 seconds.After 6 seconds the 110-230 V AC or 24 V DC LED flashes once.3After the LED has flashed once, release the SET/RESET button.4Turn the potentiometer to select a nominal current, and then fine-tune the position until the LEDs indicate the exact nominal current.5Press the SET/RESET button to save the selected nominal current.The 110-230 V AC or 24 V DC LED comes on and the other LEDs go off.6Drop the cover back over the front of the Hybrid motor starter.Protection functionsThe protection of three - phase motors is ensured against potential faults Ib Thermal overload: the motor currents exceed the set value.b Phase unbalanced: the motor currents differ from each other by more than 33 %b Phase loss: power missing on one or several phasesb Stall and jam: motor current exceeding 45 A for more that 2 s during starting or running phase - No motor is connected - Motor current is lower that the minimum configurable current for more than 2 seconds, on at least two phases.For all this detected situations, the Hybrid motor starter will switch off, activate its TRP/ERR LED and fault signaling contact.Please refer to the “Instruction sheet and User Guide” for more information.References:pages A3/6 and A3/7Characteristics:pages A3/14 and A3/15Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18Ref.";i:104;s:1043:"A3/13Hybrid motor startersTeSys ControlHybrid motor startersDescriptionElectrical diagrams for Safety chain applicationsPreferredElectrical life time: 30000000 AC53a electrical cyclesSafety Chain Application for Monitoring Emergency STOP Circuits with Two Channel Inputs and Two Channel Outputs with Preventa XPSAF Safety Processing Device.PE M 3a L1L2L3a(L) / +a(N) / -2/T1A1I.1C4/T2A2I.295Y298Y1A2PE96Y36/T3LZ7HpppppXPSACLZ8HpppppS1S2ESC33Y4334Y44232413A1Y1Y2141/L13/L25/L3orDB418904.epsPossible but non- recommended Electrical life time: 10000 AC53 a electrical cyclesSafety Chain Application for Monitoring Emergency Stop Circuits with Two Channel Inputs and Two Channel Outputs with Preventa XPSAC Safety Processing Device. PE M 3a L1L2L3a(L) / +a(N) / -2/T1A1I.1C4/T2A2I.295Y298Y1A2PE96Y36/T3LZ7HpppppXPSACLZ8HpppppS1S2ESC33Y4334Y44232413A1Y1Y2141/L13/L25/L3orDB418905.epsReferences:pages A3/6 and A3/7Characteristics:pages A3/14 and A3/15Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18Ref.";i:105;s:2936:"A3/14Hybrid motor startersEnvironmentRated insulation voltage (Ui)Conforming to IEC/EN 60947-1, overvoltage category III, degree of pollution: 2V500Rated impulse withstand voltage (Uimp)Conforming to IEC/EN 60947-4-2kV6 (24 V DC control voltage); 4 (110 V - 230 V AC control voltage)Conforming to standardsIEC / EN 60947-4-2Product certificationsCE, CUL, ATEX ( for failsafe product), CCC, UKCADegree of protectionConforming to IEC / EN 60947-1IP20Environment categoryConforming to IEC / EN 60947-1 EClimatic withstandConforming to IEC/EN 60068-2-30Ambient air temperature around the deviceStorage °C-40...+80Operation (see derating curves)°C-25...+70Maximum operating altitudewithout deratingm2000with deratingmNoOperating positions(see derating curves)Vertical axis (horizontal DIN rail)Ye sHorizontal axis (vertical DIN rail)Not authorisedShock resistance1/2 sine wave = 18 msConforming to IEC/EN 60068-2-27gn30 Starter OFFgn30 Starter ON Vibration resistance 10...150 HzConforming to IEC/EN 60068-2-6 gn5 Starter OFFgn5 Starter ON Resistance to electrostatic dischargeConforming to IEC/EN 61000-4-2kVAir discharge: 8 kVkVContact discharge: 6 kVImmunity to radiated high-frequency disturbanceConforming to IEC/EN 61000-4-380 - 1 GHzV/m201.0 - 6 GHzV/m10Immunity to fast transient currentsConforming to IEC/EN 61000-4-4kV3Immunity to conducted high frequency disturbancesConforming to IEC/EN 61000-4-6V10Radiated emission and conductedConforming to CISPR 11 and EN 55011Class ASurgeConforming to IEC/EN 61000-4-5kV1 symmetrical kV2 asymmetricalControl circuit characteristicsRated voltagea 50/60 HzV110 - 230cV24Voltage limitsa 50/60 HzV85...253cV19.2...30Voltage dipsms3Short time interruptionsms3Power circuit characteristicsLZp2X4pp LZp6X5pp Power disipation for corresponding Rated Operating Current (see derating curve)W0.88 ... 4.10.88 ... 7Rated Operating Current AC51 conforming to IEC/EN 60947-4-3A0.18 - 2.41.5 - 9AC53a conforming to IEC/EN 60947-4-2A0.18 - 2.41.5 - 6.5Electrical lifeAC51Op30 000 000 (1)Op10 000 (2)AC53AOp30 000 000 (1)Op10 000 (2)Maximum Operating rate AC51Op/h7200AC53ASee curvesTime to restart after overload tripManual or remote mode mn2Automaticmn20Power and control terminal CharacteristicsTerminal type Screw M3Push inFlexible cablewithout cable end1 conductormm20.25...2.50.25...2.52 conductorsmm20.25...0.75 Flexible cablewith cable end1 conductormm20.25...2.50.25...2.52 conductorsmm20.25...1.50.25...1.5Solid cablewithout cable end1 conductormm20.25...2.50.25...2.52 conductorsmm20.25...0.75 Screwdrivermmflat screwdriver: 3 mmTightening torqueN.m0.5..0.6(1) With ON/OFF control through control inputs (I1, I2 terminals) (2) With ON/OFF control through power supply (A1, A2 terminals). CharacteristicsTeSys ControlHybrid motor startersReferences:pages A3/6 and A3/7Description:pages A3/12 and A3/13Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18Ref.i";i:106;s:1434:"A3/15Hybrid motor startersCharacteristicsTeSys ControlHybrid motor starters System conditons Database for failure ratesSN 29500System typeType BStandard used IEC 61508Beta factor1 %Mean time to failure (MTTF) at an ambient temperature 40 °C39.3 (LZ7H or LZ8H 24 V DC)39.1 (LZ7H or LZ8H 110/230 V AC)Safe torque-offLZ7H or LZ8H 24 V DCLZ7H or LZ8H 110/230 V ACAmbient temperature°C4040Mean time to failure (MTTF)517289Switch-off time80100λsd [FIT] safe, detectable664638λsu [FIT] safe, undetectable 968935λdd [FIT] dangerous, detectable 218388λdu [FIT] dangerous, undetectable 2.676.82SFF [%] Safe failure fraction9999DCS [%] Diagnostic coverage safe40.740.6DC [%] Diagnosctic coverage9898PFH Probability of dangerous failure per hour2.67 x 10-96.82 x 10-9Safety levelIEC/CEI 61508-1: SIL 3ISO 13849-1: Category 3 PL eEN 60954-1: Category 3Motor overload protectionLZ7H or LZ8H 24 V DCLZ7H or LZ8H 110/230 V ACAmbient temperature°C4040Mean time to failure (MTTF)447273Time to tripAs for Class 10 A, IEC/CEI 60947-4-2λsd [FIT] safe, detectable637636λsu [FIT] safe, undetectable 870841λdd [FIT] dangerous, detectable 239402λdu [FIT] dangerous, undetectable 1717SFF [%] Safe failure fraction9999DCS [%] Diagnostic coverage safe42.343.1DC [%] Diagnosctic coverage9395Safety levelIEC/CEI 61508-1: SIL 2References:pages A3/6 and A3/7Description:pages A3/12 and A3/13Curves:pages A3/16 and A3/17Dimensions, schemes:page A3/18Ref.i";i:107;s:696:"A3/16Hybrid motor startersOverload protection tripping curve at 20 °CIrTime (s)0,525103112345678910205010030200I>45 A=>t<2sMaxMinClass10ADB418906.epsDerating curves: maximum load current (In)TaIn (A)10203024 V DC5060704006427531(°C)LZpH6X5BDLZpH2X4BD0LZpH6X5BD1122DB418907.epsDerating according: b motor starter control power supplyb ambient temperature (Ta)b distance between devices 1: 20 mm, with spacing 2: without spacing.TaIn (A)111020305060704006427531(°C)0LZpH6X5FULZpH2X4FULZpH6X5FU110-230 V AC22DB418908.epsCurvesTeSys ControlHybrid motor startersReferences:pages A3/6 and A3/7Description:pages A3/12 and A3/13Characteristics:pages A3/14 and A3/15Dimensions, schemes:page A3/18Ref.i";i:108;s:945:"A3/17Hybrid motor startersMinimum duty cycle t/T (%) versus cycle duration T (s) Due to the effect of the peak current on the H monitoring circuit during the starting time, a stop/start sequence should not occur before a certain amount of time. The diagrams below show the minimum duty cycle according the total period for 2 typical starting time values.With a starting time = 100 msT (s)Duty cycleDB430729.eps10 %20 %30 %40 %50 %60 %70 %80 %90 %0123456789101112131415AuthorizedfieldExample for starting time of 100 ms with period T = 10 s. ONt/T= 70 %T100 %00 %t/T = 30 %Not OKOKONTtt100 %00 %Starting time: defined by starting current durationDB418909.epsWith a starting time = 150 msT (s)Duty cycle20 %30 %40 %50 %60 %70 %80 %05101520253035AuthorizedareaDB418911.epsCurvesTeSys ControlHybrid motor startersReferences:pages A3/6 and A3/7Description:pages A3/12 and A3/13Characteristics:pages A3/14 and A3/15Dimensions, schemes:page A3/18Ref.i";i:109;s:1048:"A3/18Hybrid motor startersDimensions mm LZpHpppppLZpHppp3pp113.422.6106.5DB418912.eps113.422.6107.5DB418913.epsWiring diagramsMotor control by standard starterMotor control by safety starterL11/L12/T1L23/L2A1I.14/T2L35/L3A2I.298Y296Y195Y36/T3a(L) / +a(N) / -LZ1HpppppLZ2HpppppM 3aPEorDB418914.epsL11/L12/T1L23/L2A1I.1C4/T2L35/L3A2I.298Y296Y195Y36/T3a(L) / +a(N) / -LZ7HpppppLZ8HpppppM 3aPESafety Processing DeviceorDB418916.epsPower terminals T1, T2, T3 Motor connection L1, L2, L3 Power inputsControl terminals A1, A2 Auxiliary power unit I.1 Control input, direction 1 I.2 Control input, direction 2 (LZ2H and LZ8H only)C Control inputs common point (LZ7H and LZ8H only)Y1 Reset mode, common pointY2 Reset mode, remote, manual Y3 Reset mode, automatic 98, 96, 95 Trip or error signaling contact Dimensions, schemesTeSys ControlHybrid motor starters Characteristics:pages and References:pages A3/6 and A3/7Description:pages A3/12 and A3/13Characteristics:pages A3/14 and A3/15Curves:pages A3/16 and A3/17Ref.i";i:110;s:774:"TeSysControlA4/1Ultra motor startersTeSys ControlUltra motor starters IntroductionA4/2TeSys Ultra - Power bases, control modules, connectors Type of productRangePageStandard power base, basic control functionalities Direct and reversingUp to 18.5 kW A4/10TeSys Ultra - Communication components Parallel type cabling systemPrinciple and componentsA4/16Bus type cabling systems Principle, panorama and components A4/21TeSys LUFP communication gatewayA4/30TeSys Ultra - Accessories Short circuit current limiterA4/31Handles and accessories for rotary controlA4/32Handles and accessories for integration into a MCC drawerRESETRESETTESTTEST00A4/33TeSys Ultra with Altistart U01 Soft starters and Variable speed controllers A4/34Technical Data for Designers A4/433.0Chapter A4 ";i:111;s:353:"A4/2Ultra motor startersIntroductionMotor circuit breaker: GV2LMagnetic protection> short-circuit protectionContactor: DControl> Start /StopStatus monitoring> signaling> alarm monitoringProtection relay: LRDThermal protection> overloadFrom traditional solution to ...DB414490.epsPB121671_R.epsPB121681.epsPB121670_R.epsTeSys ControlUltra motor starters";i:112;s:386:"A4/3Ultra motor starters...Ultra motor starterUltra motor starter> All basic or advanced protection and control functions in one blockUltra motor starterscan be used in80 %of motor protection and control applications.DB414490.epsPB123877.epsand more...> Overload indication and alarm> Status report, remote control via communication busTeSys ControlUltra motor startersIntroduction";i:113;s:960:"A4/4Ultra motor startersDB414490.epsPB123877_R.tifAll in onep Optimising space in enclosures.p Total coordination (No contact welding on short circuit).p Reduces installation times.1Simplicity of choicep Controlled power.p Protection functions ensured.p Signaling functions, communication with PLC ensured.2Universal mountingp On DIN rail or grid.3Conventional projet designp Conventional control scheme with start , stop push buttons.4Basic scheme of a Ultra starter-controller1/L13/L25/L32/T14/T26/T3M3 aU1V1W1A2A11314DB414491R.epsC. U.Power circuitControl circuitp Protection and power control functions acting on a single set of contact (QF1).p The control unit (CU) monitors the voltage and current. In case of fault, it releases the coil, causing tripping.p The coil is controlled by manual orders from an operator. Automatic control from a PLC is achieved with other diagrams.Electrically simple5IntroductionTeSys ControlUltra motor starters";i:114;s:1226:"A4/5Ultra motor startersTeSys ControlUltra motor startersp 7.5 kW / 1-phase 230 V / 50-60 Hz.p 18.5 kW / 3-phase 400-440 V / 50-60 Hz.p 18.5 kW / 3-phase 500 V / 50-60 Hz.p 22 kW / 3-phase 690 V / 50-60 Hz.p Non-reversing or reversing.Motor up toDB414490.epsPB123877_R.tifCommon characteristics Short-circuit protection bIsc: v50 kA at y 400 V v10 kA at 500 V v4 kA at 690 V. bUp to 690 V AC.Overload protection bFrom 0.15 to 38 A, 6 setting ranges (tripping 14.2 x I setting). bTest button. bAdjustment lock. bCoil choice: 24 V, 48...72 V, 110...240 V DC/AC.3 power contacts bFor non-reversing (reversing with reverser block). bImax, for 12 A power base (direct - reversing): v12 A at up to 500 V / 50 Hz v9 A > 500 V, up to 690 V. bImax, for 38 A power base (direct - reversing): v38 A at up to 500 V / 50 Hz v21 A > 500 V, up to 690 V.1 NO contact 1 NC contact b5 A / max. 690 V AC or 250 V CC.Other monitoring contacts b5 A / max. 690 V AC or 250 V DC.Communication modules b Modbus, bEthernet, bCANopen, bDeviceNet, bAdvantys stb, bProfibus DP, bAS-interface.Dimensions bBase: b Base + reverser block:15445126DB416319.eps22445126DB416320.epsIntroduction";i:115;s:1098:"A4/6Ultra motor startersPower BaseThis is the basic constituent of the motor starter, it is composed of the power contacts, the control coil, the opening / closing mechanism of the protection device and the control pad.Additional lateral blockComposed of the protection device signaling contacts.Control unitComposed of the power base management processor and setting knobs.Auxiliary moduleDepending on its type, it integrates load status contacts or a communication processor or an alarm processor.Control terminal blockIt is composed of two terminals "coil control", 1 NO auxiliary contact, 1 NC auxiliary contact. It can be eventually connected to an auxiliary communication module via a dedicated cable.Additional blockIt includes protection device additional signaling contacts. By default, this is a simple shutter.Power baseCCavity for control terminal blockACavity for control unitDCavity for additional contact block or shutterBCavity for auxiliary moduleESpace for additional block fastening ABCDEDB414493.epsTeSys ControlUltra motor startersIntroductionThe modularity principle";i:116;s:1292:"A4/7Ultra motor startersDB439798.eps234561718192021789101112131415161ABCD23Power base1- LUB Non reversing power base - 1 rotation directionControl units2- LUCB/LUCC/LUCD Advanced control units3- LUCA Standard control unit4- LUCL Magnetic protection control unitAuxiliary module5- LUFN Auxiliary contacts moduleCommunication auxiliary modules10- LUFC00 Telefast parallel liaison module, with RJ45 connector11- ASILUFC5/ASILUFC51 AS-Interface c. m. 12- LULC033 Modbus c. m13- LULC07 Profibus DP c. m14- LULC08 CANopen c. m.15- LULC09 DeviceNET c. m.16- LULC15 Advantys STB c. m.Shutters17- LU9C1 Shutter for module cavity22- Shutter for contacts additional block cavityControl terminal blocks18- LU9BN11 Terminal block for imbedded auxiliary contacts19- LU9BN11C Coil terminal block with its connecting cable20- LU9BN11L Coil terminal block with its connecting cableAdditional contacts blocks21- LUA1 Additional contacts23- LUA8 side-mounting additional contactsE22TeSys ControlUltra motor startersComponents overviewLoad monitoring auxiliary modules6- LUFW10 Overload alarm module 7- LUFDH11 Overload alarm module with manual reset8- LUFDA01/LUFAD10 Overload alarm module with automatic reset/remote reset9- LUFV2 Motor load indication moduleIntroduction";i:117;s:714:"A4/8Ultra motor startersControl terminal blocks2- LU9MR1C Base/block assembling connector, with terminal block for imbedded auxiliary contacts3- LU9M1 Coil terminal block for wired control4- LU9MRC Coil terminal block with its connecting cable for communicating control (only compatible with a selection of com. modules).5-LU9MRL Coil terminal block with its connecting cable for communicating control (only compatible with a selection of com. modules).Reverser block1- LU2MB0pp vertical-mounting reverser blockTeSys ControlUltra motor starters Additional components overviewDB414495R.eps123456Evoluting reversing power base 6- Pre-assembled reversing power base LU2B12Introduction";i:118;s:409:"A4/9Ultra motor startersTerminal blocks for electrical remote control2- LU9MR1 Terminal block for 2 direction control (pulse or maintained control)3- LU9M1 Terminal block for power base coil interlocking. With direction of rotation monitoring contactsTeSys ControlUltra motor starters DB414497.eps312Reverser block1- LU6MB0pp Side-mounting reverser blockAdditional components overviewIntroduction";i:119;s:3674:"A4/10Ultra motor starters1 direction:LUB12, LUB32, LUB381 direction:LUB120, LUB320, LUB380 * LU9BN11: Terminal block for embedded auxiliary contacts to be ordered separately.PB123871.eps2 direction:LU2B12pp, LU2B32pp, LU2B38ppPB123859.tifLU9MR1CPB123866.epsLU6MB0ppPB123861.epsLU9MR1PB123865.epsLU2MB0ppPB123860.epsLU9M1PB123864.epsPB123872.epsProduct referencesPower basesUltra starters are composed with separate elements: power component + control units + auxiliary components.The power base includes the electro mechanical parts. It is selected according to: bMotor power to be handled bNumber of direction of rotation to be controlled: 1 or 2 bType of control to be acheived: Basic or Advanced.Basic control1- direction rotation control2 - direction rotation controlOverload + Short circuit protectionMain power monitoringStatus signaling contactsAdvanced controlFunctions of basic control + Digital display of electrical values+ Overload alarms+ Network/bus communicationFunctionMax motor standard power (400 V)Lip_in (400 V)ReferenceskWABasic ctrlAdvanced ctrl5.512LUB12LUB1201-direction rotation1532LUB32LUB32018.538LUB38LUB3805.512LU2B12pp (1)LUB120 + reverser block ass.2-direction rotation1532LU2B32pp (1) LUB320 + reverser block ass.18.538LU2B38pp (1) (2)LUB380 + reverser block ass.(1) Replace the 2 dots by the coil voltage code below – AC is 50-60 Hz.(2) With BL or FU code only.Coil voltage (V)24c24a48...72 c or a110...220 c and 110...240aCodeBLBESFUPlease check the availability of your variant in the index page A4/42. The SEARCH function of your viewer can be used.Reverser blocks - assembliesA reverser block assembly has to be added to the power base (LUB120 to 380) to build an ‘Advanced control’ with ‘2-direction of rotation’ Ultra starter.Reverser blocks with 2 mounting possibilities: bvertical mounting– mounted aspect: refer to LU2B12, 32, 38 bside mounting, on a Din rail. DB416347.epsVertical mountingDB36120.epsSide mountingBlocksReferencesVertical mountingSide mounting1 Reverser blockLU2MB0pp (1)LU6MB0pp(1)2 Aux. contacts connectorLU9MR1CLU9MR13 Coil supply connectorLU9M1LU9M1(1) Replace the 2 dots by the coil voltage code below – AC is 50-60 Hz.Coil voltage (V)24c24a48...72 c or a110...220 c and 110...240aCodeBLBESFU213123Main technical caracteristics Power bases 1-direction power base overall dimensions (HxWxD) : 154 x 45 x 126 mm2-direction power base (assembly with vertical mounting reverser block) overall dimensions (HxWxD): 224 x 45 x 126 mm Power bases are delivered with protective blanking plates.3 power poles, for connections of a 1-phase or 3-phase motorScrew clamp power terminals, for up to 2 x 6 mm² conductorsScrew clamp control terminals, for up to 2 x 1.5 mm² conductorsLUB12,32,38 imbedded terminals: bcoil supply, bNO (13-14) contact (for control push button) bNC (21-22) contact (for control push button).Additional signaling contact modules provide more possibilities.Reversing assemblies LU2MB0, LU6MB0: 3 power poles, for connections of a 1-phase or 3-phase motor, screw clamp power terminals, for up to 2 x 6 mm² conductorsLU9 connectors: screw clamp control terminals, for up to 2 x 1.5 mm² conductorsLU2MB0pp, LU6MB0pp provide terminals for power circuits. LU9MR1C, LU9MR1 provide signalling contact terminals (82-81-84) that indicate the direction of rotation.LU9M1 provides coil supply terminals (A2-A1-A3) and 2 NO contact terminals (A1-B1, A3-B3) for direction control.TeSys ControlUltra motor starters - Power basesCharacteristics:pages A4/44 to A4/46, A4/54Curves:pages A4/56 to A4/59Dimensions:pages A4/60 and A4/61Schemes:pages A4/62 to A4/74";i:120;s:2185:"A4/11Ultra motor startersUltra starters are composed with separate elements: power component + control units + auxiliary modules.The control unit includes electronic components and the current adjustment dial. The control uinit is selected according to: bMotor power to be handled.Type of protection: thermal+magnetic or magnetic only. Control units for power bases with basic controlLUCA - thermal + magnetic (standard) units b Protection against overload: 14.2 x lr (setting current). b Protection against short circuit: 13 x lr max (max setting current). b Protection against missing or unbalanced phases. b Protection against insulation fault (protection of equipment only). bClass 10 tripping. bFrequency 50...60 Hz.LUCL - magnetic units bProtection against short circuits. b To be used when a standard power base is connected to a motor drive or a soft starter, as they provide the overload protection.Note: both LUCA and LUCL units can be used in the advanced power bases LUB120 and LUB320.Maximum standardized power ratings of 3 phases motors 50/60 HzSetting rangeLip_in mounting on the power base - RatingDB414499.eps400/440 V500 V690 VControl unit product reference (1)kWkWkWAAThermal + magneticMagneticLUCALUCL0.09--0.15...0,612 and 32LUCAX6ppLUCLX6pp0.25--0.35...1,412 and 32LUCA1XppLUCL1Xpp1.52.231.25...512 and 32LUCA05ppLUCL05pp5.55.593...1212 and 32LUCA12ppLUCL12pp7.59154.5...1832LUCA18ppLUCL18pp151518.58...3232LUCA32ppLUCL32pp18.518.5229.5...3838LUCA38pp (2)LUCL38pp (2)(1) Replace the 2 dots by the coil voltage code below – AC is 50-60 Hz. (2) With BL or FU code only.Coil voltage (V)24c24a48...72 c or a110...220 c and 110...240aCodeBLBESFUPlease check the availability of your variant in the index page A4/42. The SEARCH function of your viewer can be used.LUCA, LUCB, LUCC, LUCD, LUCL series.Ex.: LUCA05BLPB123879.epsProduct referencesDB414499.eps1324LUCApppp1 Extraction and locking handle.2 Sealing of locking handle.3 Ir adjustment dial.4 Locking of settings by sealing the transparent cover.TeSys ControlUltra motor starters - Control unitsCharacteristics:pages A4/47 to A4/49, A4/55 Curves:pages A4/56 to A4/58Schemes:page A4/60";i:121;s:1792:"A4/12Ultra motor startersProduct referencesControl units for power bases with advanced controlLUCB, LUCC, LUCD control and diagnostic unitsMotor protection, fault diagnostic.Protection against boverload: 14.2 x lr (setting current).Simulation of an overload by depressing the test push button. bshort circuit: 13 x lr max (max setting current). bmissing or unbalanced phases.Overload alarm management: blocally: with one of the LUF family module bRemotely: with LULC031, LULC033, LULC07, LULC08, LULC09 or LULC15(thermal alarm only) communication module.Reset: bmanual bautomatic, with a communication moduleMaximum standardized power ratings of 3 phases motors 50/60 HzSetting rangeLip_in mounting on the power base - RatingDB414499.epsProtection type:- overload- short-circuit- Main power fault- alarm400/440 V500 V600 VkWkWkWAAClass 10Class 10Class 201P3P 3P3P3P1P 3P -0.09--0.15...0.612 and 32LUCBX6ppLUCCX6ppLUCDX6pp0.090.25--0.35...1.412 and 32LUCB1XppLUCC1XppLUCD1Xpp0.551.52.231.25...512 and 32LUCB05ppLUCC05ppLUCD05pp2.25.55.593...1212 and 32LUCB12ppLUCC12ppLUCD12pp47.59154.5...1832LUCB18ppLUCC18ppLUCD18pp7.5151518.58...3232LUCB32ppLUCC32ppLUCD32pp18.518.5229.5...3838LUCB38pp (1)LUCD38pp (1)Cial. ref. of the control unit: replace dots by the coil code.Please check the availability of your variant in the index page A4/42. The SEARCH function of your viewer can be used.Coil voltage (V)24c24a48...72 c and 48a110...220 c and 110...240aCoil codeBLBESFU(1) With BL or FU code only.LUCB32BLPB123944.pngDB414509.eps1234LUCBpppp, LUCCpppp, LUCDpppp control units1 Extraction and locking.2 Handle sealing of locking.3 Handle 4 Ir adjustment dial test push button.TeSys ControlUltra motor starters - Control unitsCharacteristics:page A4/47Curves:pages A4/56 to A4/58Schemes:page A4/63";i:122;s:2285:"A4/13Ultra motor startersProduct referencesLUA8E20PB123868.epsLUFV2PB121255.epsLUFDH11PB121257.epsLUFDA01PB121258.epsLUFV2 typical response curve20 %12410020012.2 kW14 kW27.5 kW323mADB436630.aiLUFDA10PB121259.epsLUFW10PB121256.epsLUFN02PB123875.epsLUA1C20PB123867.epsDB414501.epsBCELUA8E20LUFNppLUA1CppSignaling module and blocks They provide dry contacts of Normally Open (NO) or Normally Closed (NC) type for signaling purpose. The monitored status can be either the motor running status or the protection device status, depending on the commercial reference of the module or block.Common electrical characteristicsStandard operating voltage: 24...250 V AC/DC.Maximum current: 5 A.Compatibility - PositioningThe signaling module and blocks can be use in any power baseLUA8E20 is clipped on the E side of the power baseLUFN11, LUFN02, LUFN02 inserted into B cavityLUA1C20, LUA1C11 inserted into C cavityNote: B and C cavities may be already used for reverser-starter, communication. Signaling module and blocks OutputReferencesModule Motor running status: ON / OFF1 NO + 1 NCLUFN112 NCLUFN022 NOLUFN20Block Protection status: OPEN / CLOSED (OF) STANDBY / TRIPPED (SD)2 NOLUA1C201 NO + 1 NCLUA1C11Side block Protection status: OPEN / CLOSED (OF) 2 NOLUA8E20Function modulesThey provide analog output or dry contacts of Normally Open (NO) or Normally Closed (NC) type for measurement or signaling purpose. Common electrical characteristicsStandard operating voltage: 24...250 V AC/DC.Maximum current: 5 A.Compatibility - PositioningThe function modules can only be used in a LUB120, LUB320 or LUB380 power base, in cavity B.Function modulesOutputtypeReferencesElectrical value: average current in each phase.The signal is the image of the pourcentage of In.External 24 V DC power supply neededAnalog: 4-20 mALUFV2Contact closes if average current in the phases = 105 % of In1 NOLUFW10Contacts change state if tripping is caused by overload 1 NO + 1 NCLUFDH11Contact opens if overload tripping is reset with control pad or remotly1 NCLUFDA01Contact closes if overload tripping is reset with control pad or remotly1 NOLUFDA10TeSys ControlUltra motor starters - Signaling Modules/Blocks - Function modulesCharacteristics:pages A4/50 to A4/54Schemes:pages A4/62 to A4/64";i:123;s:3144:"A4/14Ultra motor startersProduct referencesLUFC00PB121260.epsLULC033PB121261.epsLULC07PB121261.epsLU9BN11CPB121264.epsLU9MRCPB121266.epsLU9MRLPB121267.epsLU9BN11LPB121264.epsLULC15PB121290.epsASILUFC51PB121262.epsAuxiliary parallel wiring module (1)Auxiliary parallel wiring module for Modicon Telefast system Inputs They collect the FWD, REV controls from an automation process.An RJ45 parallel port is used, for connection to the 24 V DC outputs of a PLC.OutputsThey give the position of the control pad and the state of the poles,They provide 24 V DC controls to the LUB120, 320 or 380 power base coil via the LU9BN11C adapter (A2, A1) or to the LU2B12, 32, 38 power base coil with a LU9MRC adapter (A2, A1, A3).Compatibility - PositioningThe paralle wiring module can only be used in any Ultra power base, with LUCppp control unit with coil voltage Compatible with: bModicon TM3 (map I/O controllers for RJ45 M221, M241, M25) bModicon STB modules (I/O for automation island) bModicon Telefast (interfaces RJ45/HE10).The parallel wiring module is inserted in cavity B.Note: the parallel wiring module must be connected to a LU9G02 or LU9G03 Telefast distributionNote: more details on parallel wiring page A4/16. DesignationReferencesUltra power base parallel wiring module LUFC00Communication modules Communication modulesThese modules send the control pad position and pole state to a communicating system (PLC, monitoring system,...)They collects the Forward, Reverse motor controls from an automation process.The status and controls are coded according to an industrial communication protocol, depending on the communication module.Bus cable connection, external power supply by crew clamp terminals.Connector for coil control (to A1-A3-A2) via a prewired connection (LU9BNp for 1-direction control, LU9MRp for 2-direction control)Compatibility - PositioningThe communication modules can only be used in a LUB120, LUB320 or LUB380 power base, in cavity B.DesignationReferencesUltra Modbus communication module LULC033Ultra AS-Interface communication module ASILUFC51Ultra Profibus DP communication module LULC07Ultra CANopen communication module LULC08Ultra DeviceNet communication module LULC09Ultra Advantys STB communication module LULC15Note: Ethernet communication can be acheived with LULC033 + ConneXium Port (ref. TCSEQM113M13M)Note: more details on bus-type communication page A4/21.Prewired connectorsThey provide the necessary electrical link between a parallel or communication module and the coil supply connector, on the power base or reverser block. Thus, ON-OFF (1 direction) or FORWARD-REVERSE (2 direction) controls can be acheived.Prewired connectionReferencesCompatibility with modules1 directionShort cable Side connectionLU9BN11CLUFC00, LULC033, ASILUFC51Bottom connectionLU9BN11LLULC07, 08, 09, 152 directionLong cable Side connectionLU9MRCLUFC00, LULC033, ASILUFC51Bottom connectionLU9MRLLULC07, 08, 09, 15TeSys ControlUltra motor starters - Communication modulesIntroduction:pages A4/16 to A4/19, A4/21 to A4/23Characteristics:pages A4/24 to A4/29, A4/51 to A4/55Schemes:pages A4/64 to A4/67i";i:124;s:25:"A4/15Ultra motor starters";i:125;s:1173:"A4/16Ultra motor startersPoint-to-point wiringDB416375.eps bThe control inputs and signaling outputs of the starter are grouped in a single socket, usually RJ45. They are individually connected to PLC outputs and inputs. bThe wires run in parallel in a multicore cable equipped with a multipin connectors, RJ45 in the case of Telefast type system. b3 parallel wiring systems are available: vModicon TM3, based on a RJ45 I/O module for M221, M241, M25 PLC vModicon STB, based on I/O modules for automation island vModicon Telefast: RJ45 / HE10 interfaces. bSimple way of proximity wiring. Quick cabling. It is suitable for machine control panels when a large number of Ultra starter-controller are installed. PB105089.epsinformationsParallel cabling systemsDB416374.eps bThe control and signaling terminals of the starters are connected to the output and input terminals of a PLC. No specific connectors or cables are required. bConventional wiring mode, without optimization of the cabling time. May be suitable when a very small number of starters is used, with a very small number of links.TeSys ControlUltra motor starters - Parallel-type cabling systemsIntroduction";i:126;s:449:"A4/17Ultra motor startersIntegration in the Modicon TM3 wiring systemThe Ultra starter-controller are directly connected to a I/O module equipped with RJ45 connectors.1 Modicon M221, M241, M251 PLC's2 TM3XTY I/O module for 4 starters3 LU9Rpp cables with RJ45 connectors,4 LUFC00 module for TeSys Control parallel connection (1 or 2 direction of rotation).1234DB432852.epsTeSys ControlUltra motor starters - Parallel-type cabling systemsIntroduction";i:127;s:859:"A4/18Ultra motor startersTeSys ControlUltra motor starters - Parallel-type cabling systemsIntegration in the Modicon Advantys STB systemAdvantys STB is a solution for remote I/O modules.These communicate with the Modicon PLCs range thanks to a serial liaison, using the Advantys STB protocol.In this example an Advantys I/O module is used to facilitate wiring.Each of its four terminals receives a preassembled RJ45 cable connected to a Ultra starter-controller. 1 Ultra LUB120, 320 or 380 power base (equipped with 24 V DC LUCppppBL control modules)2 TeSys Control module for parallel RJ45 wiring: LUFC00 + LU9BN11C (one direction) or LU9MRC (2 directions for LU2B12, 32 or 38 power base)3 RJ45 cables (2 connectors): y 3 m: LU9Rpp > 3 m: 490 NTW000pp (5, 12, 40 or 80 m)4 PLC: Modicon range5 I/O Modicon Advantys module: STB EPI 2145K12354Introduction";i:128;s:829:"A4/19Ultra motor startersIntegration in the Modicon Telefast systemThe wiring hubb LU9G0p facilitates the connection to Modicon Premium PLCs.It adapts RJ45 connectors to HE10 available on the Telefast I/O modules.Connection: up to 8 Ultra per hubb.1 Ultra LUB120, 320 or 380 power base (equipped with 24 V DC LUCppppBL control units)2 TeSys Control module for parallel wiring RJ45: LUFC00 + LU9BN11C (one direction) or LU9MRC (2 directions for LU2B12, 32 or 38 power base)3 RJ45 cables (2 connectors): y 3 m: LU9Rpp > 3 m: 490 NTW000pp (5, 12, 40 or 80 m)4 Telefast RJ45 / HE10 splitter box: LU9G02 or LU9G03 (different Ultra connection capacities)5 HE10 cables (2 connectors): TSXCDPppp6 PLC: Modicon Premium range7 I/O module: TSX DMY 28FKTeSys ControlUltra motor starters - Parallel-type cabling systems1236574Introduction";i:129;s:1873:"A4/20Ultra motor startersTeSys ControlUltra motor starters - Parallel-type cabling systems12DF566964.epsComponents for connection of a starter - 1 direction of rotationDesignationReference13DF510918.eps1 Parallel connection module, RJ45 output 2 coil control inputs, 3 signal outputsLUFC002 Pre wired connector, one direction of rotation, for LUB120, 320 or 380 power base coil connection and one contact for emergency stopLU9BN11CComponents for connection of a starter - 2 directions of rotationDesignationReference1 Parallel connection module, RJ45 outputLUFC003 Pre wired connector, 2 directions of rotation, for LU2B12, 32 or 38 power base coil connection and one contact for emergency stopLU9MRCPB123862.epsLU9G02PB123863.epsLU9G03Telefast RJ45/ HE10 splitter boxDesignationReferenceSplitter box Connection to U: 4 RJ45 connectors: for 1 to 4 U, 1 or 2 directions 4 RJ45 connectors: for 1 to 4 U, 1 direction Connection to PLC: 1 x HE10 connector - 20 chanels, for pole status, alarms 1 x HE10 connector - 20 chanels, for control. 24 V DC auxiliary power supply requiredLU9G02Splitter box Connection to U: 8 RJ45 connectors: for 1 to 8 U, 1 or 2 directions Connection to PLC: 1 x HE10 connector - 20 chanels, for pole status, alarms 1 x HE10 connector - 20 chanels, for control. 24 V DC auxiliary power supply required.LU9G03RJ45 connection cables, with 2 RJ45 connectors0.3 mLU9R031 mLU9R103 mLU9R30HE10 connection cables, with 2 HE10/20 way connectorsSection: AWG 22 / 0.324 mm²0.5 m TSXCDP0531 m TSXCDP1032 m TSXCDP2033 m TSXCDP3035 m TSXCDP503Section: AWG 28 / 0.080 mm² (flat cable) 1 m ABFH20H1002 m ABFH20H2003 m ABFH20H300Cable with stripped wires (PLC side)1 x HE10/20 ways connector (Splitter box side)Section: AWG 22 / 0.324 mm²3 m TSXCDP3015 m TSXCDP501DB414708.epsRJ45 cables.Product referencesCharacteristics:page A4/53Schemes:pages A4/67 and A4/68";i:130;s:1948:"A4/21Ultra motor startersTeSys ControlUltra motor starters - Bus-type cabling systems Application functionality, topology1 Geographically expanded processMany motors are scattered on the site, the process control requires individual control to ensure safety and proper operation.Ultra is a suitable communicating actuator. The integration of a bus communication module in the starter-controller saves space in the control board and simplifies wiring, compared to solutions based on conventional components (circuit breaker + contactor).2 Application: automatic motor control / monitoringThanks to a communication bus, starter-controllers are part of an automation system controlled by a PLC and (or) various communicating controllers.These equipment can then share the status and alarm information related to each motor control and perform specific treatments.3 Bus- type connectionThis type of connection allows different topologies (star, ring ...) and supports various protocols dialogue. It is therefore recommended for geographically expanded process, in order to to simplify wiring and ensure multiple-controller management.Available Ultra status and controls via a communication moduleControl unitLUCALUCB LUCC LUCDLUCMStarter status (ready, running, fault)bbbStart and Stop commandsbbbThermal overload alarmbbRemote reset via the busbbIndication of motor loadbbFault signalling and differentiationbbRemote programming and monitoring of all functionsb“Log” functionb“Monitoring” functionbAlarms (overcurrent, ...)bPB105092.eps bThe bus wiring interconnects Ultra starters controllers and components of the installation via a single the cable. bCommands and status are coded according to the selected protocol and transmitted on the communication bus. bThis wiring is simple, usually a shielded (or not) pair of wires, suitable for monitored automation, regardless of the number of Ultra and their locations.DB416376.epsIntroduction";i:131;s:448:"A4/22Ultra motor startersTeSys ControlUltra motor starters - Bus-type cabling systemsNetwork Architecture Component referencesModbusEtoileBus1 LULC033 2 LU9BN11C3 LU9MRC4 VW3A8306Rppp5 LU9GC36 VW3A8306TF11266111223452Details page A4/26Advantys STBStarter-controllers communicate using ADVANTYS STB protocol to fit into a remote I/O architecture.11342561 LULC15 2 LU9BN11L3 LU9MRL4 LU9RDDppp5 LU9RCD6 STBXBE1100Details page A4/27Introduction";i:132;s:513:"A4/23Ultra motor startersNetworkArchitectureComponent referencesProfibus-DP (Decentralized Peripherals)is used for connecting actuators and sensors to a central controller for applications in industrial production.The standard bus provides a number of diagnostic means c 24 V11342651 LULC07 2 LU9BN11L3 LU9MRL4 LU9RPB010 LU9RPB100 LU9RPB4005 LU9AD76 LU9GC7Details page A4/28DeviceNet Details page A4/29c 24 V21131 LULC09 2 LU9BN11L3 LU9MRLTeSys ControlUltra motor starters - Bus-type cabling systemsIntroduction";i:133;s:1221:"A4/24Ultra motor startersTeSys ControlUltra motor starters - AS-Interface communication modulesThe ASILUFC5 communication module, combined with the power base and control unit is used to control Ultra starters-controllers via DeviceNet bus.The LULC09 communication module is slave type.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors v1 x 24 V DC output - 0.5 A local auxiliary command.Connectors bFor Ultra 24 V DC coil (common, direction 1, direction 2). bFor AS-Interface bus.Signaling bModule Status - Error - 24 V, by LED.Tesys Control componentsDescriptionMark Max number of slaves ReferencesAS-Interface communication module131ASILUFC562ASILUFC51Pre-wired connector: coil - LUB powerbase2-LU9BN11CPre-wired connector: coil - LU2B powerbase3-LU9MRC12DB414635.eps3DB414636.eps1 Green LED: AS-Interface voltage present2 Red LED: AS-Interface or module fault3 Outputs for starter commands4 Black connector for connection to c 24 V auxiliary power supply5 Yellow connector for connection to the AS-Interface system12345PB121291.epsProduct referencesCharacteristics:pages A4/51, A4/53, A4/55Schemes:pages A4/64, A4/70, A4/72";i:134;s:1772:"A4/25Ultra motor startersTeSys ControlUltra motor starters - CANopen communication module1 LED indicating module status2 Fault signalling LED3 LED indicating c 24 V supply ON for outputs OA1, OA3 and LO14 SUB-D connector for bus link5 c 24 V supply connection6 Discrete input7 Discrete input8 Discrete output9 Outputs for starter commandsThe LULC08 communication module, combined with the power base and control unit is used to control Ultra starters-controllers via CANopen bus.The LULC08 communication module is slave type.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors v1 x 24 V DC output - 0.5 A local auxiliary command.Connectors bFor Ultra 24 V DC coil (common, direction 1, direction 2). bFor CANopen bus.Signaling bModule Status - Error - 24 V, by LED.Tesys Control componentsDescriptionItemReferencesCANopen communication module1LULC08Pre-wired connector: coil - LUB powerbase2LU9BN11LPre-wired connector: coil - LU2B powerbase3LU9MRLCompatibility of CANopen communication module with control unitsLUCA ppBL / B ppBL / C ppBL / D ppBLAll versions marketed after 2T0481 (1)LUCMppBLAll versions u V3.2LUCMT1BLAll versions u V3.2(1) This “date code” is made up as follows: 2T or 2C: factory code. 04, 05, 06 and so on: year of manufacture. 08: week. 1: 1st day of the week.How to get information on the design of a CANopen architecture and the choice of network accessoriesConsult the library of downloadable documents on schneider-electric.com by searching on the name of the communication protocol.123DB414637.epsDB414638.epsProduct references123468759PB121303.epsCharacteristics:pages A4/52, A4/53, A4/55Schemes:page A4/66";i:135;s:1848:"A4/26Ultra motor startersTeSys ControlUltra motor starters - Modbus communication moduleLULC033 communication module, combined with the power base and control unit is used to control Ultra starters-controllers via Modbus.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors (on LULC033 only) v1 x 24 V DC output - 0.5 A local auxiliary command.ConnectorsFor Ultra 24 V DC coil (common, direction 1, direction 2). bRJ45, For Modbus line.Signaling bModule Status - Error - 24 V, by LED.Tesys Control componentsDescriptionItem Bin. inputReferencesModbus communication module12LULC033Pre-wired connector: coil - LUB powerbase2-LU9BN11CPre-wired connector: coil - LU2B powerbase3-LU9MRCModbus hubDescriptionLength (m)ReferencesModbus communication distributor-LU9GC3Cables fitted with 2 x RJ45 connectors0.3VW3A8306R031VW3A8306R103VW3A8306R30Tees derivations0.3VW3A8306TF031VW3A8306TF10DescriptionReferencesRS 485 line terminatorVW3A8306RCompatibility of Modbus communication modules Communication modules (software version)LULC033 from V2.1LULC033 from V2.2Power baseLUBpp / LU2Bp2bbLUTMppBLbbControl unitLUCAppBLbLUCBppBLLUCCppBLLUCDppBLbLUCMppBLb (1)LUCBTppBLLUCDTppBLbLUCMTppBLb(1) Except LUCM ppBL V1.04 and V1.06.How to get information on the design of a Modbus architecture and the choice of network accessoriesConsult the library of downloadable documents on schneider-electric.com by searching on the name of the communication protocol.1 Module status signalling LED2 24 V supply connection3 RJ45 connector for RS485 Modbus link4 2 discrete inputs5 1 discrete output6 Outputs for starter commandsLULC03312DB414639.eps3DB414640.epsDB414709.epsProduct referencesPB121552.eps124536Characteristics:pages A4/51, A4/53, A4/55Schemes:pages A4/65 and A4/73";i:136;s:2164:"A4/27Ultra motor startersTeSys ControlUltra motor starters - Advantis STB communication moduleCommunication module LULC15 allows direct connection of Ultra starter-controllers and controllers on an Advantys STB island, between two segments or at the end of a segment. The starter-controller will then be able to make use of the services provided by Advantys STB: self-addressing, autobaud, fallback positions.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors (on LULC033 only) v1 x 24 V DC output - 0.5 A local auxiliary command.Connectors bFor Ultra 24 V DC coil (common, direction 1, direction 2). bFor Advantys STB bus.Signaling bCom - Error - 24 V, by LED.Tesys Control componentsDescriptionItemReferencesAdvantys STB communication module 1LULC15Pre-wired connector: coil - LUB powerbase2LU9BN11LPre-wired connector: coil - LU2B powerbase3LU9MRLCables DescriptionLength (m)ReferencesCables fitted with connectors, one straight and one elbowed0.3LU9RCD031LU9RCD105LU9RCD50Cables fitted with two straight connectors0.3LU9RDD033LU9RDD30Compatibility of Advantys STB communication module with control unitsLUCAppBL / BppBL / CppBL / DppBLAll versions marketed after 2T0481 (1)LUCMppBLAll versions u V3.2LUCMT1BLAll versions u V3.2(1) This “date code” is made up as follows: 2T or 2C: factory code. 04, 05, 06 and so on: year of manufacture. 08: week. 1: 1st day of the week.How to get information on the design of a Advantys STB architecture and the choice of network accessoriesConsulter la librairie des documents téléchargeables sur le site schneider-electric.com en faisant une recherche sur le nom du protocole de transmission.1 Two-colour LED indicating module status2 Fault signalling LED3 LED indicating that c 24 V supply is ON4 Bus connectors5 c 24 V supply connection6 Discrete input7 Discrete input8 Discrete output9 Outputs for starter commandsLUB + LULC15 + LU9BN11L12DB414641.epsLU2B + LULC15 + LU9MRL3DB414642.epsProduct referencesPB121553.eps123459768Characteristics:pages A4/52, A4/53, A4/55Schemes:page A4/67";i:137;s:2230:"A4/28Ultra motor startersTeSys ControlUltra motor starters - Profibus DP communication moduleWhen used in conjunction with the power base and control unit, communicationmodule LULC07 allows Ultra starter-controllers to be controlled via Profibus DP(Deported Periphery) bus.Communication module LULC07 is of the slave type.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors v1 x 24 V DC output - 0.5 A local auxiliary command.Connectors bFor Ultra 24 V DC coil (common, direction 1, direction 2). bFor Profibus DP bus.Signaling bCom - Error - 24 V, by LED.Tesys Control componentsDescriptionItemReferencesProfibus DP communication module 1LULC07Pre-wired connector: coil - LUB powerbase2LU9BN11LPre-wired connector: coil - LU2B powerbase3LU9MRLComponents for connection to the bus and to the installationThe 24 V DC -Aux supply to Profibus DP modules LULC07 must pass through power supply module LU9GC7.LULC07 modules must be connected to the LU9GC7 splitter box in order to be powered.The number of Ultra starter-controllers that can be powered by an LU9GC7module is limited by the maximum current (1.5 A) which it can deliver.The c 24 V supply for the inputs/outputs must be provided separately..DescriptionLength (m)ReferencesProfibus DP power supply module-LU9GC7Profibus DP connector-LU9AD7Profibus DP cables 2-wire100TSXPBSCA100400TSXPBSCA400Profibus DP cables4-wire10LU9RPB010100LU9RPB100400LU9RPB400How to get information on the design of a Profibus DP architecture and the choice of network accessoriesConsult the library of downloadable documents on schneider-electric.com by searching on the name of the communication protocol.1 Two-colour LED indicating module status2 Fault signalling LED3 LED indicating c 24 V supply ON for outputs OA1, OA3 and LO14 SUB-D connector for bus link5 c 24 V supply connection6 Discrete input7 Discrete input8 Discrete output9 Outputs for starter-controller commands (non-reversing and reversing)LU2B + LUCpppBL + LULC07 + LU9MRL3DB414644.epsLUB + LUCpppBL + LULC07 + LU9BN11L12DB414643.epsProduct referencesPB121554.eps123457896Characteristics:pages A4/52 and A4/55Schemes:page A4/66, A4/67";i:138;s:1543:"A4/29Ultra motor startersTeSys ControlUltra motor starters - DeviceNet communication module1 LED indicating module status2 Fault signalling LED3 LED indicating c 24 V supply ON for outputs OA1, OA3 and LO1 and 24 V bus4 DeviceNet connector for bus link5 c 24 V supply connection6 Discrete input7 Discrete input8 Discrete output9 Outputs for starter-controller commands (non-reversing and reversing)When used in conjunction with the power base and control unit, communication module LULC09 allows Ultra starter-controllers to be controlled via DeviceNet bus.Communication module LULC09 is of the slave type.Module SpecificationsI/O terminal block bPowered by external 24 V DC (power supply not included): v2 x configurable inputs for binary sensors v1 x 24 V DC output - 0.5 A local auxiliary command.Connectors bFor Ultra 24 V DC coil (common, direction 1, direction 2). bFor DeviceNet bus.Signaling bCom - Error - 24 V , by LED.Tesys Control componentsDescriptionItemReferencesDeviceNet communication module 1LULC09Pre-wired connector: coil - LUB powerbase2LU9BN11LPre-wired connector: coil - LU2B powerbase3LU9MRL How to get information on the design of a DeviceNet architecture and the choice of network accessoriesConsult the library of downloadable documents on schneider-electric.com by searching on the name of the communication protocol.LUB + LUCpppBL + LULC07 + LU9BN11L12DB414645.epsLU2B + LUCpppBL + LULC07 + LU9MRL3DB414646.epsProduct referencesCharacteristics:pages A4/52, A4/53, A4/55Schemes:page A4/66PB121555.eps945786123";i:139;s:1749:"A4/30Ultra motor startersIntroductionLUFP communication gateways allow connection between the Modbus serial link and Fipio, Profibus DP or DeviceNet field buses.After configuration, these gateways manage information which can be accessed by the Modbus serial link and make this information available for read/write functions (command, monitoring, configuration and adjustment) on the field buses.An LUFP communication gateway consists of a box which can be clipped onto a 35 mm omega rail, allowing connection of up to 8 Slaves connected on the Modbus serial link.Example of architectureConfigurationof gatewayby PCUltra starter-controllersFipio Profibus DP DeviceNetLUFPATS 48 ATV 312(1)ModbusDF511517.epsCommunication gateway LUFPDescriptionReferenceFipio / Modbus gatewayLUFP1Profidus DP / Modbus gatewayLUFP7DeviceNet / Modbus gatewayLUFP9DescriptionFront panel of the product1 LED indicating : - communication status of the Modbus serial links, - gateway status, - communication status of the Fipio, Profibus DP or DeviceNet bus.2 Connectors for connection to Fipio, Profibus DP or DeviceNet buses. Underside of product3 RJ45 connector for connection of the Modbus serial link4 RJ45 connector for link to a PC5 c 24 V power supply Software set-upFor the Fipio bus, software set-up of the gateway is performed using either PL7 Micro/Junior/Pro software or ABC Configurator software.For the Profibus DP and DeviceNet buses, software set-up is performed using ABC Configurator.This software is included in the Ultra user’s manual. (1) Connection kit for PowerSuite software workshop.561512.epsDF526109-17-M.eps12345TeSys ControlUltra motor starters - LUFP communication gatewaysProduct referencesSchemes:page A4/68PB121557.epsLUFP9";i:140;s:2010:"A4/31Ultra motor startersTeSys ControlUltra motor starters - Current limiter blocks - AccessoriesDB436115.epsLUALB1PB138227.epsLA9LB920Short-circuit current limiter blockTo be connected in series and upstream of a Ultra starter-controller. It increases its ability to withstand the short circuit current from 50 kA to 100 or 130 kA under 400 V.Principle: under the action of a short-circuit, the opening of two contacts of each phase of the limiter creates a resistive arc. The current then decreases to a value tolerable by a Ultra power base.Limiter blocks and accessoriesDescription Breaking capacity Iq (kA)Ie (A)Ith (A)MountingUnit referencey 440 V690 VLimiter-disconnector (1 x LUAFL1 cartridge supplied)13070-32Direct on power base up to 15 kW/32 ALUALB1 (1)Limiter100353263SeparateLA9LB920 (2)limiter cartridge for LUALB113070--Limiter-disconnectorLUALF1(1) Must be connected to one power base only.(2) Can be connected to multiple Ultra power bases in parallel with limitation : b Total Ith max 63 A b Total nominal current (Ie) 32 A from motor with simultaneous start (LA9LB920 could not withstand higher inrush peak current)DB436116.epsLU9SP0Phase barrierEnsures a complementary electrical insulation between phases. 690 V AC network: compulsory.440 V AC network: compulsory when assembling a UL508 type E compliant motor starter (Self Protected Starter).DescriptionUseMountingReferencePhase separatorLUB or LU2B 12 or 120 LUB or LU2B 32 or 320 LUALB1Live terminals L1, L2, L3LU9SP0Clip-in labelsCan be clipped on any Ultra power base, on LU6MB0pp inverser block, and Linergy HK busbar system.Marking accessoryDescriptionSold by lot ofReference per unitClip-in label 8 x 18 mm100LAD90PB113928.epsLU9ET1S Safety-chain identification - Red labelThe red sticker is dedicated to Ultra LUCA, LUCB, LUCC, LUCD and LUCL control units.DescriptionReference per unitRetrofit safety-chain identification sticker LU9ET1SLUALF1PB123870.epsProduct referencesCharacteristics:page A4/50Dimensions:page A4/61";i:141;s:2459:"A4/32Ultra motor startersTeSys ControlUltra motor starters - Rotary handlesExtended rotary handleAllows a circuit breaker or a Ultra starter-controller installed in back of an enclosure to be operated from the front panel.The rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (OFF) or | (ON) position (depending on the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm.The extension shaft must be adjusted to the depth of the enclosure.The IP54 rotary handle is fixed with a nut (Ø22) to make it easier to assemble.Mounting kit1 Ultra power base bracket; its horseshoe shaped sides hold the rotary mechanism facing the original handle.2 Mechanism, shaft and handle; the shaft enters the handle attached to the door during closing.Long shaft bto be cut to the required length. Equipped with a connection endpiece. Shaft support plate for deep enclosure bProvides horizontal guiding of the shaft, when the door is open. Spacer base (retrofit accessory) bFixed on a side of the box, for heightening an GVAPppp handle.Handle bDelivered as a single unit, to be fitted on a side of the enclosure.Note: references below are suitable for Ultra power bases after 2004."Laser Square" Tool bOn the principle of an angle extended with a laser beam, the "Laser Square" facilitates tracing the piercing marks on the door or the sides of an enclosure."Safety" stickers bMarking: Electrical hazard, etc.DescriptionTripping indicationReferenceMounting kit Black handle, with error status, IP54pLU9APN21Red handle, with error status, IP54pLU9APN22Red handle, without error status, IP65-LU9APN24Separate elementsLong shaft = 315 mm-GVAPA1Shaft (u 300 mm) support plate for deep enclosure-GVAPK12Spacer base-GVAPP1Black handle, IP54pGVAPB54Red handle, IP54pGVAPR54Red handle, IP65GVAPR65Tool"Laser square" plotting toolGVAPL01"Safety" stickersGerman (x10)GVAPSDEChinese (x10)GVAPSCNPortuguese (x10)GVAPSPTItalian (x10)GVAPSITExternal handle protection frame for UYellow frameGVAPYPHPBlack frameGVAPBPHP12LU9APN21 mounting kitGVAPP1 spacer base (retrofit accessory)DB414540.epsGVAPA1 long shaftPB106291.epsPB106296.epsGVAPL01 "Laser square" plotting toolPB106297.epsGVAPR54 red handle, IP 54 PB106289.epsGVAPK12 shaft support plate for deep enclosurePB121242.epsGVAPYPHP external handle protection frameProduct referencesDimensions:page A4/61";i:142;s:1031:"A4/33Ultra motor startersTeSys ControlUltra motor starters - Handle mounting kit for MCC drawersMCC drawers (Motor Control Center)The drawers are composed of: ba fixed part, in the frame of the panel, ba fully withdrawable part, integrating the protection, control and automation components.With a height of 3/4/6/8/12/18/24/36 modules, they allow the assembling of motor protection/control feeders: bDirect, one direction of rotation bDirect, 2 directions of rotation bStar-delta bDahlander (2 speeds) b2-speed, separate winding bMotor drives from 0 to 500 kW bSoft starters of 0 to 75 kW.Mounting kit and handle for MCC drawerTogether, this provides manual control of a Ultra starter-controller from the front face of the drawer. As the clamping part on top of Ultra control pad is open, the kit may be used on Ultra power bases before 2005.Mounting kit + small handleDescription ItemReferenceHandle with mounting kit for MCC drawer1 + 2 + 3LU9AP20RESETRESETTESTTEST00123DB123404.epsPB121243.epsPB111807_104.epsProduct references";i:143;s:1843:"A4/34Ultra motor startersTeSys ControlUltra motor starters - Use with soft starter / Variable Speed Drive - LUCL control moduleIntroductionWhen installed upstream of a variable speed controller or soft start unit, control unit LUCLpp, used in conjunction with an LUB12 or LUB32 power base, provides: visolation, vshort-circuit protection of the motor starter.(variable speed controller-based or soft start unit-based motor starters).Note: control unit LUCL, when used in conjunction with power base LUB12 or LUB32, conforms to standard IEC 60947-6-2.Installation regulationsWhen the length of the cable between the Ultra starter and the variable speed controller is more than 1.5 m, the c.s.a. of the cable between the variable speed controller and the Ultra starter (S2) must be equal to the c.s.a. of the cable upstream of Ultra (S1).Description of LUCL magnetic control unit1 Extraction and locking handle2 Sealing of locking handle3 Dial for magnetic adjustment of motor In 4 Locking of settings by sealing the transparent coverReferencesDescriptionLine current of the variable speed controller or soft start unitReference(1)AMagnetic control unit0.15...0.6LUCLX6pp0.35...1.4LUCL1Xpp1.25...5LUCL05pp3...12LUCL12pp4.5...18LUCL18pp8...32LUCL32pp(1) Standard control circuit voltage:Volts2448...72110...240cBL (2) (3)––aB––c or a–ES (4)FU (5)Please check the availability of your variant in the index page A4/42. The SEARCH function of your viewer can be used.(2) Voltage code to be used for a starter-controller with communication module.(3) d.c. voltage with maximum ripple of ±10 %.(4) c: 48...72 V, a: 48 V.(5) c: 110...220 V, a: 110...240 V.LUB ppLUCLppS1 (mm2 / AWG)S2 (mm2 / AWG)Altivar or AltistartDF538574.epsProduct referencesPB123873.eps1341342Characteristics:pages A4/48 and A4/49";i:144;s:2383:"A4/35Ultra motor startersTeSys ControlUltra motor starters - LUCL control module compatibilityControl unit and associated power base selectionFunctions providedMaximum motor power ratings 50/60 HzPower base referenceControl unit referenceLine current< 400/415 V500 V690 VKWKWKWA bShort-circuit protection bManual reset0.09––LUB12 or LUB32LUCLX6pp0.15...0.60.25––LUB12 or LUB32LUCL1Xpp0.35...1.41.52.23LUB12 or LUB32LUCL05pp1.25...55.55.59LUB12 or LUB32LUCL12pp3...127.5915LUB32LUCL18pp4.5...18151518.5LUB32LUCL32pp8...32Operating characteristicsControl unitsStandardAdvancedLUCALUCBLUCCLUCDLUCLThermal overload protectionOver current protection14.2 x the setting currentShort-circuit protection13 x lr max (max current setting)Protection against phase lossProtection against phase imbalanceEarth fault protection (equipment protection only)Tripping class101020Motor type3-phaseSingle-phase3-phaseSingle-phase and 3-phaseThermal overload test functionOvertorqueNo-load runningLong starting timeReset methodManualAutomatic or remoteWith function module, or parameters can be set via the bus with a communication module (see page 24614/2). Integrated function Non integrated function Function provided with accessoryCompatibilityCompatibility of control unit LUCLpp withReferencesFunctionsThe controllerNoLUTMController (without thermal overload protection)Add-on contact blocks with fault signalling and auxiliary contactsYe sLUA1C11Add-on contact blocks with fault signalling (1 N/O + 1 N/C)LUA1C20Add-on contact blocks with fault signalling (2 N/O)LUFN20 Auxiliary contacts (2 N/O)LUFN11 Auxiliary contacts (1 N/O + 1 N/C)LUFN02 Auxiliary contacts (2 N/C)Communication modules Ye sASILUFC5 and ASILUFC51AS-Interface communication modulesLUFC00Parallel wiring moduleLULC07Profibus DP communication module (1 output/2 inputs)LULC08CANopen communication module (1 output/2 inputs)LULC09DeviceNet communication module (1 output/2 inputs)LULC15Advantys STB communication module (1 output/2 inputs)LULC033Modbus communication module (1 output/2 inputs)Function modulesNoLUFW10Alarm function moduleLUFDH11Thermal overload signalling module with manual resetLUFDA01 Thermal overload signalling module with automatic or remote reset (1 N/C)LUFDA10Thermal overload signalling module with automatic or remote reset (1 N/O)LUFV2Motor load indication moduleProduct references";i:145;s:2429:"A4/36Ultra motor startersTeSys ControlUltra motor starters - with Altistart U01 soft starterIntroduction The Altistart U01 is a soft start/soft stop unit for asynchronous motors. It is designed primarily for combinations with Ultra controller-starters. When combined with a Ultra 1 controller by means of a connector 2, the Altistart U01 3 is a power option which provides the “Soft start/soft stop” function. The result is a unique, innovative motor starter.Using the Altistart U01 starter enhances the starting performance of asynchronous motors by allowing them to start gradually, smoothly and in a controlled manner. It prevents mechanical shocks, which lead to wear and tear, and limits the amount of maintenance work and production downtime.The Altistart U01 limits the starting torque and current peaks on starting, on machines which do not require a high starting torque.The Altistart U01 is designed for the following simple applications:b Conveyorsb Conveyor beltsb Pumpsb Fansb Compressorsb Automatic doors and gatesb Small cranesb Belt-driven machines, etc.The Altistart U01 is compact and easy to install. It complies with standards IEC/EN 60947-4-2, carries UL, CSA, C-Tick, CCC certifications and e marking.b ATSU01N2ppLT soft start/soft stop units {Control two phases of the motor power supply to limit the starting current and for deceleration {Internal bypass relay {Motor power ratings ranging from 0.75 kW to 15 kW {Motor supply voltages ranging from 200 V to 480 V, 50/60 Hz.An external power supply is required for controlling the starter.Descriptionb Altistart U01 soft start/soft stop units are equipped with: {A potentiometer for setting the starting time 6 {A potentiometer for setting the deceleration time 8 {A potentiometer for adjusting the start voltage threshold according to the motor load 7 {1 green LED 4 to indicate that the unit is switched on {1 yellow LED 5 to indicate that the motor is powered at nominal voltage, if it is connected to the starter {A connector 9:- 2 logic inputs for Run/Stop commands- 1 logic input for the BOOST function- 1 logic output to indicate the end of starting- 1 relay output to indicate the starter has a power supply fault or the motor has reached a standstill at the end of the deceleration stage Introduction456781239DF536566.epsCharacteristics:pages A4/75 and A4/76References:page A4/38Dimensions:page A4/77Schemes:pages A4/78 to A4/81Ref.";i:146;s:1691:"A4/37Ultra motor startersTeSys ControlUltra motor starters - Altistart U01 soft starterATSU01N2pppLT soft start unit functionsb 2-wire controlThe run and stop commands are controlled by a single logic input. State 1 of logic input LI2 controls starting and state 0 controls stopping. + 24 VLI1LI2Wiring diagram for 2-wire controlAltistart U01 control terminalsDF536567.epsb 3-wire controlThe run and stop commands are controlled by 2 different logic inputs. Stopping is achieved when logic input LI1 opens (state 0). The pulse on input LI2 is stored until input LI1 opens. LI1LI2+ 24 VWiring diagram for 3-wire controlAltistart U01 control terminalsDF536568.epsb Starting timeControlling the starting time means that the time of the voltage ramp applied to the motor can be adjusted to obtain a gradual starting time, dependent on the motor load.b Voltage boost function via logic inputActivating the BOOST logic input enables the function for supplying a starting overtorque capable of overcoming any mechanical friction.When the input is at state 1, the function is active (input connected to the + 24 V) and the starter applies a fixed voltage to the motor for a limited time before starting. 200 mstApplication of a voltage boost equal to 100% of the nominal motor voltageVoltage rampU100% Un50% UnInitial voltageDF536537.epsb End of starting {application function for logic output LO1ATSU01N2ppLT soft start/soft stop units are equipped with an open collector logic output LO, which indicates the end of starting when the motor has reached nominal speed. IntroductionCharacteristics:pages A4/75 and A4/76References:page A4/38Dimensions:page A4/77Schemes:pages A4/78 to A4/81Ref.";i:147;s:1786:"A4/38Ultra motor startersTeSys ControlAltistart U01 soft starter Soft start/soft stop units for 0.75 to 15 kW motors (can be combined with the Ultra starter)MotorStarterMotor power (1)Nominal currentReference230 V230 V400 V460 VkWHPkWHPA3-phase supply voltage: 200...480 V 50/60 Hz0.751.111.51.52.23236ATSU01N206LT1.5–2––45–9ATSU01N209LT2.233–5.5–7.5–12ATSU01N212LT45.557.57.511101522ATSU01N222LT7.510152032ATSU01N232LTAccessorieDescriptionUsed for starterReferencePower connector between ATSU01N2ppLT and UATSU01N2ppLTVW3G4104Ultra starter and soft start unit combinations Numerous possibilities for combinations and options are offered.Please consult the “Ultra Starters-open version” specialist catalogue.Motor powerSoft starterUVoltagePower baseControl unit (2)230 VkW/HP400 VkW460 VHP0.75/11.52ATSU01N206LTLUB12LUCp05BL1.1/1.52.2/33ATSU01N206LTLUB12LUCp12BL1.5/2––ATSU01N209LTLUB12LUCp12BL–45ATSU01N209LTLUB12LUCp12BL2.2/3––ATSU01N212LTLUB12LUCp12BL3/–5.57.5ATSU01N212LTLUB32LUCp18BL4/57.510ATSU01N222LTLUB32LUCp18BL5.5/7.51115ATSU01N222LTLUB32LUCp32BL7.5/101520ATSU01N232LTLUB32LUCp32BLExample of a starter-motor combination with:1 non-reversing power base for DOL starting (LUBp2BL)2 control unit (LUCMppBL)3 power connector (VW3G4104)4 Altistart U01soft start/soft stop unit (ATSU01N2ppLT)(1) Standard motor power ratings, HP power ratings indicated according to standard UL508.(2) Depending on the configuration of the chosen Ultra starter, replace the p with A for standard, B for expandable, and M for multifunction.Product referencesATSU01N222LT109680SE.eps124LUBp2BLLUCM ppBLATSU 01N2ppLT3DF536570.epsIntroduction:pages A4/36 and A4/37Characteristics:pages A4/75 and A4/76Dimensions:page A4/77Schemes:pages A4/78 to A4/81i";i:148;s:2098:"A4/39Ultra motor startersSoft starter coordinationThe standard defines tests at different levels of current; the purpose of these tests is to place the equipment in extreme conditions. The standard defines 2 types of coordination, according to the condition of the components after testing: type 1 and type 2.Type 1 coordination requires that in a short-circuit condition, the contactor or starter must not present any danger to personnel or installations and must not be able to resume operation without repair or the replacement of parts.The product combinations given below provide type 1 coordination Soft start-soft stop unit/Ultra starter controller combination with magnetic protection Ultra / Altistart 48: type 1 coordinationPower400 V (kW)Ultra references (protection + power switching)Soft starter reference Class 10Class 205.5LUB32 + LUCL32 or LUCL18–ATS48D177.5LUB32 + LUCL32ATS48D17ATS48D2211LUB32 + LUCL32ATS48D22ATS48D3215LUB32 + LUCL32ATS48D32ATS48D38Variable speed controller/Ultra starter controller combination with magnetic protection Ultra / Altivar 212 UL Type 1/IP 20Power400 V (kW)Ultra references (protection + power switching)Variable speed controller reference 0.75LUB12 + LUCL05ATV212H075N4ATV212HU15N42.2LUB12 + LUCL12ATV212HU22N43LUB12 + LUCL12ATV212HU30N44LUB12 + LUCL12ATV212HU40N45.5LUB32 + LUCL32 or LUCL18ATV212HU55N47.5LUB32 + LUCL32 or LUCL18ATV212HU75N411LUB32 + LUCL32ATV212HD11N415LUB32 + LUCL32ATV212HD15N4Ultra / Altivar 212 IP 54Power400 V (kW)Ultra references (protection + power switching)Variable speed controller reference 0.75LUB12 + LUCL05ATV212W075N41.5LUB12 + LUCL12 or LUCL05ATV212WU15N42.2LUB12 + LUCL12ATV212WU22N43LUB12 + LUCL12ATV212WU30N44LUB12 + LUCL12ATV212WU40N45.5LUB32 + LUCL32 or LUCL18ATV212WU55N47.5LUB32 + LUCL32 or LUCL18ATV212WU75N411LUB32 + LUCL32ATV212WD11N415LUB32 + LUCL32ATV212WD15N4Product referencesTeSys ControlUltra motor starters - Association with Soft starters / Variable speed controllers+PB121558.epsPB123877_R.tif+PF100606.epsPB123877_R.tifPB123877_R.tif+PF100614.eps";i:149;s:1009:"A4/40Ultra motor startersVariable speed controller/Ultra starter controller combination with magnetic protection (continued)Ultra / Altivar 320Power400 V (kW)Ultra references (protection + power switching)Variable speed controller reference 0.37LUB12 + LUCL05ATV320U04N4C0.55LUB12 + LUCL05ATV320U06N4C0.75LUB12 + LUCL05ATV320U07N4C1.1LUB12 + LUCL12ATV320U11N4C1.5LUB12 + LUCL12ATV320U15N4C2.2LUB12 + LUCL12ATV320U22N4C3LUB32 + LUCL18ATV320U30N4C4LUB32 + LUCL18ATV320U40N4C5.5LUB32 + LUCL32ATV320U55N4C7.5LUB32 + LUCL32ATV320U75N4C Ultra / Altivar 630Power400V (kW)Ultra references (protection + power switching)Variable speed controller reference 0.75LUB12 + LUCL05ATV630U07N41.5LUB12 + LUCL12ATV630U15N42.2LUB12 + LUCL12ATV630U22N43LUB32 + LUCL18ATV630U30N44LUB32 + LUCL18ATV630U40N45.5LUB32 + LUCL32ATV630U55N47.5LUB32 + LUCL32ATV630U75N4Products referencesTeSys ControlUltra motor starters - Association with Soft starters / Variable speed controllersPB123877_R.tif+PB121583.epsPB123877_R.tif+PF130802D.eps";i:150;s:25:"A4/41Ultra motor starters";i:151;s:1896:"A4/42Ultra motor startersTeSys ControlUltra motor startersASILUFC5ASILUFC51GV1G10GVAPA1GVAPA2GVAPB54SGVAPK12GVAPL01GVAPP1GVAPR65SLA9LB920LU2B12BLU2B12BLLU2B12ESLU2B12FULU2B32BLU2B32BLLU2B32ESLU2B32FULU2B38BLLU2B38FULU2BA0BLLU2BA0ESLU2BB0BLLU2MB0BLU2MB0BLLU2MB0ESLU2MB0FULU6MB0BLU6MB0BLLU6MB0ESLU6MB0FULU9AD7LU9AP00LU9AP11LU9AP20LU9APN21LU9APN22LU9APN24LU9BN11LU9BN11CLU9BN11LLU9C1LU9C2LU9ET1SLU9G02LU9G03LU9GC3LU9GC7LU9M1LU9MR1LU9MR1CLU9MRCLU9MRLLU9R03LU9R10LU9R30LU9RCD03LU9RCD10LU9RCD50LU9RDD03LU9RDD30LU9RFL15LU9RPB010LU9RPB100LU9RPB400LU9SP0LUA1C11LUA1C20LUA8E20LUALB1LUALF1LUB12LUB120LUB32LUB320LUB32NRLUB38LUB380LUCA05BLUCA05BLLUCA05ESLUCA05FULUCA12BLUCA12BLLUCA12ESLUCA12FULUCA18BLUCA18BLLUCA18ESLUCA18FULUCA1XBLUCA1XBLLUCA1XESLUCA1XFULUCA32BLUCA32BLLUCA32ESLUCA32FULUCA38BLLUCA38FULUCAX6BLUCAX6BLLUCAX6ESLUCAX6FULUCB05BLUCB05BLLUCB05ESLUCB05FULUCB12BLUCB12BLLUCB12ESLUCB12FULUCB18BLUCB18BLLUCB18ESLUCB18FULUCB1XBLUCB1XBLLUCB1XESLUCB1XFULUCB32BLUCB32BLLUCB32ESLUCB32FULUCB38BLLUCB38FULUCBT1BLLUCBX6BLUCBX6BLLUCBX6FULUCC05BLUCC05BLLUCC05ESLUCC05FULUCC12BLUCC12BLLUCC12ESLUCC12FULUCC18BLLUCC18FULUCC1XBLUCC1XBLLUCC1XESLUCC1XFULUCC32BLUCC32BLLUCC32FULUCCX6BLUCCX6BLLUCCX6FULUCD05BLUCD05BLLUCD05ESLUCD05FULUCD12BLUCD12BLLUCD12ESLUCD12FULUCD18BLLUCD18FULUCD1XBLUCD1XBLLUCD1XESLUCD1XFULUCD32BLUCD32BLLUCD32ESLUCD32FULUCD38BLLUCD38FULUCDT1BLLUCDX6BLLUCDX6FULUCL05BLUCL05BLLUCL05ESLUCL05FULUCL12BLUCL12BLLUCL12ESLUCL12FULUCL18BLUCL18BLLUCL18ESLUCL18FULUCL1XBLUCL1XBLLUCL1XFULUCL32BLUCL32BLLUCL32FULUCL38BLLUCL38FULUCLX6BLLUFC00LUFDA01LUFDA10LUFDH11LUFN02LUFN11LUFN20LUFP1LUFP7LUFP9LUFV2LUFW10LULC031LULC033LULC07LULC08LULC09LULC15Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:152;s:445:"A4/43Ultra motor startersTechnical Data for DesignersUltra motor starters ContentsCharacteristics .................................... A4/44 to A4/55 Curves ................................................ A4/56 to A4/59 Dimensions ......................................... A4/60 to A4/61 Schemes ............................................. A4/62 to A4/74 Altistart U01 Soft starter ..................... A4/75 to A4/81";i:153;s:3123:"A4/44Ultra motor startersTeSys ControlUltra motor starters EnvironmentProduct certificationsUL, CSA, CCC, GOST, ASEFA, UKCA.ABS, BV, DNV, GL, LROS.ATEX.Conforming to standardsIEC/EN 60947-6-2, CSA-22.2 N° 60947-4-1-14 UL 60947-4-1: with phase barrier LU9 SP0Rated insulation voltage (Ui)Conforming to IEC/EN 60947-1, overvoltage category III, degree of pollution: 3V690Conforming to UL508, CSA C22-2 n°14V600Rated impulse withstand voltage (Uimp)Conforming to IEC/EN 60947-6-2kV6Degree of protectionConforming to IEC/EN 60947-1(protection against direct finger contact)Front panel outside connection zoneIP 40Front panel and wired terminalsIP 20Other faces IP 20Protective treatmentConforming to IEC/EN 60068“TH”Conforming to IEC/EN 60068-2-30Cycles12Conforming to IEC/EN 60068-2-11h48Ambient air temperature around the deviceStorage°C -40...+85Operation°CPower bases ≤ 32 A (15 kW) associated with LUCA, LUCL, LUCB, LUCC, LUCD Control Units: -25 °...+70 °C.(At temperatures above 60° and up to 70 °C, for Starter Controllers LUB32, LU2B32 leave a minimum gap of 9 mm between products).Power bases = 38 A (18,5 kW) associated with LUCA, LUCL, LUCB, LUCC, LUCD Control Units: -25 °...+60 °C.(At temperatures above 45 °C , leave a minimum gap of 9 mm between products.At temperatures above 55 °C and up to 60 °C, leave a gap of 20 mm between products).Power bases ≤ 32 A (15 kW) and Multifunctions Control units: -25 °...+60 °C.(At temperatures above 45 °C , leave a minimum gap of 9 mm between products.At temperatures above 55 °C and up to 60 °C, leave a gap of 20 mm between products).Maximum operating altitudem2000Operating positionsIn relation to normal vertical mounting plane30 ̊30 ̊520716.eps90 ̊90 ̊520717.epsFlame resistanceConforming to UL 94V2Conforming to IEC/EN 60695-2-12°C960 (parts supporting live components)°C650Environmental restrictionsCadmium and silicone-free, recyclableShock resistance1/2 sine wave = 11 msConforming to IEC/EN 60068-2-27 (1)Power poles open: 10 gnPower poles closed: 15 gnVibration resistance 5...300 HzConforming to IEC/EN 60068-2-6 (1)Power poles open: 2 gnPower poles closed: 4 gn (2)Resistance to electrostatic dischargeConforming to IEC/EN 61000-4-2kVIn open air: 8 - Level 3kVOn contact: 8 - Level 4Immunity to radiated high-frequency disturbanceConforming to IEC/EN 61000-4-3V/m10 - Level 3Immunity to fast transient currentsConforming to IEC/EN 61000-4-4kVAll circuits except for serial link: 4 - Level 4kVSerial link: 2 - Level 3Immunity to dissipated shock wavesConforming to IEC/EN 60947-6-2Common modeSerial modeUc a 24...240 V,Uc c 48...220 VkV21Uc = 24 V cNot applicableImmunity to conducted high-frequency disturbanceConforming to IEC/EN 61000-4-6V10Radiated emission and conductedConforming to CISPR 11 and EN 55011Class A(1) Without modifying the contact states, in the most unfavourable direction.(2) 2 gn with Advantys STB or CANopen communication modules.CharacteristicsReferences:pages A4/10 to A4/14Curves: pages A4/56 to A4/59Dimensions: pages A4/60 and A4/61Schemes: pages A4/62 to A4/74Ref.";i:154;s:3195:"A4/45Ultra motor startersTeSys ControlUltra motor starters Power circuit connection characteristicsConnection to Ø4 mm screw clamp terminalsPower base, control unit or reverser block typeLUB12 + LUCAor LUCB or LUCCor LUCDLUB32/LUB38 + LUCA or LUCB or LUCC or LUCDLU2B LU2MLU6MFlexible cablewithout cable end1 conductormm22.5...102.5...102.5...102 conductorsmm21.5...61.5...61.5...6Flexible cablewith cable end1 conductormm21...61...61...62 conductorsmm21...61...61...6Solid cablewithout cable end1 conductormm21...101...101...102 conductorsmm21...61...61...6ScrewdriverPhilips n° 2 or flat screwdriver: Ø6 mmTightening torqueN.m1.9...2.51.9...2.51.9...2.5Control circuit connection characteristicsConnection to Ø3 mm screw clamp terminalsFlexible cable without cable end1 conductormm20.75...1.50.75...1.50.75...1.52 conductorsmm20.75...1.50.75...1.50.75...1.5Flexible cable with cable end1 conductormm20.34...1.50.34...1.50.34...1.52 conductorsmm20.34...1.50.34...1.50.34...1.5Solid cable without cable end1 conductormm20.75...1.50.75...1.50.75...1.52 conductorsmm20.75...1.50.75...1.50.75...1.5ScrewdriverPhilips n° 1 or flat screwdriver: Ø5 mmTightening torqueN.m0.8...1.20.8...1.20.8...1.2Control circuit characteristicsRated voltageof control circuita 50/60 HzV24...240 24...240 –cV24...22024...220–Voltage limitsc 24 V (1)V20...2720...27–Operationa 24 VV20...26.520...26.5–a or c 48...72 VVa 38.5...72. c 38.5...93–a 110...240 VVa 88...264a 88...264– c 110...220 VVc 88...242c 88...242–Drop-outc 24 VV14.514.5–a 24 VV14.514.5–a or c 48...72 VV2929–a 110...240 V, c 110...220 VV5555–Typical consumptionc 24 VmA130220120I max while closinga 24 VmA1402202360a or c 48...72 VmA2802802300a 110...240 V, c 110...220 VmA2802801000I rms sealedc 24 VmA6080120a 24 VmA7090(2)a or c 48...72 VmA3545(2)a 110...240 V, c 110...220 VmA3525(2)Heat dissipation W23–Operating timeClosingms24 V: 70; 48 V: 60; u 72 V: 50–Openingms3535–Resistance to micro-breaksms33–Resistance to voltage dipsIEC/EN 61000-4-11At least 70 % of Uc for 500 ms–Mechanical durabilityIn millions of operating cycles1515–Maximum operating rateIn operating cycles per hour36003600–Main pole characteristicsNumber of poles33–Isolation conforming to IEC/EN 60947-1PossibleYe sYe s–Padlocking1 padlock with Ø6.9 mm shank–Rated thermal currentA1232/38–Rated operational current (Ue y 440V)To IEC/ EN 60947-6-2Category AC-41θ y 70°C: 12 A θ y 70°C: 32/38 A –Category AC-43θ y 70°C: 12 A θ y 70°C: 28.5/35 A –Rated operational voltageV690 (3)690 (3)–Frequency limitsOf the operating currentHz40...6040...60–Power dissipated in the power circuits Operational currentA3691218253238–Power dissipated in all three polesW0.10.30.61.12.44.67.510.6–Rated breaking capacity on short-circuitV230440500690–kA5050 (25 for LUB38)104–Total breaking timems222–Thermal limitWith Isc max on 440 VkA²s90120–(1) Voltage with maximum ripple of ±10 %.(2) No consumption sealed.(3) For 690 V, use phase barrier LU9SP0.CharacteristicsReferences:pages A4/10 to A4/14Curves: pages A4/56 to A4/59Dimensions: pages A4/60 and A4/61Schemes: pages A4/62 to A4/74Ref.";i:155;s:2623:"A4/46Ultra motor startersTeSys ControlUltra motor startersSpecific characteristics of power bases LU2B and reverser blocks LU2M or LU6M Duration of inrush phasea 50/60 Hzms25c ms15Maximum operating timeWithout change of direction ms75With change of directionms150General characteristics of auxiliary contacts Conventional thermal current (Ith)For ambient temperature θ < 70 °CA5Frequency of the operational currentHzUp to 400Minimum switching capacity λ = 10-8U minV17I minmA5Short-circuit protectionConforming to IEC/EN 60947-5-1AgG fuse: 4Short-time ratingPermissible for1 sA30500 msA40100 msA50Insulation resistancemΩ10Non-overlap timeGuaranteed between N/C and N/O contactsms2 (on energisation and on de-energisation)Specific characteristics of auxiliary contacts built-into the power baseLinked contactsConforming to IEC/EN 60947-4-1Each power base has 1 N/O contact and 1 N/C contact which are mechanically linkedMirror contactConforming to IEC/EN 60947-1The N/C contact fitted in each power base reliably represents the state of the power contacts (safety scheme)Rated operational voltage (Ue)VUp to a 690; c 250Rated insulation voltage (Ui)Conforming to IEC/EN 60947-5-1V690Conforming to UL, CSAV600Specific characteristics of auxiliary contacts in modules LUFN, of auxiliary contacts LUA1and of reverser blocks LU2M and LU6M Rated operational voltage (Ue)VUp to a 250; c 250Rated insulation voltage (Ui)Conforming to IEC/EN 60947-5-1V250Conforming to UL, CSAV250Rated operational power of contacts Conforming to IEC/EN 60947-5-1a.c. supply, categories AC-14 and AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ = 0.4)d.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V2448115230400440690V24481252501 million operating cyclesVA6012028056096010501440W1209075683 million operating cyclesVA163280160280300420W7050383310 million operating cyclesVA4820407080100W251814120,10,20,3 0,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,77123546810Millions of operating cyclesCurrent broken in ADF510594.eps0,10,20,30,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,7712354681048 V250 V125 V24 VMillions of operating cyclesCurrent broken in ADF510595.epsCharacteristicsReferences:pages A4/10 to A4/14Curves: pages A4/56 to A4/59Dimensions: pages A4/60 and A4/61Schemes: pages A4/62 to A4/74Ref.";i:156;s:1280:"A4/47Ultra motor startersTeSys ControlUltra motor starters - Control unitsCharacteristics of standard control units LUCAProtectionMotor type3-phaseConforming to standardIEC/EN 60947-6-2, UL 60947-4-1, CSA C22-2 n°14Overload protectionTripping class conforming to UL 508, IEC/EN 60947-6-210Frequency limits of the operational currentHz40...60Temperature compensation°C- 25...+ 70Protection against phase imbalanceYe sShort-circuit protectionTripping threshold13 x Ir max (max current setting)Tripping tolerance± 20 %Characteristics of advanced control units LUCB, LUCC and LUCDControl unit typeLUCBLUCCLUCDProtectionMotor type3-phaseSingle-phase3-phaseConforming to standardIEC/EN 60947-6-2, CSA C22-2 n°14IEC/EN 60947-6-2, CSA C22-2 n°14IEC/EN 60947-6-2, CSA C22-2 n°14Overload protectionTripping class conforming to UL 508, IEC/EN 60947-6-2101020Frequency limits of the operational currentHz40...6040...6040...60Temperature compensation°C-25...+70-25...+55-25...+70Protection against phase imbalanceYe s–Ye sShort-circuit protectionTripping threshold13 x Ir max.13 x Ir max.13 x Ir max.Tripping tolerance±20 %±20 %±20 % CharacteristicsReferences:pages A4/11 to A4/14Curves: pages A4/56 to A4/59Dimensions: pages A4/60 and A4/61Schemes: pages A4/62 to A4/74Ref.";i:157;s:3023:"A4/48Ultra motor startersTeSys ControlUltra motor starters - Control units Characteristics of magnetic control unit LUCLProtectionMotor type3-phaseConforming to standardWhen used in conjunction with an LUB12, LUB32 or LUB38 power base, magnetic control unit LUCL conforms to standard IEC 60947-6-2.Short-circuit protectionTripping threshold14.2 x In (max. setting current)Tripping tolerance±20 %EnvironmentProduct certificationsCEConforming to standardsWhen used in conjunction an LUB power base, control unit LUCL conforms to standard 60947-6-2.Rated insulation voltage (Ui)Conforming to IEC/EN 60947-1, overvoltage category III, degree of pollution: 3V690Rated impulse withstand voltage (Uimp)Conforming to IEC/EN 60947-6-2kV6Safety separation of circuits SELVConforming to IEC/EN 60947-1 appendix NVBetween the control or auxiliary circuit and the main circuit: 400Between the control and auxiliary circuits: 40Degree of protectionConforming to IEC/EN 60947-1(protection against direct finger contact)Front panel outside connection zoneIP 40Front panel and wired terminalsIP 20Other facesIP 20Protective treatmentConforming to IEC/EN 60068“TH”Conforming to/EN 60068-2-30Cycles12Conforming to IEC/EN 60068-2-11h48Ambient air temperature around the deviceStorage°C- 40...+ 85Operation°CPower bases and standard and advanced control units: - 25... + 70.(At temperatures above 60°C and up to 70°C, for Ie = 32 A, leave a minimum gap of 9 mm between products).Power bases and multifunction control units: - 25...+ 60. (At temperatures above 45 °C, leave a minimum gap of 9 mm between products. At temperatures above 55 °C up to 60 °C, leave a gap of 20 mm between products.)Maximum operating altitudem2000Operating positionsIn relation to normal vertical mounting planeDF568028.epsDF568029.epsFlame resistanceConforming to UL 94V2Conforming to IEC/EN 60695-2-12°C960 (parts supporting live components)°C650Environmental restrictionsCadmium and silicone-free, recyclableShock resistance1/2 sine wave = 11 msConforming to IEC/EN60068-2-27 (1)Power poles open: 10 gnPower poles closed: 15 gnVibration resistance 5...300 HzConforming to IEC/EN 60068-2-6 (1)Power poles open: 2 gnPower poles closed: 4 gn (2)Resistance to electrostatic dischargeConforming to IEC/EN 61000-4-2kVIn open air: 8 - Level 3kVOn contact: 8 - Level 4Immunity to radiated high-frequency disturbanceConforming to IEC/EN 61000-4-3V/m10 - Level 3Immunity to fast transient currentsConforming to IEC/EN 61000-4-4kVAll circuits except for serial link: 4 - Level 4kVSerial link: 2 - Level 3Immunity to dissipated shock wavesConforming to IEC/EN 60947-6-2Common modeSerial modeUc a 24...240 V,Uc c 48...220 VkV21Uc = 24 V cNot applicableImmunity to conducted high-frequency disturbanceConforming to IEC/EN 61000-4-6V10(1) Without modifying the contact states, in the most unfavourable direction.(2) 2 gn with Advantys STB or CANopen communication modules.CharacteristicsReferences:page A4/34Schemes: pages A4/63Ref.";i:158;s:2983:"A4/49Ultra motor startersTeSys ControlUltra motor starters - Control units Power circuit connection characteristics of LUCLPower base and control unit typeLUB12 + LUCLLUB32 + LUCLLUB38 + LUCLConnection to Ø4 mm screw clamp terminalsFlexible cable without cable end1 conductormm22.5...102.5...102 conductorsmm21.5...61.5...6Flexible cable with cable end1 conductormm21...61...62 conductorsmm21...61...6Flexible cable without cable end1 conductormm21...101...102 conductorsmm21...61...6ScrewdriverPhilips n° 2 or flat screwdriver: Ø6 mmTightening torqueN.m1.9...2.51.9...2.5Control circuit connection characteristics of LUCLConnection to Ø3 mm screw clamp terminalsFlexible cable without cable end1 conductormm20.75...1.50.75...1.52 conductorsmm20.75...1.50.75...1.5Flexible cable with cable end1 conductormm20.34...1.50.34...1.52 conductorsmm20.34...1.50.34...1.5Flexible cable without cable end1 conductormm20.75...1.50.75...1.52 conductorsmm20.75...1.50.75...1.5ScrewdriverPhilips n° 2 or flat screwdriver: Ø5 mmTightening torqueN.m0.8...1.20.8...1.2Control circuit characteristics of LUCLRated control circuit voltagea 50/60 HzV24...24024...240cV24...22024...220Voltage limitsc 24 V (1)V20...2720...27Operationa 24 VV20...26.520...26.5a or c 48...72 VVa 38.5...72. c 38.5...93a 38.5...72. c 38.5...93a 110...240 VVa 88...264a 88...264c 110...240 VVc 88...242c 88...242Drop-outc 24 VV14.514.5a 24 VV14.514.5a or c 48...72 VV2929a 110...240 V, c 110...220 VV5555Typical consumptionc 24 VmA130220I max while closinga 24 VmA140220a or c 48...72 VmA280280a 110...240 V, c 110...220 VmA280280I rms sealedc 24 VmA6080a 24 VmA7090a or c 48...72 VmA3545a 110...240 V, c 110...220 VmA3525Heat dissipationW23Operating timeClosingms24 V: 70; 48 V: 60; u 72 V: 5024 V: 70; 48 V: 60; u 72 V: 50Openingms3535Resistance to micro-breaksms33Resistance to voltage dipsIEC/EN 61000-4-11At least 70 % of Uc for 500 msMechanical durabilityIn millions of operating cycles1515Maximum operating rateIn operating cycles per hour36003600Main pole characteristics of LUCLNumber of poles33Isolationconforming to IEC/EN 60947-1PossibleYe sYe sPadlocking1 padlock with Ø6.9 mm shank1 padlock with Ø6.9 mm shankRated thermal currentA1232(38 A for LUB38)Rated operational current (Ue y 440 V)Conforming to IEC/EN 60947-6-2Category AC-41θ y 70 °C: 12 Aθ y 70 °C: 32 A(38 A for LUB38)Category AC-43θ y 70 °C: 12 Aθ y 70 °C: 32 A38Rated operational voltage V690 (3)690 (3)690Frequency limitsOf the operating currentHz40...6040...6040...60Power dissipated in the power circuitsOperational currentA3691218253238Power dissipated in all three polesW0.10.30.61.12.44.67.510.5Rated breaking capacity on short-circuitV230440500690kA5050104Total breaking timems222Thermal limitWith Isc max on 440 VkA2s90120(1) d.c. voltage with maximum ripple of ± 10 %.(2) No consumption sealed. (3) For 690 V, use phase barrier LU9SP0.CharacteristicsReferences:page A4/34Schemes: page A4/63Ref.";i:159;s:2469:"A4/50Ultra motor startersTeSys ControlUltra motor starters - Current limiters - Function modulesCharacteristics of limiter-disconnector LUALB1Rated insulation voltage (Ui)conforming to standard IEC/EN 60947-1V690Conventional thermal current (Ith)conforming to standard IEC/EN 60947-1A32Operating thresholdI rmskA50Breaking capacityV440 690kA130 70MountingDirectly on the upstream terminals of the starter-controllerCablingSolid cable1 conductormm21.5...102 conductorsmm21.5...6Flexible cable without cable end1 conductormm21...102 conductorsmm21...6Flexible cable with cable end1 conductormm21...62 conductorsmm21...6ScrewdriverPhillips n°2 or flat screwdriver Ø6 mmTightening torqueN.m1.9...2.5Characteristics of current limiter LA9LB920Rated insulation voltage (Ui)conforming to standard IEC/EN 60947-1V690Conventional thermal current (Ith)conforming to standard IEC/EN 60947-1A63Operating thresholdI rmsA1000Breaking capacityV440 690kA100 35MountingSeparateCablingSolid cable1 conductormm21.5...252 conductorsmm21.5...10Flexible cable without cable end1 conductormm21.5...252 conductorsmm22.5...10Flexible cable with cable end1 conductormm21.5...162 conductorsmm21.5...4ScrewdriverPhillips n°2 or flat screwdriver Ø6 mmTightening torqueN.m2.2Characteristics of thermal overload alarm function modules LUFW10Activation thresholdFixed at 88 % of the thermal tripping stateHysteresis between activation and switching off5 %DisplayBy LED on front panelSupplyPowered by the control unitDiscrete output characteristicsTypeN/O contact AC-15230 V max; 400 VA 100 000 operating cyclesDC-1324 V; 50 W 100 000 operating cyclesConventional thermal current (Ith)For ambient temperature θ < 70 °CA2Short-circuit protectionConforming to IEC/EN 60947-5-1AgG fuse: 2Characteristics of thermal overload fault signalling and reset modulesModule typeLUFDH11LUFDA01 LUFDA10Fault signallingBy LED on front panelExternal power supplyVa/c 24... 240Module consumptionmA7 at c 24 1.1 at a 240 Discrete outputsType1 N/C+ 1 N/O1 N/C1 N/OAC-15230 V max; 400 VA 100 000 operating cyclesDC-1324 V; 50 W 100 000 operating cyclesConventional thermal current (Ith)For ambient temperature θ < 70 °CA2Short-circuit protectionConforming to IEC/EN 60947-5-1AgG fuse: 2Reset inputConductor c.s.a.mm20.2 minLengthm500 (R = 50 Ω , L = 52.8 mH, Cp = 93 pF)CharacteristicsReferences:pages A4/13, A4/31Dimensions: page A4/61Ref.";i:160;s:2111:"A4/51Ultra motor startersTeSys ControlUltra motor starters - Function and communication modulesCharacteristics of motor load indication function module LUFV2Analogue output4 - 20 mASignal deliveredValue of I average/Ir ratio within the range of 0 to 2 for LUCB and LUCDValue of I average/Ir ratio within the range of 0 to 3 for LUCCLoad impedanceMinimumkΩ–MaximumΩ500TypicalΩ100Signal characteristics with advanced control unitPrecision±6 %Signal characteristics with multifunction control unitPrecision±10 %Resolution1 % of IrSupplyExternal c 24 VCharacteristics of AS-Interface communication modules ASILUFC5 and ASILUFC51Module typeASILUF C5 ASILUF C51 Product certificationAS-Interface V2.1 n° 52901AS-Interface V2.1 n° 52303AS-Interface profile7.D.F.07.A.7.EAmbient air temperature°COperation -25...+70Cycle timems510Addressing31 slaves62 slavesAS-Interface supplyV29.5...31.5Current consumptionOn the AS-Interface busmANormal operation: 25mAFault condition: 30On 24 V supply for the outputsmA200Auxiliary supplyVc 24 ±30 %Number of outputs2 dedicated to starter-controller coil operationSwitching capacity of the solid state outputs0.5 A/24 V (outputs protected against short-circuits)Indication/diagnosticsBy 2 LEDs on front panelCharacteristics of Modbus communication module LULC033Physical interfaceRS 485 multi-dropConnectionsRJ45 on front panelProtocolModbus RTUMaximum transmission speedbit/s19 200 (self-configuration up to this value)Maximum return timems30AddressingBy switches: from 0...31Ambient air temperature°COperation -25...+55Discrete inputsNumber2 (to be assigned according to the configuration)SupplyVc 24Input currentmA7Nominal input valuesVoltageVc 24 (positive logic)CurrentmA7Response timeChange to state 1ms10 (±30 %)Change to state 0ms10 (±30 %)Input typeResistiveSolid state outputs Number3, of which 2 dedicated to starter-controller coil operationSupplyVc 24Max. currentmA500ProtectiongI fuseA1Switching capacity0.5 A/24 V Indication/diagnosticsBy 3 LEDs on front panelCharacteristicsReferences:pages A4/13, A4/24, A4/26Schemes: pages A4/64, A4/72, A4/73Ref.";i:161;s:2345:"A4/52Ultra motor startersTeSys ControlUltra motor starters - Communication modulesCharacteristics of CANopen, Profibus DP and DeviceNet communication modulesCommunication moduleProfibus DP LULC07CANopen LULC08DeviceNet LULC09ServicesConformity classNAS 20 (Schneider Electric)NAStandardProfibus DPCIADS-301 V4.02 DR 303-2IEC 62026-1, overvoltage category III, degree of pollution: 3ProfileLVSG V1.0 MS (Motor Starter) and MMS (Motor Management Starter)–ODVA (Open DeviceNet Vendor Association) MS (Motor Starter)ProtocolProfibus DPCAN 2.0A (2B passive)CAN 2.0A (2B passive)Address1...1250...127 (by switches)0...63StructurePhysical interface9-way SUB-D male9-way SUB-D female“Open Style” connectorBinary rate9600 Kbits/s...12 Mbits/s10, 20, 50, 125, 250, 500 and 1000 Kbits/s (by switches)125...500 kbaudCables2 shielded twisted pairsSupply for the discrete outputs and controlc 24 VV20...28Current consumptionA1.5 (max)Protection by gl fuseA2Ambient air temperature°COperation -25...+55Logic inputsNumber2 (to be assigned according to the configuration)SupplyV c 24Input currentmA7Nominal input valuesVoltageVc 24 (positive logic)CurrentmA7Response timeChange to state 1ms10 (±30 %)Change to state 0ms10 (±30 %)Input typeResistiveDiscrete outputsNumber3, of which 2 dedicated to starter-controller coil operationMax. currentmA500Short-circuit protectionYe sSwitching capacity0.5 A / c 24 VIndication/diagnosticsBy 3 LEDs on front panelCharacteristics of Advantys STB communication module LULC15Physical interfaceCANConnectionsFire WireProtocolCAN 2.0 and CAN 2.B (passive mode)Transmission speedkbit/s800AddressingSelf-addressingSupply for the discrete outputs and controlc 24 VV20...28Current consumptionA1.5 (max)Protection by gl fuseA2Ambient air temperature°COperation -25...+55Discrete inputsNumber2 ( to be assigned according to configuration)SupplyVc 24Input currentmA7Nominal input valuesVoltageVc 24 (positive logic)CurrentmA7Response timeChange to state 1ms10 (± 30 %)Change to state 0ms10 (± 30 %)Input typeResistiveDiscrete outputsNumber3, of which 2 dedicated to starter-controller coil operationMax. currentmA500Short-circuit protectionYe sSwitching capacity0.5 A / c 24 VIndication/diagnosticsBy 3 LEDs on front panelCharacteristicsReferences:pages A4/25, A4/27, A4/28, A4/29Schemes: pages A4/66 and A4/67Ref.";i:162;s:2072:"A4/53Ultra motor startersTeSys ControlUltra motor starters - Function and communication modulesConnection characteristicsModule typeLUFW10, LUFDH11, LUFDA01 and LUFDA10LUFV2ASILUFC5 and ASILUFC51Inputs and 24 V auxiliary supplyOutputsConnectorsPitch5.083.815.083.81Flexible cable without cable end1 conductormm²0.2...1.50.14...10.2...1.50.14...12 identical conductorsmm²0.2...10.14...0.750.2...10.14...0.75Flexible cable with cable end Without insulated ferrule1 conductormm²0.25...1.50.25...10.25...1.50.25...12 identical conductorsmm²0.25...10.25...0.340.25...10.25...0.34With insulated ferrule1 conductormm²0.25...1.50.25...0.50.25...1.50.25...0.52 identical conductors(Use a double cable end)mm²0.5...10.50.5...10.5Solid cable without cable end1 conductormm²0.2...1.50.14...10.2...1.50.14...12 identical conductorsmm²0.2...10.14...0.50.2...10.14...0.5Conductor size1 conductorAWG24... AWG16AWG26... AWG16AWG24... AWG16AWG26... AWG16Tightening torqueN.m0.5...0.60.20...0.250.5...0.60.20...0.25Flat screwdrivermm3.52.53.52.5Module typeLULC033, LULC08 and LULC15LUFC00LULC09Inputs and 24 V auxiliary supplyConnection on the busConnectorsPitch3.813.813.815 (Open Style) DeviceNetFlexible cable without cable end1 conductormm²0.14...10.14...10.14...10.2...2.52 identical conductorsmm²0.14...0.750.14...0.750.14...0.750.5...1.5Flexible cable with cable end Without insulated ferrule1 conductormm²0.25...10.25...10.25...10.25...2.52 identical conductorsmm²0.25...0.340.25...0.340.25...0.340.25...1With insulated ferrule1 conductormm²0.25...0.50.25...0.50.25...0.50.25...2.52 identical conductors(Use a double cable end)mm²0.50.50.750.5...1.5Solid cable without cable end1 conductormm²0.14...10.14...10.14...10.2...2.52 identical conductorsmm²0.14...0.50.14...0.50.14...0.50.14...0.5Conductor size1 conductorAWG26... AWG16AWG26... AWG16AWG26... AWG16AWG24... AWG16Tightening torqueN.m0.20...0.250.20...0.250.20...0.250.5...0.6Flat screwdrivermm2.52.52.53.5CharacteristicsReferences:pages A4/13, A4/24 to A4/29Schemes: pages A4/64, A4/66 to A4/73Ref.";i:163;s:1003:"A4/54Ultra motor startersCharacteristicsTeSys ControlUltra motor starters - Operating status indicationKnob positions - Poles and Signaling contact statesUltra operating statusPosition of rotary knobIndication on front panelN/O pole contactN/C pole contactN/O contact any faultN/C ontact any faultN/O contact product readyN/C contact Rotary knob on OFF positionReferences of add-on contact blocks and auxiliary contact modules Terminal referencing –––LUFN11 31-32LUA1C20 97-98LUA1C11 95-96LUA1C20 17-18–or–––LUFN02 31-3241-42–––LUA8E20 57/58 67/68or––LUFN20 33-3443-44LU9BN11 21-22––LUA1C11 17-18–or––LUFN11 43-44–––––or––LU9BN11 13-14–––––OffOFF0Ready to operate0Start1Tripped on short-circuitTRIPI>>Tripped on thermal overloadManual reset modeTRIP0Automatic reset on thermal overload fault mode0Remote reset mode0N/O contactin closed position. N/C contactin open position.References:pages A4/10 and A4/13Schemes: pages A4/71 and A4/74Ref.";i:164;s:2560:"A4/55Ultra motor startersCharacteristicsTeSys ControlUltra motor starters - Available statusData profile under AS-InterfaceControl unit present in the productStandardLUCAAdvancedLUCB, CC, CDStatusD0Ready (available)D1Poles closed (running)CommandsD0Start - forward runningD1Start - reverse runningMain registers accessible with Modbus, CANopen, Advantys STB, Profibus DP and DeviceNet communication modules.For other registers and for further information, please consult the User's Manual Communication variables on the website www.schneider-electric.comControl unit present in the productStandardAdvancedMarkingRegister 0...Register 99Words...BitsCommercial reference, serial number, software versionLogRegister 100...Register 450Words...BitsFault log, Operating log, Log of last 5 tripsStatusRegister 451...Register 464Words...BitsAlarm signalling (bits), Fault signalling (bits)ValuesRegister 465...Register 473WordsIrms phase 1, phase 2, phase 3. Motor load, thermal status Earth leakage current. Phase imbalance and phase failureRegister 474...Register 599Words...BitsReservedConfigurationRegister 600...Register 699Words...BitsProtection and alarm thresholds, fallback mode and reset modeCommandsRegister 700...Register 714Words...BitsCommandsStatus and valuesRegister 452Bit 0Short-circuit faultBit 1Overcurrent faultBit 2Thermal overload faultRegister 455Bit 0Ready (available)Bit 1Poles closedBit 2FaultBit 3AlarmsBit 4Tripped ("TRIP" position)Bit 5Fault acknowledgement allowedBit 6ReservedBit 7Motor runningBit 8Motor current % (bit 0)Bit 9Motor current % (bit 1)Bit 10Motor current % (bit 2)Bit 11Motor current % (bit 3)Bit 12Motor current % (bit 4)Bit 13Motor current % (bit 5)Bit 14ReservedBit 15Motor startingRegister 461Bit 3Thermal overload alarmRegister 465WordThermal status valueRegister 466WordMotor load value (Im/Ir)ConfigurationRegister 602Bit 0Manual reset on thermal overload faultBit 1Remote reset on thermal overload faultBit 2Automatic reset on thermal overload faultRegister 682Value 0Fallback mode validationValue 1Outputs OA1 and OA3 unchangedValue 2Outputs OA1 and OA3 forced to 0Value 3Outputs OA1 and OA3 unchanged, signalling existence of communication failureValue 4Outputs OA1 forced to 1 and OA3 unchangedValue 5Outputs OA3 forced to 1 and OA1 unchangedCommandsRegister 700Bit 0LO1 output commandRegister 704Bit 0OA1 output commandBit 1OA3 output commandBit 2ReservedBit 3Fault acknowledgementBit 4ReservedBit 5Trip testBit 6...15Reserved Data accessibleReferences:pages A4/24 to A4/29Schemes: pages A4/64 and A4/65Ref.";i:165;s:788:"A4/56Ultra motor startersTripping curves for control units LUCA, LUCB, LUCDAverage operating times at 20 °C according to multiples of the setting current, tolerance : ± 20 %.x the setting current (Ir)Time (s)10,1110100100010234567812203014132562509.eps1 LUCD, 3 poles from cold state, class 20.2 LUCA, LUCB, 3 poles from cold state, class 10.3 LUCA, LUCB, LUCD, 3 poles from hot state.Tripping curves for control units LUCCAverage operating times at 20 °C according to multiples of the setting current, tolerance : ± 20 %.x the setting current (Ir)Time (s)1102345678122030140,1110100100021560575.eps1 LUCC, single-phase, cold state.2 LUCC, single-phase, hot state.CurvesTeSys ControlUltra motor starters References:pages A4/11 and A4/12Characteristics:page A4/47Schemes:page A4/63Ref.";i:166;s:548:"A4/57Ultra motor startersCurrent limitation on short-circuitUe = 460 Vpeak current (kA)Prospective Isc (kA)0,10,111010010,20,40,60,810234681002030406080123DF510923.eps1 Maximum peak current2 32 A, 38 A power base3 12 A power baseThermal limit on short-circuitUe = 460 V0,1110100100010,20,40,60,81023468100203040608012Sum of I²dt (A²s) 103Prospective Isc (kA)DF510577.eps1 32 A, 38 A power base2 12 A power baseCurvesTeSys ControlUltra motor starters References:page A4/10Characteristics:pages A4/44, A4/46 to A4/54Schemes:pages A4/62 to A4/74Ref.";i:167;s:746:"A4/58Ultra motor startersUse in category AC-41213456789101232400,5 0,60,8123546810LUB 12LUB 32Millions of operating cyclesCurrent broken in A520946.epsUse in category AC-43Ue y 440 VUe = 690 V213456789101228,5350,5 0,60,8124536810LUB 12LUB 32LUB 38 (1)0,550,751,52,245,57,5230 V400 V0,750,551,52,245,57,51115kW1,52,25,57,51115440 VkWkW0,550,75Millions of operating cyclesCurrent broken in ADB439799.eps21345678921101232400,5 0,60,8124356810LUB 12LUB 32LUB 38 (1)24Millions of operating cyclesCurrent broken in A520948.eps (1) Plain curve: LUB32 + LUB38, doted curve: LUB38 only.CurvesTeSys ControlUltra motor starters References:page A4/10Characteristics:pages A4/44, A4/46 to A4/54Dimensions:pages A4/60 and A4/61Schemes:pages A4/62 to A4/74Ref.";i:168;s:530:"A4/59Ultra motor startersUse in category AC-44Ue y 440 VUe = 690 V213510201003017080666040502000,10,20,40,30,50,60,810,010,020,040,030,050,060,08LUB 12LUB 32Current broken in AMillions of operating cycles520949.eps213510201003012680546040502000,10,20,40,30,50,60,810,010,020,040,030,050,060,08LUB 12LUB 32Current broken in AMillions of operating cycles520950.epsCurvesTeSys ControlUltra motor starters References:page A4/10Characteristics:pages A4/44, A4/46 to A4/54Dimensions:pages A4/60 and A4/61Schemes:pages A4/62 to A4/74Ref.";i:169;s:1330:"A4/60Ultra motor startersDimensionsTeSys ControlUltra motor starters DimensionsStarter-controllers LUB: non-reversingLU2B: reversingRail mountingScrew fixingRail mountingScrew fixing126a (1)154X1X145X2X2DF510943.eps126135 (1)73DF568841.eps30Ø4 (2)163...167DF510944.eps22445DF568843.eps120/125DF568844.eps233...23729Ø4 (2)DF510947.epsaWith Modbus module135With Advantys STB, CANopen, Profibus DP or DeviceNet modules147Minimum electrical clearance: X1 = 50 mm for Ue = 440 V and 70 mm for Ue = 500 and 690 V, X2 = 0Reverser block for mounting separately from power baseRail mountingScrew fixing45113115DF568846.eps113DF568847.eps36104Ø4DF568848.epsSets of busbars and plug-in power socketsGV2G445 and GV2G454 GV2Gppp with terminal block GV1G09GV2G245 and G25495la18pDF568849.epsGV1 G0940DB439576.epslDF568851.epsIGV2G245 (2 x 45)89GV2G254 (2 x 54)98IPGV2G554GV2G345 et G354GV2G445 (2 x 45)17945260DF568852.epslDF568853.epsGV2G454 (2 x 54)20654aNumber of tap-offs5678IGV2G445 (2 x 45)224269314359GV2G345 (2 x 45)134GV2G454 (2 x 54)260314368422GV2G354 (2 x 54)152AK5JB144AK5PC13, PC33, PC33L79 82 30 4581438452DF568854.eps45,535,538DF568855.eps(1) Depth with communication module.(2) Retractable fixing lugs.References:pages A4/10 and A4/11Characteristics:page A4/44Curves:pages A4/56 to A4/59Schemes:pages A4/61 to A4/74Ref.";i:170;s:934:"A4/61Ultra motor startersDimensionsTeSys ControlUltra motor starters Dimensions, mountingLimiter-disconnector LUALB1 Disconnector LUALB10Current limiter LA9LB920a (1)4593154DF568856.eps653,51462ØM410311551X1X1DB432554.eps X1: Electrical clearance = 30 mm for Ue y 690 VaWith Modbus module135With Advantys STB, CANopen, Profibus DP or DeviceNet modules147Door interlock mechanismsLU9APN21, LU9APN22, LU9APN24Door cut-out79,5237,40,5...443a606==DB127409.eps48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.eps(1) For IP65 only.aMiniMaxiLU9APNpp191300LU9APNpp + GVAPK12300483Splitter boxesLU9GC3 (Modbus) LU9G02 and LU9G03LU9GC7 (Profibus DP)Rail mountingScrew fixingRail mountingScrew fixing12845154DF568862.eps128DF568863.eps30Ø4 (2)163...167DF510945.eps4565170DF568867.eps65DF568865.eps163...16730Ø4 (2)DF510946.eps(1) Depth with communication module.(2) Retractable fixing lugs.References:pages A4/20, A4/31, A4/32Ref.";i:171;s:1564:"A4/62Ultra motor startersSchemesTeSys ControlUltra motor starters - Terminal identifications12, 32, 38 A power bases with standard, advanced or multifunction control unitLUBLU2BNon-reversingReversing13/NO14/NO21/NC22/NC2/T14/T26/T3A1A21/L13/L25/L3Control UnitDF568772.eps8482812/T14/T26/T32/T14/T26/T3A3B3A1B1A21/L13/L25/L3Control UnitPre-wiredReverserDF568773.epsWith control unit LUCC or LUCMConnection of a single-phase motor13/NO14/NO21/NC22/NC246A1A2135L1L2MUVControl UnitDF568774.epsControl terminal blockA3B3A1B1A2LU2BReverser Motor ControllerDF568775.epsReverser blocksLU2MLU6MControl terminal blocks1/L13/L25/L3A32/T14/T26/T3B3A1S1S2S3B1A2848281ReverserDF568776.epsS1S2S3A3B3A1B1A2LU6MReverser BlockDF568777.epsWith pre-wired connector LU9MRCS1S2S3LU6MLU9M RCReverser BlockPre-wired coilDF568778.epsControl terminal blockBasic schemeA3B3A1B1A2LU2MReverser Motor ControllerDF568779.epsLU6MA1A3A2S122A2A1211413S3B1B3S2(1)S1 Start next stageS2 Electrical interlockingS3 Maintaining contactB1 Maintain forward runningB3 Maintain reverse runningA1 Pulse forward runningA2 CommonA3 Pulse reverse running(1) Electronically operated bistable electromagnet.ForwardReverseForwardReverseDF568780.epsAdd-on contact blocksAdd-on contact modulesLUA1C11 LUA1C20 LUA8E20LUFN20LUFN11LUFN0217/NO18/NO95/NC96/NCDF568781.eps17/NO18/NO97/NO98/NODF568782.epsOI57586768DF568783.eps33/NO34/NO43/NO44/NODF568784.eps31/NC32/NC43/NO44/NODF568785.eps31/NC32/NC41/NC42/NCDF568786.epsReferences:pages A4/10 and A4/11Characteristics:pages A4/44 and A4/45Curves:pages A4/56 to A4/59Ref.";i:172;s:838:"A4/63Ultra motor startersControl unitsStandard control units LUCAAdvanced control units LUCB, LUCC, LUCDBasic schemeBasic schemeA1A2LUCA1234tr56Supply and Detection of start sequenceThermal overload memoryControl A.S.I.C.Power Base InterfaceSensor L1Sensor L2Sensor L3DF568787.eps1 and 2 Trips3 and 4 Electromagnet5 Power base rating6 N/CA1789101112123456A2LUCptrSupply and Detection of start sequenceTherm. overload memoryControl A.S.I.C.Power Base InterfaceSensor L1Sensor L2Sensor L3TestInterface moduleDF568788.eps1 and 2 Trips3 and 4 Electromagnet5 Power base rating6 N/C7 Earth8 Thermal status/Set9 Reset mode/Reset10 (lm/Ir)11 Vc2 12 Vc1SchemesTeSys ControlUltra motor starters - Terminal identificationsReferences:pages A4/11 and A4/12Characteristics:pages A4/47 to A4/49Curves:pages A4/56 to A4/58Ref.";i:173;s:1210:"A4/64Ultra motor startersFunction modulesAlarm LUFW10Indication of motor load LUFV24-20 mA output0708LUFW 10Alarms ModuleDF568791.eps4...20 mANCLUFV 2Analogue output Module24 V Aux24 V AuxDF568792.epsBasic schemeBasic scheme0708LUFW 10Input interfaceAdvanced Control Unit or Multifunction Control UnitLEDSupplyRelais bistableDF568793.epsLUFV 24...20 mAInput interfaceAdvanced Control Unit or Multifunction Control UnitSupplyμP - Analogue/Digital converterIsolationDigital/Analogue converterVoltage/Current converterDF568794.eps100 Ω < load < 500 Ω c 30 V max and 40 mA minCommunication modulesCommunication modules ASILUFC5 and ASILUFC51Without pre-wired coil connectionWith pre-wired coil connection LU9BN11CComOA1OA3AS-iAS-Interface ModuleASILUF C5 or ASILUF C51DF568795.epsAS-iLU9B N11CAS-Interface ModuleASILUF C5 or ASILUF C51Pre-wired coilDF568796.epsWith pre-wired coil connection LU9MRCAS-iLU9M RCAS-Interface ModuleASILUF C5 or ASILUF C51Pre-wired coilDF568797.epsBasic schemeASILUF C5ComOA1OA3AS-iA2SIASILUF C51Output interfaceDELReady-Fault-PoleorDF568798.epsSchemesTeSys ControlUltra motor starters - Terminal identificationsReferences:pages A4/13, A4/24Characteristics:pages A4/50 to A4/55Ref.";i:174;s:1340:"A4/65Ultra motor startersSchemesTeSys ControlUltra motor starters - Terminal identificationsCommunication modules (continued)Modbus communication module LULC033With pre-wired coil connection LU9BN11CWithout pre-wired coil connectionComLO1654D(B)D(A)0 V854LUL C031LU9B N11CModbus Module24 V AuxPre-wired coilDF568801.epsComOA1LI1LI2LO1OA3654D(B)D(A)0 V854LUL C033Modbus Module24 V Aux24 Vc COMDF568800.epsWith pre-wired coil connection LU9MRCWith pre-wired coil connection LU9BN11CComLO154D(B)D(A)0 V854LUL C031LU9M RCModbus ModulePre-wired coil24 V AuxDF568803.epsLI1LI2LO1654D(B)D(A)0 V854LUL C033LU9B N11CModbus ModulePre-wired coil24 V Aux COM24 V cDF568802.epsBasic schemeWith pre-wired coil connection LU9MRCLUL C031ComComOA1OA3LO1 D(B) D(A)0 VRS485AL1AL2458ModbusRJ4524 VInput interfaceLEDAddressOutput interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control Unit24 V AuxDF568805.epsLI1LI2LO154D(B)D(A)0 V854LUL C033LU9M RCModbus ModulePre-wired coil24 V Aux COM24 V cDF568804.epsBasic schemeModbusRJ45ComLI1LI2OA1OA3LO1 D(B) D(A)0 VRS485AL1AL2458x 6LUL C033Control unit interfaceLEDAddressI/O interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control UnitCOMOutput interface24 V Aux24 V cControllerController interfaceDF568806.epsReferences:page A4/26Characteristics:pages A4/51 to A4/55Ref.";i:175;s:1849:"A4/66Ultra motor startersCommunication modules (continued)Profibus DP communication module LULC07CANopen communication module LULC08Without pre-wired coil connectionWithout pre-wired coil connectionComOA1LO1LI1LI2OA3LUL C07BusProfibus DP ModuleDF568807.epsComOA1LO1LI1LI2OA3LUL C08BusCanopen ModuleDF568808.epsWith pre-wired coil connection LU9BN11LCWith pre-wired coil connection LU9BN11LCLU9B N11LLO1LI1LI2LUL C07BusProfibus DP ModulePre-wired coilDF568809.epsLU9B N11LLO1LI1LI2LUL C08BusCanopen ModulePre-wired coilDF568810.epsWith pre-wired coil connection LU9MRCWith pre-wired coil connection LU9MRCLU9M RLLO1LI1LI2LUL C07BusProfibus DP ModulePre-wired coilDF568811.epsLU9M RLLO1LI1LI2LUL C08BusCanopen ModulePre-wired coilDF568812.epsBasic schemeBasic schemeLUL C07ComLI2LI1OA1OA3LO1AL1AL2x 6Control unit interfaceLEDAddressI/O interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control UnitControllerController interfaceDF568813.epsLUL C08ComLI2LI1OA1OA3LO1AL1AL2x 6Control unit interfaceLEDAddressI/O interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control UnitControllerController interfaceDF568814.epsDeviceNet communication module LULC09Without pre-wired coil connectionBasic schemeComOA1LO1LI1LI2OA3LUL C09BusDeviceNet ModuleDF568815.epsLUL C09ComLI2LI1OA1OA3LO1AL1AL2x 624 V cControl unit interfaceLEDAddressI/O interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control UnitControllerController interfaceDF510952.epsWith pre-wired coil connection LU9BN11LCLU9B N11LLO1LI1LI2LUL C09BusDeviceNet ModulePre-wired coilDF568817.epsWith pre-wired coil connection LU9M RLLU9M RLLO1LI1LI2LUL C09BusDeviceNet ModulePre-wired coilDF568818.epsSchemesTeSys ControlUltra motor starters - Terminal identificationsReferences:pages A4/25, A4/28, A4/29Characteristics:pages A4/51 to A4/55Ref.";i:176;s:1422:"A4/67Ultra motor startersSchemesTeSys ControlUltra motor starters - Terminal identificationsCommunication modules (continued) Advantys STB communication module LULC15Parallel wiring modulesWithout pre-wired coil connectionWithout pre-wired coil connectionComOA1LO1LI1LI2OA3LUL C15BusInOutAdvantys STB ModuleDF568819.eps87654321ComOA1OA3LUF C00Parallel bus ModuleLink // RJ45DF568820.epsWith pre-wired coil connection LU9BN11LCWith pre-wired coil connection LU9BN11LCLO1LI1LI2LUL C15BusInOutLU9B N11LAdvantys STB ModulePre-wired coilDF568821.eps87654321LUF C00LU9B N11CParallel bus ModulePre-wired coilLink // RJ45DF568822.epsWith pre-wired coil connection LU9MRCWith pre-wired coil connection LU9MRCLU9M RLLO1LI1LI2LUL C15BusInOutAdvantys STB ModulePre-wired coilDF568823.eps87654321LUF C00LU9M RCParallel bus ModulePre-wired coilLink // RJ45DF568824.epsBasic schemeBasic schemeLUL C15ComLI2LI1OA1OA3LO1AL1AL2x 6OUTINControl unit interfaceLEDAddressI/O interfaceSupplyReady-Fault-PoleAdvanced Control Unit or Multifunction Control UnitControllerController interfaceDF568825.epsComOA3OA187654321LUF C00RJ45Reay- Fault- PoleDF568826.eps1 Forward running2 Reverse running3 Output common4 Selector in position 5 Pole state6 Reserved7 Fault8 Input commonProfibus DP power supply module LU9GC7OUTINLU9 GC724 V Aux.FilterDF568827.epsReferences:pages A4/20, A4/27, A4/28Characteristics:pages A4/51 to A4/55Ref.";i:177;s:2826:"A4/68Ultra motor startersSchemesTeSys ControlUltra motor starters - Terminal identificationsCommunication modules (continued)Wiring hub and splitter boxesModbus hub LU9GC3Parallel wiring splitter box LU9G02 Parallel wiring splitter box LU9G03LU9 GC30 V0 VD (A) +D (B) –12345678RJ45X112345678RJ45X9X2X3X4X5X6X7X8X10RJ45RJ45RJ45RJ45RJ45RJ45RJ45RJ45ShieldingShieldingShieldingN/CN/CN/CD (B) –D (A) +N/C24 V (1)0 VN/C N/C N/CD (B) –D (A) +N/CN/C 0 VLU9 G02ComCom12345678910111213141516171819201234567891011121314151617181920(2)12345678(3)RJ45X1X2X3X4X5X6X7X8X10X9RJ45RJ45RJ45RJ45RJ45RJ4512345678RJ45Fault X1Fault X2Fault X3Fault X4Fault X5Fault X6Fault X7Fault X8Pole state X1Pole state X2Pole state X3Pole state X4Pole state X5Pole state X6Pole state X7Pole state X8 + 24 V AuxCom+ 24 V AuxComForward running X1Forward running X2Forward running X3Forward running X4Forward running X5Forward running X6Forward running X7Forward running X8Reverse running X1Reverse running X2Reverse running X3Reverse running X4N/CN/CN/CN/C+ c 24 VCom+ c 24 VComForward runningReverse runningOutput commonN/CPole stateN/CFault+24 V AuxForward runningN/CCommun des sortiesN/CPole stateN/CFault+ 24 V Aux24 V AuxInputsOutputsLU9 G03ComCom12345678910111213141516171819201234567891011121314151617181920(2)12345678(3)RJ45X1X2X3X4X5X6X7X8X10X9RJ45RJ45RJ45RJ45RJ45RJ4512345678RJ45Fault X1Fault X2Fault X3Fault X4Fault X5Fault X6Fault X7Fault X8Pole state X1Pole state X2Pole state X3Pole state X4Pole state X5Pole state X6Pole state X7Pole state X8 + 24 V AuxCom+ 24 V AuxComForward running X1Forward running X2Forward running X3Forward running X4Forward running X5Forward running X6Forward running X7Forward running X8Reverse running X1Reverse running X2Reverse running X3Reverse running X4Reverse running X5Reverse running X6 Reverse running X7 Reverse running X8+ c 24 VCom+ c 24 VComForward runningReverse runningOutput common N/CPole state+ 24 VFault+ 24 V Aux24 V AuxInputsOutputs(1) Not connected on connectors X1 to X8. Only present on RJ45 IN and OUT connectors.(2) 20-way HE10 input connector.(3) 20-way HE10 output connector.(4) Wire colours and corresponding HE10 connector pin numbers.GatewaysLUFP1LUFP7LUFP987654321LUF P1X2 Fip I/O54D(B)D(A)0 V8549X1Fip I/O - Modbus Gateway24 V AuxDF568830.eps87654321LUF P7X2 Profibus54D(B)D(A)0 v8549X1Profibus - Modbus Gateway24 V AuxDF568831.eps54321LUF P9X2 DeviceNet54D(B)D(A)0 V854X1DeviceNet - Modbus Gateway24 V AuxDF568832.epsColours of TSXCDPppp connection cable wires (4)1 White2 Brown3 Green4 Yellow5 Grey6 Pink7 Blue8 Red9 Black10 Violet11 Grey-pink12 Red-blue13 White-green14 Brown-green15 White-yellow16 Yellow-brown17 White-grey18 Grey-brown19 White-pink20 Pink-brownReferences:pages A4/20 and A4/30Dimensions:pages A4/61 and A4/68Ref.";i:178;s:956:"A4/69Ultra motor startersTeSys ControlUltra motor starters - Non-reversing basic applicationsNon-reversing starter-controllers LUB1/L13/L25/L32/T14/T26/T3M3 U1V1W1Control UnitDF510449.eps2-wire control via 2-position switch3-wire control, pulsed start with maintaining contactConnection of a motor load indicator module LUFV2 A2A1StartStopDF510450.eps A2A11314DF510451.eps 4...20 mANCLUFV 2Analogue output Module24 V Aux24 V AuxDF510456.epsConnection of thermal overload fault signalling modules LUFDA10Automatic resetRemote resetZ1Z20708LUF DA10A124...230 VA2X1X2– QF1– V1– S1Automatic or remote resetDF510513.epsZ1Z20708LUF DA10A124...230 VA2X1X2– QF1– S2– V1– S1Automatic or remote resetDF510514.epsControl via Modbus communication module LULC033Without pre-wired coil connection A1A2ComOA1LI1LI2LO1OA3654D(B)D(A)GND854ModbusLUL C033– S2– S1Modbus Module24 Vc24 VAuxCOMDF510600.epsSchemesReferences:pages A4/10 to A4/14Ref.";i:179;s:1061:"A4/70Ultra motor startersTeSys ControlUltra motor starters - Non-reversing basic applicationsNon-reversing starter controllers LUB (continued)Control by communication modules ASILUFC5 and ASILUFC51Without pre-wired coil connectionWithout pre-wired coil connectionWith local controlA1A2ComOA1OA3AS-InterfaceASILUF C5AS-Interface ModuleAS-Interface lineor ASILUFC51DF533858.epsA1A2ComOA1OA3AS-InterfaceASILUF C5AdjustmentNormalAS-Interface ModuleAS-Interface lineor ASILUFC51DF533859.epsWith pre-wired coil connection LU9BN11CWithout pre-wired coil connectionWith local controlAS-InterfaceASILUF C5AS-Interface ModuleLU9BN11C Pre wired coilAS-Interface lineor ASILUFC51DF533860.epsA1A2ComOA1OA3AS-InterfaceASILUF C5AdjustmentNormalAS-Interface ModuleAS-Interface lineor ASILUFC51DF533861.epsWithout pre-wired coil connectionWith multifunction control unit LUCMA1A2ComOA1OA3AS-Interface654D(B)D(A)GND854RJ45Bus Modbus RS 485ASILUF C5LUCMMultifunction Control Unit24 V AuxAS-Interface ModuleAS-Interface lineor ASILUFC51DF533862.epsSchemes References:page A4/14Ref.";i:180;s:930:"A4/71Ultra motor startersStandard or advanced power baseON/OFF control (1 direction of rotation)Push buttons wiringDB414426_b.epsA1A295NC1718NO9613NO2122NC14A1A213 NO2122NC142122OFFONaaLU9B N11A1A295NC1718NO963343443413NO2122NC14NONOA1A295NC1718NO963343443413NO2122NC14NONOON indication"Motor RUN" indicator wiring"Motor starter READY" indicator wiringA1A295NC1718NO963343443413NO2122NC14NONOA1A295NC1718NO963343443413NO2122NC14NONOA1A295NC1718NO963343443413NO2122NC14NONORUN aa434433434434NONOLUF N20DB414428.epsREADYaaLUA8 E20A1A295NC1718NO963343443413NO2122NC14NONO33434434DB414429.epsALARM indicationProtection device status indicator wiringA1A295NC1718NO963343443413NO2122NC14NONO9597NO1718NO98aaALARMProtection OKLUA1 C20A1A295NC1718NO963343443413NO2122NC14NONOA1A297NO1718NO983343443413NO2122NC14NONODB432552.epsTeSys ControlUltra motor starters - Non-reversing basic applicationsSchemes References:pages A4/10 to A4/13Ref.";i:181;s:1473:"A4/72Ultra motor startersTeSys ControlUltra motor starters - Reversing basic applicationsReversing starter-controllers LUB2-wire control via 3-position switch3-wire control, pulsed start with maintaining contact2/T14/T26/T32/T14/T26/T3U1W1V1 M 3 1/L13/L25/L3Control Unit561148.epsA3B3A1B1A2LU2BReverser Motor ControllerStopforward runningreverse running561149.epsA3B3A1B1A2LU2BStop forward running and reverse runningReverser Motor ControllerStop forward runningStop reverse runningStart forward runningStart reverse running561150.epsControl by communication modules ASILUFC5 and ASILUFC513-wire control, pulsed start with maintaining contact and limit switchesWith pre-wired coil connection LU9MRCWith multifunction control unit LUCMAS-Interface654D(B)D(A)GND854Bus ModbusRS 485LUCMASILUF C524 V AuxAS-Interface ModuleMultifunction Control UnitLU9M RC Pre wired coilAS-Interface lineor ASILUFC51DF510955.epsA3B3A1B1A2LU2BStop forward running and reverse runningReverser Motor ControllerStop forward runningStop reverse runningStart forward runningStart reverse runningLimit switch forward runningLimit switch reverse running561152.epsControl by communication modules ASILUFC5 and ASILUFC51Without pre-wired coil connectionWith running direction pilot lights and limit switches5354818482A3B3A1B1A2ComOA1OA3AS-InterfaceLU2BASILUF C5/C51AS-Interface ModuleReverser Motor ControllerAS-Interface lineDF510516.epsSchemes References:pages A4/10 and A4/24Ref.";i:182;s:956:"A4/73Ultra motor startersTeSys ControlUltra motor starters - Reversing basic applicationsReversing starter controllers LU2B (continued)Control via Modbus communication module LULC033Without pre-wired coil connection. With local controlA3B3A1B1A2ComOA1LI1LI2LO1OA3654D(B)D(A)GND854ModbusLU2BLULC 033Modbus ModuleAdjustmentNormalStart reverse runningStart forward runningReverser Motor Controller24 Vc24 VAuxCOMDF510601.epsReversing starter-controllers LUB + LU6M2/T14/T26/T32/T14/T26/T3U1W1V1 M 3 1/L13/L25/L31/L13/L25/L3Control Unit561155.eps3-wire control, pulsed start with maintaining contact2-wire control via 3-position switchA3B3A1B1A22122S1S2S31314A2A1LU6MS5S6S8S7S9Reverser BlockStop forward running and reverse runningStop forward runningStop reverse runningStart forward runningStart reverse runningDF565412.epsA3B3A1B1A22122S1S2S3A2A1LU6MReverser BlockStopforward runningreverse runningDF510956.epsSchemes References:page A4/10Ref.";i:183;s:577:"A4/74Ultra motor startersPower base with vertical mounting reverser blockFW/REV/OFF control (2 directions of rotation)FW/REV controlPush buttons wiringFW, REV indicators wiring33434434NONOA1A2A1A3B1B31 295818284NC1718NO96A2A1A3B1B312818284A2A1A3B1B312818284A2A1A3B1B3REVFWOFFaaDB414430R.eps33434434NONOA1A2A1A3B1B31 295818284NC1718NO9633434434NONOA195NC1718NO96A2A1A3B1B3128182841281828433434434NONO95NC1718NO96aaRUN FWRUN REV333433434434NONO818284LUFN20DB414431R.epsTeSys ControlUltra motor starters - Reversing basic applicationsSchemes References:pages A4/10 and A4/13Ref.";i:184;s:2850:"A4/75Ultra motor startersTeSys ControlAltistart U01 Soft starterEnvironmental characteristicsType of starterATSU01N2ppLTConformity to standardsAltistart U01 electronic starters have been developed to conform to the strictest international standards and the recommendations relating to electrical industrial control devices (IEC, EN), in particular standard IEC/EN 60947-4-2.Electromagnetic compatibility EMCConducted and radiated emissionsCISPR 11 level B, IEC 60947-4-2, level BHarmonicsIEC 1000-3-2, IEC 1000-3-4EMC immunityEN 50082-2, EN 50082-1Electrostatic dischargeIEC 61000-4-2 level 3Immunity to radiated radio-electrical interferenceIEC 61000-4-3 level 3Immunity to electrical transientsIEC 61000-4-4 level 4Voltage/current impulseIEC 61000-4-5 level 3Conducted and radiated emissionsIEC 61000-4-6 level 3Immunity to conducted interference caused by radio-electrical fieldsIEC 61000-4-11Damped oscillating wavesIEC 61000-4-12 level 3e markingThe starters carry e marking in accordance with the European low voltage directives IEC/EN 60947-4-2.Product certificationsUL, CSA, C-Tick and CCCDegree of protectionIP 20Degree of pollution2 conforming to IEC/EN 60947-4-2Vibration resistance1.5 mm peak to peak from 3 to 13 Hz, 1 gn from 13 to 150 Hz, conforming to IEC/EN 60068-2-6Shock resistance15 gn for 11 ms conforming to IEC/EN 60068-2-27Relative humidity5...95 % without condensation or dripping water conforming to IEC 60068-2-3Ambient temperature around the unitStorage°C-25...+70 conforming to IEC/EN 60947-4-2Operation°C-10...+40 without derating, up to 50°C with current derating of 2 % per °C above 40°CMaximum operating altitudem1000 without derating (above this, derate the current by 2.2 % per additional 100 m)Operating positionMaximum permanent angle in relation to the normal vertical mounting positionElectrical characteristicsType of starterATSU01N2ppLTCategory of useConforming to IEC 60947-4-2Ac-53bRated operating voltage3-phase a voltageV200 - 10 % to 480 + 10 % FrequencyHz50 - 5 % to 60 + 5 %Output voltageMaximum 3-phase voltage equal to line supply voltageControl supply voltage24 V c, 100 mA ±10 %Rated operating currentA6...32Adjustable starting times1...10Adjustable deceleration times1...10Starting torque%30.... 80 % of DOL motor starting torqueType of starterATSU01N206LT01N209LT01N212LT01N222LT01N232LTControl power supply consumption24 V c, 65 mA24 V c, 100 mAPower dissipatedAt full load at end of startingW1.51.51.52.52.5In transient state at 5 times the rated operating currentW61.591.5121.5222.5322.5Type of starter ATSU01N206LT to ATSU01N222LT ATSU01N232LTUseStarting times15101510Maximum number of cycles per hour10020105010510°10°Starting timeFull voltage state or starter at standstillOperating cycletICharacteristics References:page A4/38Dimensions:page A4/77Schemes:pages A4/78 to A4/81Ref.";i:185;s:2013:"A4/76Ultra motor startersTeSys ControlAltistart U01 Soft starter Electrical characteristics (continued)Logic input power supply (electrically isolated between power and control) + 24 V, COM24 V ±10 %IsolatedMax. current 100 mALogic inputs LI1, LI2, BOOST Stop, run and boost on start-up functionsLogic inputs with impedance 27 kΩ; 24 V power supply (U max 40 V)Max. current 8 mAState 0 if U < 5 V and I < 0.2 mAState 1 if U > 13 V and I > 0.5 mALogic output LO1End of starting signalOpen collector logic output:External 24 V power supply (minimum 6 V, maximum 30 V)Max. current 200 mARelay outputR1A R1CNormally open (N/O) contactMinimum switching capacity: 10 mA for 6 V cMaximum switching capacity on inductive load (cos φ = 0.5 and L/R = 20 ms): 2 A for 250 V a or 30 V c (AC-15)Maximum operating voltage 440 VLED signallingGreen LEDStarter powered upYellow LEDNominal voltage reachedConnections (maximum connection capacity and tightening torque)Power circuitConnection to Ø4 mm screw clampsFlexible wire without cable end1 conductormm21.5...108 AWG2 conductorsmm21.5...610 AWGFlexible wire with cable end1 conductormm21...610 AWG2 conductorsmm21...610 AWGRigid wire1 conductormm21...108 AWG2 conductorsmm21...610 AWGTightening torqueN.m1.9...2.5Control circuitScrew connectorFlexible wire without cable end1 conductormm20.5...2.514 AWG2 conductorsmm20.5...1.516 AWGFlexible wire with cable end1 conductormm20.5...1.516 AWG2 conductorsmm20.5...1.516 AWGRigid wire1 conductormm20.5...2.514 AWG2 conductorsmm20.5...117 AWGTightening torqueN.m0.5Torque characteristics (typical curves)000,250,50,751N/NsU0,85 U0,6 UTTr3 Tn2 TnTnDF536930.epsThe diagram opposite shows the torque/speed characteristic of a cage motor in relation to the supply voltage. The torque varies in line with the square of the voltage at a fixed frequency. The gradual increase in the voltage prevents the instantaneous current peak on power-up.CharacteristicsReferences:page A4/38Dimensions:page A4/77Schemes:pages A4/78 to A4/81Ref.";i:186;s:783:"A4/77Ultra motor startersTeSys ControlAltistart U01 Soft starter Ultra combination (non-reversing power base) and ATSU01N206LT to ATSU01N212LTUltra combination (non-reversing or reversing power base) and ATSU01N206LT to ATSU01N212LTMounting on 5 (35 mm) rail with VW3G4104 connectorSide by side mounting150284459DF536571.eps9913515472,29124DF536572.epsUltra combination (non-reversing power base) and ATSU01N222LT to ATSU01N232LTUltra combination (non-reversing or reversing power base) and ATSU01N222LT to ATSU01N232LTMounting on 5 (35 mm) rail with VW3G4104 connectorSide by side mounting314451709DF536573.eps9913572,21549DF536574.epsVW3G4104 connector44,820646,628DF536575.epsDimensionsReferences:page A4/38Characteristics:pages A4/75 and A4/76Schemes:pages A4/78 to A4/81Ref.";i:187;s:552:"A4/78Ultra motor startersTeSys ControlAltistart U01 Soft starter ATSU01N2ppLT soft start/soft stop unitsPower wiringPower wiring with reversing unit2/T14/T26/T32/T14/T26/T31/L13/L25/L31/L13/L25/L3M1 3A1CU– QF1ATSU 01N2ppLTUUDF536576.eps2/T14/T26/T32/T14/T26/T31/L13/L25/L31/L13/L25/L3M1 3CU– QF1A1ATSU 01N2ppLTUltra with reversing unitUDF536577.epsCompatible componentsCodeDescriptionA1Soft start/soft stop unitQF1Ultra controller-starterCUUltra control unitSchemesReferences:page A4/38Characteristics:pages A4/75 and A4/76Dimensions:page A4/77Ref.";i:188;s:1607:"A4/79Ultra motor startersTeSys ControlAltistart U01 Soft starter ATSU01N2ppLT soft start/soft stop units (continued) Automatic 2-wire control Without decelerationWith and without deceleration– QF1– S1LUA1 C20R1AA1A21718R1CLI1LI2+ 24 VBOOSTLO1COMA1+–c 24 VATSU 01N2ppLTDF536578.eps– QF1– S2A1A2A1+–c 24 V– S1ATSU 01N2ppLTR1AR1CLI1LI2+ 24 VBOOSTLO1COMLUA1 C201718StopRunStopRunDF536579.epsFunctional diagrams10 stt1U1Power supply voltageGreen LEDLogic input LI2Pushbutton S1Logic output LO1Yellow LEDMotor voltageDF536580.epst2tt110 sU1Power supply voltageGreen LEDLogic input LI2Pushbutton S2Logic output LO1Yellow LEDMotor voltagePushbutton S1DF536581.epsAutomatic 3-wire control Without decelerationWith deceleration– QF1– S2– QF11413A1A2A1+–c 24 V– S1R1AR1CATSU 01N2ppLTLI1LI2+ 24 VBOOSTLO1COMLUA1 C201718DF536582.eps– QF1– QF1– S2A11413A2A1+–c 24 V– S1ATSU 01N2ppLTR1AR1CLI1LI2+ 24 VBOOSTLO1COMLUA1 C201718DF536583.epsFunctional diagrams500 mstt110 sU1Power supply voltageGreen LEDPushbutton S1Logic output LO1Yellow LEDMotor voltageLogic input LI2Pushbutton S2DF536585.epst10 st1Power supply voltageGreen LEDLogic output LO1Yellow LEDMotor voltageLogic input LI2Pushbutton S2Logic input LI1Pushbutton S1DF536584.epsA1: Soft start/soft stop unitS1, S2: XB4B or XB5B pushbuttonsQF1: Ultra controller-startert1: Acceleration time can be controlled by a potentiometert2: Deceleration time can be controlled by a potentiometerU1: Starting time can be controlled by a potentiometer SchemesReferences:page A4/38Characteristics:pages A4/75 and A4/76Dimensions:page A4/77Ref.";i:189;s:992:"A4/80Ultra motor startersTeSys ControlAltistart U01 Soft starter ATSU01N2ppLT soft start/soft stop units (continued) Automatic 3-wire control, with reversing unit Without decelerationWith decelerationA3B3A1A2B1A1ATSU 01N2ppLTR1AR1CCOMBOOSTLO1LI2LI1+ 24 V– S2– S1– S3c 24 V+–LUA1 C201718QF1LU2B p2BLRun direction 1Run direction 2StopDF536586.epsA3B3A1A2B1LU2B p2BLA1QF1ATSU 01N2ppLTR1AR1CCOMBOOSTLO1LI2LI1+ 24 V– S2– S1c 24 V– S3+–LUA1 C201718Run direction 1Run direction 2StopDF536587.epsQF1: Ultra controller-starter with reversing unitA1: Soft start/soft stop unitS1, S2, S3: XB4B or XB5B pushbuttonsS3: minimum depression time 500 msQF1: Ultra controller-starter with reversing unitA1: Soft start/soft stop unitS1, S2, S3: XB4B or XB5B pushbuttonsBoost on starting and end of starting signalA1ATSU 01N2ppLTR1AR1CLI1LI2+ 24 VBOOSTLO1COMTo PLCDF536588.epsA1: Soft start/soft stop unitSchemesReferences:page A4/38Characteristics:pages A4/75 and A4/76Dimensions:page A4/77Ref.";i:190;s:1855:"A4/81Ultra motor startersTeSys ControlAltistart U01 Soft starter ATSU01N2ppLT soft start/soft stop units (continued) Automatic control with Modbus communication module, with and without decelerationWithout reversing unitWith reversing unitA1LO1COMD(B)D(A)GndA1–+–+c 24 VLU9B N11CLUL C031458ATSU 01N2ppLTR1AR1CModbus ModuleCOMBOOSTLO1LI2LI1+ 24 Vc 24 V+1314Pre-wired coil24 V Aux.DF536589.epsA1LO1COMD(B)D(A)GndA1–+–+c 24 VLUL C031458OA1OA3COMATSU 01N2ppLTR1AR1CModbus ModuleCOMBOOSTLO1LI2LI1+ 24 Vc 24 V+A3B3A1A2B1LU2B p2BLQF124 V Aux.DF536590.epsFunctionRegisterBitValueFunctionRegisterBitValuePowering down U and ATSUPowering up U and ATSU–70400Forward70401Reverse70411Automatic control without decelerationPowering down U and ATSURun70001Forward70400Stop70400Reverse70410Automatic control with decelerationAutomatic control without decelerationRun70001Run70001Soft stop70000Stop forward70400Stop reverse70410Automatic control with deceleration (forward or reverse)Run70001Soft stop70000A1: Soft start/soft stop unitA1: Soft start/soft stop unitQF1: Ultra controller-starter with reversing unitAutomatic control with AS-Interface communication module, without decelerationWithout reversing unitWith reversing unitCOMBOOSTLO1LI2LI1+ 24 VA1++AS-Interfacec 24 VLU9B N11CASI LUFC5ATSU 01N2ppLTR1AR1C1314c 24 V+Pre-wired coilDF536591.epsCOMBOOSTLO1LI2LI1+ 24 VA1++AS-Interfacec 24 VASI LUFC5ATSU 01N2ppLTR1AR1CA3B3A1A2B1LU2B p2BLQF1OA1OA3COMc 24 V+DF536592.epsFunctionBitValueFunctionBitValuePower-up and automatic control without decelerationPower-up and automatic control without decelerationRunD01Run forwardD01StopD00StopD00Run reverseD11StopD10A1: Soft start/soft stop unitA1: Soft start/soft stop unitQF1: Ultra controller-starter with reversing unitSchemes References:page A4/38Characteristics:pages A4/75 and A4/76Dimensions:page A4/77Ref.";i:191;s:25:"A4/82Ultra motor starters";i:192;s:1851:"A5/1Coordination and standardsTeSysComplementary technical informationCoordination between protection and control componentsType of informationPageTypes of coordination, according to the standard currents in the circuit to be consideredA5/2Selection of the coordination typeA5/3Suggested coordinated Direct-On-Line motor starter combinationsFuses + Contactor + Overload relayA5/4Circuit breaker (with built in overload protection) + ContactorA5/11Circuit breaker + Contactor + Overload relayA5/18Suggested coordinated Star-delta motor starter combinationsFuses + Contactors + Overload relayA5/27Circuit breaker (with built in overload protection) + ContactorsA5/31Circuit breaker + Contactors + Overload relayA5/36Suggested coordinated TeSys island motor starter combinationsProtection Components / Starters - Coordination - IECA5/43Protection Components / Starters - SCCR Ratings - ULA5/50Contactors: Utilisation categories – Standard characteristics – Selection tables per categorieDefinition: utilisation categories : AC-1, AC-2, AC-3, etc...A5/51Definition: contactor standard characteristicsA5/52Contactor selection tables per utilisation categorieA5/54Contactors for specific application – Design informationSelection of contactors for lighting circuitsA5/68Selection of contactors for heating circuitsA5/74Selection of contactors for switching primaries of 3P LV/LV transformersA5/76Selection of contactors for switching 3P capacitor banks (factor correction)A5/77Selection of contactors auto-transformer startingA5/78Design of long distance remote control for contactorsA5/80Current of asynchronous squirrel cage motors at nominal loadA5/84Standards – Protection against contact – Protective treatments International standards and certificationsA5/85Protection against accidental direct contacts / IP codesA5/87Chapter A5 ";i:193;s:3107:"A5/2Coordination and standardsType 1 and type 2 coordination according to the standardThe standard defines tests at different levels of current; the purpose of these tests is to place the equipment in extreme conditions. The standard defines 2 types of coordination, according to the condition of the components after testing: type 1,type 2.To determine the type of coordination, the standard requires that the behaviour of the equipment be tested under overload and short-circuit conditions for 3 fault current values, covering overload and short-circuit conditions. Type 1 coordinationType 1 coordination requires that in a short-circuit condition, the contactor or starter must not present any danger to personnel or installations and must not be able to resume operation without repair or the replacement of parts. Type 2 coordinationType 2 coordination requires that In a short-circuit condition, the contactor or starter must not present any danger to personnel or installations and must subsequently be able to resume operation. The risk of contact welding is permissible; in this case, the manufacturer must indicate measures to be taken regarding maintenance of the equipment. Type 2 coordination increases reliability of operation. Current values11050Int0,75 Ico1,25 IcoIcoIrIq1367452Overload zoneShort-circuit zoneLow-level short-circuit zoneDF510930.epsCurrent “Ico” (overload I < 10 In)The thermal overload relay associated with the contactor provides protection against this type of fault, up to a value Ico (see curve) defined by the manufacturer. Standard IEC 60947-4-1 specifies the 2 current values to be used for checking coordination between the thermal overload relay and the short-circuit protection device: b at 0.75 Ico only the thermal overload relay must trip,b at 1.25 Ico the short-circuit protection device must operate. Current “r” (low level short-circuit 10 < I < 50 In)The main cause of this type of fault is the deterioration of insulating materials. Standard IEC 60947-4-1 defines an intermediate short-circuit current “r”. This test current makes it possible to check whether the protection device is providing protection against low-level short-circuits. Operational current Ie (AC-3) (A)Current “r” (kA)Ie y 16116 < Ie y 63363 < Ie y 1255125 < Ie y 31510315 < Ie y 63018630 < Ie y 1000301 Thermal overload relay curve.2 Fuse.3 Tripping of thermal overload relay only.4 Thermal limit of the circuit breaker.5 Thermal overload relay limit.6 Current broken by the SCPD (1).7 Circuit breaker magnetic trip.Current “Iq” (short-circuit > current “r”)This type of fault corresponds to a dead short and is relatively rare. It can be caused by a connection error during maintenance work. Short-circuit protection is provided by fast operating devices. Standard IEC 60947-4-1 defines a current “Iq”. The coordination tables supplied by Schneider Electric are based on a current “Iq” that is generally u 50 kA.(1) SCPD: short-circuit protection device.TeSysComplementary technical informationCoordination between protection and control components";i:194;s:1208:"A5/3Coordination and standardsSelectionNo coordinationConsiderable risks to both persons and equipment. Not authorised by standards:v NF C 15-100 and IEC 60364-1, article 133-1 (installation regulations),v EN/IEC 60204-1, article 7 (electrical equipment in machines),v IEC 60947-4-1, article 8.2.5. (starters)Type 1 coordinationThe most frequently used solution. b Equipment costs are lower.b Reliability of operation is not a requirement.b Before restarting, it may be necessary to repair the motor starter. Consequences: v significant amount of machine downtime,v skilled maintenance personnel required to repair, check, obtain supplies.Example: air conditioning in commercial premises.Type 2 coordinationThis solution ensures reliability of operation.Consequences: v reduced machine downtime,v reduced maintenance after a short-circuit.Example: escalators.Total coordinationWith this solution, no damage or misadjustment is permissible and reliability of operation is guaranteed. Consequences: v immediate return to service,v no special precautions required. Examples: smoke extraction, fire-fighting pumps.TeSysComplementary technical informationCoordination between protection and control components";i:195;s:1373:"A5/4Coordination and standardsTeSysComplementary technical information0.06 to 55 kW at 400/415 V: type 1 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3Fuse carrier (1)(basic block)aM fusesContactorThermal overload relayclass 10400/415 V440 V500 VReferenceSizeRatingReference (2)ReferenceSetting rangePIePIePIekWAkWAkWAAA0.060.20.060.19––LS1D3210 x 382LC1K06LR2K03020.16...0.23–– 0.090.28––LS1D3210 x 382LC1K06LR2K03030.23...0.360.090.120.30.44–0.12–0.37––––LS1D3210 x 382LC1K06LR2K03040.36...0.540.18–0.6– 0.180.250.550.76––––LS1D3210 x 382LC1K06LR2K03050.54...0.80.250.370.851.1 –0.37–1–0.37–0.88LS1D3210 x 382LC1K06LR2K03060.8...1.20.55–1.5–0.550.751.361.680.550.751.21.5 LS1D32 10 x 38 2LC1K06 LR2K0307 1.2...1.80.751.11.92.7–1.1–2.371.11.52.22.9 LS1D32 10 x 38 4LC1K06 LR2K0308 1.8...2.61.53.61.53.06––LS1D3210 x 384LC1K06LR2K03102.6...3.72.2–4.9–––––2.233.95.2LS1D32 10 x 38 6 LC1K06 LR2K0312 3.7...5.5––2.24.42––LS1D3210 x 388LC1K06LR2K03123.7...5.536.535.7746.8LS1D3210 x 388LC1K09LR2K03145.5...848.547.95.59.2LS1D3210 x 3812LC1K09LR2K03168...11.5(1) For breaking under load, add a rotary switch-disconnector.(2) For reversing operation, replace the prefix LC1 with LC2.Coordination: Fuses (NFC, DIN type aM) + Contactor + Overload relay ";i:196;s:1192:"A5/5Coordination and standardsTeSysComplementary technical information0.06 to 55 kW at 400/415 V: type 1 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3Fuse carrier (1)(basic block)aM fusesContactorThermal overload relay classe 10400/415 V440 V500 VReferenceSizeRatingReference (2)ReferenceSetting rangePIePIePIekWAkWAkWAAA5.511.55.510.47.512.4LS1D3210 x 3816LC1K12LR2K032110...147.515.57.513.7913.9LS1D3210 x 3816LC1D18LRD2112...18––916.9––LS1D3210 x 3820LC1D25LRD2112...18224122393044GSpJ22 x 5850LC1D50ALRD35037...50––3051.5––GSpJ22 x 5880LC1D50ALRD36548...65––––3753GSpJ22 x 5880LC1D65ALRD36548...6530553764––GSpJ22 x 5880LC1D65ALRD36548...65––––4564GSpJ22 x 5880LC1D80LRD336155...7037 (3)664576––GSpJ22 x 58100LC1D80LRD336363...804580––5578GSpJ22 x 58100LC1D95LRD336580...104––5590––GSpJ22 x 58125LC1D115LRD436580...1045597––75106GSpJ22 x 58125LC1D115LRD436795...120(1) For breaking under load, add a rotary switch-disconnector.(2) For reversing operation, replace the prefix LC1 with LC2.(3) 400 V maximum.Coordination: Fuses (NFC, DIN type aM) + Contactor + Overload relay";i:197;s:2028:"A5/6Coordination and standardsTeSysComplementary technical information0.06 to 315 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3Switch-disconnector aM fusesContactorThermal overload relay classe 10400/415 V440 V500 VReference (1)SizeRatingReference (2)ReferenceSetting rangePIePIePIekWAkWAkWAAA0.060.20.060.19––GS1DD10 x 382LC1D09LRD020.16...0.25––0.090.28––GS1DD10 x 382LC1D09LRD030.25...0.40.090.120.30.44–0.12–0.37–––– GS1DD 10 x 382 LC1D09 LRD04 0.4...0.630.18–0.6–0.180.250.550.76–––– GS1DD 10 x 38 2 LC1D09 LRD05 0.63...10.250.370.550.851.11.5–0.370.55–11.360.370.550.750.881.21.5 GS1DD 10 x 38 2 LC1D09 LRD06 1...1.70.75–1.9–0.751.11.682.37–1.1–2.2 GS1DD 10 x 38 4 LC1D09 LRD07 1.6...2.51.11.52.73.6–1.5–3.061.52.22.93.9 GS1DD 10 x 38 4 LC1D09 LRD08 2.5...42.24.92.24.4235.2GS1DD10 x 386LC1D09LRD104...636.535.7746.8GS1DD10 x 388LC1D09LRD125.5...848.547.95.59.2GS1DD10 x 3810LC1D09LRD147...105.511.55.510.47.512.4GS1DD10 x 3816LC1D12LRD169...137.515.57.513.7913.9GS1DD10 x 3816LC1D18LRD2112...18––916.9––GSpF14 x 5120LC1D25LRD2112...1891118.12211–20.1–111517.623 GSpF 14 x 51 25 LC1D25 LRD22 16...2415291526.518.528GSpF14 x 5132LC1D32LRD3223...3218.53518.532.82233GSpF14 x 5140LC1D40ALRD34030...40224122393044GSpJ22 x 5850LC1D50ALRD35037...50––3051.5––GSpJ22 x 5880LC1D65ALRD36548...65––––3753GSpJ22 x 5880LC1D65ALRD36548...6530553764––GSpJ22 x 5880LC1D65ALRD36548...65––––4564GSpJ22 x 5880LC1D95LRD336155...7037664576––GSpJ22 x 58100LC1D80LRD336363...80––––5578GSpJ22 x 58100LC1D115LR9D536760...1004580––––GSpJ22 x 58100LC1D95LRD336580...1045597559075106GSpLT0125LC1D150LR9D536990...150751327512590128GSpLT0160LC1D150LR9D536990...150(1) GSp: GS1 for direct operator or GS2 for external operator.(2) For reversing operation, replace the prefix LC1 with LC2.Coordination: Fuses (NFC, DIN type aM) + Contactor + Overload relay";i:198;s:2047:"A5/7Coordination and standardsTeSysComplementary technical informationCoordination: Fuses (NFC, DIN type aM) + Contactor + Overload relay75 to 400 kW at 440 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3eSwitch-disconnectoraM fusesContactorThermal overload relay 440 VProduct type SizeRatingProduct typeProduct typeIr setting (1)PIeIq (max)kWAkAAA7511580GSpL0125LC1G115LR9G1151159014580GSpL0160LC1G150LR9G22514511017780GSpN1200LC1G185LR9G22517713220980GSpN1250LC1G225LR9G22520916025580GSpQQ2315LC1G265LR9G50025520031880GSpQQ2400LC1G330LR9G50031822034380GS2S3500LC1G400LR9G50034325039080GS2S3500LC1G500LR9G50039031549080GS2S3500LC1G500LR9G50049035555480GS2S3630LC1G630LR9G63055440062780GS2V4800LC1G630LR9G63062755 to 335 kW at 400 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3eSwitch-disconnector aM fusesContactorThermal overload relay400 VProduct type SizeRatingProduct typeProduct typeIr setting (1)PIeIq (max)kWAkAAA559780GSpL0125LC1G115LR9G115977513280GSpL0160LC1G150LR9G2251329016080GSpN1200LC1G185LR9G22516011019580GSpN1250LC1G225LR9G22519513223080GSpQQ2315LC1G265LR9G50023016028080GSpQQ2400LC1G330LR9G50028020035080GS2S3500LC1G400LR9G50035022038080GS2S3500LC1G500LR9G50038025043080GS2S3500LC1G500LR9G50043031554080GS2S3630LC1G630LR9G63054033557580GS2V4800LC1G630LR9G63057565 to 375 kW at 500 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3eSwitch-disconnectoraM fusesContactorThermal overload relay 500 VProduct typeSizeRatingProduct typeProduct typeIr setting (1)PIeIq (max)kWAkAAA659280GSpL0125LC1G115LR9G115929012880GSpL0160LC1G150LR9G22512811015680GSpN1200LC1G185LR9G22515613218480GSpN1250LC1G225LR9G22518416022480GSpQQ2315LC1G265LR9G50022420028080GSpQQ2400LC1G330LR9G50028025034480GS2S3500LC1G400LR9G50034429540580GS2S3500LC1G500LR9G50040537551680GS2S3630LC1G630LR9G630516(1) This setting is a general guidance, Ir should be adjusted according to motor characteristics and conditions of use.";i:199;s:1968:"A5/8Coordination and standardsTeSysComplementary technical information0.75 to 400 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3Switch-disconnectoraM fusesContactorThermal overload relay classe 10PIeReference (1)SizeRatingReference (2)ReferenceSetting rangekWAAA0.751.1GSpF14 x 512LC1D09LRD061...1.61.11.6GSpF14 x 512LC1D09LRD061...1.61.52.1GSpF14 x 514LC1D09LRD071.6...2.52.22.8GSpF14 x 514LC1D09LRD082.5...433.8GSpF14 x 516LC1D09LRD082.5...444.9GSpF14 x 516LC1D09LRD104...65.56.7GSpF14 x 518LC1D09LRD125.5...87.58.9GSpF14 x 5110LC1D25LRD169...131112.8GSpF14 x 5116LC1D25LRD169...131517GSpF14 x 5120LC1D25LRD2216...2418.521GSpF14 x 5125LC1D32LRD2216...242224GSpJ22 x 5832LC1D40ALRD33223...323032GSpJ22 x 5840LC1D40ALRD34030...403739GSpJ22 x 5850LC1D65ALRD35037...504547GSpJ22 x 5863LC1D80LRD335737...505557GSpJ22 x 5880LC1D115LRD335948...657577GSpKKT00100LC1D115LRD336363...809093GSpKKT00125LC1D150LR9D536990...150Coordination: Fuses (NFC, DIN type aM) + Contactor + Overload relay55 to 500 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3eSwitch-disconnectoraM fusesContactorThermal overload relay690 VProduct type SizeRatingProduct typeProduct typeIr setting (3)PIeIq (max)kWAkAAA555780GSpJ22 x 5880LC1G115LR9G22557757780GSpKK00100LC1G115LR9G22577909380GSpKK00125LC1G150LR9G2259311011380GSpKK00160LC1G185LR9G22511313213480GSpL0160LC1G225LR9G22513416016280GSpN1200LC1G225LR9G22516220020380GSpN1250LC1G265LR9G50020322022380GSpQQ2250LC1G330LR9G50022325025080GSpQQ2315LC1G330LR9G50025031531380GSpQQ2400LC1G400LR9G50031335535480GSpQQ3500LC1G500LR9G50035450049380GSpS3630LC1G630LR9G630493(1) GSp: GS1 for direct operator or GS2 for external operator.(2) For reversing operation, replace the prefix LC1 with LC2.(3) This setting is a general guidance, Ir should be adjusted according to motor characteristics and conditions of use.";i:200;s:2306:"A5/9Coordination and standards0.18 to 55 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector aM fusesContactorElectronic thermaloverload relay400/415 V690 VReferenceSizeRatingReferenceReferenceSetting rangePIeIqPIeIqkWAkAkWAkAAA0.180.6100–––GS1DD10 x 382LC1D09LR9D020.4...2.00.250.85100–––GS1DD10 x 382LC1D09LR9D020.4...2.00.371.1100–––GS1DD10 x 382LC1D09LR9D020.4...2.00.551.5100–––GS1DD10 x 382LC1D09LR9D020.4...2.00.751.9100–––GS1DD10 x 384LC1D09LR9D020.4...2.01.12.7100–––GS1DD10 x 384LC1D18LR9D081.6...8.01.53.6100–––GS1DD10 x 384LC1D18LR9D081.6...8.02.24.9100–––GS1DD10 x 386LC1D18LR9D081.6...8.036.5100–––GS1DD10 x 388LC1D18LR9D326.4...3248.5100–––GS1DD10 x 3810LC1D18LR9D326.4...325.511.5100–––GS1DD10 x 3816LC1D25LR9D326.4...327.515.550–––GS1DD10 x 3816LC1D25LR9D326.4...32112250–––GSpF14 x 5125LC1D25LR9D326.4...32152950–––GSpJ22 x 5832LC1D65ALR9D110S22...11018.53550–––GSpJ22 x 5840LC1D65ALR9D110S22...110224150–––GSpJ22 x 5850LC1D65ALR9D110S22...11045 (1)80100–––GSpNT 1100LC1D150LR9D110S22...11055 (1)97100–––GSpNT 1125LC1D150LR9D110S22...110–––0.370.64100GSpF14 x 512LC1D09LR9D020.4...2.0–––0.550.87100GSpF14 x 512LC1D09LR9D020.4...2.0–––0.751.1100GSpF14 x 512LC1D09LR9D020.4...2.0–––1.11.6100GSpF14 x 512LC1D25LR9D081.6...8.0–––1.52.1100GSpF14 x 514LC1D25LR9D081.6...8.0–––2.22.8100GSpF14 x 514LC1D25LR9D081.6...8.0–––34100GSpF14 x 516LC1D25LR9D081.6...8.0–––45100GSpF14 x 516LC1D25LR9D081.6...8.0–––5.5750GSpF14 x 518LC1D25LR9D326.4...32–––7.58.950GSpF14 x 5110LC1D25LR9D326.4...32–––111350GSpF14 x 5116LC1D32LR9D326.4...32–––1516.550GSpF14 x 5120LC1D32LR9D326.4...32–––18.521100GSpF14 x 5125LC1D95LR9D326.4...32–––18.52150GSpF14 x 5125LC1D65ALR9D326.4...32–––222550GSpF14 x 5132LC1D65ALR9D326.4...32–––3033100GSpF14 x 5140LC1D95LR9D11022...110–––3740100GSpF14 x 5150LC1D95LR9D11022...110–––4549100GSpJ22 x 5863LC1D95LR9D11022...110(1) Ratings valid up to 400 V AC only.TeSysComplementary technical informationCoordination: Fuses (NFC, DIN type aM) + Contactor + Electronic overload relay";i:201;s:1962:"A5/10Coordination and standardsTeSysComplementary technical information0.06 to 375 kW at 415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector-fuseBS fusesContactorThermal overload relay 415 V440 V500 VReferenceSizeRatingReference (1)ReferenceSetting rangePIePIePIekWAkWAkWkAAA0.060.220.060.19––GS1DDBA1NIT 2LC1D09LRD020.16...0.25––0.090.28––GS1DDBA1NIT 2LC1D09LRD030.25...0.40.090.120.360.42–0.12–0.37––––GS1DDB A1 NIT 2 LC1D09 LRD04 0.4...0.630.180.60.180.55––GS1DDBA1NIT 2LC1D09LRD050.63...1––0.250.76––GS1DDBA1NIT 4LC1D09LRD050.63...10.250.370.550.8811.50.370.550.7511.361.680.370.550.7511.21.5 GS1DDB A1 NIT 6 LC1D09 LRD06 1...1.70.752––––GS1DDBA1NIT 10LC1D09LRD071.6...2.5––––1.52.6GS1DDBA1NIT 10LC1D09LRD082.5...41.53.51.53.062.23.8GS1DDBA1NIT 16LC1D09LRD082.5...42.252.24.4235GS1DDBA1NIT 16LC1D09LRD104...636.535.7746.5GS1DDBA1NIT 20LC1D09LRD125.5...848.447.95.59GS1DDBA1NIT 20LC1D09LRD147...105.5115.510.47.512GS1DDBA1NIT 20M25LC1D12LRD169...137.5147.513.7913.9GS1DDBA1NIT 20M32LC1D18LRD2112...18918.1916.9––GS2GBA2TIA 32M35LC1D18LRD2112...1811–21–11–20–111518.423 GS2GB A2 TIA 32M50 LC1D25 LRD22 16...241528.51526.5––GS2GBA2TIA 32M63LC1D32LRD3223...3218.53518.532.8––GS2GBA3TIS 63M80LC1D40ALRD34025...4022412239––GS2GBA3TIS 63M80LC1D50ALRD35037...5030553051.5––GS2GBA3TIS 63M100LC1D65ALRD36548...65––3764––GS2GBA3TIS 63M100LC1D65ALRD36548...65––45764565GS2LLBA4TCP 100M125LC1D80LRD336363...804581––5580GS2LLBA4TCP 100M125LC1D95LRD336580...10455100––––GS2LLBA4TCP 100M160LC1D115LR9D536990...150––5590––GS2LLBA4TCP 100M160LC1D115LR9D536760...100––––80116GS2LBB2TF 200LC1D150LR9D536990...1508013880132––GS2LBB2TF 200M250LC1D150LR9D536990...150(1) For reversing operation, replace the prefix LC1 with LC2.Coordination: Fuses (BS) + Contactor + Overload relay";i:202;s:2418:"A5/11Coordination and standards0.06 to 250 kW at 400/415 V: type 1 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3Circuit breakerContactorReferenceReferences in italics are available in CEE zone onlySetting range of thermal tripsReference (2)400/415 V440 V500 VPIeIq (1)PIeIq (1)PIeIq (1)kWAkAkWAkAkWAkAA0.060.2500.060.1950–––GV2ME02GV2ME02AP0.16...0.25LC1K06 or LC1D090.090.3500.090.120.280.375050–––GV2ME03GV2ME03AP0.25...0.40LC1K06 or LC1D090.120.180.440.65050–0.18–0.55–50––––––GV2ME04GV2ME04AP0.40...0.63LC1K06 or LC1D090.250.370.851.150500.250.370.760.995050GV2ME05GV2ME05AP0.63...1LC1K06 or LC1D09–0.55–1.5–50–0.55–1.36–500.370.550.881.25050GV2ME06 GV2ME06AP1...1.6LC1K06 or LC1D09––––––0.751.550GV2ME06 GV2ME06AP1...1.6LC1K06 or LC1D090.75–1.9–50–0.751.11.682.375050–1.1–2.2–50GV2ME07 GV2ME07AP1.6....2.5LC1K06 or LC1D091.11.52.73.65050–1.5–3.06–501.52.22.93.950 50GV2ME08 GV2ME08AP2.5...4LC1K06 or LC1D092.2–4.9–50–2.234.425.775050–3–5.2–50GV2ME10 GV2ME10AP4...6.3LC1K06 or LC1D09346.58.55050–4–7.9–1545.56.89.21010GV2ME14 GV2ME14AP6...10LC1K09 or LC1D095.511.5155.510.487.512.46GV2ME16 GV2ME16AP9...14LC1K12 or LC1D127.5–15.5–15–7.5913.716.9889–13.9–6–GV2ME20 GV2ME20AP13...18LC1D18918.1151120.161117.64GV2ME21 GV2ME21AP17...23LC1D25112215–––15234GV2ME22 GV2ME22AP20...25LC1D251529101526.5618.5284GV2ME32GV2ME32AP24...32LC1D3218.5355018.532.850223310GV3P4030...40LC1D40A224150223950304410GV3P5037...50LC1D50A3055503051.550375310GV3P6548...65LC1D65A376650––––––GV3P7362...73LC1D80A–––376470456430GV4P8040...80LC1D65A3766100457670557830GV4P8040...80LC1D804580100––––––GV4P11565...115LC1D9555971005590707510630GV4P11565...115LC1D11575 1323675125359012830GV5P150F70...150LC1D150–––9014635––– (3)– (3)9016036–––11015630 (3)– (3)11019536–––––– (3)– (3)1602803631828035––– (3)– (3)––––––22030830 (3)– (3)2003503622031835––– (3)– (3)250430362504013533546030 (3)– (3)(1) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3.(2) For reversing operation, replace the prefix LC1 with LC2.(3) Please consult your regional sales office. TeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor";i:203;s:2943:"A5/12Coordination and standards0.06 to 250 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in categ or y AC-3Circuit breakerContactor ReferenceReferences in italics are available in CEE zone onlySetting range of thermal tripsReference (2)400/415 V440 V500 VPIeIq (1)PIeIq (1)PIeIq (1)kWAkAkWAkAkWAkAA0.060.21300.060.19130–––GV2P02 or GV2ME02or GV2ME02AP0.16...0.25LC1D09–0.09–0.3–1300.090.120.280.37130130––––––GV2P03 or GV2ME03 or GV2ME03AP0.25...0.4LC1D090.120.180.440.6130130–0.18–0.55–130––––––GV2P04 or GV2ME04 or GV2ME04AP0.4...0.63LC1D090.250.370.851.11301300.250.370.760.99130130––––––GV2P05 or GV2ME05 or GV2ME05AP0.63...1LC1D09–0.55–1.5–130–0.55–1.36–1300.370.550.881.2130130GV2P06 or GV2ME06 or GV2ME06AP1...1.6LC1D09––––––0.751.5130GV2P06 or GV2ME06 or GV2ME06AP1...1.6LC1D090.75–1.9–130–0.751.11.682.37130130–1.1–2.2–130GV2P07 or GV2ME07 or GV2ME07AP1.6...2.5LC1D091.11.52.73.6130130–1.5–3.06–1301.52.22.93.9130130GV2P08 or GV2ME08 or GV2ME08P2.5...4LC1D09–2.2–4.9–130––––––––––––GV2P10 or GV2ME10 or GV2ME10AP4...6.3LC1D09––––––2.234.425.775050–3–5.2–50GV2ME10 or GV2ME10AP4...6.3LC1D09––––––2.234.425.77130130–3–5.2–130GV2P104...6.3LC1D09346.58.5130130––––––––––––GV2P14 or GV2ME14 or GV2ME14AP6...10LC1D09––––––4–7.9–15–45.56.89.21010GV2ME14 or GV2ME14AP6...10LC1D09–––––––4–7.9–13045.56.89.25050GV2P146...10LC1D125.5–11.5–130–5.57.510.413.750 or 850 or 87.5912.413.942 or 642 or 6GV2P16 or GV2ME16 or GV2ME16AP9...14LC1D257.515.550 or 15916.920 or 8–––GV2P20 or GV2ME20 or GV2ME20AP13...18LC1D25918.150 or 151120.120 or 81117.610 or 6GV2P21 or GV2ME21 or GV2ME21AP17...23LC1D25112250 or 15––––––GV2P22 or GV2ME22 or GV2ME22AP20...25LC1D25––––––152310 or 6GV2P2220...25LC1D32152950 or 101526.520 or 618.52810 or 4GV2P32 or GV2ME32 or GV2ME32AP24...32LC1D3218.53550––––––GV3P4030...40LC1D50A–––18.532.850223310GV3P4030...40LC1D65A224150––––––GV3P5037...50LC1D50A–––223950304410GV3P5037...50LC1D65A3055503051.550–––GV3P6548...65LC1D65A––––––375310GV3P6548...65LC1D65A376650––––––GV3P7362...73LC1D80A–––376470–––GV4P8040...80LC1D65A3766100457670(3)(3)(3)GV4P8040...80LC1D804580100559070(3)(3)(3)GV4P11565 ...115LC1D1155597100–––(3)(3)(3)751327075 90125 14665 65– –– –– –GV5P150H70...150LC1D150(1) The breaking performance of circuit breakers GV2P can be increased by adding a current limiter GV1L3.(2) Combinations with circuit breaker GV2ME are type 2 coordinated only at 400/415 V and 440 V.(3) Please consult your regional sales office.TeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor";i:204;s:2557:"A5/13Coordination and standardsTeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor45 to 250 kW at 400 V: type 2 coordination (with TeSys GV4 / GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type400 VPIeIq (max)kWAkAAA4580100GV4P/GV4PE/GV4PEM115●86774LC1G1155597100GV4P/GV4PE/GV4PEM115●100900LC1G115559770GV5P150p1001300LC1G1157513270GV5P150p1401820LC1G1509016070GV5P220p1702210LC1G18511019570GV5P220p2002600LC1G22511019570GV6P320p2002600LC1G26513223070GV6P320p2403120LC1G26516028070GV6P320p3003900LC1G33020035070GV6P500p3804940LC1G40022038070GV6P500p4005200LC1G50025043070GV6P500p4405720LC1G500(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)GV4P/GV4PE/GV4PEM115●GV5P150●/ 220●GV6P320●/ 500●Breaking performance codeBNSFH400 V2550100367045 to 450 kW at 400 V: type 2 coordination (with ComPact NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type400 VPIeIq (max)kWAkAAA4580130NSX100p + MicroLogic 2.2 M851105LC1G1155597130NSX160p + MicroLogic 2.2 M (3)1001300LC1G11575132130NSX160p + MicroLogic 2.2 M (3)1401820LC1G15090160130NSX250p + MicroLogic 2.2 M (3)1702210LC1G185110195130NSX250p + MicroLogic 2.2 M (3)2002600LC1G225110195130NSX400p + MicroLogic 2.3 M (3)2002600LC1G265132230130NSX400p + MicroLogic 2.3 M (3)2403120LC1G265160280130NSX400p + MicroLogic 2.3 M (3)3003900LC1G330200350130NSX630p + MicroLogic 2.3 M (3)3804940LC1G400220380130NSX630p + MicroLogic 2.3 M (3)4005200LC1G500250430130NSX630p + MicroLogic 2.3 M (3)4405720LC1G500300500130NS800p + MicroLogic 5.05605040LC1G630335575130NS800p + MicroLogic 5.06405760LC1G630355610130NS800p + MicroLogic 5.06405760LC1G800400690130NS800p + MicroLogic 5.07206480LC1G800450770130NS1000p + MicroLogic 5.07847840LC1G800(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX100●/ NSX160p / NSX250●/ NSX400●/ NSX630●NS800●/ NS1000●Breaking performance codeFNHSLL400 V365070100130150(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Applicable also with MicroLogic 6.2 E-M and 6.3 E-M trip units.";i:205;s:2416:"A5/14Coordination and standards55 to 300 kW at 440 V: type 2 coordination (with TeSys GV4 / GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type440 VPIeIq (max)kWAkAAA558870GV4P/GV4PE/GV4PEM115●93837LC1G115558865GV5P150p901170LC1G1157512065GV5P150p1301690LC1G1509014565GV5P150p1501950LC1G15011017765GV5P220p1852405LC1G18513220965GV5P220p2102730LC1G22516025565GV6P320p2603380LC1G26520031865GV6P320p3204160LC1G33022034365GV6P500p3504550LC1G40025039065GV6P500p4005200LC1G40030046665GV6P500p4706110LC1G500(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)GV4P/GV4PE/GV4PEM115●GV5P150●/ 220●GV6P320●/ 500●Breaking performance codeBNSFHFH440 V2050703565306555 to 450 kW at 440 V: type 2 coordination (with ComPact NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type440 VPIeIq (max)kWAkAAA5588130NSX100p + MicroLogic 2.2 M901170LC1G11575120130NSX160p + MicroLogic 2.2 M (3)1301690LC1G15090145130NSX160p + MicroLogic 2.2 M (3)1501950LC1G150110177130NSX250p + MicroLogic 2.2 M (3)1852405LC1G185132209130NSX250p + MicroLogic 2.2 M (3)2102730LC1G225160255130NSX400p + MicroLogic 2.3 M (3)2603380LC1G265200318130NSX400p + MicroLogic 2.3 M (3)3204160LC1G330220343130NSX630p + MicroLogic 2.3 M (3)3504550LC1G400250390130NSX630p + MicroLogic 2.3 M (3)4005200LC1G400300466130NSX630p + MicroLogic 2.3 M (3)4706110LC1G500335521130NS800p + MicroLogic 5.05605040LC1G630355554130NS800p + MicroLogic 5.05605040LC1G630400627130NS800p + MicroLogic 5.06405760LC1G800450695130NS800p + MicroLogic 5.07206480LC1G800(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX100●/ NSX160●/ NSX250●NSX400●/ NSX630●NS800●Breaking performance codeFNHSLFNHSLL440 V3550659013030426590130130(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Applicable also with MicroLogic 6.2 M and 6.3 M trip units.TeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor";i:206;s:2214:"A5/15Coordination and standards65 to 295 kW at 500 V: type 2 coordination (with TeSys GV4 / GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type500 VPIeIq (max)kWAkAAA659230GV4P/GV4PE/GV4PEM115●93837LC1G115659250GV5P150p1001300LC1G1159012850GV5P150p1301690LC1G15011015650GV5P220p1702210LC1G18513218450GV5P220p1852405LC1G22516022450GV6P320p2403120LC1G26520028050GV6P320p3003900LC1G33025034450GV6P500p3504550LC1G40029540550GV6P500p4405720LC1G500(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA) GV4P/GV4PE/GV4PEM115●GV5P150●/ 220●GV6P320●/ 500●Breaking performance codeBNSFHFH500 V1025303050255065 to 425 kW at 500 V: type 2 coordination (with ComPacT NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir setting (2)Irm (2)Product type500 VPIeIq (max)kWAkAAA659270NSX100p + MicroLogic 2.2 M951235LC1G115659270NSX160p + MicroLogic 2.2 M (3)951235LC1G1159012870NSX160p + MicroLogic 2.2 M (3)1301690LC1G15011015670NSX250p + MicroLogic 2.2 M (3)1702210LC1G18513218470NSX250p + MicroLogic 2.2 M (3)1852405LC1G22516022470NSX400p + MicroLogic 2.3 M (3)2403120LC1G26520028070NSX400p + MicroLogic 2.3 M (3)3003900LC1G33025034470NSX630p + MicroLogic 2.3 M (3)3504550LC1G40029540570NSX630p + MicroLogic 2.3 M (3)4405720LC1G50037551670NS800p + MicroLogic 5.05605040LC1G63042558470NS800p + MicroLogic 5.06405760LC1G800(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX100●NSX160●/ NSX250●NSX400●/ NSX630●NS800●Breaking performance codeFNHSLFNHSLFNHSLL500 V253650657030365065702530506570100(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Applicable also with MicroLogic 6.2 M and 6.3 M trip units.TeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor";i:207;s:2893:"A5/16Coordination and standards0.06 to 22 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Limiter blockCircuit breakerContactorProduct typeProduct typeIr Setting (1)Irm (1)Product type690 VPIeIqkWAkAAA0.060.12100GV2P010.161.5LC1D090.090.17100GV2P020.252.4LC1D090.120.23100GV2P020.252.4LC1D090.180.35100GV2P030.45LC1D090.250.49100GV2P040.638LC1D090.370.64100GV2P05113LC1D090.550.87100GV2P05113LC1D090.751.1100GV2P061.622.5LC1D091.11.665LA9LB920GV2P071.622.5LC1D251.52.165LA9LB920GV2P072.533.5LC1D252.22.865LA9LB920GV2P08451LC1D2533.865LA9LB920GV2P08451LC1D2544.965LA9LB920GV2P106.378LC1D255.56.765LA9LB920GV2P1410138LC1D257.58.965LA9LB920GV2P1410138LC1D25912.865LA9LB920GV2P1614170LC1D251112.865LA9LB920GV2P1614170LC1D25151765LA9LB920GV2P2018223LC1D2518.52165LA9LB920GV2P2123327LC1D32222465LA9LB920GV2P3232416LC1D40A(1) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.30 to 560 kW at 690 V: type 2 coordination (with ComPacT NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorProduct type (1)Ir Setting (2)Irm (2)Product type690 VPIeIq (max)kWAkAAA3032100NSX100p + MicroLogic 2.2 M36468LC1G1153739100NSX100p + MicroLogic 2.2 M40520LC1G1154547100NSX100p + MicroLogic 2.2 M50650LC1G1155557100NSX100p + MicroLogic 2.2 M60780LC1G1157577100NSX100p + MicroLogic 2.2 M801040LC1G1159093100NSX250p + MicroLogic 2.2 M (3)951235LC1G150110113100NSX250p + MicroLogic 2.2 M (3)1151495LC1G185132134100NSX250p + MicroLogic 2.2 M (3)1401820LC1G225160162100NSX250p + MicroLogic 2.2 M (3)1702210LC1G225200203100NSX250p + MicroLogic 2.2 M (3)2102730LC1G265220223100NSX400p + MicroLogic 2.3 M (3)2403120LC1G330250250100NSX400p + MicroLogic 2.3 M (3)2603380LC1G400315313100NSX630p + MicroLogic 2.3 M (3)3204160LC1G400335335100NSX630p + MicroLogic 2.3 M (3)3504550LC1G500355354100NSX630p + MicroLogic 2.3 M (3)3804940LC1G500375374100NSX630p + MicroLogic 2.3 M (3)3804940LC1G630400400100NSX630p + MicroLogic 2.3 M (3)4405720LC1G630450455100NSX630p + MicroLogic 2.3 M (3)4706110LC1G630475475100NSX630p + MicroLogic 2.3 M (3)5006500LC1G630500493100NSX630p + MicroLogic 2.3 M (3)5006500LC1G63056055175NS800p + MicroLogic 5.05607280LC1G800(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX100●/ NSX250●/ NSX400●/ NSX630●NS800●Breaking performance codeHB1HB2LB690 V7510075(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Applicable also with MicroLogic 6.2 E-M and 6.3 E-M trip units.TeSysComplementary technical informationCoordination: Thermal magnetic circuit breaker + Contactor";i:208;s:2541:"A5/17Coordination and standards½ to 80 hp at 460 V - 3PGV2P + contactor: compact, high SCCR solution.GV3P + contactor: medium power, Everlink (long lasting power connection).GV4PB + contactor: high power, advanced protection settings, Everlink (long lasting power connection), 18 (GV4PBpppB), 35 (GV4PBpppN) or 65 (GV4PBpppS) kA SCCR.Standard power ratingsCircuit breakerContactorCircuit breakerContactorCircuit breakerContactor200 V 3P230 V 3P460 V 3PProduct reference (2)Dial rangeProduct reference (3)Comb.SCCR 480YProduct reference (4)Dial rangeProduct reference (3)Comb.SCCR 480YProduct referenceDial rangeProduct reference (3)SCCR 480YAs appliedHPFLA(1)HPFLA(1)HPFLA(1)AkAAkAAkA½1.1GV2P061 to 1.6LC1D09100GV4PB02S0.8 to 2LC1D0965¾1.6GV2P061 to 1.6LC1D09100GV4PB02S0.8 to 2LC1D0965½2.5½2.212.1GV2P071.6 to 2.5LC1D09100GV4PB03S1.4 to 3.5LC1D09651½3GV2P082.5 to 4LC1D09100GV4PB03S1.4 to 3.5LC1D0965¾3.7¾3.223.4GV2P082.5 to 4LC1D09100GV4PB07S2.9 to 7LC1D096514.614.234.8GV2P104 to 6.3LC1D09100GV4PB07S2.9 to 7LC1D09651½6GV2P104 to 6.3LC1D09100GV4PB12S5 to 12.5LC1D12651½ 6.926.8GV2P146 to 10LC1D12100GV4PB12S5 to 12.5LC1D126527.857.6GV2P146 to 10LC1D12100GV4PB12S5 to 12.5LC1D126539.6GV2P146 to 10LC1D12100GV3P139 to 13LC1D1865GV4PB12S5 to 12.5LC1D12653117½11GV2P169 to 14LC1D1850 (5)GV3P139 to 13LC1D1865GV4PB25S10 to 25LC1D25651014GV2P169 to 14LC1D1850 (5)GV3P1812 to 18LC1D1865GV4PB25S10 to 25LC1D2565517.5515.2GV2P2013 to 18LC1D1850 (5)GV3P1812 to 18LC1D1865GV4PB25S10 to 25LC1D25657½221521GV2P2117 to 23LC1D2550 (5)GV3G2517 to 25LC1D2565GV4PB25S10 to 25LC1D25657½25.3GV2P2220 to 25LC1D2550 (5)GV3P3223 to 32LC1D3265GV4PB50S20 to 50LC1D50A6510282027GV3P3223 to 32LC1D3265GV4PB50S20 to 50LC1D50A651032.22534GV3P4030 to 40LC1D40A65GV4PB50S20 to 50LC1D50A6515423040GV3P5037 to 50LC1D50A65GV4PB50S20 to 50LC1D50A651548GV3P6548 to 65LC1D65A65GV4PB50S20 to 50LC1D50A6520544052GV3P6548 to 65LC1D65A65GV4PB80S40 to 80LC1D80652062.1GV4PB115S40 to 80LC1D80652578.225685065GV4PB115S40 to 80LC1D8065309230806077GV4PB115S65 to 115LC1D11565(1) Motor Full Load Amp Sizes are based on NEC Table 430.250.(2) Requires use of GV1G09 or GV2GH7 line spacer for Type F rating.(3) Add coil suffix to complete reference part number. For example, an LC1D09G7 includes a 120 V AC coil.(4) Requires use of GV3G66 line spacer and GVAM11 short-circuit signaling contact for Type F rating.(5) SCCR is 42 kA at 480Y when using GV2G busbar links.TeSysComplementary technical informationCoordination (UL): Thermal magnetic circuit breaker + Contactor";i:209;s:2044:"A5/18Coordination and standardsTeSysComplementary technical information0.06 to 250 kW at 400/415 V: type 1 coordination Standard power ratings of 3-phase motors50/60 Hz in category AC-3Circuit breakerContactorThermal overload relay400/415 V440 V500 VReferenceRatingIrm (1)Reference (2)ReferenceSetting rangePIeIqPIeIqPIeIqkWAkAkWAkAkWAkAAAA0.060.2500.060.1950–––GV2LE030.45LC1K06LR2K03020.16...0.23–––0.090.2850–––GV2LE030.45LC1K06LR2K03030.23...0.360.090.3500.120.3750–––GV2LE030.45LC1K06LR2K03040.36...0.540.120.4450–––GV2LE040.638LC1K06LR2K03040.36...0.540.180.6500.180.5550–––GV2LE040.638LC1K06LR2K03050.54...0.8–––0.250.7650–––GV2LE05113LC1K06LR2K03050.54...0.80.250.370.851.15050–0.37–1–50–0.37–0.88–50GV2LE05113LC1K06LR2K03060.8...1.20.55–1.5–50–0.55–1.36–50–0.550.751.21.55050GV2LE061.622.5LC1K06LR2K03071.2...1.8–––0.751.6850–––GV2LE072.533.5LC1K06LR2K03071.2...1.80.751.11.92.75050–1.1–2.37–50–1.1–2.2–50GV2LE072.533.5LC1K06LR2K03081.8...2.61. 53.6501.53.06501.52.950GV2LE08451LC1K06LR2K03102.6...3.7––––––2.23.950GV2LE08451LC1K06LR2K03123.7...5.52.24.9502.24.45035.250GV2LE106.378LC1K06LR2K03123.7...5.5–––35.7750–––GV2LE106.378LC1K06LR2K03145.5...8–––47.915–––GV2LE1410138LC1K09LR2K03145.5...836.550–––46.810GV2LE1410138LC1K09LR2K03145.5...848.550––––––GV2LE1410138LC1K09LR2K03168...11.55.511.5155.510.487.512.46GV2LE1614170LC1K12LR2K032110...14–––7.513.78913.96GV2LE1614170LC1D18LRD2112...187.515.515916.98–––GV2LE2018223LC1D18LRD2112...18918.115–––1117.64GV2LE2225327LC1D25LRD2216...241122151120.1615234GV2LE2225327LC1D25LRD2216...241529101526.5618.5284GV2LE3232416LC1D32LRD3223...3218.5355018.532.550223310GV3L4040560LC1D40ALRD34030...40224150223950304410GV3L5050700LC1D50ALRD35037...50(1) Irm: setting current of the magnetic trip.(2) For reversing operation, replace the prefix LC1 with LC2.Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:210;s:2563:"A5/19Coordination and standards0.06 to 250 kW at 400/415 V: type 1 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3Circuit breakerContactorThermal overload relay400/415 V440 V500 VReferenceRatingIrm (1)Reference (2)ReferenceSetting rangePIeIqPIeIqPIeIqkWAkAkWAkAkWAkAAAA3055503051.550375310GV3L6565910LC1D65ALRD36548...65–––376450375310GV3L6565910LC1D65ALRD36548...65––––––456450GV3L6565910LC1D80LRD336155...70376650––––––GV3L73731120LC1D80ALRD38062...80–––376470–––GV4L8080880LC1D65ALRD36548...65––––––456430GV4L8080880LC1D80LRD336155...703766100––––––GV4L80801040LC1D80LRD336155...70–––457670557830GV4L80801040LC1D80LRD336363...804580100––––––GV4L1151151380LC1D95LRD336580...104––––––7510630GV4L1151151380LC1D115LRD436795...120–––559070–––GV4L1151151380LC1D115LRD436580...1045597100––––––GV4L1151151495LC1D115LRD436795...120––––––5090(3)NSX100pMA (3)1001200LC1D115LRD436580...104––––––75106(3)NSX160pMA (3)1501500LC1D115LRD436795...1205597(3)––––––NSX160pMA (3)1501350LC1D115LRD436795...12075132(3)75125(3)90128(3)NSX160pMA (3)1501800LC1D150LRD4369110...140–––90146(3)–––(4)––(4)(4)–90160(3)–––110156(3)(4)––(4)(4)–110195(3)––––––(4)––(4)(4)––––110178(3)–––(4)––(4)(4)–––––––132184(3)(4)––(4)(4)––––132215(3)–––(4)––(4)(4)–132230(3)––––––(4)––(4)(4)–––––––160224(3)(4)––(4)(4)––––160256(3)–––(4)––(4)(4)–160280(3)200321(3)–––(4)––(4)(4)–––––––200280(3)(4)––(4)(4)–––––––220310(3)(4)––(4)(4)–200350(3)220353(3)–––(4)––(4)(4)––––250401(3)–––(4)––(4)(4)–––––––250344(3)(4)––(4)(4)–220388(3)––––––(4)––(4)(4)–250430(3)280470(3)315432(3)(4)––(4)(4)–––––––355488(3)(4)––(4)(4)–(1) Irm: setting current of the magnetic trip.(2) For reversing operation, replace the prefix LC1 with LC2.(3) Reference to be completed by replacing the p with the breaking performance code:Breaking performance Iq (kA)NSX100pMANSX160pMA and NSX250pMANSX400p and NSX630p400/415 V3670367070150440 V3565356565130500 V255025505070660/690 V8108102020CodeFHFHHL(4) Please consult your regional sales office.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:211;s:2381:"A5/20Coordination and standards0.06 to 250 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3Circuit breakerContactorThermal overload relay400/415 V440 V500 VReferenceRatingIrm (1)Reference (2)ReferenceSetting rangePIeIqPIeIqPIeIqkWAkAkWAkAkWAkAAAA0.060.21300.060.19130–––GV2L03 or LE030.45LC1D09LRD020.16...0.250.09–0.3–130–0.090.120.280.37130130––––––GV2L03 or LE030.45LC1D09LRD030.25...0.400.120.180.440.6130130–0.18–0.55–130––––––GV2L04 or LE040.638LC1D09LRD040.4...0.630.250.370.851.11301300.250.370.760.99130130––––––GV2L05 or LE05113LC1D09LRD050.63...1––––––0.370.88130GV2L05 or LE05113LC1D09LRD061...1.70.55–1.5–130––0.55–1.36–1300.550.751.21.5130130GV2L06 or LE061.622.5LC1D09LRD061...1.70.751.91300.751.681301.12.2130GV2L07 or LE072.533.5LC1D09LRD071.6...2.51.11.52.73.61301301.1–2.37–130–1.52.22.93.9130130GV2L08 or LE08451LC1D09LRD082.5...4–––1.53.06130–––GV2L08 or LE08451LC1D09LRD104...62.2–4.9–130––––––––3–5.2–13GV2L10 or LE106.378LC1D09LRD104...6––––––2.234.425.775050–3–5.2–50GV2LE106.378LC1D09LRD104...6––––––2.234.425.77130130–3–5.2–130GV2L106.378LC1D09LRD104...636.5130––––––GV2L14 or LE141010LC1D09LRD125.5...8––––––46.810GV2LE1410138LC1D12LRD125.5...8––––––46.850GV2L1410138LC1D12LRD125.5...848.5130––––––GV2L14 or LE1410138LC1D09LRD147...10–––47.915–––GV2LE1410138LC1D09LRD147...10–––47.9130–––GV2L1410138LC1D09LRD147...10––––––5.59.210GV2LE1410138LC1D09LRD147...10––––––5.59.250GV2L1410138LC1D09LRD147...105.511.51305.510.4507.512.442GV2L1614170LC1D25LRD169...13–––7.513.750–––GV2L1614170LC1D25LRD2112...187.515.550916.920913.910GV2L2018223LC1D25LRD2112...1891118.1225050–11–20.1–20––––––GV2L2225327LC1D25LRD2216...24––––––––––––111517.6231010GV2L2225327LC1D32LRD2216...241529501526.550–––GV3L3232448LC1D40ALRD33223...32––––––18.52810GV3L3232448LC1D65ALRD33223...32(1) Irm: setting current of the magnetic trip.(2) For reversing operation, replace the prefix LC1 with LC2.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:212;s:1460:"A5/21Coordination and standards0.18 to 22 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Limiter blockCircuit breakerContactorThermal overload relay690 VProduct typeProduct typeIr setting (1)Irm (1)Product typeProduct typeSetting rangePIeIqkWAkAAAA0.180.35100–GV2L030.45LC1D09LRD030.25...0.40.250.49100–GV2L040.638LC1D09LRD040.4...0.630.370.64100–GV2L05113LC1D09LRD050.63...10.550.87100–GV2L05113LC1D09LRD050.63...10.751.1100–GV2L061.622.5LC1D09LRD061...1.61.11.6100–GV2L061.622.5LC1D09LRD061...1.61.52.165LA9LB920 (2)GV2L072.533.5LC1D25LRD071.6...2.52.22.865LA9LB920 (2)GV2L08451LC1D25LRD082.5...433.865LA9LB920 (2)GV2L08451LC1D25LRD082.5...444.965LA9LB920 (2)GV2L106.378LC1D25LRD104...65.56.765LA9LB920 (2)GV2L1410138LC1D32LRD125.5...87.58.965LA9LB920 (2)GV2L1410138LC1D32LRD147...10910.665LA9LB920 (2)GV2L1614170LC1D32LRD169...131112.865LA9LB920 (2)GV2L1614170LC1D32LRD169...13151765LA9LB920 (2)GV2L2018223LC1D32LRD2112...1818.52165LA9LB920 (2)GV2L2225327LC1D32LRD2216...24222465LA9LB920 (2)GV2L2225327LC1D32LRD3223...32222465LA9LB920 (2)GV2L3232416LC1D40ALRD33223...32(1) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(2) For more information about the current limiter LA9LB920, see pages A4/31 and A4/61.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:213;s:1900:"A5/22Coordination and standards0.06 to 250 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3Circuit breakerContactorThermal overload relay400/415 V440 V500 VReferenceRatingIrm (1)Reference (2)ReferenceSetting rangePIeIqPIeIqPIeIqkWAkAkWAkAkWAkAAAA18.53550––––––GV3L4040560LC1D50ALRD34030...40–––18.532.550–––GV3L4040560LC1D65ALRD34030...40224150––––––GV3L5050700LC1D50ALRD35037...50–––223950304410GV3L5050700LC1D65ALRD35037...503055503051.550375310GV3L6565910LC1D65ALRD36548...65376650––––––GV3L73731120LC1D80ALRD38062...80456050––––––GV3L80801120LC1D95LRD336363...80–––376470–––GV4L8080880LC1D65ALRD36548...653766100457670(4)(4)(4)GV4L80801040LC1D80LRD336363...804580100559070(4)(4)(4)GV4L1151151380LC1D115LR9D536760...1005597100–––(4)(4)(4)GV4L1151151495LC1D115LR9D536990...150––––––5578(3)NSX100pMA (3)1001040LC1D80LRD336363...804580(3)5590(3)–––NSX100pMA (3)1001300LC1D115LR9D536760...1005597(3)––––––NSX160pMA (3)1501500LC1D115LR9D536990...150––––––75106(3)NSX160pMA (3)1501950LC1D115LR9D536990...15075132(3)75125(3)–––NSX160pMA (3)1501950LC1D150LR9D536990...150–––90146(3)–––NSX160pMA (3)1501950LC1D150LR9D536990...150––––––90128(3)NSX160pMA (3)1501200LC1D150LR9D536990...150(1) Irm: setting current of the magnetic trip.(2) For reversing operation, replace the prefix LC1 with LC2.(3) Reference to be completed by replacing the p with the breaking performance code:Breaking performance Iq (kA)NSX100pMANSX160pMA and NSX250pMANSX400p and NSX630p400/415 V3670367070150440 V3565356565130500 V255025505070660/690 V8108102020CodeFHFHHL(4) Please consult your regional sales office.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:214;s:2903:"A5/23Coordination and standards45 to 335 kW at 400 V: type 2 coordination (with TeSys GV4 or ComPacT NSX circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3eCircuit breakerContactorThermal overload relay400 VProduct type (1)Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA4580100GV4L/GV4LE115p1265LC1G115LR9G115804580100NSX100p + MA1100LC1G115LR9G115805597130GV4L/GV4LE115p1265LC1G115LR9G225975597130NSX160p + MA1500LC1G115LR9G2259775132130NSX160p + MA1800LC1G150LR9G22513290160130NSX250p + MA2640LC1G185LR9G225160110195130NSX250p + MA2640LC1G225LR9G225195110195130NSX400p + MicroLogic 1.3 M3520LC1G265LR9G500195132230130NSX400p + MicroLogic 1.3 M3520LC1G265LR9G500230160280130NSX400p + MicroLogic 1.3 M3840LC1G330LR9G500280200350130NSX630p + MicroLogic 1.3 M5500LC1G400LR9G500350220380130NSX630p + MicroLogic 1.3 M5500LC1G500LR9G500380250430130NSX630p + MicroLogic 1.3 M6000LC1G500LR9G500430300500130NS800p + MicroLogic 5.0 LR OFF6400LC1G630LR9G630500335575130NS800p + MicroLogic 5.0 LR OFF7200LC1G630LR9G630575(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)GV4L115●/ GV4LE115●NSX100●/ NSX160●/ NSX250●/ NSX400●/ NSX630●NS800●Breaking performance codeBNSFNHSLL400 V255010036507010013015055 to 355 kW at 440 V: type 2 coordination (with TeSys GV4 or ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3eCircuit breakerContactorThermal overload relay440 VProduct type (1) Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA558870GV4L/GV4LE115p1265LC1G115LR9G115885588130NSX100p + MA1500LC1G115LR9G1158875120130NSX160p + MA1800LC1G150LR9G22512090145130NSX160p + MA2640LC1G150LR9G225145110177130NSX250p + MA2640LC1G185LR9G225177132209130NSX250p + MA2860LC1G225LR9G225209160255130NSX400p + MicroLogic 1.3 M3520LC1G265LR9G500255200318130NSX400p + MicroLogic 1.3 M4160LC1G330LR9G500318220343130NSX630p + MicroLogic 1.3 M5500LC1G400LR9G500343250390130NSX630p + MicroLogic 1.3 M5500LC1G400LR9G500390300466130NSX630p + MicroLogic 1.3 M6500LC1G500LR9G500466335521130NS800p + MicroLogic 5.0 LR OFF6400LC1G630LR9G630521355554130NS800p + MicroLogic 5.0 LR OFF7200LC1G630LR9G630554(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)GV4L115●/ GV4LE115● NSX100●/ NSX160●/ NSX250●NSX400●/ NSX630●NS800●Breaking performance codeBNSFNHSLFNHSLL440 V205070355065100130304265100130150(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:215;s:1479:"A5/24Coordination and standards65 to 425 kW at 500 V: type 2 coordination (with TeSys GV4 or ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3eCircuit breakerContactorThermal overload relay500 VProduct type (1)Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA659230GV4L/GV4LE115p1265LC1G115LR9G11592659270NSX100p + MA1001300LC1G115LR9G115929012870NSX160p + MA1501950LC1G150LR9G22512811015670NSX250p + MA2202200LC1G185LR9G22515613218470NSX400p + MicroLogic 1.3 M2560LC1G225LR9G22518416022470NSX400p + MicroLogic 1.3 M3200LC1G265LR9G50022420028070NSX400p + MicroLogic 1.3 M3840LC1G330LR9G50028025034470NSX630p + MicroLogic 1.3 M5500LC1G400LR9G50034429540570NSX630p + MicroLogic 1.3 M6500LC1G500LR9G50040537551670NS800p + MicroLogic 5.0 LR OFF6400LC1G630LR9G63051642558470NS800p + MicroLogic 5.0 LR OFF7200LC1G800LR9G630584(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)GV4L115●/ GV4LE115●NSX100●NSX160●/ NSX250●NSX400●/ NSX630●NS800p Breaking performance codeBNSFNHSLFNHSLFNHSLL500 V102530253650657030365065702530506570100(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.TeSysComplementary technical information Coordination: Magnetic circuit breaker + Contactor + Overload relay";i:216;s:2313:"A5/25Coordination and standards0.06 to 30 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breaker ContactorElectronic thermaloverload relay400/415 V690 VReferenceRatingIrmReferenceReferenceSetting rangePIeIqPIeIqkWAkAkWAkAAAA0.060.2100–––GV2L030.45LC1D09LR9D010.1...0.50.090.3100–––GV2L030.45LC1D09LR9D010.1...0.50.120.44100–––GV2L040.638LC1D18LR9D020.4...2.00.180.6100–––GV2L040.638LC1D18LR9D020.4...2.00.250.85100–––GV2L05113LC1D18LR9D020.4...2.00.371.1100–––GV2L05113LC1D18LR9D020.4...2.00.551.5100–––GV2L061.622.5LC1D18LR9D020.4...2.00.751.9100–––GV2L072.533.5LC1D18LR9D081.6...8.01.12.7100–––GV2L08451LC1D18LR9D081.6...8.01.53.6100–––GV2L08451LC1D18LR9D081.6...8.02.24.9100–––GV2L106.378LC1D18LR9D081.6...8.036.5100–––GV2L1410138LC1D25LR9D326.4...3248.5100–––GV2L1410138LC1D25LR9D326.4...325.511.5100–––GV2L1614170LC1D25LR9D326.4...327.515.550–––GV2L2018223LC1D25LR9D326.4...32112250–––GV2L2225327LC1D25LR9D326.4...32152950–––GV3L3240448LC1D65ALR9D110S22...11018.53550–––GV3L4040560LC1D65ALR9D110S22...110224150–––GV3L5050700LC1D65ALR9D110S22...110305550–––GV3L6565910LC1D65ALR9D110S22...110–––0.370.6450GV2L05113LC1D09LR9D020.4...2.0–––0.550.8750GV2L05113LC1D09LR9D020.4...2.0–––0.751.150GV2L061.622.5LC1D09LR9D020.4...2.0–––1.11.650GV2L07 + LA9LB920 (1)2.533.5LC1D25LR9D081.6...8.0–––1.52.150GV2L07 + LA9LB920 (1)2.533.5LC1D25LR9D081.6...8.0–––2.22.850GV2L08 + LA9LB920 (1)451LC1D25LR9D081.6...8.0–––3450GV2L08 + LA9LB920 (1)451LC1D25LR9D081.6...8.0–––4550GV2L10 + LA9LB920 (1)6.378LC1D25LR9D081.6...8.0–––5.5750GV2L14 + LA9LB920 (1)10138LC1D25LR9D326.4...32–––7.58.950GV2L14 + LA9LB920 (1)10138LC1D25LR9D326.4...32–––11133GV3L18+ LA9LB920 (1)14252LC1D32LR9D326.4...32–––1516.53GV2L22 + LA9LB920 (1)18327LC1D32LR9D326.4...32–––18.5213GV3L25 + LA9LB920 (1)25350LC1D65ALR9D326.4...32–––22253GV2L32 + LA9LB920 (1)32416LC1D65ALR9D326.4...32(1) For more information about the current limiter LA9LB920, see pages A4/31 and A4/61.Coordination: Magnetic circuit breaker + Contactor + Overload relayTeSysComplementary technical information";i:217;s:1776:"A5/26Coordination and standardsCoordination: Magnetic circuit breaker + Contactor + Overload relayTeSysComplementary technical information30 to 500 kW at 690 V: type 2 coordination (with ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3eCircuit breakerContactorThermal overload relay690 VProduct type (1)Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA3032100NSX100p + MA550LC1G115LR9G115323739100NSX100p + MA550LC1G115LR9G115394547100NSX100p + MA650LC1G115LR9G115475557100NSX100p + MA1100LC1G115LR9G115577577100NSX100p + MA1100LC1G115LR9G225779093100NSX250p + MA1650LC1G150LR9G22593110113100NSX250p + MA1650LC1G185LR9G225113132134100NSX250p + MA1800LC1G225LR9G225134160162100NSX250p + MA2420LC1G225LR9G225162200203100NSX250p + MA2640LC1G265LR9G500203220223100NSX400p + MicroLogic 1.3 M3520LC1G330LR9G500223250250100NSX400p + MicroLogic 1.3 M3520LC1G400LR9G500250315313100NSX630p + MicroLogic 1.3 M5500LC1G400LR9G500313335335100NSX630p + MicroLogic 1.3 M5500LC1G500LR9G500335355354100NSX630p + MicroLogic 1.3 M5500LC1G500LR9G500354375374100NSX630p + MicroLogic 1.3 M5500LC1G630LR9G630374400400100NSX630p + MicroLogic 1.3 M5500LC1G630LR9G630400450455100NSX630p + MicroLogic 1.3 M6000LC1G630LR9G630455475475100NSX630p + MicroLogic 1.3 M6500LC1G630LR9G630475500493100NSX630p + MicroLogic 1.3 M6500LC1G630LR9G630493(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX100●/ NSX250●/ NSX400●/ NSX630●Breaking performance codeHB1HB2690 V75100(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.";i:218;s:2414:"A5/27Coordination and standards1.5 to 315 kW at 400/415 V: type 1 coordinationMaximum operating rate: LC3K: 12 starts/hour; LC3D: 30 starts/hour.Maximum starting time: LC3K and LC3D: 30 seconds.Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Fuse carrier (basic block)aM fusesStar-delta contactorsThermal overload relay 400/415 V440 VReferenceSizeRatingReferenceReferenceSetting rangePIeIrD (1)IqPIeIrD (1)IqkWAAkAkWAAkAAA1.53.52501.53.06250LS1D3210 x 384LC3K06LR2K03081.8...2.62.25350––––LS1D3210 x 386LC3K06LR2K03102.6...3.7––––––––2.234.425.77335050LS1D3210 x 388LC3K06LR2K03102.6...3.736.5450––––LS1D3210 x 388LC3K06LR2K03123.7...5.548.455047.9550LS1D3210 x 3812LC3K06LR2K03123.7...5.55.5116505.510.4650LS1D3210 x 3816LC3K06LR2K03145.5...87.514.89507.513.7850LS1D3210 x 3816LC3K09LR2K03168...11.5918.110100916.91050LS1D3210 x 3820LC3D12ALRD169...131121121001120.112100GK1EK14 x 5125LC3D12ALRD169...131528.5161001526.515100GK1EK14 x 5132LC3D18ALRD2112...1818.5352010018.532.819100GK1EK14 x 5140LC3D18ALRD2216...24––––223923100GSpJ22 x 5850LC3D18ALRD2216...24224224100––––GSpJ22 x 5850LC3D32ALRD3223...32––––3051.530100GSpJ22 x 5863LC3D32ALRD3223...32305733100376437100GSpJ22 x 58803 x LC1D40ALRD34030...40376940100––––GSpJ22 x 58803 x LC1D40ALRD35037...50––––457644100GSpJ22 x 58803 x LC1D50ALRD35037...50458147100––––GSpJ22 x 581003 x LC1D50ALRD35037...50––––559052100GSpK22 x 581003 x LC1D50ALRD36548...655510058100––––GSpK22 x 581253 x LC1D65ALRD36548...6575135781007512572100GSpLT0160LC3D80LRD336363...80––––9014684100GSpLT0160LC3D115LRD436580...1049016595100––––GSpNT1200LC3D115LRD436795...120110200115100110178103100GSpNT1200LC3D115LRD436795...120132240139100132215124100GSpQQT2250LC3D150LRD4369110...140160285165100160256148100 (2)–– (2) (2)–––––200321185100 (2)–– (2) (2)–220388225100–––– (2)–– (2) (2)–––––250401233100 (2)–– (2) (2)–280480278100–––– (2)–– (2) (2)––315–555–322–100315355505518293300100100 (2) – – (2) (2)–––––375575334100 (2)–– (2) (2)–(1) IrD: current in the motor windings in delta connection.(2) Please consult your regional sales office.TeSysComplementary technical informationCoordination: Star-delta with NFC or DIN fuses + Contactors + Overload relay";i:219;s:1505:"A5/28Coordination and standards1.5 to 355 kW at 400/415 V: type 2 coordinationMaximum operating rate: LC1D: 30 starts/hour; LC1F: 12 starts/hour.Maximum starting time: LC1D: 30 seconds; LC1F: 20 seconds.Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector-fuseaM fusesStar-delta contactorsThermal overload relay 400/415 V440 VReferenceSizeRatingReferenceReferenceSetting rangePIeIqPIeIqkWAkAkWAkAAA1.53.5501.53.0650GS1DD10 x 3843 x LC1D09LRD082.5...42.25502.24.4250GS1DD10 x 3863 x LC1D09LRD104...636.55035.7750GS1DD10 x 3883 x LC1D09LRD125.5...848.45047.950GS1DD10 x 38103 x LC1D09LRD147...105.511505.510.450GS1DD10 x 38163 x LC1D12LRD169...137.514.8507.513.750GS1DD10 x 38163 x LC1D18LRD2112...1891118.12110010091116.920.1100100GSpF14 x 51253 x LC1D25LRD2216...241528.51001526.5100GSpF14 x 51323 x LC1D32LRD3223...3218.53510018.532.8100GSpF14 x 51403 x LC1D40ALRD34030...4022421002239100GSpJ22 x 58503 x LC1D50ALRD35037...5030571003051.5100GSpJ22 x 58803 x LC1D65ALRD36548...6537691003764100GSpJ22 x 58803 x LC1D80LRD336363...80–––4576100GSpJ22 x 58803 x LC1D80LRD336580...1044581100–––GSpJ22 x 581003 x LC1D115LR9D536760...100–––5590100GSpLT01253 x LC1D115LR9D536990...15055100100–––GSpLT01253 x LC1D150LR9D536990...150–––75125100GSpLT01603 x LC1D150LR9D536990...150355605100–––GS2VT48003 x LC1F780LR9F7381380...630TeSysComplementary technical informationCoordination: Star-delta with NFC or DIN fuses + Contactors + Overload relay";i:220;s:2590:"A5/29Coordination and standardsTeSysComplementary technical informationCoordination: Star-delta with Fuses (DIN type aM) + Contactors + Overload relayContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.90 to 335 kW at 400 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector aM fusesContactorLine (KM2) / Delta (KM3) (1)ContactorStar (KM1) (1)Thermal overload relay400 VProduct type SizeRatingProduct typeProduct typeIr setting (2)PIeIq (max)kWAkAAA9016080GSpN1200LC1G115LC1D65LR9G1159211019580GSpN1250LC1G150LC1D80LR9G22511313223080GSpQQ2315LC1G185LC1G115LR9G22513316028080GSpQQ2400LC1G225LC1G115LR9G22516220035080GS2pS3500LC1G265LC1G115LR9G22520222038080GS2pS3500LC1G330LC1G150LR9G50021925043080GS2pS3500LC1G400LC1G150LR9G50024831554080GS2pS3630LC1G500LC1G225LR9G50031233557580GS2pV4800LC1G500LC1G225LR9G500332110 to 400 kW at 440 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector aM fusesContactorLine (KM2) / Delta (KM3) (1)ContactorStar (KM1) (1)Thermal overload relay440 VProduct type SizeRatingProduct typeProduct typeIr setting (2)PIeIq maxkWAkAAA11017780GSpN1200LC1G115LC1D65LR9G11510213220980GSpN1250LC1G150LC1D80LR9G22512116025580GSpQQ2315LC1G150LC1G115LR9G22514720031880GSpQQ2400LC1G185LC1G115LR9G22518422034380GS2pS3500LC1G225LC1G115LR9G22519825039080GS2pS3500LC1G265LC1G150LR9G50022531549080GS2pS3500LC1G330LC1G185LR9G50028335555480GS2pS3630LC1G330LC1G225LR9G50032040062780GS2pV4800LC1G400LC1G225LR9G50036290 to 315 kW at 500 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector aM fusesContactorLine (KM2) / Delta (KM3) (1)ContactorStar (KM1) (1)Thermal overload relay500 VProduct type SizeRatingProduct typeProduct typeIr setting (2)PIeIq maxkWAkAAA9012880GSpN1200LC1G115LC1D65LR9G1157411015680GSpN1250LC1G115LC1D65LR9G1159013218480GSpQQ2315LC1G115LC1D65LR9G22510616022480GSpQQ2400LC1G150LC1D80LR9G22512920028080GS2pS3500LC1G185LC1G115LR9G22516222030880GS2pS3500LC1G185LC1G115LR9G50017825034480GS2pS3500LC1G225LC1G150LR9G50019931543280GS2pS3630LC1G265LC1G185LR9G630249(1) Refer to diagram page A5/40.(2) This setting is a general guidance, Ir should be adjusted according to motor characteristics and conditions of use.";i:221;s:1328:"A5/30Coordination and standardsTeSysComplementary technical information1.5 to 375 kW at 415 V: type 2 coordinationMaximum operating rate: LC1D: 30 starts/hour.Maximum starting time: LC1D: 30 seconds.Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector-fuseBS fusesStar-delta contactorsThermal overload relay 415 V440 VReferenceSizeRatingReferenceReferenceSetting rangePIeIqPIeIqkWAkAkWAkAAA1.53.5501.53.0650GS1DDBA1NIT 163 x LC1D09LRD08 2.5...42.25502.24.4250GS1DDBA1NIT 163 x LC1D09LRD10 4...636.55035.7750GS1DDBA1NIT 203 x LC1D09LRD12 5.5...848.45047.950GS1DDBA1NIT 203 x LC1D09LRD14 7...105.511505.510.450GS1DDBA1NIT 20M253 x LC1D12LRD16 9...137.514.8507.513.750GS1DDBA1NIT 20M323 x LC1D18LRD21 12...18918.150916.950GS2GBA2TIA 32M353 x LC1D18LRD21 12...181121501120.150GS2GBA2TIA 32M503 x LC1D25LRD22 16...241528.5501526.550GS2GBA2TIA 32M633 x LC1D32LRD32 23...32224250223950GS2GBA3TIS 63M803 x LC1D50ALRD350 37...50–––3051.550GS2GBA3TIS 63M1003 x LC1D65ALRD365 48...65305750–––GS2GBA3TIS 63M1003 x LC1D65ALRD365 48...65458150457650GS2LLBA4TCP 100M1253 x LC1D80LRD3363 63...805510080559080GS2LLBA4TCP 100M1603 x LC1D115LR9D5369 90...15080138808013280GS2LBB2TF 200M2503 x LC1D150LR9D5369 90...150Coordination: Star-delta with BS fuses + Contactors + Overload relay";i:222;s:2179:"A5/31Coordination and standards1.5 to 250 kW at 400/415 V and 440 V: type 1 coordinationMaximum operating rate: LC3K: 12 starts/hour; LC3D: 30 starts/hour.Maximum starting time: 30 seconds.Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Circuit breakerStar-delta contactors400/415 V440 VReferenceReferences in italics are available in CEE zone onlySetting range of thermal tripsReference PIeIrD (1)Iq (2)PIeIrD (1)Iq (2)kWAAkAkWAAkAA1.53.62501.53.061.850GV2ME08 GV2ME08AP2.5...4LC3K062.2–4.9–2.9–50–2.234.425.772.63.35050GV2ME10 GV2ME10AP4...6.3LC3K06346.58.53.84.95050–4–7.9–4.6–15GV2ME14 GV2ME14AP6...10LC3K065.511.56.4155.510.468GV2ME16 GV2ME16AP9...14LC3K067.515.58.6157.513.77.98GV2ME20 GV2ME20AP13...18LC3K09––––916.99.88GV2ME20 GV2ME20AP13...18LC3D12A918.110151120.1126GV2ME21 GV2ME21AP17...23LC3D12A11221215––––GV2ME22 GV2ME22AP20...25LC3D12A152917101526.5156GV2ME32 GV2ME32AP24...32LC3D18A18.535205018.532.81950GV3P4030...40LC3D18A––––22392350GV3P5037...50LC3D32A224124503051.53050GV3P5037...50LC3D32A305533503051.53050GV3P6548...65LC3D32A3766405037643750GV3P6548...653 x LC1D40A (3)37664010037643770GV4P8040...803 x LC1D40A (3)––––45764470GV4P8040...802 x LC1D50A+1 x LC1D40A (3)458047100––––GV4P11565...1152 x LC1D50A+1 x LC1D40A (3)55975810055905270GV4P11565...1152 x LC1D65A+1 x LC1D40A (3)751327835751257235GV5P150F70...150LC3D80––––901468435GV5P150F0...150LC3D1159011016019595115353511017810335GV5P220F100...220LC3D115––––13221512435GV5P220F100...220LC3D15013223013536––––GV6P320F 160...320LC3D150160270158361602569435(4)–(4) 2203802203625040114635(4)–(4) 2504302503630048017535(4)–(4) (1) IrD: current in the motor windings in delta connection.(2) The breaking performance of circuit breakers GV2ME can be increased by adding a current limiter GV1L3, see page B6/23.(3) For mounting 3 contactors LC1DppA, star-delta starter kit LAD9SD3 must be ordered separately, see page B8/43.(4) Please consult your regional sales office.TeSysComplementary technical informationCoordination: Star-delta with Thermal magnetic circuit breaker + Contactors";i:223;s:2378:"A5/32Coordination and standards1.5 to 90 kW at 400/415 V and 440 V: type 2 coordinationMaximum operating rate: LC1D: 30 starts/hour.Maximum starting time: LC1D: 30 seconds.Standard power ratings of 3-phase motors 50-60 Hz in category AC-3Circuit breakerStar-delta contactors400/415 V440 VReferenceSetting range of thermal tripsReference PIeIrD (7)IqPIeIrD (7)Iq (1)kWAAkAkWAAkAA1.53.6–1301.53.06–130GV2P082.5...43 x LC1D09 (2)2.24.9–1302.24.42–130GV2P104...6.33 x LC1D18 (3)––––35.77–130GV2P104...6.33 x LC1D18 (3)36.5–130––––GV2P146...103 x LC1D18 (3)48.5–13047.9–130GV2P146...103 x LC1D18 (3)5.511.5–1305.510.4–50GV2P169...143 x LC1D25 (3)––––7.513.7–50GV2P169...143 x LC1D25 (3)7.515.5–50916.9–20GV2P2013...183 x LC1D25 (3)918.1–501120.1–20GV2P2117...233 x LC1D25 (3)1122–50––––GV2P2220...253 x LC1D25 (3)1529–501526.5–50GV3P3223...323 x LC1D40A (4)18.535–50––––GV3P4030...402 x LC1D50A+1 x LC1D40A (3)––––18.532.8–50GV3P4030...402 x LC1D65A+1 x LC1D40A (4)2241–50––––GV3P5037...502 x LC1D50A+1 x LC1D40A (3)––––2239–50GV3P5037...502 x LC1D65A+1 x LC1D40A (4)3055–503051.5–50GV3P6548...652 x LC1D65A+1 x LC1D40A (4)3766–1004576–70GV4P8040...803 x LC1D80 (5)––––3764–70GV4P8040...803 x LC1D65A (4)4580–100––––GV4P11565...1153 x LC1D115 (6)5597–1005590–70GV4P11565...1153 x LC1D115 (6)751327870751257465GV5P150H70...1503 x LC1D150 (6)––––901468665GV5P150H70...1503 x LC1D150 (6)(1) The breaking performance of circuit breakers GV2P can be increased by adding a current limiter GV1L3, see page B6/54.(2) For mounting 3 contactors LC1D09, star-delta starter kit LAD91217 must be ordered separately, see page B8/43.(3) For mounting 3 contactors LC1D18 or LC1D25, star-delta starter kit LAD93217 must be ordered separately, see page B8/43.(4) For mounting 3 contactors LC1DppA, star-delta starter kit LAD9SD3 must be ordered separately, see page B8/43.(5) For mounting 3 contactors LC1D80, star-delta starter kit LA9D8017 must be ordered separately, see page B8/43.(6) For mounting 3 contactors LC1D115 or LC1D150, see A2/13.(7) IrD: current in the motor windings in delta connection.TeSysComplementary technical informationCoordination: Star-delta with Thermal magnetic circuit breaker + Contactors";i:224;s:2749:"A5/33Coordination and standardsContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.90 to 250 kW at 400 V: type 2 coordination (with TeSys GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type400 VPIeIq (max)kWAkAAA9016070GV5P220●1701360LC1G115LC1D6511019570GV5P220●2001600LC1G150LC1D8011019570GV6P320●2001600LC1G150LC1D8013223070GV6P320●2401920LC1G150LC1D9516028070GV6P320●3002400LC1G185LC1G11520035070GV6P500●3803040LC1G225LC1G11522038070GV6P500●4003200LC1G265LC1G15025043070GV6P500●4403520LC1G265LC1G150(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)GV5P220●GV6P320●/GV6P500●Breaking performance codeFH400 V367090 to 450 kW at 400 V: type 2 coordination (with ComPact NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)Contactor Star (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type400 VPIeIq (max)kWAkAAA90160130NSX250● + MicroLogic 2.2 M1701360LC1G115LC1D65110195130NSX250● + MicroLogic 2.2 M2001600LC1G150LC1D80110195130NSX400● + MicroLogic 2.3 M2001600LC1G150LC1D80132230130NSX400● + MicroLogic 2.3 M2401920LC1G150LC1D95160280130NSX400● + MicroLogic 2.3 M3002400LC1G185LC1G115200350130NSX630● + MicroLogic 2.3 M3803040LC1G225LC1G115220380130NSX630● + MicroLogic 2.3 M4003200LC1G265LC1G150250430130NSX630● + MicroLogic 2.3 M4403520LC1G265LC1G150300500130NS800● + MicroLogic 5.04804480LC1G330LC1G185335575130NS800● + MicroLogic 5.06405120LC1G400LC1G225355610130NS800● + MicroLogic 5.06405120LC1G400LC1G225400690130NS800● + MicroLogic 5.07205760LC1G500LC1G265450770130NS1000● + MicroLogic 5.07846272LC1G500LC1G330(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX250●/ NSX400●/ NSX630●NS800●/ NS1000●Breaking performance codeFNHSLL400 V365070100150150(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Refer to diagram page A5/40.TeSysComplementary technical informationCoordination: Star-delta with Thermal magnetic circuit breaker + Contactors";i:225;s:2609:"A5/34Coordination and standardsContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.110 to 300 kW at 440 V: type 2 coordination (with TeSys GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type440 VPIeIq (max)kWAkAAA11017765GV5P220●1851480LC1G115LC1D6513220965GV5P220●2101680LC1G150LC1D8016025565GV6P320●2602080LC1G185LC1G11520031865GV6P320●3202560LC1G225LC1G11522034365GV6P500●3502800LC1G225LC1G15025039065GV6P500●4003200LC1G265LC1G15030046665GV6P500●4703760LC1G330LC1G185(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)GV5P220●GV6P320●/GV6P500●Breaking performance codeFHFH440 V35653065110 to 450 kW at 440 V: type 2 coordination (with ComPacT NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type440 VPIeIq (max)kWAkAAA110177130NSX250● + MicroLogic 2.2 M1851480LC1G115LC1D65132209130NSX250● + MicroLogic 2.2 M2101680LC1G150LC1D80160255130NSX400● + MicroLogic 2.3 M2602080LC1G185LC1G115200318130NSX400● + MicroLogic 2.3 M3202560LC1G225LC1G115220343130NSX630● + MicroLogic 2.3 M3502800LC1G225LC1G150250390130NSX630● + MicroLogic 2.3 M4003200LC1G265LC1G150300466130NSX630● + MicroLogic 2.3 M4703760LC1G330LC1G185335521130NS800● + MicroLogic 5.05604480LC1G330LC1G185355554130NS800● + MicroLogic 5.05604480LC1G400LC1G225400627130NS800● + MicroLogic 5.06405120LC1G400LC1G225450695130NS800● + MicroLogic 5.07205760LC1G500LC1G265(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX250●NSX400●/ NSX630●NS800●Breaking performance codeFNHSLFNHSLL440 V3550651001303042 65100130130(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Refer to diagram page A5/40TeSysComplementary technical informationCoordination: Star-delta with Thermal magnetic circuit breaker + Contactors";i:226;s:2430:"A5/35Coordination and standardsContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.132 to 295 kW at 500 V: type 2 coordination (with TeSys GV5 / GV6 circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type500 VPIeIq (max)kWAkAAA13218450GV5P220●1851480LC1G115LC1D6516022450GV6P320●2401920LC1G150LC1D8020028050GV6P320●3002400LC1G185LC1G11525034450GV6P500●3502800LC1G225LC1G11529540550GV6P500●4403520LC1G265LC1G150(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)GV5P220●GV6P320●/ 500●Breaking performance codeFHFH500 V30502550132 to 425 kW at 500 V: type 2 coordination (with ComPact NSX / NS circuit breakers)Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Product type (1)Ir setting (2)Irm (2)Product type500 VPIeIq (max) kWAkAAA13218470NSX250● + MicroLogic 2.2 M (4)1851480LC1G115LC1D6516022470NSX400● + MicroLogic 2.3 M (4)2401920LC1G150LC1D8020028070NSX400● + MicroLogic 2.3 M (4)3002400LC1G185LC1G11525034470NSX630● + MicroLogic 2.3 M (4)3502800LC1G225LC1G11529540570NSX630● + MicroLogic 2.3 M (4)4403520LC1G265LC1G15037551670NS800● + MicroLogic 5.05604480LC1G330LC1G18542558470NS800● + MicroLogic 5.06405120LC1G400LC1G225(1) Product type to be completed by replacing the ● with the breaking performance code:Rated conditional short-circuit (kA)NSX250●NSX400●/ NSX630●NS800● Breaking performance codeFNHSLFNHSLL500 V30365065702530506570100(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Refer to diagram page A5/40.(4) Applicable also with MicroLogic 6.2 M and 6.3 M trip units.TeSysComplementary technical informationCoordination: Star-delta with Thermal magnetic circuit breaker + Contactors";i:227;s:3330:"A5/36Coordination and standards1.5 to 315 kW at 400/415 V: type 1 coordinationMaximum operating rate: LC3K: 12 starts/hour; LC3D: 30 starts/hour.Maximum starting time: LC3K and LC3D: 30 seconds.Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerStar-delta contactorsThermal overload relay400/415 V440 VReferenceRatingIrm (2)ReferenceReferenceSetting rangePIeIrD (1)IqPIeIrD (1)IqkWAAkAkWAAkAAAA–1.5–3.6–2–501.52.23.064.421.835050LC3D32A451LC3K06LR2K03081.8...2.62.24.935035.77350GV2LE106.378LC3K06LR2K03102.6...3.736.5450––––GV2LE1410138LC3K06LR2K03123.7...5.5––––47.9550GV2LE106.378LC3K06LR2K03123.7...5.548.5550––––GV2LE1410138LC3K06LR2K03123.7...5.5––––5.510.4615GV2LE1410138LC3K06LR2K03145.5...85.511.5615––––GV2LE1614170LC3K06LR2K03145.5...8––––7.513.788GV2LE1614170LC3K09LR2K03168...11.57.515.5915––––GV2LE2018223LC3K09LR2K03168...11.5––––916.918GV2LE1614170LC3D12ALRD169...13918.11015––––GV2LE2225327LC3K12LR2K03168...11.5––––1120.1128GV2LE2018223LC3K12LR2K032110...1411221215––––GV2LE2225327LC3K12LR2K032110...14––––1526.5156GV2LE2225327LC3D18ALRD2112...1815291610––––GV2LE3232384LC3D18ALRD2112...1818.535205018.532.81950GV3L4040560LC3D18ALRD2216...242241245022392350GV3L5050700LC3D32ALRD3223...32––––3051.53050GV3L6565910LC3D32ALRD3223...3230553350––––GV3L6565910LC3D32ALRD3530...38––––37643750GV3L65659103 x LC1D40A (4)LRD34030...40376640100––––GV4L80806403 x LC1D40A (4)LRD35037...50––––37643770GV4L80806403 x LC1D40A (4)LRD34030...40––––45764470GV4L80808002 x LC1D50A+1 x LC1D40A (4)LRD35037...50458047100––––GV4L1151158052 x LC1D50A+1 x LC1D40A (4)LRD35037...5055975810055905270GV4L1151158052 x LC1D50A+1 x LC1D40A (4)LRD36548...65––––7512572(3)NSX160pMA (3)1501200LC3D80LRD336363...807513278(3)––––NSX160pMA (3)1501200LC3D80LRD336363...80––––9014685(3)NSX160pMA (3)1501200LC3D115LRD436580...1049016096(3)110178103(3)NSX250pMA (3)2201760LC3D115LRD436580...104––––132215125(3)NSX250pMA (3)2201760LC3D150LRD4369110...140110195116(3)––––NSX250pMA (3)2201760LC3D115LRD436795...120––––160256148(3)NSX400p + Micrologic 1.3M (3)3202240LC3D150LR9D536990...150––––200321186(3)(5)––(5)(5)–132230139(3)––––(5)––(5)(5)–160280165(3)––––(5)––(5)(5)–200350204(3)220353204(3)(5)––(5)(5)–220388225(3)250401233(3)(5)––(5)(5)–280480278(3)––––(5)––(5)(5)–––––315505295(3)(5)––(5)(5)–315540322(3)355518300(3)(5)––(5)(5)–––––375575334(3)(5)––(5)(5)–(1) IrD: current in the motor windings in delta connection.(2) Irm: setting current of the magnetic trip.(3) Reference to be completed by replacing the p with the breaking performance code:Breaking performance Iq (kA)NSX100pMANSX160pMA, NSX250pMANSX400p, NSX630pNS800p400/415 V367036707015070150440 V356535656513065130CodeFHFHHLHL(4) For mounting 3 contactors LC1DppA, star-delta starter kit LAD9SD3 must be ordered separately, see page B8/43.(5) Please consult your Regional Sales Office.TeSysComplementary technical informationCoordination: Star-delta with Magnetic circuit breaker + Contactors + Thermal overload relay";i:228;s:2205:"A5/37Coordination and standards1.5 to 250 kW at 400/415 V: type 2 coordinationMaximum operating rate: LC3D: 30 starts/hour.Maximum starting time: LC3D: 30 seconds.Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Circuit breakerStar-delta contactorsThermal overload relay400/415 V440 VReferenceRatingIrm (1)ReferenceReferenceSetting rangePIeIqPIeIqkWAkAkWAkAAAA1.53.61301.53.06130GV2L084513 x LC1D09LRD082.5...42.234.96.51301302.234.425.77130130GV2L106.3783 x LC1D09LRD104...6–––47.920GV2L14101383 x LC1D18LRD147...1048.5130–––GV2L14101383 x LC1D18LRD169...135.511.5505.510.420GV2L16141703 x LC1D25LRD169...137.515.5507.513.720GV2L20182233 x LC1D25LRD2112...18–––916.920GV2L22253273 x LC1D25LRD2112...1891118.1225050–11–20.1–20GV2L22253273 x LC1D25LRD2216...241529501526.550GV3L32324483 x LC1D40A (2)LRD33223...3218.53550–––GV3L40405602 x LC1D50A+1 x LC1D40A (2)LRD34030...40–––18.532.850GV3L40405602 x LC1D65A+1 x LC1D40A (2)LRD34030...40224150–––GV3L50507002 x LC1D50A+1 x LC1D40A (2)LRD35037...50–––223950GV3L50507002 x LC1D65A+1 x LC1D40A (2)LRD35037...503055503051.550GV3L65659102 x LC1D65A+1 x LC1D40A (2)LRD36548...65–––376450GV3L65659103 x LC1D80LRD335948...653766100–––GV4L80806403 x LC1D80LRD336363...80–––457670GV4L80808003 x LC1D80LRD336363...804580100–––GV4L1151158053 x LC1D115LR9D536760...100–––559070GV4L1151159203 x LC1D115LR9D536760...1005597100–––GV4L1151159203 x LC1D115LR9D536990...1505597(3)–––NSX160pMA (3)15012003 x LC1D115LR9D536990...150–––75125(3)NSX160pMA (3)15012003 x LC1D150LR9D536990...15075132(3)90146(3)NSX160pMA (3)15012003 x LC1D150LR9D536990...150(1) Irm: setting current of the magnetic trip.(2) For mounting 3 contactors LC1DppA, star-delta starter kit LAD9SD3 must be ordered separately, see page B8/43.(3) Reference to be completed by replacing the p with the breaking performance code:Breaking performance Iq (kA)NSX100pMANSX160pMA, NSX250pMANSX400p, NSX630p400/415 V3670367070150440 V3565356565130CodeFHFHHLTeSysComplementary technical informationCoordination: Star-delta with Magnetic circuit breaker + Contactors + Thermal overload relay";i:229;s:3247:"A5/38Coordination and standardsContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.90 to 450 kW at 400 V: type 2 coordination (with ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Thermal overload relay400 VProduct type (1) Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA90160130NSX250● + MA1980LC1G115LC1D65LR9G11592110195130NSX250● + MA1980LC1G150LC1D80LR9G225113110195130NSX400● + MicroLogic 1.3 M1920LC1G150LC1D80LR9G225113132230130NSX400● + MicroLogic 1.3 M1920LC1G150LC1D80LR9G225133160280130NSX400● + MicroLogic 1.3 M2560LC1G185LC1G115LR9G225162200350130NSX630● + MicroLogic 1.3 M3000LC1G225LC1G150LR9G225202220380130NSX630● + MicroLogic 1.3 M3500LC1G265LC1G150LR9G500219250430130NSX630● + MicroLogic 1.3 M3500LC1G265LC1G150LR9G500248300500130NS800● + MicroLogic 5.0 LR OFF4800LC1G330LC1G185LR9G500266335575130NS800● + MicroLogic 5.0 LR OFF4800LC1G400LC1G225LR9G500332355610130NS800● + MicroLogic 5.0 LR OFF5600LC1G400LC1G225LR9G500352400690130NS800● + MicroLogic 5.0 LR OFF5600LC1G500LC1G265LR9G500362450695130NS800● + MicroLogic 5.0 LR OFF6400LC1G500LC1G265LR9G500401(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)NSX250●/ NSX400●/ NSX630●NS800●Breaking performance codeFNHSLL400 V365070100130150110 to 355 kW at 440 V: type 2 coordination (with ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Thermal overload relay440 VProduct type (1) Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA110177130NSX250● + MA1980LC1G115LC1D65LR9G115102132209130NSX250● + MA1980LC1G150LC1D80LR9G225121160255130NSX400● + MicroLogic 1.3 M2240LC1G185LC1D95LR9G225147200318130NSX400● + MicroLogic 1.3 M2560LC1G225LC1G115LR9G225184220343130NSX630● + MicroLogic 1.3 M3000LC1G225LC1G150LR9G225198250390130NSX630● + MicroLogic 1.3 M3500LC1G265LC1G150LR9G500225300466130NSX630● + MicroLogic 1.3 M4000LC1G330LC1G185LR9G500269335521130NS800● + MicroLogic 5.0 LR OFF4800LC1G330LC1G185LR9G500301355554130NS800● + MicroLogic 5.0 LR OFF4800LC1G400LC1G225LR9G500320(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)NSX250●NSX400●/ NSX630●NS800LBreaking performance codeFNHSLFNSLL440 V3550651001303042100130130(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Refer to diagram page A5/40.TeSysComplementary technical informationCoordination: Star-delta with Magnetic circuit breaker + Contactors + Overload relay";i:230;s:1674:"A5/39Coordination and standardsContactor: Maximum operating rate: 30 starts/hour - Maximum starting time: 30 seconds.The coordination table is for normal starting conditions (Class 10e/ 20e). For other heavy starting applications with long start times, please contact techncial support.RE17RMMWS timer to be used for Star-Delta starter application.132 to 425 kW at 500 V: type 2 coordination (with ComPacT NSX / NS circuit breakers and LR9G overload relays)Standard power ratings of 3-phase motors 50/60 Hzin category AC-3Circuit breakerContactorLine (KM2) / Delta (KM3) (3)ContactorStar (KM1) (3)Thermal overload relay500 VProduct type (1) Irm (2)Product typeProduct typeIr setting (2)PIeIq (max)kWAkAAA13218470NSX400● + MicroLogic 1.3 M1600LC1G115LC1D65LR9G22510616022470NSX400● + MicroLogic 1.3 M1920LC1G150LC1D80LR9G22512920028070NSX400● + MicroLogic 1.3 M2560LC1G185LC1G115LR9G22516225034470NSX630● + MicroLogic 1.3 M3000LC1G225LC1G150LR9G22519929540570NSX630● + MicroLogic 1.3 M3500LC1G265LC1G150LR9G50023437551670NS800● + MicroLogic 5.04800LC1G330LC1G185LR9G50029842558470NS800● + MicroLogic 5.04800LC1G400LC1G185LR9G500337(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)NSX400●/ NSX630●NS800●Breaking performance codeFNHSLL500 V2530506570100(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Refer to diagram page A5/40. TeSysComplementary technical informationCoordination: Star-delta with Magnetic circuit breaker + Contactors + Overload relay";i:231;s:736:"A5/40Coordination and standardsTeSys Giga star-delta motor ‘Power’ circuit diagramThermal magnetic circuit breaker + contactorsMagnetic circuit breaker + contactors + overload relayKM3123456KM1123456U1V1W1U2V2W2KM21352/T14/T26/T31/L13/L25/L3246DB439329.eps123456KM1123456U1V1W1U2V2W2135246KM2KM3135L1L2L32/T14/T26/T31/L13/L25/L3DB438528.epsTeSys Giga star-delta Motor ‘Control’ circuit diagram22(-)(+)21181513142214141313A1A2A1A2A1A221161596Overload relay95FStartTimerStopKM1REREKM3KM2KM1KM2REKM3KM1KM2DB438529.epsRecommended timing relay (RE): Zelio Timer ref. RE17RMMWS (12...240 V AC/DC 50/60 Hz – 8 A AC/DC contacts) TeSysComplementary technical informationCoordination: Star-Delta motor starter - Common circuit diagrams";i:232;s:1106:"A5/41Coordination and standardsTeSysComplementary technical informationResistive load protection and control Coordination: Thermal magnetic circuit breakers + Contactors275 to 1000 A up to 690 V: type 2 coordination (with LC1G and ComPacT NSX or NS circuit breakers)Current ratings of 3-phase loads 50/60 Hz in category AC-1Circuit breakerContactorUp to 690 V, temperature ≤ 40 °CProduct type (1)InProduct typeIeIq (max)AkAA275100NSX400p + MicroLogic 2.3400LC1G150305100NSX400p + MicroLogic 2.3400LC1G185330100NSX400p + MicroLogic 2.3400LC1G225385100NSX400p + MicroLogic 2.3400LC1G265440100NSX630p + MicroLogic 2.3630LC1G330550100NSX630p + MicroLogic 2.3630LC1G40070075NS800p + MicroLogic 5.0800LC1G5001000100 (2)NS1000p + MicroLogic 5.01000LC1G630(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)NSX400●/ NSX630●NS800p/NS1000pBreaking performance codeFNHSLRHB1HB2LLB400 V365070100150200--150200440 V30426590130200--130200500 V25305065708085100100100690 V10102025354575100-75(2) Up to 500 V AC.";i:233;s:626:"A5/42Coordination and standards275 to 1050 A up to 690 V: type 2 coordination (with NFC, DIN, type gG fuses)Current ratings of 3-phase loads 50/60 Hz in category AC-1Switch-disconnector gG fuseContactorUp to 690 V, temperature ≤ 40 °CProduct type SizeRatingProduct typeIeIq (max)AkAA25080GSpQQ2315LC1G11527580GSpQQ2315LC1G15030580GSpQQ2315LC1G18533080GSpQQ2400LC1G22538580GSpQQ2400LC1G26544080GSpS3500LC1G33055080GSpS3630LC1G40070080GSpV4800LC1G500100080GSpV41000LC1G630105080GSpV41250LC1G800TeSysComplementary technical informationResistive load protection and control Coordination: Fuses (NFC, DIN type gG) + Contactors";i:234;s:520:"A5/43Coordination and standardsTeSys island motor startersStandard, SIL starters - Power interface modules IEC - Type 1 or 2 coordination with fuses - 690 V690 V - Type 1 or 2 coordination with fusesApplications with 3-phase motors50-60 Hz in category AC-3aM fusesStandard StartersSIL StartersPower Inteface Modules690 VRatingReferencesSetting rangeIqkAAA80≤10TPRST009TPRSS009TPRPM0090.18-9≤25TPRST025TPRSS025-0.5-25≤40TPRST038TPRSS038TPRPM0380.76-38≤80TPRST065 TPRSS065-3.25-65≤80TPRST080TPRSS080TPRPM0804-80";i:235;s:1345:"A5/44Coordination and standardsTeSys island motor startersStandard, SIL starters - Power interface modules IEC - Type 1 coordination with circuit breakers - 230 V0.06 to 22 kW at 230 V: Type 1 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL StartersPower Inteface Modules230 VReferencesReferencesSetting rangePIeIqkWA kAA0.060.35100GV2L03TPRST009TPRSS009TPRPM0090.18-90.090.52100GV2L04TPRST009 TPRSS009TPRPM0090.18-90.120.7100GV2L05TPRST009 TPRSS009TPRPM0090.18-90.181100GV2L06TPRST009TPRSS009TPRPM0090.18-90.251.5100GV2L06TPRST009TPRSS009TPRPM0090.18-90.371.9100GV2L07TPRST009TPRSS009TPRPM0090.18-90.552.6100GV2L08TPRST009TPRSS009TPRPM0090.18-90.753.3100GV2L08TPRST009TPRSS009TPRPM0090.18-91.14.7100GV2L10TPRST009TPRSS009TPRPM0090.18-91.56.3100GV2L14TPRST009TPRSS009TPRPM0090.18-92.28.5100GV2L14TPRST009TPRSS009TPRPM0090.18-9311.3100GV2L16TPRST025TPRSS025TPRPM0380.5-25 / 0.76-38415100GV2L20TPRST025TPRSS025TPRPM0380.5-25 / 0.76-385.52050GV2L22TPRST025TPRSS025TPRPM0380.5-25 / 0.76-387.52750GV2L32TPRST038TPRSS038TPRPM0380.76-38932100GV3L40TPRST038TPRSS038TPRPM0380.76-381138100GV3L40TPRST065 TPRSS065TPRPM0803.25-65 / 4-801551100GV3L65TPRST065TPRSS065TPRPM0803.25-65 / 4-8018.561100GV3L65TPRST065TPRSS065TPRPM0803.25-65 / 4-802272100GV3L73TPRPM0804-80";i:236;s:1067:"A5/45Coordination and standardsTeSys island motor startersStandard, SIL startersIEC - Type 2 coordination with circuit breakers - 230 V0.06 to 22 kW at 230 V: Type 2 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL Starters230 VReferencesReferencesSetting rangePIeIqkWA kAA0.060.35100GV2L03TPRST009TPRSS0090.18-90.090.52100GV2L04TPRST009 TPRSS0090.18-90.120.7100GV2L05TPRST009 TPRSS0090.18-90.181100GV2L06TPRST009TPRSS0090.18-90.251.5100GV2L06TPRST009TPRSS0090.18-90.371.9100GV2L07TPRST009TPRSS0090.18-90.552.6100GV2L08TPRST009TPRSS0090.18-90.753.3100GV2L08TPRST025TPRSS0250.5-251.14.7100GV2L10TPRST025TPRSS0250.5-251.56.3100GV2L14TPRST025TPRSS0250.5-252.28.5100GV2L14TPRST025TPRSS0250.5-25311.3100GV2L16TPRST025TPRSS0250.5-25415100GV2L20TPRST025TPRSS0250.5-255.52050GV2L22TPRST025TPRSS0250.5-257.52750GV2L32TPRST038TPRSS0380.76-38932100GV3L40TPRST038TPRSS0380.76-381138100GV3L40TPRST065TPRSS0653.25-651551100GV3L65TPRST065TPRSS0653.25-6518.561100GV3L65TPRST065TPRSS0653.25-65";i:237;s:1755:"A5/46Coordination and standardsTeSys island motor startersStandard, SIL starters - Power interface modules IEC - Type 1 coordination with circuit breakers - 400/415 - 440 - 500 V0.06 to 37 kW at 400/415 - 440 - 500 V: Type 1 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL StartersPower Inteface Modules400/415 V440 V500 VReferencesReferencesSetting rangePIeIqPIeIqPIeIqkWA kAkWA kAkWA kAA0.060.21000.060.18100---GV2L03TPRST009TPRSS009TPRPM0090.18-90.090.31000.090.27100---0.120.441000.120.4100---GV2L04TPRST009 TPRSS009TPRPM0090.18-90.180.61000.180.55100---0.250.851000.250.77100---GV2L05TPRST009TPRSS009TPRPM0090.18-90.371.1100---0.370.88100---0.371100---GV2L06TPRST009TPRSS009TPRPM0090.18-90.551.51000.551.41000.551.2100------0.751.5100GV2L07TPRST009TPRSS009TPRPM0090.18-90.751.91000.751.7100---1.12.7100---1.12.2100---1.12.4100---GV2L08TPRST009TPRSS009TPRPM0090.18-91.53.61001.53.31001.52.91002.24.91002.24.51002.23.9100GV2L10TPRST009TPRSS009TPRPM0090.18-9---35.910035.210036.5100------GV2L14TPRST009TPRSS009TPRPM0090.18-948.510047.72046.810------5.59.2105.511.5505.510.520---GV2L16TPRST025TPRSS025TPRPM0380.5-25 / 0.76-38------7.512.4107.515.5507.514.120---GV2L20TPRST025TPRSS025TPRPM0380.5-25 / 0.76-38---916.520913.910918.150------GV2L22TPRST025TPRSS025TPRPM0380.5-25 / 0.76-381122501120201117.610------1523101529501526.420---GV2L32TPRST038TPRSS038TPRPM0380.76-38------18.5281018.5355018.531.850---GV3L40TPRST065TPRSS065TPRPM0803.25-65 / 4-80------2233122241502237.350---GV3L50TPRST065TPRSS065TPRPM0803.25-65 / 4-80------304412305550305050---GV3L65TPRST065TPRSS065TPRPM0803.25-65 / 4-80---376050375312376650------GV3L73TPRST065TPRSS065TPRPM0803.25-65 / 4-80";i:238;s:1589:"A5/47Coordination and standardsTeSys island motor startersStandard, SIL startersIEC - Type 2 coordination with circuit breakers - 400/415 - 440 - 500 V0.06 to 37 kW at 400/415 - 440 - 500 V: Type 2 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL Starters400/415 V440 V500 VReferencesReferencesSetting rangePIeIqPIeIqPIeIqkWA kAkWA kAkWA kAA0.060.21000.060.18100---GV2L03TPRST009TPRSS0090.18-90.090.31000.090.27100---0.120.441000.120.4100---GV2L04TPRST009 TPRSS0090.18-90.180.61000.180.55100---0.250.851000.250.77100---GV2L05TPRST009TPRSS0090.18-90.371.1100---0.370.88100---0.371100---GV2L06TPRST009TPRSS0090.18-90.551.51000.551.41000.551.2100------0.751.5100GV2L07TPRST009TPRSS0090.18-90.751.91000.751.7100---1.12.21001.12.7100------GV2L07TPRST025TPRSS0250.5-25---1.12.4100---GV2L08TPRST009TPRSS0090.18-9------1.52.91001.53.61001.53.3100---GV2L08TPRST025TPRSS0250.5-252.24.91002.24.51002.23.9100GV2L10TPRST025TPRSS0250.5-25---35.910035.210036.5100------GV2L14TPRST025TPRSS0250.5-2548.510047.72046.810------5.59.2105.511.5505.510.520---GV2L16TPRST025TPRSS0250.5-25------7.512.4107.515.5507.514.120---GV2L20TPRST025TPRSS0250.5-25---916.520913.910918.150------GV2L22TPRST025TPRSS0250.5-251122501120201117.610------1523101529501526.420---GV2L32TPRST038TPRSS0380.76-38------18.5281018.5355018.531.850---GV3L40TPRST065TPRSS065 3.25-65------2233122241502237.350---GV3L50TPRST065TPRSS0653.25-65------304412305550305050---GV3L65TPRST065TPRSS0653.25-65---376050375312376650------GV3L73TPRST065TPRSS0653.25-65";i:239;s:1203:"A5/48Coordination and standardsTeSys island motor startersStandard, SIL starters - Power interface modules IEC - Type 1 coordination with circuit breakers - 690 V0.06 to 37 kW at 690 V: Type 1 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL StartersPower Inteface Modules690 VReferencesReferencesSetting rangePIeIqkWA kAA0.370.64100GV2L05TPRST009TPRSS009TPRPM0090.18-90.550.874GV2L05TPRST009TPRSS009TPRPM0090.18-90.751.14GV2L06TPRST009TPRSS009TPRPM0090.18-91.11.64GV2L07TPRST009TPRSS009TPRPM0090.18-91.52.14GV2L07TPRST009TPRSS009TPRPM0090.18-92.22.84GV2L08TPRST009TPRSS009TPRPM0090.18-933.84GV2L08TPRST009TPRSS009TPRPM0090.18-944.94GV2L10TPRST009TPRSS009TPRPM0090.18-95.56.74GV2L14TPRST009TPRSS009TPRPM0090.18-97.58.94GV2L14TPRST025TPRSS025TPRPM0380.5-25 / 0.76-38910.54GV2L16TPRST025TPRSS025TPRPM0380.5-25 / 0.76-381112.84GV2L16TPRST025TPRSS025TPRPM0380.5-25 / 0.76-3815174GV2L20TPRST025TPRSS025TPRPM0380.5-25 / 0.76-3818.5214GV2L22TPRST038TPRSS038TPRPM0380.76-3822244GV2L22TPRST065TPRSS065TPRPM0803.25-65 / 4-8030326GV3L40TPRST065TPRSS065TPRPM0803.25-65 / 4-8037396GV3L50TPRST065TPRSS065TPRPM0803.25-65 / 4-80";i:240;s:1466:"A5/49Coordination and standardsTeSys island motor startersStandard, SIL startersIEC - Type 2 coordination with circuit breakers - 690 V0.06 to 37 kW at 690 V: Type 2 coordinationApplications power ratings of 3-phase motors50-60 Hz in category AC-3Circuit breaker (Trip class 5 to 15)Standard StartersSIL Starters690 VReferencesReferencesSetting rangePIeIqkWA kAA0.370.64100GV2L05TPRST009TPRSS0090.18-90.550.874GV2L05TPRST009TPRSS0090.18-90.751.14GV2L06TPRST009TPRSS0090.18-91.11.64GV2L07TPRST009TPRSS0090.18-91.11.650GV2L07 + LA9LB920TPRST025TPRSS0250.5-251.52.14GV2L07TPRST009TPRSS0090.18-91.52.150GV2L07 + LA9LB920TPRST025TPRSS0250.5-252.22.84GV2L08TPRST025TPRSS0250.5-252.22.850GV2L08 + LA9LB920TPRST025TPRSS0250.5-2533.84GV2L08TPRST025TPRSS0250.5-2533.850GV2L08 + LA9LB920TPRST025TPRSS0250.5-2544.94GV2L10TPRST025TPRSS0250.5-2544.950GV2L10 + LA9LB920TPRST025TPRSS0250.5-255.56.74GV2L14TPRST025TPRSS0250.5-255.56.750GV2L14 + LA9LB920TPRST025TPRSS0250.5-257.58.94GV2L14TPRST025TPRSS0250.5-257.58.950GV2L14 + LA9LB920TPRST025TPRSS0250.5-25910.54GV2L16TPRST025TPRSS0250.5-251112.84GV2L16TPRST025TPRSS0250.5-251112.83GV3L18 + LA9LB920TPRST038TPRSS0380.76-3815174GV2L20TPRST025TPRSS0250.5-2515173GV2L22 + LA9LB920TPRST038TPRSS0380.76-3818.5214GV2L22TPRST038TPRSS0380.76-3818.5213GV3L25 + LA9LB920TPRST065TPRSS0653.25-6522244GV2L22TPRST065TPRSS0653.25-6522243GV2L32 + LA9LB920TPRST065TPRSS0653.25-6530326GV3L40TPRST065TPRSS0653.25-6537396GV3L50TPRST065TPRSS0653.25-65";i:241;s:1390:"A5/50Coordination and standardsTeSys island motor startersStandard, SIL starters - Power interface modules UL - SCCR RatingsShort Circuit Current Ratings (SCCR)UL File E39281 and File E48539Suitable for use on a circuit delivering not more than:Standard StartersSIL StartersPower Inteface ModulesHigh SCCRStandard SCCRMax Voltage 600 V Class J Fuse (1)Max Voltage 480 V Circuit BreakerMax Voltage 600 V Circuit BreakerMax Voltage 600 V Circuit Breaker or FuseReferencesSetting rangeSCCRMaximum AmperageSCCRMaximum AmperageSCCRMaximum AmperageSCCRMaximum AmperagekAAkAAkAAkAAA1002585355035535TPRST009TPRSS009TPRPM0090.18-910060856050605100TPRST025TPRSS0250.5-25100100856050605125TPRST038TPRSS038TPRPM0380.76-3810012585110501105250TPRST065TPRSS0653.25-6510012585110501105250TPRST080TPRSS080TPRPM0804-80(1) When protected by any Class J or CC time-delay fuse (Class CC applicable up to 30 A only).Group Motor RatingSuitable for group installation on a circuit delivering not more than:Standard Starters SIL StartersMax voltage 600 V - Class J Fuse (1)Max voltage 480 V - Circuit BreakerReferencesSetting rangeSCCRMaximum AmperageSCCRMaximum AmperagekAAkAAA590590TPRST009TPRSS0090.18-951755175TPRST025TPRSS0250.5-2551755175TPRST038TPRSS0380.76-3856005600TPRST065TPRSS0653.25-6556005600TPRST080TPRSS0804-80(1) When protected by any Class J or CC time-delay fuse.";i:242;s:4434:"A5/51Coordination and standardsTeSys ControlContactors - Definitions and commentsGeneral - Coordination and standardsContactor utilisation categories conforming to IEC 60947-1The standard utilisation categories define the current values which the contactor must be able to make or break.These values depend on: bthe type of load being switched: squirrel cage or slip ring motor, resistors, bthe conditions under which making or breaking takes place: motor stalled, starting or running, reversing, plugging.a.c. applicationsCategory AC-1This category applies to all types of a.c. load with a power factor equal to or greater than 0.95 (cos φ u 0.95). Application examples: heating, distribution.Category AC-2This category applies to starting, plugging and inching of slip ring motors. bOn closing, the contactor makes the starting current, which is about 2.5 times the rated current of the motor. bOn opening, it must break the starting current, at a voltage less than or equal to the mains supply voltage.Category AC-3This category applies to squirrel cage motors with breaking during normal running of the motor. bOn closing, the contactor makes the starting current, which is about 5 to 7 times the rated current of the motor. bOn opening, it breaks the rated current drawn by the motor.Application examples: all standard squirrel cage motors: lifts, escalators, conveyor belts, bucket elevators, compressors, pumps, mixers, air conditioning units, etc... .Category AC-3eThis category applies to high-efficiency IE3/ IE4 squirrel cage motors with breaking during normal running of the motor. bOn closing, the contactor makes the starting current, which is about 5 to 9 times the rated current of the motor. bOn opening, it breaks the rated current drawn by the motor.Application examples: all high-efficiency IE3/ IE4 squirrel cage motors typically used for elevators and escalators, machine tools, conveyor belts, compressors, pumps, mixers, air conditioning units, etc.Category AC-4 This category covers applications with plugging and inching of squirrel cage and slip ring motors.The contactor closes at a current peak which may be as high as 5 or 7 times the rated motor current. On opening it breaks this same current at a voltage which is higher, the lower the motor speed. This voltage can be the same as the mains voltage. Breaking is severe.Application examples: printing machines, wire drawing machines, cranes and hoists, metallurgy industry.d.c. applicationsCategory DC-1This category applies to all types of d.c. load with a time constant (L/R) of less than or equal to 1 ms.Category DC-3This category applies to starting, counter-current braking and inching of shunt motors.Time constant y 2 ms. bOn closing, the contactor makes the starting current, which is about 2.5 times the rated motor current. bOn opening, the contactor must be able to break 2.5 times the starting current at a voltage which is less than or equal to the mains voltage. The slower the motor speed, and therefore the lower its back e.m.f., the higher this voltage.Breaking is difficult.Category DC-5This category applies to starting, counter-current braking and inching of series wound motors.Time constant y 7.5 ms.On closing, the contactor makes a starting current peak which may be as high as 2.5 times the rated motor current. On opening, the contactor breaks this same current at a voltage which is higher, the lower the motor speed. This voltage can be the same as the mains voltage. Breaking is severe.Utilisation categories for auxiliary contacts & control relays conforming to IEC 60947-1a.c. applicationsCategory AC-14 (1)This category applies to the switching of electromagnetic loads whose power drawn with the electromagnet closed is less than 72 VA.Application example: switching the operating coil of contactors and relays.Category AC-15 (1)This category applies to the switching of electromagnetic loads whose power drawn with the electromagnet closed is more than 72 VA.Application example: switching the operating coil of contactors. d.c. applicationsCategory DC-13 (2)This category applies to the switching of electromagnetic loads for which the time taken to reach 95 % of the steady state current (T = 0.95) is equal to 6 times the power P drawn by the load (with P y 50 W). Application example: switching the operating coil of contactors without economy resistor.(1) Replaces category AC-11.(2) Replaces category DC-11.";i:243;s:3005:"A5/52Coordination and standardsTeSys ControlContactors - Definitions and commentsDefinitionsAltitudeThe rarefied atmosphere at high altitude reduces the dielectric strength of the air and hence the rated operational voltage of the contactor. It also reduces the cooling effect of the air and hence the rated operational current of the contactor (unless the temperature drops at the same time). No derating is necessary up to 3000 m. Derating factors to be applied above this altitude for main pole operational voltage and current (a.c. supply) are as follows. Altitude3500 m4000 m4500 m5000 mRated operetional voltage0.900.800.700.60Rated operational current0.920.900.880.86Ambient air temperatureThe temperature of the air surrounding the device, measured near to the device. The operating characteristics are given: - with no restriction for temperatures between -5 and +55 °C,- with restrictions, if necessary, for temperatures between -50 and +70 °C. Rated operational current (Ie) This is defined taking into account the rated operational voltage, operating rate and duty, utilisation category and ambient temperature around the device. Rated conventional thermal current (Ith) (1)The current which a closed contactor can sustain for a minimum of 8 hours without its temperature rise exceeding the limits given in the standards. Permissible short time rating The current which a closed contactor can sustain for a short time after a period of no load, without dangerous overheating. Rated operational voltage (Ue) This is the voltage value which, in conjunction with the rated operational current, determines the use of the contactor or starter, and on which the corresponding tests and the utilisation category are based. For 3-phase circuits it is expressed as the voltage between phases.Apart from exceptional cases such as rotor short-circuiting, the rated operational voltage Ue is less than or equal to the rated insulation voltage Ui. Rated control circuit voltage (Uc)The rated value of the control circuit voltage, on which the operating characteristics are based. For a.c. applications, the values are given for a near sinusoidal wave form (less than 5 % total harmonic distortion). Rated insulation voltage (Ui)This is the voltage value used to define the insulation characteristics of a device and referred to in dielectric tests determining leakage paths and creepage distances. As the specifications are not identical for all standards, the rated value given for each of them is not necessarily the same. Rated impulse withstand voltage (Uimp)The peak value of a voltage surge which the device is able to withstand without breaking down. Rated operational power (expressed in kW)The rated power of the standard motor which can be switched by the contactor, at the stated operational voltage. (1) Conventional thermal current, in free air, conforming to IEC standards. Note: these definitions are extracted from standard IEC 60947-1.General - Coordination and standards";i:244;s:1913:"A5/53Coordination and standardsTeSys ControlContactors - Definitions and commentsDefinitionsRated breaking capacity (1)This is the current value which the contactor can break in accordance with the breaking conditions specified in the IEC standard. Rated making capacity (1)This is the current value which the contactor can make in accordance with the making conditions specified in the IEC standard. On-load factor (m)DB436627.epsThis is the ratio between the time the current flows (t) and the duration of the cycle (T).Cycle duration: duration of current flow + time at zero current.Pole impedanceThe impedance of one pole is the sum of the impedance of all the circuit components between the input terminal and the output terminal.The impedance comprises a resistive component (R) and an inductive component (X = Lω). The total impedance therefore depends on the frequency and is normally given for 50 Hz. This average value is given for the pole at its rated operational current. Electrical durabilityThis is the average number of on-load operating cycles which the main pole contacts can perform without maintenance. The electrical durability depends on the utilisation category, the rated operational current and the rated operational voltage. Mechanical durabilityThis is the average number of no-load operating cycles (i.e. with zero current flow through the main poles) which the contactor can perform without mechanical failure. (1) For a.c. applications, the breaking and making capacities are expressed by the rms value of the symmetrical component of the short-circuit current. Taking into account the maximum asymmetry which may exist in the circuit, the contacts therefore have to withstand a peak asymmetrical current which may be twice the rms symmetrical component.Note: these definitions are extracted from standard IEC 60947-1.General - Coordination and standards";i:245;s:3971:"A5/54Coordination and standardsLC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000506566809511515011515018522526533040050063080078010001518.522222530403037555575901101602002502203152230373745557555759011013216020025033545040056025373745455980557590110132160200250375450425630303737454559807590110132160200250315400450425670303737555575907590110132160200250355400500450–3337374545801007590110160200220315355500560475––––––6575–7575132160185220335450450450–LC1 D50ALC1D65ALC1D80ALC1D80LC1D95LC1D115LC1D150LC1G115LC1G150LC1G185LC1G225LC1G265LC1G330LC1G400LC1G500LC1G630LC1G80050656680951151501151451772092552943914375555871518.5222225304030375555759011014718020022303737455575557590110132160200250315335253737454559805575901101321602002503353553037374545598075901101321601852502803553753037375555759075901101321602002503153754253337374545801007590110160200220315355500560–––––6575–7575132160185220335450450LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000 100010001000750750750750(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)500(5)2500250025002000200020001200(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)1200(5)1200120012001200120012001200(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)600(5)LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F100050656580951151501151501852252653304005006308007801000152020303030403040506075100125150250300–3501520203030405040506075100125150200300350450400404040606075100751001251502002503004006007009009004050506060100125100125150150200300400450700800900–(5) Other values: please contact your regional sales office.Selection - Coordination and standardsOperational current and power conforming to IEC (θ y 60 °C) - AC-3Contactor sizeLC1/ LP1 K06LC1/ LP1 K09LC1 K12LC1 K16LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40AMaximum operational current in AC-3y 440 VA6912169121825323840Rated operational power P (standard motor power ratings)220/240 V (1)kW1.52.2332.2345.57.5911380/400 V (2)kW2.245.57.545.57.5111518.518.5415 VkW2.245.57.545.59111518.522440 VkW345.57.545.59111518.522500 VkW––––5.57.5101518.518.522660/690 V (3)kW34445.57.5101518.518.5301000 VkW–––––––––––Operational current and power conforming to IEC (θ y 60 °C) - AC-3eContactor sizeLC1/ LP1 K06LC1/ LP1 K09LC1 K12LC1 K16LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40AMaximum operational current in AC-3ey 440 VA6912169121825323840Rated operational power P (standard motor power ratings)220/240 V (1)kW1.52.2332.2345.57.5911380/400 V (2)kW2.245.57.545.57.5111518.518.5415 VkW2.245.57.545.59111518.522440 VkW345.57.545.59111518.522500 VkW––––5.57.5101518.518.522660/690 V (3)kW34445.57.5101518.518.5301000 VkW–––––––––––Maximum operating rate in operating cycles/hour (4)On-load factorOperational powerLC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40Ay 85 %P––––12001200120012001000100010000.5 P––––3000300025002500250025002500y 25 %P––––1800180018001800120012001200Operational current and power conforming to UL, CSA (θ y 60 °C)Contactor sizeLC1/ LP1 K06LC1/LP1 K09LC1/ LP1 K12LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40AMaximum operational current in AC-3y 440 VA6912912182532–40Rated operational power P (standard motor power ratings 60 Hz)200/208 VHP1.5232357.510–10230/240 VHP1.5332357.510–10460/480 VHP357.557.5101520–30575/600 VHP35107.510152025–30(1) 230 V for LC1G115 to LC1G800 contactors.(2) 400 V for LC1G115 to LC1G800 contactors.(3) 690 V for LC1K/LP1K and LC1G115 to LC1G800 contactors.(4) Depending on the operational power and the on-load factor (θ y 60 °C). TeSys ControlContactors for utilisation category AC-3";i:246;s:1926:"A5/55Coordination and standardsLC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000506566809511515011515018522526533040050063080078010001518.522222530403037555575901101602002502203152230373745557555759011013216020025033545040056025373745455980557590110132160200250375450425630303737454559807590110132160200250315400450425670303737555575907590110132160200250355400500450–3337374545801007590110160200220315355500560475––––––6575–7575132160185220335450450450–LC1 D50ALC1D65ALC1D80ALC1D80LC1D95LC1D115LC1D150LC1G115LC1G150LC1G185LC1G225LC1G265LC1G330LC1G400LC1G500LC1G630LC1G80050656680951151501151451772092552943914375555871518.5222225304030375555759011014718020022303737455575557590110132160200250315335253737454559805575901101321602002503353553037374545598075901101321601852502803553753037375555759075901101321602002503153754253337374545801007590110160200220315355500560–––––6575–7575132160185220335450450LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000 100010001000750750750750(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)500(5)2500250025002000200020001200(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)1200(5)1200120012001200120012001200(5)(5)(5)(5)(5)(5)(5)(5)(5)(5)600(5)LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F100050656580951151501151501852252653304005006308007801000152020303030403040506075100125150250300–3501520203030405040506075100125150200300350450400404040606075100751001251502002503004006007009009004050506060100125100125150150200300400450700800900–(5) Other values: please contact your regional sales office.Selection - Coordination and standardsTeSys ControlContactors for utilisation category AC-3";i:247;s:1785:"A5/56Coordination and standardsSelection - Coordination and standardsSelection according to required electrical durability, in category AC-3, AC-3e (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running.The current broken (Ic) in category AC-3 is equal to the rated operational current (Ie) of the motor.21345678910121618203025324037506580115951500,5 0,60,811,5246810LC1-D09LC1, LP1, LP4 K09LC1, LP1, LP4 K06LC1 D12LC1 K16LC1, LP1, LP4 K12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40ALC1 D50ALC1 D65A, LC1 D80ALC1 D80LC1 D95LC1 D115LC1 D1502000,550,751,52,2345,57,5111518,5222530230 V400 V0,751,52,245,57,5111518,5223037kW1,52,25,57,5111518,5223745557530440 VkWkW455575Millions of operating cyclesCurrent broken in ADB438467.epsOperational power in kW-50 Hz.Example:Asynchronous motor with P = 5.5 kW - Ue = 400 V - Ie = 11 A - Ic = Ie = 11 A or asynchronous motor with P = 5.5 kW - Ue = 415 V - Ie = 11 A - Ic = Ie = 11 A 3 million operating cycles required. The above selection curves show the contactor rating needed: LC1D18.Selection according to required electrical durability, in category AC-3, AC-3e (Ue = 660/690 V) (1)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running.The current broken (Ic) in category AC-3 is equal to the rated operational current (Ie) of the motor.0,60,811,52346810LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32,LC1 D38LC1 D40ALC1 D50ALC1 D65A, LC1 D80ALC1 D80LC1 D95LC1 D115LC1 D1502001234567896,6101115172022353340424850609080100Millions of operating cyclesCurrent broken in ADB425340.eps(1) For Ue = 1000 V, use the 660/690 V curves, but do not exceed the operational current at the operational power indicated for 1000 V. TeSys ControlContactors for utilisation category AC-3";i:248;s:2001:"A5/57Coordination and standardsSelection according to required electrical durability, in category AC-3 (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running. The current broken (Ic) in category AC-3 is equal to the rated operational current (Ie) of the motor.2030405060809040050080010006000,40,20,811,5246810111518,522303755110111518,5223037457590110132160200250335400111518,522303745557590132160110200335400250457590200250132160230 VkWkWkW400 V440 VLC1G185LC1G115LC1G150LC1G225LC1G265LC1G330LC1G400LC1G500LC1G630LC1G8000,620030010055Millions of operating cyclesCurrent broken in ADB438283.eps11011013216020025033540050013220028575200220147220 V230 VkWkWkW380 V400 V440 V40080010006000,40,811,5246810LC1 F7800,6200Millions of operating cyclesCurrent broken in ADB439577.epsOperational power in kW-50 Hz.Example:Asynchronous motor with P = 132 kW - Ue = 400 V - Ie = 230 A - Ic = Ie = 230 A1.8 million operating cycles required. The above selection curves show the contactor rating needed: LC1G400.Selection according to required electrical durability, in category AC-3 (Ue = 660/690 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running.The current broken (Ic) in category AC-3 is equal to the rated operational current (Ie) of the motor. 20304060100200kW110907516035531522020050056020304050607080500300700567408kW690 V0,40,20,811,52468100,69089107130187234256360634LC1G185LC1G115LC1G150LC1G225LC1G265LC1G330LC1G400LC1G500LC1G630LC1G800100200600400Millions of operating cyclesCurrent broken in ADB439417.epskW110160355335129220475560660 V690 V0,60,811,5246810100400200600485LC1 F7800,4Millions of operating cyclesCurrent broken in ADB439416.epsExample:Asynchronous motor with P = 200 kW - Ue = 690 V - Ie = 203 A - Ic = Ie = 203 A 1 million operating cycles required.The above selection curves show the contactor rating needed: LC1G400. Selection - Coordination and standardsTeSys ControlContactors for utilisation category AC-3";i:249;s:4754:"A5/58Coordination and standardsMaximum operational current (open-mounted device)Contactor sizeLC1/ LP1 K09LC1/ LP1 K12LC1 D09LC1 DT20LC1 D12 DT25LC1 D18 DT32LC1 D25 DT40LC1 D32LC1 D38LC1 D40ADT60ALC1 D50ALC1 D65A D80ADT80ALC1/LP1 D80LC1D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000LC1S F1200LC1 F1250LC1 F1400LC1 F1700LC1 F2100LC1 F2600Maximum operating rate in operating cycles/hour600600600600600600600600600600600600600600600600300300300300300300300300300300600600300300200200200200Connectionconforming to IEC 60947-1Cable c.s.a.mm2444446610103535355050120120––––––––––––––––––Bar c.s.a.mm––––––––––––––––––––––––––2100x53100x52 50x82100x52100x53100x54100x53100x10Operational current in AC-1 in A, according to the ambient temperature conforming to IEC 60947-1y 40 °CA202025202532405050608080125125200200250275305330385440550700105010501600125012001260140017002100(2)2600y 60 °CA (4)2020252025324050506080801251252002002252502753003504005006008008001350(1)11101060119014501750(2)2600(3)y 70 °CA (4) (1)(1)17(1)172228353542565680801601602102352552803303804705406406401100(1)1020900108013001500(2)2150(3)Maximum operational power y 60 °C220/230 VkW88989111418182129294545808090100110120140160200240320320550(1)400420474570700840240 VkW88989121519192331314949838390100110120150170210250330330570(1)410440490600780920380/400 VkW1414151415202531313750507878135135160170190210240280350420550550950(1)700730820100012001450415 VkW14141714172127343441545485851401401601802002202502903604305805801000(1)720760850105013001580440 VkW15151815182329363643585890901501501701902102302703003804606106101050(1)750810910110013501680500 VkW1717201720233341414965651021021701701902202402603003504305206906901200–8509201000125015501910660/690 VkW2222272227344354546580801351352352352703003303604204806007209609601650–1200126014001700210025201000 VkW––––––––––––1201203453453904304805206106908701040139013902400–––210025003100(2)3820(1) Please consult your Regional Sales Office.(2) With set of right-angled connectors LA9F2100.(3) With set of right-angled connectors LA9F2600.(4) LC1F780 to LC1F2600, LC1G115 to LC1G800: the maximum control voltage must not exceed rated Uc for a temperature θ, 60 °C y θ y 70 °C.(1) Please consult your Regional Sales Office.(2) With set of right-angled connectors LA9F2100.(3) With set of right-angled connectors LA9F2600.(4) LC1F780 to LC1F2600, LC1G115 to LC1G800: the maximum control voltage must not exceed rated Uc for a temperature θ, 60 °C y θ y 70 °C.Increase in operational current by parallel connection of polesApply the following coefficients to the currents or power values given above; these coefficients take into account an often unbalanced current distribution between the poles:b 2 poles in parallel: K = 1.6b 3 poles in parallel: K = 2.25b 4 poles in parallel: K = 2.8DF568672.epsDF568673.eps Selection according to required electrical durability, in category AC-1 (Ue y 690 V)Selection according to required electrical durability, in category AC-1 (Ue y 690 V, θ ≤ 40 °C)(1) For Deca Green, consult online datasheets for values.(2) For Deca Green or DC coil, consult online datasheets for values.20253210243681405060801001252004000,10,20,40,60,811,5246810LC1, LP1, LP4 K09LC1, LP1, LP4 K12LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32, LC1 D38LC1 D40ALC1 D50ALC1 D65A, LC1 D80ALC1, LP1 D80LC1 D95LC1 D115LC1 D150250(1)(1)(2)( 2)(1)(2)Millions of operating cyclesCurrent broken in ADB439584.eps50Ue ≤ 440 VUe ≤ 690 V608010050608010020060050080020000,10,20,40,60,812468107005504402501050LC1G115LC1G150LC1G225LC1G265LC1G330LC1G500LC1G630LC1G800300100040020060050080020003001000400285230380335475605900210265275330385305LC1G185LC1G400Millions of operating cyclesCurrent broken in ADB439801.eps0,01250400600800100012001700125014002100260027500,020,040,060,080,10,20,4LC1SF1200LC1F1400LC1F1700LC1F2100LC1F2600LC1F12500,60,81LC1 F7801600Current broken in ADB439418.epsMillions of operating cyclesControl of resistive circuits (cos φ u 0.95).The current broken (Ic) in category AC-1 is equal to the current (Ie) normally drawn by the load.Example:b Ue = 220 V - Ie = 50 A θ y 40 °C - Ic = Ie = 50 Ab 2 million operating cycles requiredb the above selection curves show the contactor rating needed: LC1D50A.Example:b Ue = 440 V - Ie = 500 A - θ y 40 °C - Ic = Ie = 500 Ab 0.8 million operating cycles requiredb the above selection curves show the contactor rating needed: LC1G630.Selection - Coordination and standardsTeSys ControlContactors for utilisation category AC-1";i:250;s:4754:"A5/59Coordination and standardsMaximum operational current (open-mounted device)Contactor sizeLC1/ LP1 K09LC1/ LP1 K12LC1 D09LC1 DT20LC1 D12 DT25LC1 D18 DT32LC1 D25 DT40LC1 D32LC1 D38LC1 D40ADT60ALC1 D50ALC1 D65A D80ADT80ALC1/LP1 D80LC1D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F780LC1 F1000LC1S F1200LC1 F1250LC1 F1400LC1 F1700LC1 F2100LC1 F2600Maximum operating rate in operating cycles/hour600600600600600600600600600600600600600600600600300300300300300300300300300300600600300300200200200200Connectionconforming to IEC 60947-1Cable c.s.a.mm2444446610103535355050120120––––––––––––––––––Bar c.s.a.mm––––––––––––––––––––––––––2100x53100x52 50x82100x52100x53100x54100x53100x10Operational current in AC-1 in A, according to the ambient temperature conforming to IEC 60947-1y 40 °CA202025202532405050608080125125200200250275305330385440550700105010501600125012001260140017002100(2)2600y 60 °CA (4)2020252025324050506080801251252002002252502753003504005006008008001350(1)11101060119014501750(2)2600(3)y 70 °CA (4) (1)(1)17(1)172228353542565680801601602102352552803303804705406406401100(1)1020900108013001500(2)2150(3)Maximum operational power y 60 °C220/230 VkW88989111418182129294545808090100110120140160200240320320550(1)400420474570700840240 VkW88989121519192331314949838390100110120150170210250330330570(1)410440490600780920380/400 VkW1414151415202531313750507878135135160170190210240280350420550550950(1)700730820100012001450415 VkW14141714172127343441545485851401401601802002202502903604305805801000(1)720760850105013001580440 VkW15151815182329363643585890901501501701902102302703003804606106101050(1)750810910110013501680500 VkW1717201720233341414965651021021701701902202402603003504305206906901200–8509201000125015501910660/690 VkW2222272227344354546580801351352352352703003303604204806007209609601650–1200126014001700210025201000 VkW––––––––––––1201203453453904304805206106908701040139013902400–––210025003100(2)3820(1) Please consult your Regional Sales Office.(2) With set of right-angled connectors LA9F2100.(3) With set of right-angled connectors LA9F2600.(4) LC1F780 to LC1F2600, LC1G115 to LC1G800: the maximum control voltage must not exceed rated Uc for a temperature θ, 60 °C y θ y 70 °C.(1) Please consult your Regional Sales Office.(2) With set of right-angled connectors LA9F2100.(3) With set of right-angled connectors LA9F2600.(4) LC1F780 to LC1F2600, LC1G115 to LC1G800: the maximum control voltage must not exceed rated Uc for a temperature θ, 60 °C y θ y 70 °C.Increase in operational current by parallel connection of polesApply the following coefficients to the currents or power values given above; these coefficients take into account an often unbalanced current distribution between the poles:b 2 poles in parallel: K = 1.6b 3 poles in parallel: K = 2.25b 4 poles in parallel: K = 2.8DF568672.epsDF568673.eps Selection according to required electrical durability, in category AC-1 (Ue y 690 V)Selection according to required electrical durability, in category AC-1 (Ue y 690 V, θ ≤ 40 °C)(1) For Deca Green, consult online datasheets for values.(2) For Deca Green or DC coil, consult online datasheets for values.20253210243681405060801001252004000,10,20,40,60,811,5246810LC1, LP1, LP4 K09LC1, LP1, LP4 K12LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32, LC1 D38LC1 D40ALC1 D50ALC1 D65A, LC1 D80ALC1, LP1 D80LC1 D95LC1 D115LC1 D150250(1)(1)(2)( 2)(1)(2)Millions of operating cyclesCurrent broken in ADB439584.eps50Ue ≤ 440 VUe ≤ 690 V608010050608010020060050080020000,10,20,40,60,812468107005504402501050LC1G115LC1G150LC1G225LC1G265LC1G330LC1G500LC1G630LC1G800300100040020060050080020003001000400285230380335475605900210265275330385305LC1G185LC1G400Millions of operating cyclesCurrent broken in ADB439801.eps0,01250400600800100012001700125014002100260027500,020,040,060,080,10,20,4LC1SF1200LC1F1400LC1F1700LC1F2100LC1F2600LC1F12500,60,81LC1 F7801600Current broken in ADB439418.epsMillions of operating cyclesControl of resistive circuits (cos φ u 0.95).The current broken (Ic) in category AC-1 is equal to the current (Ie) normally drawn by the load.Example:b Ue = 220 V - Ie = 50 A θ y 40 °C - Ic = Ie = 50 Ab 2 million operating cycles requiredb the above selection curves show the contactor rating needed: LC1D50A.Example:b Ue = 440 V - Ie = 500 A - θ y 40 °C - Ic = Ie = 500 Ab 0.8 million operating cycles requiredb the above selection curves show the contactor rating needed: LC1G630.Selection - Coordination and standardsTeSys ControlContactors for utilisation category AC-1";i:251;s:3697:"A5/60Coordination and standards LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 F780 3003903904805706308304260 170210210250250540640291014016016020020028031016001201481481701702502801400100132132145145215240110080110110120120150170820709090100100125145710 LCp D50ALCp D65ALC1 D80ALCp D80LCp D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F7805.57.57.57.5991111111518.522223037373763111111151518.52222223030374555555575110111111151518.52222223030374555555575110111515151518.5222222303745555555757513215151522223037111118.5222230454555551501518.518.52525304518.5222230374555557590185Selection - Coordination and standardsMaximum breaking currentCategory AC-2: slip ring motors - breaking the starting current.Category AC-4: squirrel cage motors - breaking the starting current.Contactor sizeLC1/ LP1 K06LC1/ LP1 K09LC1/ LP1 K12LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40AIn category AC-4 (le max)Ue y 440 Vle max broken = 6 x l motorA3654545472108150192192240440 V < Ue y 690 Vle max broken = 6 x l motorA26404040507090105105150Depending on the maximum operating rate (1) and the on-load factor, θ y 60 °C (2)From 150 and 15 % to 300 and 10 %A203030304045758080110From 150 and 20 % to 600 and 10 %A18272727364067707096From 150 and 30 % to 1200 and 10 %A16242424303556606080From 150 and 55 % to 2400 and 10 %A13191919243045505062From 150 and 85 % to 3600 and 10 %A10161616212540454553Contactor sizeLC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800In category AC-4 (le max)Ue y 440 Vle max broken = 6 x l motorA69090011101350159019802400300037804050440 V < Ue y 690 Vle max broken = 6 x l motorA5306407801120140015302160245034003800Depending on the maximum operating rate (1) and the on-load factor, θ y 60 °C (2)Duty Cycle [Cycle/h]Load Factor [%]LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G80015015A31940047856264175886910011124120430010A25031437544150259367977987092315020A3043834575386137268349621083116560010A18323027532436943750257965370315030A28035242149556566876688399310651200 (3)10A13116419623026230935340444947315055A2393003584214805686527508429022400 (3)10A12015118121224228732937942645715085A2082613123684204985726617488093600 (3)10A120151181212242287329379426457(1) Do not exceed the maximum number of operating cycles.(2) For temperatures higher than 60 °C, use a maximum operating rate value equal to 80 % of the actual value when selecting from the tables.(3) Control Module can operate with higher duty cycle during limited time followed by proposed cooling time.Operating cycles/hourCool time 120010 min240030 min360060 minCounter current braking (plugging)The current varies from the maximum plug-braking current to the rated motor current.The making current must be compatible with the rated making and breaking capacities of the contactor.As breaking normally takes place at a current value at or near the locked rotor current, the contactor can be selected using the criteria for categories AC-2 and AC-4.Permissible AC-4 power rating for 200 000 operating cyclesOperational voltageLCp/LPp K06LCp/LPp K09LCpLPp K12LCp D09LCp D12LCp D18LCp D25LCp D32LCp D38LCp D40A220/230 V (4)kW0.751.11.11.51.52.23444380/400 V (5)kW1.52.22.22.23.745.57.57.59415 VkW1.52.22.22.233.75.57.57.59440 VkW1.52.22.22.233.75.57.57.511500 VkW2.233345.57.59911660/690 V (6)kW34445.57.510111115(4) 230 V for LC1G115 to LC1G800 contactors.(5) 400 V for LC1G115 to LC1G800 contactors.(6) 690 V for LC1G115 to LC1G800 contactors.TeSys ControlContactors for utilisation categories AC-2 or AC-4";i:252;s:755:"A5/61Coordination and standards LC1 D50ALC1 D65ALC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 F780 3003903904805706308304260 170210210250250540640291014016016020020028031016001201481481701702502801400100132132145145215240110080110110120120150170820709090100100125145710 LCp D50ALCp D65ALC1 D80ALCp D80LCp D95LC1 D115LC1 D150LC1 G115LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800LC1 F7805.57.57.57.5991111111518.522223037373763111111151518.52222223030374555555575110111111151518.52222223030374555555575110111515151518.5222222303745555555757513215151522223037111118.5222230454555551501518.518.52525304518.5222230374555557590185Selection - Coordination and standardsTeSys ControlContactors for utilisation categories AC-2 or AC-4";i:253;s:1768:"A5/62Coordination and standardsTeSys ControlContactors for utilisation categories AC-2 or AC-4Selection - Coordination and standardsSelection according to required electrical durability, in categories AC-2 or AC-4 (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors (AC-4) or slip ring motors (AC-2) with breaking whilst motor stalled.The current broken (Ic) in AC-2 is equal to 2.5 x Ie.The current broken (Ic) in AC-4 is equal to 6 x Ie (Ie = rated operational current of the motor).5678910203036405054807210815019224030039048063082810005700,010,020,030,040,060,050,080,10,20,40,60,81LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32 and D38LC1 D40ALC1 D50ALC1 D65A, LC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1, LP1, LP4 K09,K12LC1, LP1, LP4 K06(1)Millions of operating cyclesCurrent broken in ADB425342.epsExample:b asynchronous motor with P = 5.5 kW - Ue = 400 V - Ie = 11 A. Ic = 6 x Ie = 66 Ab or asynchronous motor with P = 5.5 kW - Ue = 415 V - Ie = 11 A. Ic = 6 x Ie = 66 Ab 200 000 operating cycles requiredb the above selection curves show the contactor rating needed: LC1D25. (1) The dotted lines are only applicable to LC1, LP1K12 contactors.Selection according to required electrical durability, use in category AC-4 (440 V < Ue y 690 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst motor stalled.The current broken (Ic) in AC-2 is equal to 2.5 x Ie.The current broken (Ic) in AC-4 is equal to 6 x Ie (Ie = rated operational current of the motor).567891020304050907010512121025030040050064080010005400,010,020,030,040,060,050,080,070,10,20,40,60,81LC1 D09LC1 D12LC1 D18LC1 D25LC1 D40ALC1 D50ALC1 D65A,LC1 D80ALC1 D80LC1 D95LC1 D115LC1 D150150LC1 D32, D38 Millions of operating cyclesCurrent broken in ADB425343.eps ";i:254;s:1725:"A5/63Coordination and standardsSelection according to required electrical durability, in categories AC-2 or AC-4 (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors (AC-4) or slip ring motors (AC-2) with breaking whilst motor stalled.The current broken (Ic) in AC-4 is equal to 6 x Ie.(Ie = rated operational current of the motor).10020030040050060069080050000,0020,010,020,040,060,080,20,30,40,50,70,90,60,810,130003780900111010001350240019800,09LC1G185LC1G115LC1G150LC1G225LC1G265LC1G330LC1G400LC1G500200015907004000LC1G630LC1G800Millions of operating cyclesCurrent broken in ADB439334.eps60006008001000200030004260500010,80,60,40,20,10,080,060,040,020,01LC1 F780400Millions of operating cyclesCurrent broken in ADB439413.epsExample:b asynchronous motor with P = 132 kW - Ue = 400 V - Ie = 230 A. Ic = 6 x Ie = 1380 A. 30 000 operating cycles required.b the above selection curves show the contactor rating needed: LC1G330.Selection according to required electrical durability, use in category AC-4 (440 V < Ue y 690 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst motor stalled.The current broken (Ic) in AC-4 is equal to 6 x Ie (Ie = rated operational current of the motor).10020030040078064053050000,0020,0050,0150,010,020,040,060,080,20,30,40,50,70,90,60,810,130003400900112010001400245021600,09LC1G185LC1G115LC1G150LC1G225LC1G265LC1G330LC1G400LC1G500200015307004000LC1G630LC1G8006005008003800Millions of operating cyclesCurrent broken in ADB438287.eps40060080010002000400010,80,60,40,20,10,080,060,040,020,01LC1 F780Millions of operating cyclesCurrent broken in ADB439414.epsTeSys ControlContactors for utilisation categories AC-2 or AC-4Selection - Coordination and standards";i:255;s:4544:"A5/64Coordination and standardsSelection - Coordination and standardsRated operational current (Ie) in Amperes, in utilisation category DC-1, resistive loads: time constant L__R y 1 ms, ambient temperature y 60 °CRated opera-tional voltage UeNo. of poles connec-ted in seriesContactor ratingContactor ratingLC1 D09LC1DT20LC1 D12DT25LC1 D18DT32LC1 D25DT40LC1 D32LC1 D38LC1D40A LC1DT60A LC1 D50ALC1 D65A D80ALC1DT80ALC1D80LC1 D95LC1 D115LC1 D150LC1 G115 LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1G630LC1G800LC1 F780V 241202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–225250275300350400500600950950130048/751202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–2252502753003504005006009509501300125144447777777712121212205225250270315360450540855855118022020202532404050506565651001002002002052252502703153604505408558551180320202025324040505065656510010020020022525027530035540550560596096013004–20202532–––50––65100–200–2252502753003554055056059609601300250111111111111.51.5221010–––––––––––244447777777712122002001802052252452853254054857707701000320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–22525027530035040050060094594513003001––––––––––––––––––––––––––2––––––––––––––––––––––––––344447777–777121220020018520522525029033041549578578510004–20202532–––50––65100–200–22525027530035040050060095095010004601–––––––––––––––––––––––––––2–––––––––––––––––––––––––––3–––––––––––––––––––––––––––4––––––––––––––200–1852052252452853254104907757751000Rated operational current (Ie) in Amperes, in utilisation category DC-2 to DC-5, inductive loads: time constant L__R y 15 ms, ambient temperature y 60 °CRated opera- tional voltageUeNo. of poles connec-ted in seriesContactor rating Contactor ratingLC1D09LC1DT20LC1D12DT25LC1D18DT32LC1 D25DT40LC1 D32LC1 D38LC1D40ALC1DT60ALC1 D50ALC1 D65A D80ALC1DT80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115 LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1G630LC1G800LC1 F780V241202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–225250275300350400500600950950130048/751202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–22525027530035040050060095095013001251222233344444551010----------–22020202532404050506565651001002002001902102302502903354205007957951000320202025324040505065656510010020020020523025527532537046055587587510004–20202532–––50––65100–200–205230255275325370460555875875100025010.50.50.50.50.50.50.51111.51.51133–––––––––––22222333444445520020017519021023027030538546073073090038888324040505065656510010020020018521023025029033541550079079010004–20202532–––50––65100–200–22525027530035540550560596096010003001––––––––––––––––––2––––––––––––––––––3222233333333552002001751952102302703103854657307309004–88832–––50––65100–200–22525027530035040050060095095010004601–––––––––––––––––––––––––––2––––––––––––––––––3––––––––––––––––––4––––––––––––––200–175190210230270310385460730730800 TeSys ControlContactors for utilisation categories DC-1 to DC-51 pole+–DF568970.eps+–2 polesDF568971.eps+–3 polesDF568972.eps+–4 polesDF568973.eps";i:256;s:4453:"A5/65Coordination and standardsSelection - Coordination and standardsTeSys ControlContactors for utilisation categories DC-1 to DC-5Rated operational current (Ie) in Amperes, in utilisation category DC-1, resistive loads: time constant L__R y 1 ms, ambient temperature y 60 °CRated opera-tional voltage UeNo. of poles connec-ted in seriesContactor ratingContactor ratingLC1 D09LC1DT20LC1 D12DT25LC1 D18DT32LC1 D25DT40LC1 D32LC1 D38LC1D40A LC1DT60A LC1 D50ALC1 D65A D80ALC1DT80ALC1D80LC1 D95LC1 D115LC1 D150LC1 G115 LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1G630LC1G800LC1 F780V 241202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–225250275300350400500600950950130048/751202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–2252502753003504005006009509501300125144447777777712121212205225250270315360450540855855118022020202532404050506565651001002002002052252502703153604505408558551180320202025324040505065656510010020020022525027530035540550560596096013004–20202532–––50––65100–200–2252502753003554055056059609601300250111111111111.51.5221010–––––––––––244447777777712122002001802052252452853254054857707701000320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–22525027530035040050060094594513003001––––––––––––––––––––––––––2––––––––––––––––––––––––––344447777–777121220020018520522525029033041549578578510004–20202532–––50––65100–200–22525027530035040050060095095010004601–––––––––––––––––––––––––––2–––––––––––––––––––––––––––3–––––––––––––––––––––––––––4––––––––––––––200–1852052252452853254104907757751000Rated operational current (Ie) in Amperes, in utilisation category DC-2 to DC-5, inductive loads: time constant L__R y 15 ms, ambient temperature y 60 °CRated opera- tional voltageUeNo. of poles connec-ted in seriesContactor rating Contactor ratingLC1D09LC1DT20LC1D12DT25LC1D18DT32LC1 D25DT40LC1 D32LC1 D38LC1D40ALC1DT60ALC1 D50ALC1 D65A D80ALC1DT80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 G115 LC1 G150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1G630LC1G800LC1 F780V241202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–225250275300350400500600950950130048/751202020253240405050656565100100200200225250275300350400500600950950130022020202532404050506565651001002002002252502753003504005006009509501300320202025324040505065656510010020020022525027530035040050060095095013004–20202532–––50––65100–200–22525027530035040050060095095013001251222233344444551010----------–22020202532404050506565651001002002001902102302502903354205007957951000320202025324040505065656510010020020020523025527532537046055587587510004–20202532–––50––65100–200–205230255275325370460555875875100025010.50.50.50.50.50.50.51111.51.51133–––––––––––22222333444445520020017519021023027030538546073073090038888324040505065656510010020020018521023025029033541550079079010004–20202532–––50––65100–200–22525027530035540550560596096010003001––––––––––––––––––2––––––––––––––––––3222233333333552002001751952102302703103854657307309004–88832–––50––65100–200–22525027530035040050060095095010004601–––––––––––––––––––––––––––2––––––––––––––––––3––––––––––––––––––4––––––––––––––200–175190210230270310385460730730800 ";i:257;s:1737:"A5/66Coordination and standardsSelection - Coordination and standards Selection according to required electrical durability, use in categories DC-1 to DC-5The criteria for contactor selection are:b the rated operational current Ie bthe rated operational voltage Ue bthe utilisation category and the time constant L/R bthe required electrical durability.Maximum operating rate (operating cycles)The following limits must not be exceeded: 120 operating cycles/hour at rated operational current Ie.Electrical durability0,010,020,040,060,0812468100,10,20,40,60,80,20,30,40,50,60,710,80,9234567981016142030243236405060709080100LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32,LC1 D38LC1 D40A, DT60ALC1 D50ALC1 D65A, D80A, DT80ALC1, LP1 D80LC1 D95LC1 D115, D150Millions of operating cyclesPower broken per pole in kWDB425344.epsExampleSeries wound motor - P = 1.5 kW - Ue = 200 V - Ie = 7.5 A. Utilisation: reversing, inching.b Utilisation category = DC-5.b Select contactor LC1D09 with 3 poles in series.b The power broken is: Pc total = 2.5 x 200 x 7.5 = 3.75 kW.b The power broken per pole is: 1.25 kW.b The electrical durability read from the curve is u 3 millions of operating cycles.Use of poles in parallelElectrical durability can be increased by using poles connected in parallel.With N poles connected in parallel, the electrical durability becomes: electrical durability read from the curves x N x 0.7.Note:When the poles are connected in parallel, the maximum operational currents indicated on pages A5/64 and A5/65 must not be exceeded.Note:Ensure that the connections are made in such a way as to equalise the currents in each pole. TeSys ControlContactors for utilisation categories DC-1 to DC-5DF537524.eps";i:258;s:1493:"A5/67Coordination and standardsSelection according to required electrical durability, use in categories DC-1 to DC-5Determining the electrical durabilityThe electrical durability can be read directly from the curves below, having previously calculated the power broken as follows: P broken = U broken x l broken. The tables below give the values of Uc and Ic for the various utilisation categories.Power brokenUtilisation categoriesU broken I brokenP brokenDC-1 Non inductive or slightly inductive loadsUeIeUe x IeDC-2 Shunt wound motors, breaking whilst motor running0.1 UeIe0.1 Ue x IeDC-3 Shunt wound motors, reversing, inchingUe2.5 IeUe x 2.5 IeDC-4 Series wound motors, breaking whilst motor running0.3 UeIe0.3 Ue x IeDC-5 Series wound motors, reversing, inchingUe2.5 IeUe x 2.5 Ie234567910203040506070100809020030040060010008009002000400030005000LC1 G185, G225LC1 G115, G150LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630, G8000,010,020,040,060,0812468100,10,20,40,60,8Millions of operating cyclesPower broken per pole in kWDB439578.epsExampleSeries wound motor: P = 40 kW - Ue = 200 V - Ie = 200 A. Utilisation: reversing, inching.b Utilisation category = DC-5.b Select contactor LC1G150 with 2 poles in series.b The power broken is: Pc total = 2.5 x 200 x 200 = 100 kW.b The power broken per pole is 50 kW.b The electrical durability read from the curve is 200000 operating cycles. Selection - Coordination and standards TeSys ControlContactors for utilisation categories DC-1 to DC-5";i:259;s:3678:"A5/68Coordination and standardsTeSys ControlContactors for lighting circuits (1)GeneralThe operating conditions of lighting circuits have the following characteristics:b continuous duty: the switching device can remain closed for several days or even monthsb a dispersion factor of 1: all luminaires in the same group are switched on or off simultaneouslyb a relatively high temperature around the device due to the enclosure, the presence of fuses, or an unventilated control panel location.This is why the operational current for lighting is lower than the value given for AC-1 duty.ProtectionThe continuous duty current drawn by a lighting circuit is constant. In fact:b it is unlikely that the number of luminaires of an existing circuit will be modifiedb this type of circuit cannot create an overload of long duration.It is therefore only necessary to provide short-circuit protection.This can be provided by:b gG type fuses, orb modular circuit breakers.Nevertheless, it is always possible and sometimes more economical (smaller cable size) to protect the circuit by a thermal overload relay and associated aM type uses.Distribution systemSingle-phase circuit, 220/240 VThe tables on pages A5/69 to A5/73 are based on a single-phase 220/240 V circuit and can therefore be applied directly in this case.3-phase circuit, 380/415 V (with neutral)The total number of lamps (N) to be switched simultaneously is divided into three equal groups, each connected between one phase and neutral. The contactor can then be selected from the 220/240 V single-phase tables for a number of lamps equal to N3------ lamps.3-phase circuit, 220/240 VThe total number of lamps (N) to be switched simultaneously is divided into three equal groups, each connected between 2 phases (L1-L2), (L2-L3), (L3-L1). The contactor can then be selected from the 220/240 V single-phase table for a number of lamps equal toN3-------lamps.Contactor selection tablesFor the different types of lamps, the tables on pages A5/69 to A5/73 give the maximum number of lamps of unit power P (in Watts), which can be switched simultaneously for each size of contactor.They are based on: ba 220/240 V single-phase circuit ban ambient temperature of 55 °C (2), taking into account the operating conditions (see General paragraph) ban electrical life of more than 10 years (200 days’ operation per year).They take into account: bthe total current drawn (including ballast) btransient phenomena which occur at switch-on bthe starting currents and their duration bthe circulation of any harmonics which may be present.Lamps with compensating capacitor C (μF) connected in parallel Parallel connected compensating capacitors C cause a current peak at the moment of switch-on. To ensure that the value of this current peak remains compatible with the making characteristics of the contactors, the unit value of the capacitance must not exceed the following:Switching contactor rating (1)LC1K09LP1 K09LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40ALC1 D50ALC1 D65ALC1 D80ALC1D80Maximum unit value C (μF) of parallel connected compensating capacitor 7 3 18 18 25 60 96 96 120 120 240 240 240Switching contactor rating (1)LC1 D80LC1D95LC1 D115LC1 D150LC1 G185LC1 G225LC1 G265LC1 G330LC1 G400LC1 G500LC1 G630LC1 G800Maximum unit value C (μF) of parallel connectedcompensating capacitor 240 240 300 360 800 1200 1700 2500 4000 6000 9000 10800This value is independent of the number of lamps switched by the contactor.(1) Validation tests have not been carried out with Deca Green contactors. (2) For an ambient temperature of 40 °C, multiply the number by 1.2. Selection - Coordination and standards ";i:260;s:1585:"A5/69Coordination and standardsUsual valuesThe tables show the following values:b IB: value of current drawn by each lamp at its rated voltage,b C: unit capacitance for each lamp,corresponding to the values normally quoted by lamp manufacturers.These values are given for an ambient temperature of 55 °C (for 40 °C, multiply the number by 1.2).Incandescent and halogen lampsP (W)60751001502003005007501000IB (A)0.270.340.450.680.911.402.303.404.60LC1 (1)Max. no. of lamps according to P (W)35282114106422K09594735231711743D09, D12776146302315964D189273553627181175D251291037751382515107D32, D381631299764483119139D40A207164124826240241612D50A, D65A, D80A2962351771178857342317D80, D9543034025617012682503424D11546637028018413890543626D150710564426282210136825640G185770610462304228148906044G2258887045323522621701047052G26510068006044002981941188058G3301274101076450437824414810074G400171813641030682508330200136100G500232818501396924690448272184136G6302776220416661102824534326220162G800Mixed lighting lampsP (W)1001602505001000IB (A)0.450.721.102.304.50LC1 (1)Max. no. of lamps according to P (W)2113842K0935221473D09, D1246291894D18553623115D25774830157D32, D38976138199D40A12477492412D50A, D65A, D80A177111703417D80, D952561601045026D1152801741145428D1504262661748242G1854622881889046G22553233221810452G26560437824611860G33076447831215076G4001030644422202102G5001398874572272140G63016661040680326166G800(1) Validation tests have not been carried out with Deca Green contactors.TeSys ControlContactors for lighting circuits (1)Selection - Coordination and standards";i:261;s:2332:"A5/70Coordination and standardsTeSys ControlContactors for lighting circuits (1)Usual valuesThe tables show the following values:b IB: value of current drawn by each lamp at its rated voltageb C: unit capacitance for each lampcorresponding to the values normally quoted by lamp manufacturers.These values are given for an ambient temperature of 55 °C (for 40 °C, multiply the number by 1.2).Fluorescent lamps with starter. Single fittingNon correctedWith parallel correctionP (W)2040658011020406580110IB (A)0.390.450.700.801.20.170.260.420.520.72C (μF)–––––557716LC1 (1)Max. no. of lamps according to P (W)24211312856362218–K0941352220139461383022D09, D12534630261712380504029D186657373221152100615036D258977504329205134836748D32, D38112976255362581691048461D40A14312480704632921513310777D50A, D65A, D80A20517711410066470367190153111D80, D95410354228200132940614380306222D115, D1504924262742401601128738456368266G1855324622962601721224800490400288G2256145323423002001412922570462332G26569660438834022616001046648522378G33088276449043028620241322818662478G40011901030662580386272817241104892644G500161213986987865243700241814981210874G630, G800Fluorescent lamps with starter. Twin fittingNon correctedWith series correctionP (W)2x202x402x652x802x1102x202x402x652x802x110IB (A)2x0.222x0.412x0.672x0.822x1.12x0.132x0.242x0.392x0.482x0.65LC1 (1)Max. no. of lamps according to P (W)2x212x112x72x52x42x362x202x122x102x7K092x362x182x102x82x62x602x322x202x162x12D09, D122x462x242x142x122x82x802x422x262x202x16D182x582x302x182x142x102x1002x542x322x262x20D252x782x422x262x202x142x1342x722x442x362x26D32, D382x1002x522x322x262x182x1682x902x562x442x32D40A2x1262x682x402x342x242x2142x1162x702x582x42D50A, D65A, D80A2x1802x962x582x482x362x3062x1662x1022x822x60D80, D952x3602x1942x1182x962x722x6142x3322x2042x1662x122D115, D1502x4362x2342x1422x1162x862x7382x4002x2462x2002x148G1852x4722x2542x1542x1262x942x8002x4322x2662x2162x160G2252x5442x2922x1782x1462x1082x9222x5002x3082x2502x184G2652x6182x3322x2022x1662x1242x10462x5662x3482x2822x208G3302x7822x4202x2562x2102x1562x13222x7162x4402x3582x264G4002x10542x5662x3462x2822x2102x17842x9662x5942x4822x356G5002x14302x7662x4682x3842x2862x24182x13102x8062x6542x484G630, G800(1) Validation tests have not been carried out with Deca Green contactors.Selection - Coordination and standards";i:262;s:2327:"A5/71Coordination and standardsUsual valuesThe tables show the following values:b IB: value of current drawn by each lamp at its rated voltageb C: unit capacitance for each lampcorresponding to the values normally quoted by lamp manufacturers.These values are given for an ambient temperature of 55 °C (for 40 °C, multiply the number by 1.2).Fluorescent lamps without starter. Single fittingNon correctedWith parallel correctionP (W)2040658011020406580110IB (A)0.430.550.800.951.40.190.290.460.570.79C (μF)–––––557716LC1 (1)Max. no. of lamps according to P (W)22171210650332016–K0937292016118455342820D09, D12483826221511072453626D18604732271813689564532D259763433625184101766144D32, D3810280554631231151957755D40A1301017058402941931219870D50A, D65A, D80A1861451008457421275173140101D80, D95372290200168114842550346280202D115, D1504463482402021361010662416336242G1854843782602181481094716452364262G2255584363002521701262828522420304G2656324943402861941432938590476344G33080062443036224618101186748604434G4001078844580488330244216001008814586G5001462 11447866624483310216813661104796G630, G800Fluorescent lamps without starter. Twin fittingNon correctedWith series correctionP (W)2x202x402x652x802x1102x202x402x652x802x110IB (A)2x0.252x0.472x0.762x0.932x1.32x0.142x0.262x0.432x0.532x0.72LC1 (1)Max. no. of lamps according to P (W)2x192x102x62x52x32x342x182x112x92x6K092x322x162x102x82x62x562x302x182x142x10D09, D122x422x222x122x102x82x742x402x242x182x14D182x522x262x162x122x102x922x502x302x242x18D252x702x362x222x182x122x1242x662x402x322x24D32, D382x882x462x282x222x162x1562x842x502x402x30D40A2x1122x582x362x302x202x2002x1062x642x522x38D50A, D65A, D80A2x1602x842x522x422x302x2342x1522x922x742x54D80, D952x3202x1702x1042x862x602x5702x3062x1862x1502x110D115, D1502x3842x2042x1262x1022x742x6862x3682x2222x1802x132G1852x4162x2202x1362x1122x802x7422x4002x2422x1962x144G2252x4802x2542x1582x1282x922x8562x4622x2782x2262x166G2652x5442x2882x1782x1462x1042x9702x5222x3162x2562x188G3302x6882x3662x2262x1842x1322x12282x6622x4002x3242x238G4002x9282x4942x3042x2482x1782x16562x8922x5402x4382x322G5002x12582x6682x4142x3382x2422x22462x12102x7302x5922x436G630, G800(1) Validation tests have not been carried out with Deca Green contactors. TeSys ControlContactors for lighting circuits (1)Selection - Coordination and standards";i:263;s:2027:"A5/72Coordination and standardsTeSys ControlContactors for lighting circuits (1)Usual valuesThe tables show the following values:b IB: value of current drawn by each lamp at its rated voltageb C: unit capacitance for each lampcorresponding to the values normally quoted by lamp manufacturers.These values are given for an ambient temperature of 55 °C (for 40 °C, multiply the number by 1.2).Low pressure sodium vapour lampsNon correctedWith parallel correctionP (W)355590135150180200355590135150180200IB (A)1.21.62.43.13.23.33.40.30.40.60.911.21.3C (μF)–––––––17172536363636LC1 (1)Max. no. of lamps according to P (W)6532222–––––––K09107533334030–––––D09, D1212964444503725––––D1815117655563473121191514D25211610887786654328262120D32, D382720131010109110825536332725D40A352617131312121401057046423532D50A, D65A, D80A5037251918181720015010066605046D80, D9510075503836363440030020013212010092D115, D1501401047054525048560420280186168140128G1851521147658565454606454302202182152140G2251741308868666462700524350232210174162G2651981489876747270792594396264238198182G330250188124969490881002752502334300250252G40033825416813012612211813521014676450406338312G50049637224819218618017419821488992660594496458G630, G800High pressure sodium vapour lampsNon correctedWith parallel correctionP (W)15025040070010001502504007001000IB (A)1.93.258.812.40.841.42.23.95.5C (μF)–––––20324896120LC1 (1)Max. no. of lamps according to P (W)421–––––––K096321––––––D09, D127431117––––D1810532122138––D251385223018116–D32, D38171063239231586D40A2213843503019107D50A, D65A,D80A311812647142271510D80, D9562362412814284543020D115, D1508852341814200120764230G1859656362016216130824632G22511066422418250150945438G265124744826202821701086042G330158946034243582141367654G40021412680463248229018410474G5003121861186848708424270152108G630, G800(1) Validation tests have not been carried out with Deca Green contactors. Selection - Coordination and standards ";i:264;s:1938:"A5/73Coordination and standardsUsual valuesThe tables show the following values:b IB: value of current drawn by each lamp at its rated voltageb C: unit capacitance for each lampcorresponding to the values normally quoted by lamp manufacturers.These values are given for an ambient temperature of 55 °C (for 40 °C, multiply the number by 1.2).High pressure mercury vapour lampsNon correctedWith parallel correctionP (W)5080125250400700100050801252504007001000IB (A)0.540.811.202.304.106.809.900.30.450.671.32.33.85.5C (μF)–––––––10101018254060LC1 (1)Max. no. of lamps according to P (W)149631–––––––––K092214952114026179–––D09, D122718126321503322116––D18352315842163422814853D2548322111632865738201164D32, D38614027148431107349251486D40A77513417106414093623218117D50A, D65A, D80A11174492614862001338946261510D80, D952221481005228161240026617892523020D115, D15031020614072402417560372250128724430G18533622415278442618606404272140784832G22538825817490503020700466312162905438G2654402941981025834247925283541821026242G33055637225013072443010026684482321307854G400752500338176986040135290260631217610674G5001102734496258144886019821322888458258156108G630, G800Metal iodine vapour lampsNon correctedWith parallel correctionP (W)2504001000200025040010002000IB (A)2.53.69.5201.425.311.2C (μF)––––323264140LC1 (1)Max. no. of lamps according to P (W)32––––––K09431–––––D09, D12641–––––D18752–139––D251072118134–D32, D381393123166–D40A16114230217–D50A, D65A, D80A2416634230115D80, D95483212684602210D115, D1506646188120843214G18572502010130903416G225845822121501044018G265946624141701184420G3301208432162141505626G40016211242202902027636G500238164623042429811252G630, G800(1) Validation tests have not been carried out with Deca Green contactors. TeSys ControlContactors for lighting circuits (1)Selection - Coordination and standards ";i:265;s:2938:"A5/74Coordination and standardsTeSys ControlContactors for heating circuitsSelectionGeneralA heating circuit is a power switching circuit supplying one or more resistive heating elements switched by a contactor. The same general rules apply as for motor circuits, except that heating circuits are not normally subjected to overload currents. It is therefore only necessary to provide short-circuit protection. Characteristics of heating elementsThe examples below are based on resistive heating elements used for industrial furnaces or for the heating of buildings (infra-red or resistive radiant type, convector heaters, closed loop heating circuits, etc.). The variation in resistance values between hot and cold states causes a current peak at switch-on which never exceeds 2 to 3 times the rated operational current (In). This initial peak does not recur during normal operation where subsequent switching is thermostatically controlled. The rated power and current of a heater are given for the normal operating temperature. ProtectionThe steady state current drawn by a heating circuit is constant when the voltage is stable. In fact: bit is unlikely that the number of loads in an existing circuit will be modified bthis type of circuit cannot create overloads. It is therefore only necessary to provide short-circuit protection.This can be provided by: bgG type fuses, or bmodular circuit breakers.Nevertheless, it is always possible and sometimes more economical (smaller cable size) to protect the circuit by a thermal overload relay and associated aM type fuses. Switching, control, protectionA heating element or group of heating elements of a given power may be either single-phase or 3-phase and may be supplied from a 220/127 V or a 400/230 V distribution system. Excluding a single-phase 127 V system (which is no longer commonly used), the following 3 types of circuit arrangement are possible: bsingle-phase, 2-pole switching bsingle-phase, 4-pole switching b3-phase switching Component selection according to the power switchedThe combinations suggested below are based on an ambient temperature of 55 °C (60 °C for Giga contactors LC1G) and for powers at the nominal voltage, but they also ensure switching in the event of prolonged overloads up to 1.05 Ue. Single-phase, 2-pole switchingMaximum power (kW)Contactor rating220/240 V380/415 V660/690 V1000 V3.56.511–LC1K09, LP1K094.5814–LC1D12610.518.5–LC1D1871322.5–LC1D25101830.5–LC1D32, LC1D381322.539.5–LC1D40A16.528.543.5–LC1D65A, LC1D80A24427382.5LC1D80, LP1D804476118157LC1D115, LC1D150270460715945LC1F780Maximum power (kW)Contactor rating230 V400 V690 V1000 V4075125185LC1G1154580140205LC1G1505090155225LC1G18555100170250LC1G22565115200290LC1G26575130230330LC1G33095165285415LC1G400115200345500LC1G500150265460665LC1G630150265460665LC1G800Selection - Coordination and standards – KM1UCircuit controlled by 2 poles of the contactor.810854.eps";i:266;s:1694:"A5/75Coordination and standardsCircuit controlled by a 4-pole contactor with the poles parallel connected in pairs using appropriate connecting links. This solution enables the control of power values approximately equivalent to those controlled by the same contactor on 3-phase.– KM1U810856.epsCircuit controlled by 3 poles of the contactor.– KM1UUU810857.epsComponent selection according to the power switchedSingle-phase, 4-pole switchingMaximum power (kW)Contactor rating220/240 V380/415 V660/690 V1000 V4.5813.5–LC1K09004, LP1K0900471322.5–LC1DT25122136.5–LC1DT402645.579.5–LC1DT80A3866117.5132LC1D80004, LP1D8000442573511401520LC1F7804Maximum power (kW)Contactor rating230 V400 V690 V1000 V65120205300LC1G115475130230330LC1G150480145250365LC1G185490160275400LC1G2254105185320465LC1G2654120210365530LC1G3304150265460665LC1G4004180320550800LC1G50042454257351065LC1G63042454257351065LC1G80043-phase switchingMaximum power (kW)Contactor rating220/240 V380/415 V660/690 V1000 V4.5813.5–LC1K09, LP1K0971322.5–LC1D12101830.5–LC1D181322.539.5–LC1D25183152.5–LC1D32, LC1D3822.53868–LC1D40A28.54986–LC1D65A, LC1D80A40.570.5126135.5LC1D80, LP1D8083140235345LC1D115, LC1D150570100016502400LC1F780Maximum power (kW)Contactor rating230 V400 V690 V1000 V70125220320LC1G11580140245360LC1G15090155270395LC1G18595170295430LC1G225115200345505LC1G265130230395575LC1G330165285495720LC1G400195345595865LC1G5002654607951150LC1G6302654607951150LC1G800Application exampleFor a 220 V, 50 Hz, single-phase circuit supplying a total heating load of 12.5 kW. Select a 3-pole contactor LC1D65A.TeSys ControlContactors for heating circuitsSelection - Coordination and standards ";i:267;s:1990:"A5/76Coordination and standardsOperating conditionsMaximum ambient temperature: 55 °C.When a transformer is switched on, there is generally an initial current surge which reaches its peak value almost instantaneously and then decreases in a largely exponential manner to quickly reach its steady state value.The value of this current depends on:b the characteristics of the magnetic circuit and of the windings (cross sectional area of the core, rated inductance, number of turns, layout and size of the windings, ...)b the performance of the magnetic laminations usedb the magnetic state of the circuit and the instantaneous value of the a.c. mains voltage at the moment of switch-on.The inrush current at the moment of switch-on can reach 20 to 40 times the rated current for the various kVA power ratings in the tables below. This value is independent of the “no-load” or “on-load” state of the transformer. Contactor selectionThe peak magnetising current of the transformer must be lower than the values given in the tables below.Maximum operating rate: 120 operating cycles/hour.Contactor rating (1)LC1/LP1 K06LC1/LP1 K09LC1 D09LC1 D12LC1 D18LC1 D25LC1 D32LC1 D38LC1 D40ALC1 D50ALC1 D65A D80ALC1 D80LC1 D95LC1 D115LC1 D150LC1 F780Maximum permissible current peak at switch-onA160225350350420630770770110012501400155016501800200012 000Maximum operational power (2)220 V240 VkVA22.544578.58.514161819.519.52525175380 V400 VkVA3.5577812.5151524273134345050280415 V440 VkVA45.588914171728323639395555310500 VkVA57991116.5202032364045456565350660 V690 VkVA68.512121421.526.526.5424853595980804001000 VkVA–––––––––––8595100100650(1) Deca Green contactors have not been validated for switching the primaries of 3-phase LV/LV transformers.(2) Maximum operational power corresponding to a current peak at switch-on of 30 In.Selection - Coordination and standardsTeSys ControlContactors for switching the primaries of 3-phase LV/LV transformers (1)";i:268;s:3310:"A5/77Coordination and standardsStandard contactorsCapacitors, together with the circuits to which they are connected, form oscillatory circuits which can, at the moment of switch-on, give rise to high transient currents (> 180 In) at high frequencies (1 to 15 kHz).As a general rule, the peak current on energisation is lower when:b the mains inductances are highb the line transformer ratings are lowb the transformer short-circuit voltage is highb the ratio between the sum of the ratings of the capacitors already switched into the circuit and that of the capacitor to be switched in is small (for multiple step capacitor banks).In accordance with standards IEC 60070, NF C 54-100, VDE 0560, the switching contactor must be able to withstand a continuous current of 1.43 times the rated current of the capacitor bank step being switched. The rated operational powers given in the tables below take this overload into account. Short-circuit protection is normally provided by gI type HPC fuses rated at 1.7 to 2 In.Contactor applicationsOperating conditionsCapacitors are directly switched. The values of peak current at switch-on must not exceed the values indicated opposite.An inductor may be inserted in each of the three phases supplying the capacitors to reduce the peak current, if necessary. Inductance values are determined according to the selected operating temperature.Power factor correction by a single-step capacitor bankThe use of a choke inductor is unnecessary: the inductance of the mains supply is adequate to limit the peak to a value compatible with the contactor characteristics.Power factor correction by a multiple-step capacitor bankSelect a special contactor as defined on page B8/34. If a standard contactor is used, it is essential to insert a choke inductor in each of the three phases of each step.Maximum operational power of contactorsStandard contactorsMaximum operating rate: 120 operating cycles/hour.Electrical durability at maxiumum load: 100 000 operating cycles.With choke inductors connected, where necessary.Operational power at 50/60 HzMax. peak currentContactor rating (1)θ y 40 °C (2)θ y 55 °C (2)220/240 V400/440 V600/690 V220/240 V400/440 V600/690 VkvARkvARkvARkvARkvARkvARA6111561115560LC1D09, D129152091520850LC1D181120251120251600LC1D251425301425301900LC1D32, D381730371730372160LC1D402240502240502160LC1D502240502240503040LC1D653560753560753040LC1D80, D9550901253875803100LC1D115601101354085903300LC1D150(1) Deca Green contactors have not been validated for switching the primaries of 3-phase LV/LV transformers.(2) Upper limit of temperature category conforming to IEC 60070.Operational power at 50/60 HzMax. peak currentContactor ratingθ y 40 °C (3)θ y 60 °C (3)220/240 V400/440 V600/690 V220/240 V400/440 V600/690 VkvARkvARkvARkvARkvARkvARA509015045801351900LC1G115 5510016550901502480LC1G15060110185551001653050LC1G18565120200601101803710LC1G22575140235701252104370LC1G26585160265801452405450LC1G3301102003351001853056600LC1G4001402554251202203658250LC1G50021038564016029548510400LC1G63021038564016029548513200LC1G800(3) Upper limit of temperature category conforming to IEC 60831-1. Selection - Coordination and standardsTeSys ControlContactors for switching 3-phase capacitor banks used for power factor correction (1)";i:269;s:2278:"A5/78Coordination and standardsRecommended wiring scheme, operation, curves Coordination and standards ApplicationsAuto-transformer starting is suitable for starting all types of squirrel cage motors: with 3, 6 or even 9 terminals according to North American technology.Starting is performed at reduced voltage and produces maximum torque at minimum line current.It allows the starting torque (C = f(U)2) to be adapted to the resistive torque of the driven machine by means of the 2 or 3 intermediate voltage take-off connections on the auto-transformer (0.65 and 0.8 Un or 0.5, 0.65 and 0.8 Un). In general, only one take-off connection is used.This type of starting is used for high power and/or high inertia machines.The motor is never disconnected from its power supply during starting (closed transition) and transient phenomena are eliminated.Recommended wiring schemeUWVU3W3V3M3 – KM3– KM2– T1135135135246246246246U1V1W1U2V2W2– Q11/L113/L235/L35246– KM1– F2DF565927.eps– Q1/2– Q1– S11314– KA11314– KM1– KM3– KM21314131413141314– S2– F1– Q1/6219596– F295962122– F3– KM3– KM1– KM3– KM2– KA1– F35152– KM16162– KM361625655– KA1A1A2A1A2A1A2A1A216– T3 DB439802.epsOperationStarting is performed in 3 stages:b star connection of the auto-transformer is made by KM1, then contactor KM2 closes and the motor starts under reduced voltageb the neutral point is opened by KM1; part of the auto-transformer winding is switched into each phase for a short moment, constituting a stator starting inductanceb KM3 switches the motor to full mains voltage and causes the auto-transformer to be shunted out of circuit by KM2.The auto-transformer used generally has an air gap (adjusted or not) in order to obtain, during the second phase of starting, a series inductance whose value is compatible with correct starting.Operating curves000,250,7510,501234567INI2IDXIN12CurrentSpeedDF565941.eps00,250,7510,5000,5122,51,5CNXCN123TorqueSpeedDF565942.eps1 Direct switching current2 Current with auto-transformer1 Direct motor torque2 Torque with auto-transformer3 Resistive torque of the machine (1) Deca Green contactors have not been validated for auto-transformer starting.TeSys ControlContactors for auto-transformer starting (1)";i:270;s:1618:"A5/79Coordination and standardsCombination starters for customer assembly Coordination and standardsAuto-transformer starters from 59 to 900 kW up to 440 V (type 1 coordination)The components recommended in the table below have been determined according to the following characteristics:b auto-transformer: on 0.65 Un connection with non adjusted air gapb 3 starts per hour, of which 2 consecutiveb motor starting current: Id/In = 6b Iq = 70 kAb transient current on closing of KM3 y 7 √2 Inb maximum starting time: 30 secondsb ambient temperature θ y 40 °C.Switch-disconnector-fuses: operators and accessories, please consult your Regional Sales Office.Contactors: 3-pole.LC1D: see pages B8/22 and B8/27.Auxiliary contact blocks:b for contactors LC1D: one LADN11 (1 N/O + 1 N/C) on KM1.Thermal overload relays:b LR: see pages B11/4 to B11/9b LR9D: see pages B11/5 to B11/9.Standard power ratings of 3-phase motors50/60 Hz in category AC-3Switch- disconnector-fuseReferenceaM fusesContactors (1)Overload relaysSizeRatingKM3KM2KM1Reference(2)Setting rangeLC1LC1LC1220/ 230 V380/ 400 V415 V440 VIn maxkWkWkWkWAAA30555959105GSpK22 x 58125D115D115D3210LR9D536990...150LRD436795...12040758080138GSpLT0160D150D115D5011LR9D536990...150LRD4369110...140(1) Deca Green contactors have not been validated for auto-transformer starting.(2) For power ratings greater than or equal to 400 kW at 415 V, use one LRD-05 on the current transformer.(3) Check with the motor manufacturer whether the fuses should be fitted in parallel.TeSys ControlContactors for auto-transformer starting (1)";i:271;s:2324:"A5/80Coordination and standardsTeSys ControlContactors - Long distance remote controlVoltage drop caused by the inrush currentWhen the operating coil of a contactor is energised, the inrush current produces a voltage drop in the control circuit cable caused by the resistance of the conductors, which can adversely affect closing of the contactor.An excessive voltage drop in the control supply cables (both a.c. and d.c.) can lead to non closure of the contactor poles or even destruction of the coil due to overheating.This phenomenon is aggravated by:b a long lineb a low control circuit voltageb a cable with a small c.s.a.b a high inrush power drawn by the coil.The maximum length of cable, depending on the control voltage, the inrush power and the conductor c.s.a., is indicated in the graphs below. Remedial actionTo reduce the voltage drop at switch-on:b increase the conductor c.s.a.b use a higher control circuit voltageb use an intermediate control relay. Selection of conductor c.s.a.These graphs are for a maximum line voltage drop of 5 %. They give a direct indication of the copper conductor c.s.a. to be used for the control cable, depending on its length, the inrush power drawn by the contactor coil and the control circuit voltage (see example page A5/81). C.s.a. of copper cables1a 24 V3a 115 V5a 400 VA0.75 mm2C1.5 mm2E4 mm22a 48 V4a 230 V6a 690 VB1 mm2D2.5 mm2F6 mm2 C.s.a. of copper cables7c 24 V9c 125 VA0.75 mm2C1.5 mm2E4 mm28c 48 V10c 250 VB1 mm2D2.5 mm2F6 mm2(1) For 3-wire control, the current only flows in 2 of the conductors.(2) This is the length of the cable comprising 2 or 3 conductors. (Distance between the contactor and the control device).General - Coordination and standards 10001001100,1151050100200500100020006543X2110001001100,110501001505001000500010 000ADFCEBYInrush power drawn in VALength of control cable in m (2)Total resistance of the 2 conductors in the control cable in Ω (1)Total resistance of the 2 conductors in the control cable in Ω (1)DF533694.eps10001001100,1151050100200500100020001098710001001100,110501005001000500010 000BADFCEInrush power drawn in WLength of control cable in m (2)Total resistance of the 2 conductors in the control cable in Ω(1)Total resistance of the 2 conductors in the control cable in Ω (1)DF533695.eps";i:272;s:1365:"A5/81Coordination and standardsVoltage drop caused by the inrush currentWhat cable c.s.a. is required for the control circuit of an LC1 D40A, 115 V contactor, operated from a distance of 150 metres?b Contactor LC1D40A, voltage 115 V, 50 Hz: inrush power: 200 VA.On the left-hand graph on the page opposite, point X is at the intersection of the vertical line corresponding to 200 VA and the a 115 V voltage curve.On the right-hand graph on the page opposite, point Y is at the intersection of the vertical line corresponding to 150 m and the horizontal line passing through point X.Use the conductor c.s.a. indicated by the curve which passes through point Y, i.e.: 1.5 mm2.If point Y lies between two c.s.a. curves, choose the larger of the c.s.a. values. Calculating the maximum cable lengthThe maximum permissible length for acceptable line voltage drop is calculated by the formula: L = .s.KU2SA___ where:L : distance between the contactor and the control device in m (length of the cable)U : supply voltage in VSA : apparent inrush power drawn by the coil in VAs : conductor c.s.a. in mm2K : factor given in the table below. a.c. supplySA in VA2040100150200K1.381.51.822.15d.c. supplyIrrespective of the apparent inrush power SA, expressed in WK = 1.38TeSys ControlContactors - Long distance remote controlGeneral - Coordination and standards ";i:273;s:1760:"A5/82Coordination and standardsTeSys ControlContactors - Long distance remote controlResidual current in the coil due to cable capacitanceWhen the control contact of a contactor is opened, the control cable capacitance is effectively in series with the coil of the electromagnet. This capacitance can cause a residual current to be maintained in the coil, with the risk that the contactor will remain closed.This only applies to contactors operating on an a.c. supply.This phenomenon is aggravated by:b a long line length between the coil control contact and the contactor, or between the coil control contact and the power supply,b a high control circuit voltage,b a low coil consumption, sealed,b a low value of contactor drop-out voltage.The maximum control cable length, according to the contactor coil supply voltage, is indicated in the graph on the page opposite. Remedial actionVarious solutions can be adopted to avoid the risk of the contactor remaining closed due to cable capacitance:b use a d.c. control voltage, orb add a rectifier, connected as shown in the scheme below, but retaining an a.c. operating coil: in this way, rectified a.c. current flows in the control cable.When calculating the maximum cable length, take the resistance of the conductors into account.. b Connect a resistor in parallel with the contactor coil (1).Value of the resistance:R Ω = (C capacitance of the control cable)110–3 C (μF)___ Power to be dissipated: (1) To avoid increasing the voltage drop due to inrush current, this resistor must be brought into operation after the contactor has closed by using an N/O contact.General - Coordination and standards A1A2–+12Supply 50/60 HzLDF510749.epsPW = U2R___";i:274;s:2062:"A5/83Coordination and standardsResidual current in the coil due to cable capacitanceThese graphs are for a capacitance, between 2 conductors, of 0.2 μF/km. They make it possible to determine whether there is a risk of the contactor remaining closed due to the power drawn by the coil when sealed, as well as the control circuit voltage, according to the length of the control cable.1a 24 V3a 115 V5a 400 V73-wire control2a 48 V4a 230 V6a 690 V82-wire controlIn the zones below the straight lines for 3-wire and 2-wire control respectively, there is a risk of the contactor remaining closed.ExamplesWhat is the maximum length for the control cable of an LC1D12 contactor, operating on 230 V, with 2-wire control?b Contactor LC1D12, voltage 230 V, 50 Hz: power sealed 7 VA.On the left-hand graph, point A is at the intersection of the vertical line for 7 VA with the a 230 V voltage curve.On the right-hand graph, point B is at the intersection of the horizontal line with the 2-wire control curve.The maximum cable length is therefore 300 m.In the same example, with a 600 m cable, the point lies in the risk zone. A resistor must therefore be connected in parallel with the contactor coil.Value of this resistance: Power to be dissipated: Alternative solution: use a d.c. control supply. Calculating the cable lengthThe maximum permitted length of control cable to avoid the effects of capacitance is calculated using the formula: L : distance between the contactor and the control device in km (length of the cable),S : apparent power, sealed, in VA,U : control voltage in V,Co : line capacitance of the cable in μF/km.L = 455 . SU2.Co___ R = = = 8.3 Ω10-3 . C__110-3 . 0.12___11001000,11100,011571050100214635100,110,011005003001000500010 00078ABPower drawn, sealed in VALength of control cable in mCable capacitance in μFCable capacitance in μFDF533697.epsP = = = 6 W U2R___(220)28300___TeSys ControlContactors - Long distance remote controlGeneral - Coordination and standards ";i:275;s:1904:"A5/84Coordination and standardsTechnical information Current of asynchronous squirrel cage motors at nominal load3-phase 4-pole motorsCurrent values for power in kWCurrent values for power in hpRated operational power (1)Indicative rated operational current values at:Rated operational power (2)Indicative rated operational current values at:230 V400 V500 V690 V110 -120 V200 V208 V220 -240 V380 -415 V440 -480 V550 -600 VkWAhpA0.060.350.20.160.121/24.42.52.42.21.31.10.90.090.520.30.240.173/46.43.73.53.21.81.61.30.120.70.440.320.2318.44.84.64.22.32.11.70.1810.60.480.351 1/2126.96.663.332.40.251.50.850.680.49213.67.87.56.84.33.42.70.371.91.10.880.64319.21110.69.66.14.83.90.552.61.51.20.87530.417.516.715.29.77.66.10.753.31.91.51.17 1/24425.324.222141191.14.72.72.21.6105632.230.8281814111.56.33.62.92.1158448.346.2422721172.28.54.93.92.82010862.159.454342722311.36.55.23.82513678.274.8684434274158.56.84.9301609288805140325.52011.59.26.7402081201141046652417.52715.512.48.95026015014313083655211382217.612.860-1771691541037762155129231775-221211192128967718.561352821100-285273248165124992272413324125-3593433122081561253096554432150-41439636024018014437115665339200-55252848032024019245140806447250---60440330224255169977857300---7224823612897523013210677350---8285604143369027816012893400---954636477382110340195156113450---1030–515412132400230184134500---1180786590472160487280224162200609350280203250748430344250315940540432313355106161048835440012006905524005001478850680493560165295076055163018441060848615710207011909526908002340134610767809002640151812148801000291016731339970(1) Values conforming to standard IEC 60072-1 (at 50 Hz).(2) Values conforming to standard UL 508 (at 60 Hz).Note: These values are given as a guide. They may vary depending on the type of motor, its polarity and the manufacturer.General - Coordination and standards";i:276;s:5263:"A5/85Coordination and standardsTechnical information Product standards and certificationsStandardisationConformity to standardsSchneider Electric products satisfy, in the majority of cases, national (for example: BS in Great Britain, NF in France, DIN in Germany), European (for example: CENELEC) or international (IEC) standards. These product standards precisely define the performance of the designated products (such as IEC 60947 series for low voltage equipment).When used correctly, as designated by the manufacturer and in accordance with regulations and correct practices, these products will allow users to build equipment, machine systems or installations that conform to their appropriate standards (for example: IEC 60204-1, relating to electrical equipment used on industrial machines).Schneider Electric is able to provide proof of conformity of its production to the standards it has chosen to comply with, through its quality assurance system.On request, and depending on the situation, Schneider Electric can provide the following:b a declaration of conformity,b a certificate of conformity (CB certificate, Asefa/Lovag),b a homologation certificate or approval, in the countries where this procedure is required or for particular specifications, such as those existing in the merchant navy.StandardCertification authorityCountryNameRegulation authorityANSIAmerican National Standards InstituteANSIUSABSBritish Standards InstitutionBSIGreat BritainCEIComitato Elettrotecnico ItalianoCEIItalyDIN/VDEVerband Deutscher ElectrotechnikerVDEGermanyENComité Européen de Normalisation ElectrotechniqueCENELECEuropeTR RegulationEurasian Customs UnionEACRussia, Belarus, KazakhstanIECInternational Electrotechnical CommissionIECWorldwideJISJapanese Industrial Standards CommitteeJISCJapanNBNInstitut Belge de NormalisationIBNBelgiumNENNederlands Normalisatie InstitutNNINetherlandsNF Union Technique de l’ElectricitéUTEFranceSAAStandards Association of AustraliaSAAAustraliaUNE Asociacion Española de Normalizacion y CertificacionAENORSpainEuropean EN standardsThese are technical specifications established in conjunction with, and with approval of, the relative bodies within the various CENELEC member countries (European Union, European Free Trade Association and many central and eastern European countries having «member» or «affiliated» status). Prepared in accordance with the principle of consensus, the European standards are the result of a weighted majority vote. Such adopted standards are then integrated into the national collection of standards, and contradictory national standards are withdrawn.European standards incorporated within the French collection of standards carry the prefix NF EN. At the ‘Union Technique de l’Electricité’ (Technical Union of Electricity) (UTE), the French version of a corresponding European standard carries a dual number: European reference (NF EN ...) and classification index (C ...).Therefore, the standard NF EN 60947-4-1 relating to motor contactors and starters, effectively constitutes the French version of the European standard EN 60947-4-1 and carries the UTE classification C 63-110.This standard is identical to the British standard BS EN 60947-4-1 or the German standard DIN EN 60947-4-1.Whenever reasonably practical, European standards reflect the international standards (IEC).With regard to automation system components and distribution equipment, in addition to complying with the requirements of French NF standards, Schneider Electric brand components conform to the standards of all other major industrial countries. RegulationsEuropean DirectivesOpening up of European markets assumes harmonisation of the regulations pertaining to each of the member countries of the European Union.The purpose of the European Directive is to eliminate obstacles hindering the free circulation of goods within the European Union, and it must be applied in all member countries. Member countries are obliged to transcribe each Directive into their national legislation and to simultaneously withdraw any contradictory regulations. The Directives, in particular those of a technical nature which concern us, only establish the objectives to be achieved, referred to as “essential requirements”.The manufacturer must take all the necessary measures to ensure that his products conform to the requirements of each Directive applicable to his production.As a general rule, the manufacturer certifies conformity to the essential requirements of the Directive(s) for his product by affixing the e marking.The e marking is affixed to Schneider Electric brand products concerned, in order to confirm compliance with French and European regulations.Significance of the e marking b The e marking affixed to a product signifies that the manufacturer declares that the product conforms to the relevant European Directive(s) which concern it; this condition must be met to allow free distribution and circulation within the countries of the European Union of any product subject to one or more of the E.U. Directives.b The e marking is intended solely for national market control authorities.b The e marking must not be confused with a conformity mark.General - Coordination and standards";i:277;s:4959:"A5/86Coordination and standardsTechnical information Product standards and certificationsEuropean DirectivesFor electrical equipment, only conformity to standards signifies that the product is suitable for its designated function, and only the guarantee of an established manufacturer can provide a high level of quality assurance.For Schneider Electric brand products, one or several Directives are likely to be applicable, depending on the product, and in particular: b the Low Voltage Directive 2014/35/EU: the e marking relating to this Directive has been compulsory since April 2016.b the Electromagnetic Compatibility Directive 2014/30/EU: the e marking on products covered by this Directive has been compulsory since April 2016.CB certificate, Asefa/Lovag certificateb CB certification is issued according to IEC standards in respect to a multilateral agreement between almost industrial countries called CB scheme. It allows international certification of electrical and electronic products so that a single certification facilitates a worldwide market access.b The function of ASEFA (Association des Stations d’Essais Française d’Appareils électriques - Association of French Testing Stations for Low Voltage Industrial Electrical Equipment) is to carry out tests of conformity to standards and to issue certificates of conformity and test reports. ASEFA laboratories are authorised by the French authorisation committee (COFRAC). ASEFA is now a member of the European agreement group LOVAG (Low Voltage Agreement Group). This means that any certificates issued by LOVAG/ASEFA are recognised by all the authorities which are members of the group and carry the same validity as those issued by any of the member authorities.Quality labelsWhen components can be used in domestic and similar applications, it is sometimes recommended that a “Quality label” be obtained, which is a form of certification of conformity. CodeQuality labelCountryCEBECComité Electrotechnique BelgeBelgiumKEMA-KEURKeuring van Electrotechnische MaterialenNetherlandsNFUnion Technique de l’ElectricitéFranceÖVEÖsterreichischer Verband für ElectrotechnikAustriaSEMKOSvenska Electriska Materiel KontrollanataltenSwedenProduct certificationsIn some countries, the certification of certain electrical components is a legal requirement. In this case, a certificate of conformity to the standard is issued by the official test authority.Each certified device must bear the relevant certification symbols when these are mandatory: CodeCertification authorityCountryCSACanadian Standards AssociationCanadaULUnderwriters LaboratoriesUSACCCChina Compulsory CertificationChinaNote on certifications issued by the Underwriters Laboratories (UL). There are two levels of approval:“Recognized” ()The component is fully approved for inclusion in equipment built in a workshop, where the operating limits are known by the equipment manufacturer and where its use within such limits is acceptable by the Underwriters Laboratories.The component is not approved as a “Product for general use” because its manufacturing characteristics are incomplete or its application possibilities are limited.A “Recognized” component does not necessarily carry the certification symbol.“Listed” (UL)The component conforms to all the requirements of the classification applicable to it and may therefore be used both as a “Product for general use” and as a component in assembled equipment. A “Listed” component must carry the certification.Marine classification societiesPrior recognition by certain marine classification societies is generally required for electrical equipment which is intended for use on board merchant vessels. Europe community has emitted regulation No. 391/2009 for common rules for Type approval of Marine equipment.MR TA Mutual Recognition Type Approval is a certificate that is mutually recognized by all 12 classification societies from the EU RO MR group (European Recognized Organizations). Renewal of marine certifications, or new products certification is now covered by EU-MR (Mutual Recognition) process and therefore removes the need for multiple marine certifications.Current EU RO members include all major societies like DNV-GL, BV, ABS, LR as well as non-European societies like CCS, KR, NK, RMRS, etc.RulesClassification authorityCountryABS American Bureau of ShippingUnites States of AmericaKRoSKorean register of ShippingSouth KoreaBVBureau VeritasFranceDNV-GLDet Norske Veritas - Germanischer LloydNorway - GermanyLRoSLloyd’s Register of ShippingGreat BritainNKKNippon Kaiji KyokaïJapanRINARegistro Italiano NavaleItalyRMRoS Russian Maritime Register of ShippingRussiaCCSChina Classification Society Republic of ChinaGeneral - Coordination and standardsNote: for further details on a specific product, please refer to the “Characteristics” pages in this catalogue or consult your Regional Sales Office.";i:278;s:3658:"A5/87Coordination and standardsTechnical information Degrees of protection provided by enclosures IP codeDegrees of protection against the penetration of solid bodies, water and personnel access to live partsThe European standard EN 60529 dated October 1991, IEC publication 529 (2nd edition - November 1989), defines a coding system (IP code) for indicating the degree of protection provided by electrical equipment enclosures against accidental direct contact with live parts and against the ingress of solid foreign objects or water.This standard does not apply to protection against the risk of explosion or conditions such as humidity, corrosive gasses, fungi or vermin.Certain equipment is designed to be mounted on an enclosure which will contribute towards achieving the required degree of protection (example : control devices mounted on an enclosure).Different parts of an equipment can have different degrees of protection (example : enclosure with an opening in the base).Standard NF C 15-100 (May 1991 edition), section 512, table 51 A, provides a cross-reference between the various degrees of protection and the environmental conditions classification, relating to the selection of equipment according to external factors.Practical guide UTE C 15-103 shows, in the form of tables, the characteristics required for electrical equipment (including minimum degrees of protection), according to the locations in which they are installed.IP ppp codeThe IP code comprises 2 characteristic numerals (e.g. IP 55) and may include an additional letter when the actual protection of personnel against direct contact with live parts is better than that indicated by the first numeral (e.g. IP 20C).Any characteristic numeral which is unspecified is replaced by an X (e.g. IP XXB).1st characteristic numeral2nd characteristic numeralAdditional lettercorresponds to protection of the equipment against penetration of solid objects and protection of personnel against direct contact with live parts.corresponds to protection of the equipment against penetration of water with harmful effects.corresponds to protection of personnel against direct contact with live parts.Protection of the equipmentProtection of personnel0Non-protectedNon-protected0Non-protectedA With the back of the hand.1Protected against the penetration of solid objects having a diameter greater than or equal to 50 mmProtected against direct contact with the back of the hand (accidental contacts).1Protected against vertical dripping water, (condensation).BWith the finger.2Protected against the penetration of solid objects having a diameter greater than or equal to 12.5 mm.Protected against direct finger contact.2Protected against dripping water at an angle of up to 15°.CWith a Ø2.5 mm tool.3Protected against the penetration of solid objects having a diameter greater than or equal to 2.5 mm.Protected against direct contact with a Ø2.5 mm tool.3Protected against rain at an angle of up to 60°.DWith a Ø1 mm wire.4Protected against the penetration of solid objects having a diameter greater than or equal to 1 mm.Protected against direct contact with a Ø1 mm wire.4Protected against splashing water in all directions.5Dust protected (no harmful deposits).Protected against direct contact with a Ø1 mm wire.5Protected against water jets in all directions.6Dust tight.Protected against direct contact with a Ø1 mm wire.6Protected against powerful jets of water and waves.7Protected against the effects of temporary immersion.8Protected against the effects of prolonged immersion under specified conditions.Introduction - Coordination and standards15 ̊60 ̊ 1m15 cmmin m";i:279;s:1182:"A5/88Coordination and standardsTechnical information Degrees of protection provided by enclosures IK codeDegrees of protection against mechanical impactThe European standard EN 50102 dated March 1995 defines a coding system (IK code) for indicating the degree of protection provided by electrical equipment enclosures against external mechanical impact.Standard NF C 15-100 (May 1991 edition), section 512, table 51 A, provides a cross-reference between the various degrees of protection and the environmental conditions classification, relating to the selection of equipment according to external factors.Practical guide UTE C 15-103 shows, in the form of tables, the characteristics required for electrical equipment (including minimum degrees of protection), according to the locations in which they are installed. IK pp codeThe IK code comprises 2 characteristic numerals (e.g. IK 05). 2 characteristic numeralscorresponding to a value of impact energy. h (cm)Energy (J)00 Non-protected01 0,2 kghDF522464.eps7.50.1502 100.203 17.50.3504 250.505 350.706 0,5 kghDF522465.eps20107402081,7 kghDF522466.eps30509 5 kghDF522467.eps2010104020Introduction - Coordination and standards";i:280;s:873:"Power busbar systemsWiring systemsSwitch- disconnectorsFuse carriersControl relaysContactorsOverload relaysB/1High power contactorsSwitch- disconnector fusesMotor circuit breakersHigh power contactorsLinergy BZ, HK Busbar systemsUp to 630 AB1/1GV, LAD, U Wiring systems for motor starters B2/1TeSys ControlSwitch-disconnectorsUp to 175 AB3/1TeSys PowerFuse carriersUp to 125 AB4/1TeSys PowerSwitch-disconnector fusesUp to 1250 AB5/1TeSys PowerDeca, Giga and Modular Motor circuit breakersUp to 250 kWB6/1TeSys ControlSK, K, Deca Control relaysUp to 10 AB7/1TeSys Control SK, K, SKGC, Deca, Modular and other ContactorsUp to 150 A (AC-3)B8/1TeSys ControlGiga High power contactorsUp to 800 A (AC-3)B9/1TeSys ControlF High power contactorsUp to 2600 A (AC-1)B10/1TeSys ProtectLRK, Deca, Giga Overload relaysUp to 630 AB11/1Part BCOMPONENTSFOR CONVENTIONAL SOLUTIONS";i:281;s:3:"B/2";i:282;s:622:"B1/1Power busbar systemsLinergy BZ, HK Busbar systems Busbar systems for electrical distribution and motors startersType of productRangePagesIntroduction Linergy BZB1/2Multistandard power busbar Linergy BZFrom 160 to 630 AB1/4Introduction Linergy HKB1/10Multistandard hot-plug distribution system Linergy HKUp to 160 AB1/12TeSysTechnical Data for Designers B1/17Chapter B1 All Schneider Electric distribution and connection systems are brought together into a single brand name: Linergy Distribution blocks Device feeders Power busbars Hot plug busbar system Terminal blocks and bars.Catalogue reference: LVYED213001EN";i:283;s:1185:"B1/2Power busbar systemsIntroductionLinergy BZ, HK Busbar systemsLinergy BZ - Electrical distribution up to 630 A In enclosures, when space saving and fast connection are a strong requirement Advantages bConsiderable space saving: components are directly mounted on the busbar b Quick connection, deconnection: a metal hook combines mechanical fastening and electrical connection bMulti standard: conform to IEC and UL standardsIdeal for industrial process applicationThe busbar is supplied through the incoming circuit breakerFeeder circuit breaker, on its mounting plate. Connection to the busbar by hooks, on the back side.Branch circuit breakerTap-off connector, for auxiliary circuitBranch circuit breaker, and its dedicated mounting plate. The branch circuit can be either connected on bottom or top, by moving the conducting cylinders.Strong metal hooksTightening the hooks ensures the bars fastening and the electrical connectionHorizontal (or vertical) busbar mountingDetailed view: back face of a mounting plateb Mounting plates, for Compact NSX, Powerpact and GV5 circuit breakersb Compatible with bars: v Height 12, 15, 20, 25 or 30 mm, v Width 5 or 10 mm";i:284;s:1109:"B1/3Power busbar systemsIntroductionLinergy BZ, HK Busbar systemsLinergy BZ - Electrical distribution to motor starters In control switchboards, when space saving, quick mounting and replacement are requiredMotor circuit breaker and contactor assembly, equipped with mounting plateTerminal plate, for busbar supply connectionMounting plates for motor starters,Direct-On-Line or Reverse Advantages bConsiderable space saving: components are directly mounted on the busbar b Large choice of mounting plates (for a Deca Frame 2 (GV2) , a Deca Frame 3 (GV3) motor circuit breakers and assemblies, a Deca Frame 5 (GV5) Ultra) bQuick connection, deconnection (power off): clip-on mounting plates bVibration resistant busbar connections: no periodical re-tightening required bMulti standard: conform to IEC and UL standardsDetailed view: back face of a motor starter mounting plateb A reliable electrical contact is ensured by copper bladesb The blue part locks the mounting plate on the busbar, compatibility is provided with the standard profiles: v Height 12, 15, 20, 25 or 30 mm, v Width 5 or 10 mm";i:285;s:74:"B1/4Power busbar systemsDB400244.eps41867260 mm45161322DB400245.eps60 mm";i:286;s:2197:"B1/5Power busbar systemsLinergy BZ, HK Busbar systemsLinergy BZ - Mounting plates for motor startersIntroductionDB400246.epsDescriptionThe mounting plate system for busbars simplifies the installation of motor feeder components used in your electrical installations. Power distribution is performed by a busbar.The mounting plates are fitted directly on this busbar, by snap-on mounting, thus implementing mechanical and electrical connection.This system offers numerous benefits: bspace saving in cabinets bfast, safe and reliable electrical and mechanical connection beasy connection bprotection for users against electric shocks by direct contacts (IP20) by using busbars end covers bequipment flexibility and modularity bincreased equipment availability: easier maintenance bpower supply without drilling (connectors) from 1.5 to 120 mm2. Busbars systemThe busbar interaxis is 60 mm. Depending on the cross section of the bars, the busbar can withstand a maximum current of 630 A.Note: The bars forming the busbar are not part of the LA9Z offer. They are not supplied by us. Their selection depends on the maximum current needed for your installation (see next page). Support for 3P and 4P busbar (1)These are available in 2 versions: three-pole and four-pole.For applications having to comply with the UL standard, use the LA9ZX01508 support (3P only).The mounting plates (2)These allow mounting of the power feeder components consisting of: ba Deca Frame 2 (GV2) motor circuit breaker, mounted alone or in conjunction with a TeSys K or Deca contactor ba Deca Frame 3 (GV3) motor circuit breaker, mounted alone or in conjunction with a Deca contactor ba Ultra motor starter ba Deca Frame 5 (GV5) motor circuit breaker ban Integral motor starter ba NSX100-250 or NSX400-630 A circuit breaker bH/J/L PowerPact circuit breaker frame.AccessoriesAccessories complete the offer: bcovers (3) for 5 and 10 mm bars bend covers (4) ba base plate (5) b1P connectors (6) b3P connectors on mounting plate (7) ba spring terminal 3P connection module (8).DB400247.epsInstallation examples.References:pages B1/6 to B1/9Characteristics:page B1/18 Curves: page B1/19 Ref.";i:287;s:954:"B1/6Power busbar systemsProduct referencesIEC busbar supports and accessoriesMin. order qtyUnit reference3-poleFor 12, 15, 20, 25, 30 x 5/10 mm busbars10LA9ZX01495End covers for 3-pole busbar support10LA9ZX015734-poleFor 12, 15, 20, 25, 30 x 5/10 mm busbars10LA9ZX01485End covers for 4-pole busbar support (5 left, 5 right)10LA9ZX01131UL busbar supports and accessoriesMin. order qtyUnit reference3-poleFor 12, 20, 30 x 5/10 mm busbars10LA9ZX01508Base plate 240 x 7002LA9ZX01515End covers for busbar support10LA9ZX01573Other accessoriesMin. order qtyUnit referenceCovers, length 1 m For 12-30 x 5 mm busbars10LA9ZX01244For 12-30 x 10 mm busbars10LA9ZX01245PB112445.epsPB112441.epsLA9ZX01573LA9ZX01495PB112433.epsPB112440.epsLA9ZX01131LA9ZX01485PB112445.epsPB112442.epsLA9ZX01573LA9ZX01508Linergy BZ, HK Busbar systemsLinergy BZ - Busbar supports and accessoriesPB112435.epsLA9ZX01244Introduction:page B1/5Characteristics:page B1/18 Curves: page B1/19 i";i:288;s:1899:"B1/7Power busbar systemsLinergy BZ, HK Busbar systemsLinergy BZ - Mounting platesProduct referencesFor Integral motor starterOperating current AC-3 440 VProtection by contactor-circuit breakerMounting plate I x h x dMin. order qtyUnit referenceMounting plate, 1-way63 ALD1, LD4LDp108 x 260 x 631LA9ZA32627For Deca Frame 5 (GV5), Frame 6 (GV6) motor circuit breakersRatingsMounting plate I x h x dMin. order qtyUnit reference150-220 AGV5Mounting plate for 3P circuit breakers104 x 190 x 631LV429372Mounting plate for 4P circuit breakers139 x 251 x 631LV429373320-500 AGV6Mounting plate for 3P circuit breakers139 x 270 x 631LV432623Mounting plate for 4P circuit breakers184 x 284 x 631LV432624For PowerPact 3P circuit breakersRatingsMounting plate I x h x dMin. order qtyUnit reference60-100-150 AMounting plate for H frame circuit breakers104 x 190 x 631LA9ZA32600250 AMounting plate for J frame circuit breakers104 x 190 x 631LV429372250-400-600 AMounting plate for L frame circuit breakers139 x 270 x 631LV432623Characteristics of busbar mounting platesType of mounting plateLA9ZA32621 LA9ZA32622LA9ZA32427 LA9ZA32428 LA9ZA32434 LA9ZA32623LA9ZA32442LA9ZA32443LA9ZA32624 LA9ZA32625 LA9ZA32626 LA9ZA32627LV429372LV429373LV432623LV432624LA9ZA32600Degree of protection as per IEC 60529IP20Rated insulation voltageV690Permissible currentA25326380-100-250400-63060-100-150Peak rated currentkA5050 (1)50505050SCCR (UL) with Compact NSX circuit breaker protectionmm²The reinforced breaking capacity due to cascading in circuit breaker combination is maintainedConductor cross section (color: black)mm²4610NAAWG12108NAType of conductor insulating materialPVC105°NA(1) 35 kA with LUB12 for LA9ZA32427 and LA9ZA32428.PB112427_R_1.epsLA9ZA32627PB103841_R_1.epsPB103841_R_1.epsLV429372LA9ZA32600PB112432_R_1.epsLV432624Introduction:page B1/5Characteristics:page B1/18 Curves: page B1/19 i";i:289;s:1822:"B1/8Power busbar systemsLinergy BZ, HK Busbar systemsLinergy BZ - Mounting platesProduct referencesFor Deca Frame 2 (GV2) motor circuit breakersOperating current AC-3440 VProtection by motor circuit breakerFor contactorMounting plate I x h x dMin. order qtyUnit referenceMounting plate, 1-way25 AGV2MEGV2PGV2LELC1DLC1KLP4K06-K1245 x 200 x 634LA9ZA3262132 AGV2LE63 x 200 x 634LA9ZA32443Mounting plate, 2-way (3)25 AGV2MEGV2PGV2LELC1DLC1KLP4K06-K1290 x 200 x 632LA9ZA3262232 AGV2MEGV2PGV2LELC1D45 x 200 x 634LA9ZA3243454 x 200 x 634LA9ZA3244290 x 200 x 632LA9ZA32623Ultra motor startersOperating current AC-3440 VProtection by power baseMounting plate I x h x dMin. order qtyUnit referenceMounting plate, 1-way32 ALUB12, LUB3245 x 200 x 634LA9ZA32427Mounting plate, 2-way32 ALUB12, LUB3245 x 260 x 634LA9ZA32428For Deca Frame 3 (GV3) motor circuit breakersOperating current AC-3440 VProtection by power baseFor contactorMounting plate I x h x dMin. order qtyUnit referenceMounting plate, 1-way (1)63 AGV3P–54 x 200 x 634LA9ZA32624GV3PLC1D40A...65 A54 x 260 x 634LA9ZA32625Mounting plate, 2-way (1) (2)63 AGV3PLC2D40A...65 A117 x 260 x 634LA9ZA32626(1) Contactor-circuit breaker combination without additional part.(2) Use the LAD9R3 kit for the execution of changeover contactors.(3) Use the LAD9R1 or LAD9R1V kit for the execution of changeover contactors.Note: the mounting plate rails can be shifted vertically in 1.25 mm increments.PB112418_R_1.epsLA9ZA32443, LA9ZA32621PB112417_R_1.epsPB112420_R_1.epsPB112421_R_1.epsLA9ZA32434, LA9ZA32442 LA9ZA32622 LA9ZA32623PB112416_R_1.epsPB112419_R_1.epsLA9ZA32427LA9ZA32428PB112422_R_1.epsPB112423_R_1.epsLA9ZA32624LA9ZA32625PB112426_R_1.epsLA9ZA32626Introduction:page B1/5Characteristics:page B1/18 Curves: page B1/19 i";i:290;s:1293:"B1/9Power busbar systemsProduct referencesPB112437_R_1.epsPB112438_R_1.epsTerminalsI maxSet ofUnit referenceOne-pole for flat bars, 5 mm270 ACapacity 4-35 mm250LA9ZX01285LA9ZX01285LA9ZX01287400 ACapacity 16-70 mm225LA9ZX012873P cover, width 84 mm10LA9ZX01413PB112439_R_1.epsLA9ZX01413PB112434_R_1.epsTerminals on mounting plateI maxMin. order qtyUnit reference3P, on mounting plate + cover, for 12 x 5 to 30 x 10 busbars, width 81 mm440 ACapacity 35-120 mm21LA9ZX01243LA9ZX012433P, on mounting plate + cover, for 20 x 5 to 30 x 10 busbars, width 135 mm560 ACapacity 120-300 mm21LA9ZX01754PB112444_R_1.epsConnection moduleI maxMin. order qtyUnit reference3P, spring terminal connection + cover, for 12 x 5 to 30 x 10 busbars, width 20 mm80 ACapacity 1.5-16 mm²8LA9ZX01563LA9ZX01563Connection by connectorsLA9ZX01285LA9ZX01287 LA9ZX01243 LA9ZX01563LA9ZX01754Min.Max.Min.Max.Min.Max.Min.Max.Min.Max.Flexible wiremm24351670351201.516120300Multi-strand wiremm24351670351201.516120300Rigid wiremm2435––––1.516--Tightening torqueN.m... x 5... x 5... x 5-10... x 5-10... x 5-10CoverLA9ZX01413LA9ZX01413Supplied without coverSupplied without coverSupplied without coverLinergy BZ, HK Busbar systemsLinergy BZ - AccessoriesIntroduction:page B1/5Characteristics:page B1/18 Curves: page B1/19 i";i:291;s:924:"B1/10Power busbar systemsLinergy BZ, HK Busbar systemsLinergy HK - Electrical distribution up to 160 A Hot-plug distribution: when continuity of service is required Advantages bConsiderable time saving: stand alone busbar, fixed to the chassis with 2 screws bPreserved continuity of service during modification: live connection, disconnection (off load) bWide adaptability: 6 busbar lengths from 344 to 1100 mm, 12 models of sockets bMulti standard: conform to IEC and UL standardsDetailed view: pre cabled socketb The assembling process and the technological choices ensure a long-lasting reliabilityb Each wire is welded on a spring clip providing robustness to the socket and vibration resistant contactsThe busbar is supplied through the incoming circuit breakerPluggable busbar for 1, 2, 3, 4 pole sockets IPxxB: no finger access when socket is removedOutgoers circuit breakersPre-cabled socketsIntroduction";i:292;s:1284:"B1/11Power busbar systemsLinergy BZ, HK Busbar systemsLinergy HK - Electrical distribution to motor starters When compactness and continuity of service are required Advantages bSpace saving in compact enclosures: the total volume is reduced to that of the motor starter assemblies bPreserved continuity of service during modification and maintenance: live connection, disconnection (off load) b Wide adaptability: 6 busbar lengths from 344 to 1100 mm, 12 models of sockets, 23 mounting plates for motor starters up to 25 or 50 A bMulti standard: conform to IEC and UL standardsDetailed view: mounting plate back faceb Thanks to the plug and its pre-cabled wires the motor starter is safely assembled in the workshop, for immediate or later use.b A piece of DIN profile rail is attached on the front face of the mounting plate for fastening the components.b The metal mounting plate ensures a rigid and robust fastening on the omega rail. Motor starter assembly on a double mounting plateUltra motor starter on a single mounting plateBusbar inserted into an Omega rail for robust fastening of mounting plates Pluggable busbar for mounting plates and socketsBusbar incoming supply on fixed terminal blockMotor circuit breakers mounted on a separated DIN rail.Introduction";i:293;s:70:"2341810611132155791256101514812DB404140.epsB1/12Power busbar systems";i:294;s:3016:"B1/13Power busbar systemsIntroductionThe assembly of automated control and distribution panels requires the use of products that are not only safe but also simple and quick to mount and cable.The Linergy HK pre-assembled busbar system meets all these criteria by incorporating prefabricated components which cater for 3 principal functions:Carrying of electric currentBy the pre-assembled 4-pole busbar system 1, 160 A at 35 °C.4-pole busbars can be used for 3-phase + Neutral or 3-phase + Common.The busbars are available in 6 lengths: 344, 452, 560, 668, 992, 1100 mm.An incoming supply terminal block 2 is located at the extreme left of the busbar."Knock-out" partitions allow connection of the power supply from above or below to connectors 3 which are protected by a removable cover 4. Upstream protection of the busbar is shown on page B1/20.Current distributionTap-off units 5 (factory assembled) are available in 4 versions:b 2-pole,b 3-pole,b 4-pole (3-phase + Neutral),b 4-pole (3-phase + Common).The tap-offs clip onto the busbar with instantaneous mechanical and electrical connection to the busbars.2 ratings are available: 16 and 32 A.The tap-off units ensure not only rapid mounting, but also a neat appearance for the power distribution system and complete safety when accessing under live circuit conditions.Component mountingComponent mounting plates with incorporated tap-off allow mounting of and supply of power to components.They are available in 25 A or 50 A ratings.These mounting plates clip onto the mounting rail 11, which also supports the busbar, and at the same time make electrical connection via the incorporated tap-off.2 types of mounting plate are available:b single plates 6 (height 105 mm), with bolt-on 35 mm wide 7 rail 7, which may be bolted on in one of two positions, allowing height adjustment of 10 mm.b double plates 8 and 14 (height 190 mm), with two bolt-on, 35 mm wide 7 rails 9 mounted on 100 mm fixing centres; each rail may be bolted on in one of 4 positions, allowing height adjustment in 10 mm steps. These plates are supplied with connectors 12 to allow wiring between control and protection devices.Single mounting plates enable the following types of distribution:b 2-pole (Ph + N) and (Ph + Ph)b 3-pole,b 4-pole (3 Ph + N or 3 Ph + common).Double mounting plates enable the following types of distribution: 2-pole (Ph + N, Ph + Ph), 3-pole or 4-pole (3Ph+N and 3Ph + common).Extension plates 10 can be bolted onto single and double mounting plates to enable mounting of wider components. Using a side stop 15 in conjunction with theseextension plates also supports the Linergy HK busbar when used vertically.A control terminal block 13 comprising a support plate bolted onto the single or double mounting plates and a 10-pole plug-in block, enables connection of the control circuit wires (c.s.a. 1.5 mm2 max).Linergy BZ, HK Busbar systemsLinergy HKReferences:pages B1/14 to B1/16Characteristics:pages B1/20 and B1/21Dimensions: pages B1/22 and B1/23Ref.";i:295;s:1715:"B1/14Power busbar systemsProduct referencesBusbarsThe busbars can be screw-mounted onto any type of support. However. if it is to be used in conjunction with component mounting plates incorporating a tap-off, it is essential that it is mounted on the AM1DL201 rail.When mounting tap-offs, the rated operational current of the busbar should be taken into account: 160 A at 35 °C.Number of conductorsNumber of tap-offs at 18 mm intervalsLengthSuitable for mounting in enclosure widthReferenceWeightmmmmkg4 (1)12344600AK5JB1430.70018452800AK5JB1440.90024560800AK5JB1451.10030668800AK5JB1461.300489921200AK5JB1491.9005411001200AK5JB14102.100Removable power socketsUseNumber of points used on the busbar systemThermal currentCable lengthsMin. order qtyUnit referenceWidthAmmSingle-phase19 mm162006 (2)AK5PC12+Neutral3210006 (2)AK5PC32L2-phase1162006 (3)AK5PC12PH3210006 (3)AK5PC32LPH3-phase218 mm162006AK5PC13322506AK5PC3310006AK5PC33L3-phase2162006AK5PC14+Neutral322506AK5PC3410006AK5PC34L3-phase2162006AK5PC131+10 (common)common322506AK5PC33110 (common)AccessoriesDescriptionMaximum no. of connectionsC.s.a. mm2Sold in lots ofUnit referenceCable guide42.5 or 420AK5GF1(1) 4-pole: 3-phase + Neutral or 3-phase + Common.(2) Total of 6 sockets supplied: 2 sockets (N + L1), 2 sockets (N + L2). 2 sockets (N + L3).(3) Total of 6 sockets supplied: 2 sockets (L1 + L2), 2 sockets (L1 + L3). 2 sockets (L2 + L3).(4) Cut and drill to suit use. Linergy BZ, HK Busbar systemsLinergy HKAK5JB1ppPB112406_R.epsAK5PC14PB112412_R.epsIntroduction:page B1/13Characteristics:pages B1/20 and B1/21Dimensions: pages B1/22 and B1/23PB112411_R.epsAK5PC12AK5GF1PB112405.epsi";i:296;s:1569:"B1/15Power busbar systemsProduct referencesComponent mounting plates incorporating tap-offSingle plate (height 105 mm)UseNo. of 18 mm points used on the busbar systemPhaseThermal currentANumber of 6 rails for com-ponent supportMin. order qtyReferenceSingle-phase + neutral3 (54 mm width)Ph1+N2511AK5PA211N1Ph2+N2511AK5PA211N2Ph3+N2511AK5PA211N32-phase3Ph1+Ph22511AK5PA211PH12Ph1+Ph32511AK5PA211PH13Ph2+Ph32511AK5PA211PH233-phase3–2511AK5PA2313-phase + common3–2511AK5PA23113-phase + neutral 3 –2511AK5PA241Double plate (height 190 mm)Prefabricated 25 A connectors are supplied for connecting the 2 protection and control devices.Single-phase + neutral3Ph1+N2521AK5PA212N1Ph2+N2521AK5PA212N2Ph3+N2521AK5PA212N32-phase3Ph1+Ph22521AK5PA212PH12Ph1+Ph32521AK5PA212PH13Ph2+Ph32521AK5PA212PH233-phase3–2521AK5PA2326 (108 mm width)–2521AK5PA232S5011AK5PA5323-phase + neutral3–2521AK5PA2423-phase + common3–25 (10 common)21AK5PA23126–25 (10 common)21AK5PA2312S50 (10 common)11AK5PA53123-phase + neutral6–5011AK5PA542Omega rail, width 75 mmThis rail is designed to accommodate the busbar system when it is used with Linergy HK mounting plates incorporating tap-offs. It supportsthe busbar system. The plates simply clip onto the rail.Material and surface treatmentDepthLengthMin. order qtyReferenceWeightmmmmkg2 mm sheet steel152000 (4)6AM1DL2013.000 Linergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13Characteristics:pages B1/20 and B1/21Dimensions: pages B1/22 and B1/23AK5PA241PB112407_R.epsAK5PA242PB112408_R.epsAM1DL201PB500864_R.epsi";i:297;s:1214:"B1/16Power busbar systemsProduct referencesExtension platesThese plates bolt onto the equipment support plates, after having removed them from the rails, to be able to mount wider components.Use Number of tap-offs at 18 mm intervalsReferenceFor mounting plates incorporating tap-offSingle4AK5PE17Double4AK5PE27Side stop (AK5JB mounted vertically)UseSet ofReferenceFor extension plate (for AK5PAppp)50AK5BT01Control terminal blocksDescriptionThermal current ASet ofReference10-pole terminal blocks, for screwing onto plate AK5 PAppp1010AK5SB1AccessoriesDescriptionMarkingSet ofReferenceStrips of clip-in markers10 identical numbers, signs orcapital letters per strip0...925AB1Rp (1)+25AB1R12–25AB1R13A...Z25AB1Gp (1)(1) Replace the p in the selected reference with the number or letter required. Example: AB1R1 or AB1GA.Note: b if the equipment is wider than the mounting plate, an extension plate can be used to increase the width of the support plate.b for upstream protection, see page B1/20. Linergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13Characteristics:pages B1/20 and B1/21Dimensions: pages B1/22 and B1/23AK5SB1PB112415.epsAB1R4PB121278.epsAK5BT01PB112404.epsDF523269.epsi";i:298;s:332:"B1/17Power busbar systemsTechnical Data for DesignersLinergy BZ, HKContentsLinergy BZ: > characteristics .....................................B1/18 > curves .................................................B1/19Linergy HK: > characteristics ...................B1/20 and B1/21 > dimensions ........................B1/22 and B1/23";i:299;s:1465:"B1/18Power busbar systemsGeneral characteristicsLA9ZX01495 and LA9ZX01485 (IEC 6.439-1)Bar dimensions compatibilitymm12 x 515 x 520 x 525 x 530 x 512 x 1020 x 1030 x 10Max. rated operating currentA200250320400450360520630Min. peak permissible rated currentkA3030303045353553Distance max. between 2 busbars supportsmm570570570570570570570570Degree of protectionIP20 (with cover LA9ZX01244 or LA9ZX01245)Thermal resistance°C125Rated current frequencyHz50/60Rated insulation voltageV690Rated operating voltageV690LA9ZX01508 (UL) 508 ABar dimensions compatibilitymm12 x 520 x 530 x 512 x 1020 x 1030 x 10Rated operating currentA150362500300564630Ieff (RMS) surge currentkA181822 - 25181822 - 25SCCR (protected by Compact NSX circuit breaker)250 A 480 V ACkA65 --65--250 A 600 V AC25--25 --400 A 480 V AC-6565-6565400 A 600 V AC-3535-3535500 A 480 V AC--65--65600 A 600 V AC--35--600 A 480 V AC--50--50600 A 600 V AC--25--25SCCR (protected by fuses Class J or T ...)400 A 480 V AC100100100100100100500 A 480 V AC--100--100500 A 600 V AC--100--100Distance max. between 2 busbars supports (busbar protected)mm400800800400800800Degree of protectionIP20 (with cover LA9ZX01244 or LA9ZX01245)Thermal resistance°C125Rated current frequencyHz50/60Rated operating voltageV600PB112441.epsLA9ZX01495PB112440.epsLA9ZX01485PB112442.epsLA9ZX01508Linergy BZ, HK Busbar systemsLinergy BZCharacteristicsIntroduction:page B1/5References:pages B1/6 to B1/9Curves: page B1/19 iRef.";i:300;s:1325:"B1/19Power busbar systemsCurvesDetermining the spacing between busbar supports (LA9ZX01495 and LA9ZX01485), according to IEC 61439-1 (1)Short-circuit strength diagram according to UL845 (LA9ZX01508)Spacing between busbar supports (mm)Peak current Ipk (kA)DB404137.epsDB404133.epsSpacing between busbar supports (mm)Ieff (RMS) surge current (kA)(1) Depending on the short-circuit current.Load resistance of busbar assemblies in IEC applicationsFor an ambient temperature of 35 °C and a busbar temperature of 65 °CCross section mm212 x 515 x 520 x 525 x 530 x 512 x 1020 x 1030 x 10Permissible currentA200250320400450360520630In the event of changes in climatic conditions, the following curve indicates the correction factor K2 to be applied.2,22,12,01,91,81,71,61,51,41,31,21,11,00,90,80,70,60,50,40,350556065707580859095 100105110115 1201250°C5101520253035404550556065Factor K2Busbar temperature (°C)Ambient temperature DF569559.epsExample: In normal operating conditions, a tinned busbar of 30 x 10 can permanently withstand 630 A.For a load of 800 A, the correction factor K2 to be applied will be 1.3 (800 A630 A). As a result, the temperature rise in the busbars will reach 82.5 °C.Linergy BZ, HK Busbar systemsLinergy BZIntroduction:page B1/5References:pages B1/6 to B1/9Characteristics:page B1/18 iRef.";i:301;s:1615:"B1/20Power busbar systemsCharacteristicsBusbar system characteristicsConforming to standardsIEC 60439Product certificationsUL, CSA, DNV, LROS Degree of protectionAgainst access to live partsIP XXB conforming to IEC 60529Flame resistanceConforming to IEC 60695°C850 (incandescent wire)Conforming to standard UL 94V0Number of conductorsAK5JB14p4Supply currentaRated operational frequencyHz50 or 60Rated operational currentAmbient temperature 35 °CA160Coefficient K to be appliedaccording to theambient temperature°C354045505560K10.960.920.880.830.78Rated insulation voltageConforming to IEC 60439-1V690Conforming to UL and CSAV600Operational voltageOff-load plugging-in and unplugging, with supply switched onConforming to IEC 60439-1V400Conforming to UL, CSAV480Plugging-in and unplugging, with supply switched offConforming to IEC 60439-1V690Conforming to UL, CSAV600Maximum permissible peak currentkA25Maximum let-through energyA2s1 x 10 7Upstream short-circuit (1) and overload protectionType of protectionSchneider Electric circuit-breakerFusesNSX 160 NNSX 160 HaMgFRatingA160160160160Prospective short-circuit currentkA3670100100Operational currentA160160160160CablingMaximum c.s.a.Minimum c.s.a.Flexible cable with cable endmm2702.5Solid cablemm2702.5Tightening torqueNm10Mounting positionHorizontal or vertical (2)Fixing with screws provided(1) For conditions where conditional short-circuit current exceeds 25 kA.(2) Using side stop AK5BT01 on mounting plates AK5PA.Linergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13References:pages B1/14 to B1/16Dimensions: pages B1/22 and B1/23Ref.i";i:302;s:1950:"B1/21Power busbar systemsCharacteristicsTap-off characteristicsTypeAK5AK5AK5AK5AK5AK5AK5AK5AK5AK5PC12PC12PHPC13PC14PC131PC32LPC32LPHPC33PC34PC331PC33LPC34LConforming to standardsIEC 60439Product certificationsUL, LROS, CSA, DNVDegree of protectionAgainst access to live parts: IP XXB conforming to IEC 529PolarityPhase Phase 3-phase3-phase3-phasePhasePhase 3-phase3-phase3-phase+++ + + + + + NeutralPhaseNeutralCommonNeutralPhaseNeutralCommonConductor c.s.a.mm22 x 2.52 x 2.53 x 2.54 x 2.53 x 2.52 x 42 x 43 x 44 x 43 x 4(UL cables)1 x 1.51 x 1.5Conductor coloursBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlueBlueWhiteBlueBlueWhite(Neutral)(Neutral)(Neutral)(Neutral)(Common)Permissible currentA161616161632323232321010(Common)(Common)Rated insulation voltageV690 conforming to IEC 60439-1Rated peak currentkA6Maximum let-through energyA2s100 000200 000Type of conductor insulation PVC 105 °CTap-off characteristicsTypeAK5PA211N1PA211N2PA211N3PA212N1PA212N2PA212N3AK5PA211PH12PA211PH13PA211PH23PA212PH12PA212PH13PA212PH23AK5PA231PA232PA232SAK5PA241PA242AK5PA2311PA2312PA2312SAK5PA532AK5PA542AK5PA5312Conforming to standardsIEC 60439Product certificationsUL, LROS, CSA, DNVDegree of protectionAgainst access to live parts: IP XXB conforming to IEC 60529PolarityPhase + NeutralPhase + Phase3-phase3-phase+ Neutral3-phase+ Common3-phase3-phase+ Neutral3-phase+ CommonConductor c.s.a.(UL cables)mm22 x 42 x 43 x 44 x 43 x 41 x 1.52 x (3 x 4)2 x (4 x 4)2 x (3 x 4)1 x 1.5Permissible currentA2525 25252510 (Common)50505010 (Common)Rated insulation voltageV690 conforming to IEC 60439-1Rated peak currentkA6Maximum let-through energyA2s200 000Type of conductor insulationPVC 105 °CCharacteristics of mounting rails AM1DL201Type Omega 7 (width 75 mm, depth 15 mm)Material2 mm sheet steelSurface treatmentGalvanizedLinergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13References:pages B1/14 to B1/16Dimensions: pages B1/22 and B1/23Ref.i";i:303;s:1168:"B1/22Power busbar systemsDimensionsBusbarsAK5JBppp79 82 30 820919.eps4581Ga820920.epsAK5aGNo. of18 mm pointsJB14334433012JB14445243818JB14556054624JB14666865430JB14999297848JB14101100108654Busbar feed unitsAK5JBpppInstallation of AK5JBppp busbar systems820921.epsConnectionC.s.a. in mm2minmaxFlexible cable with or without cable end 1 x 2.51 x 70 (1)2 x 2.52 x 35Flexible bar –2 x (9 x 4)Flexible bar 9 x 49 x 4+++1 x 2.51 x 35flexible cable with or without cable end(1) Maximum c.s.a. or connection of conductor without cable end.Removable power sockets 16 and 32 AMounting plates incorporating tap-offs, 25 ASingle width extension platesAK5PC12p. AK5PC32Lp AK5PA2p1. AK5PA2311. AK5PA211ppppAK5PE1745,517,538820922.eps46155453 (1)10510820925.eps7157153 (1)10510820924.epsAK5PCp3. AK5PC33LAK5PCp4. AK5PC34LAK5PCp31 45,535,538820923.epsNote: It is recommended that the power sockets or the removable plates are connected as close as possible to the busbar feed unit.(1) Can be fixed at 43 mm.Linergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13References:pages B1/14 to B1/16Characteristics:pages B1/20 and B1/21iRef.";i:304;s:586:"B1/23Power busbar systemsDimensionsComponent mounting plates incorporating tap-offDouble extension plateAK5PA232. AK5PA2312. AK5PA242AK5PE27461554100104019053 (1)820930.eps71571101010019053 (1)DF510666.epsComponent mounting plates incorporating tap-offAK5PA232S. AK5PA2312SAK5PA532. AK5PA5312. AK5PA542DF510662.epsDF510663.epsSide stopControl terminal blockAK5BT01AK5SB1 0,815,5720224,2DF510593.epsDF510665.eps(1) Can be fixed at 43 mm. Linergy BZ, HK Busbar systemsLinergy HKIntroduction:page B1/13References:pages B1/14 to B1/16Characteristics:pages B1/20 and B1/21iRef.";i:305;s:27:"B1/24Power busbar systems";i:306;s:520:"B2/1Wiring systemsTeSys Control Wiring systems for motor startersPower wiring systems for motor startersType of productPagesPower wiring system for motor starter assemblies: screw clamp connectionB2/2Power wiring system for motor starter assemblies: spring terminals connectionB2/4RJ45 Control wiring systems for motor starters Motor starters-to-PLC Control wiring architectures Selection tablesB2/6RJ45 connection module for Ultra motor starterPluggable B2/8Technical Data for Designers B2/11Chapter B2 TeSysControl";i:307;s:261:"B2/2Wiring systemsDB417847.epsGroup of fuse carriers directly mounted on DIN railGroup of fuse carriers + contactors mounted on adapter platesGroup of circuit breakers directly mounted on DIN railGroup of circuit breakers + contactors mounted on adapter plates";i:308;s:2024:"B2/3Product referencesWiring systemsThis system is convenient when time and space savings are required. The motor starter can be composed of: bLS1D323 fuse carrier + Deca (LC1D) contactor bDeca Frame 2 (GV2) circuit breaker + Deca (LC1D) contactor.Upstream busbars and terminalsDescriptionApplicationPitch (mm)Unit referenceSets of 3-pole 63 A busbars2 tap-offs45GV2G24554GV2G25472GV2G2723 tap-offs45GV2G34554GV2G3544 tap-offs45GV2G44554GV2G45472GV2G4725 tap-offs54GV2G554DescriptionApplicationSold in lots of Unit referenceTerminal block for supply to one or more GV2G busbar setsConnection from the top1GV1G09Can be fitted with current limiter GV1L3 (GV2ME and GV2P)1GV2G05Cover for terminal blockFor mounting in modular panels10LA9E07Protective end coverFor unused busbar outlets5GV1G10Assembling componentsDescriptionApplicationSold in lots of Unit referenceCombination blocksBetween GV2 and contactor LC1K or LP1K (1)10GV2AF01Between GV2 and contactor LC1D09...D38 (1)10GV2AF3Between GV2 mounted on LAD311 and contactor LC1D09...D3810GV2AF4Adapter platesFor mounting a GV2ME and contactor LC1D09...D38 with front faces aligned1LAD311Height compensation plate7.5 mm10GV1F03(1) Ensures both the connection and a rigid support to the contactor. No extra fixing mean required.AccessoriesDescriptionApplicationSold in lots of Unit referenceAdapter platesFor mounting a GV2 by screw fixing10GV2AF02Motor starter adapter plateFor mounting a GV2 and a contactor LC1D09...D25. Item delivered with a GV1G02 flexible connection1GK2AF01Flexible 3-pole connection for connecting a GV2 to a contactor LC1-D09...D25 Centre distance between mounting rails: 100...120 mm10GV1G02Incoming line spacer for UL 508 Type E applicationsFor GV2P (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)For GV2 P, GV2L, GV2LE and GV2RT (8 x 22 mm)100LA9D92TeSys ControlPower wiring system for Deca motor starter assembliesGV2AF02PB111872.epsGK2AF01PB111907.epsGV1G02 PB111869.epsDimensions:page B2/13";i:309;s:92:"B2/4Wiring systemsGroup of fuse carriers + contactors mounted on adapter platesDB438737.eps";i:310;s:1705:"B2/5Product referencesWiring systemsTeSys ControlPower wiring system for motor starter assembliesThis system is convenient when time and space savings are required. The motor starter can be composed of: bLS1D323 fuse carrier + Deca (LC1D) contactor. bDeca Frame 2 (GV2) circuit breaker + Deca (LC1D) contactorUpstream terminal and splitter blocksDescriptionMaximum connection c.s.a.ApplicationSold inlots ofReferenceUpstream terminal block16 mm2 (1)Power supply of 1 or 2 power splitter boxes1LAD3B1 DescriptionExtension byNumber of startersReferencePower splitter box, 60 ALAD32p2 1LAD32241LAD324Assembling componentsDescriptionCompositionSold inlots ofReferencePlate for mounting a GV2ME circuit breaker and a contactorFor 1 starter10LAD311Power connection moduleFor 1 starter10LAD341Power connection kit for direct starter (2)1 plate LAD311 for GV2ME and 2 power connection modules LAD341LAD352 Downstream terminal and accessoryDescriptionMaximum connection c.s.a.ApplicationSold inlots ofReferenceDownstream terminal block6 mm2Connection of motor cables 10LAD331 Cable end reducer-For connection of conductors from 1 to 1.5 mm220LAD99(1) Cables with one end pre-crimped are available to allow fast connection. References: 1 set of 3 x 6 mm 2 cables (length 1 m: LAD3B061, length 2 m: LAD3B062 and length 3 m: LAD3B063), 1 set of 3 x 10 mm2 cables (length 1 m: LAD3B101, length 2 m: LAD3B102 and length 3 m: LAD3B103), 1 set of 3 x 16 mm2 cables (length 1 m: LAD3B161, length 2 m: LAD3B162 and length 3 m: LAD3B163).(2) To build a reversing starter, order 2 kits LAD352.LAD3B1PB111855.epsLAD324PB111843.epsLAD311PB121279.epsLAD341LAD331PB121280.epsPB114204.epsDimensions:page B2/12";i:311;s:1813:"B2/6Wiring systemsSelection tableProduct type Connection interfaces for a group of motor startersIO system nameModicon TM3Modicon TelefastModicon STBArchitectureLogiccontrollerDB415974.epsLogiccontrollerDB415975.epsLogiccontrollerRemIODB415976.epsIO modulesPF130360C.epsPB121281.epsPB121282.epsApplicationControl of single or multiple motor-starters assemblies by mean of a logic controller.Machines or processes requiring easy, fast cabling and replacement of motor starters.FunctionIO module:Ensures the direct connection of up to 4 motor starters to logic controller (Modicon M221, M241, M251)Splitter box:Ensures the connection of up to 8 motor starters to a logic controller via Modicon Telefast multiwire cableIO module:Ensures the connection of up to 4 motor starters to a logic controller via an automation island (Modicon STB distributed IO architecture)Upstream compatibilityWith Modicon M221, M241, M251 logic controller, via logic controller internal busWith any logic controller equipped with HE10 inputs/outputs moduleWith Modicon STB automation island, via automation island internal busUpstream connectorsBackplane bus connectorHE10 connectorBackplane bus connectorCompatibilityMotor circuit breaker - TypeAll types of motor starters equiped with RJ45 connection systemContactor - Type / AmpMotor circuit breaker + Contactor - terminalsMotor controlReversing / Non reversingNumber of motor starters484Downstream connector typeRJ45ReferenceTM3XTYS4LU9G02 / LU9G03STBEPI2145K *PagesRefer to Modicon M221/M241/ M251 catalogueUltra motor starters - pages B2/8 and A4/20Refer to IP20 distributed IO Modicon STB catalogue* STBEPI2145K: GV2 + contactor D09 to D32, Ultra only.Motor startersMotor startersMotor startersTeSys ControlMotor starter-to-PLC control wiring architectures";i:312;s:431:"B2/7Wiring systemsRJ45 connection components for motor starterCommon components for Modicon TM3, Modicon Telefast, Modicon STB systemsDB438744.epsPB121696.tifConnection module:ensures the compatibility Ultra motor starters to the RJ45 connection systemTM3XTYS4 / LU9G02 / LU9G03 / STBEPI2145KRJ45Ultra motor starters 12 to 38 AScrew-clampReversing or Non reversingPlugin moduleLUFC00B2/8Motor startersMotor startersMotor starters";i:313;s:523:"B2/8Wiring systemsDescriptionSmall power motor up to 5,5 kWNon reversing controlReversingMedium power motor up to 15 kWAlso compatible with :STB EPI 2145Logic controller: Modicon M221, M241, M251IO module :TM3XTYS4RJ45 cables :LU9RppLU9 G02Non reversing controlReversingLUB12 power baseLUCpp control unitLU2B12 power baseLUCpp control unitLUFC00LUFC00LUB32/LUB38 power baseLUCpp control unitLU2B32/LU2B38 power baseLUCpp control unitLUFC00LUFC00DB439800.epsTeSys ControlUltra control wiring system RJ45 wiring architecture";i:314;s:2081:"B2/9Wiring systems"Plug and play", for single or reversing motor startersThe LUFC00 parallel connection module provides a simple and efficient solution for control and monitoring of a Ultra direct or reverse motor starter.Compact, fast cablingThe connection to the Ultra power base is simply achieved by insertion of the module into it. The status and control signals are carried by a simple pre-connectorized RJ45 cable (LU9Rpp) between an IO module or splitter box and Ultra motor starter.Features bOn / OFF / Reverse control (functions non provided with LUB12, 32, 38 power bases). bHandle position, power contacts position monitoring (function provided with all power bases).Compatibility12, 32 or 38 A direct motor starters: LUB12, LUB32 or LUB38 power base + LUCpp control unit (coil code BL),LUB120, LUB320 or LUB380 power base + LU9N11C connector + LUCpp control unit (coil code BL)12, 32 or 38 A reversing motor starters: LU2B12, LU2B32 or LU2B38 power base + LU9MRC connector + LUCpp control unit (coil code BL).Ultra RJ45 connection moduleDesignationCommercial ref 1 Parallel wiring moduleLUFC00Ultra coil connectorDesignationCommercial ref 2 Pre wired coil connector for LUB120, LUB320 or LUB380 power baseLU9BN11C3 Pre wired coil connector for LU2B12, LU2B32 or LU2B38 power baseLU9MRCLUFC00PB121285.epsPB121286.epsLU9BN11CPB121287.epsLU9MRCDesign / InstallationThe LUFC00 parallel (RJ45) connection module acts as a connection interface for controlling the coil (except with LUB12, 32, 38) and the monitoring of the auxiliary contacts. As a necessary complement, a pre wired connector is needed for carrying the signal to the coil and collecting: bthe status of the protection device (OK / Alarm) with LU9BN11C, bthe electrical interlock contacts with LU9MRC.As the "reversing" is higher than the "direct" power base, the LU9MRC link is longer than the LU9BN11C.13DF510918.eps12DF566964.epsDirect motor starter (LUB120, 320, 380 power base).Reversing motor starter (LU2B12, 32, 38 power base).Product referencesTeSys ControlUltra control wiring system";i:315;s:576:"B2/10Wiring systemsTeSys ControlWiring systems for motor startersGV1F03GV1G02GV1G09GV1G10GV2AF01GV2AF02GV2AF3GV2AF4GV2AF5GV2G05GV2G245GV2G254GV2G272GV2G345GV2G354GV2G445GV2G454GV2G472GV2G554GV2GH7LA9D92LA9E07LAD311LAD322LAD324LAD331LAD341LAD351LAD352LAD3B1LU9BMRCLU9BN11CLU9G02LU9G03LUFC00STBEPI2145KTM3XTYS4Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:316;s:374:"B2/11Wiring systemsTechnical Data for DesignersWiring systems ContentsPower wiring systems for motor starter assemblies: > Dimensions (GV2 + LAD311 assembly) .............B2/12 > Dimensions (GV2Gppp busbars) ......................B2/13IO module, splitter box, for motor starters control circuits > Dimensions ........................................................B2/14";i:317;s:340:"B2/12Wiring systemsDimensionsGV2AF4 + LAD311Combination GV2ME + Deca contactor45b2341c1cd1d125 ± 3DF569009.epsGV2ME +LC1D09...D18LC1D25 and D32b176.4186.8c1103.1136.4c135.6141.9d1107107d112.5112.57.5 mm height compensation plate GV1F03393513DF569006.epsTeSys ControlPower wiring system for motor starter assembliesReferences:page B2/5Ref.";i:318;s:720:"B2/13Wiring systemsDimensionsDeca Frame 2 (GV2ME, GV2P, GV2L, GV2LE)Sets of busbars GV2G445, GV2G454, GV2G472, with terminal block GV2G0563l3a18p45DF569037.epslpaGV2G445 (4 x 45 mm)17945Number of tap-offs5678GV2G454 (4 x 54 mm)20654GV2G445224269314359GV2G472 (4 x 72 mm)26072GV2G454260314368422GV2G472332404476548Sets of busbars GV2Gppp with terminal block GV1G09Sets of busbars GV2G245, GV2G254, GV2G272GV1 G0940DB439579.epslDF569038.epslGV2G245 (2 x 45 mm)89GV2G254 (2 x 54 mm)98GV2G272 (2 x 72 mm)116Sets of busbars GV2G554Sets of busbars GV2G345 and GV2G354260DF569039.epslDF569040.epslGV2G345 (3 x 45 mm)134GV2G354 (3 x 54 mm)152TeSys ControlPower wiring system for motor starter assembliesReferences:page B2/3Ref.";i:319;s:307:"B2/14Wiring systemsDimensionsParallel RJ45 wiring modulesSplitter box LU9G02Parallel wiring module Advantys STBEPI21451075563515547DF566676.eps704235120528,1 (1)DF566686.eps(1) Dimension to be multiplied by the number of STBEPI2145 modules present in the configuration.TeSys ControlLU9G02 RJ45 splitter box";i:320;s:325:"B3/1Switch- disconnectorsTeSys ControlSwitch-disconnectorsDoor mounting isolation switchType of productRangePagesSwitch-disconnectors Up to 12 or 20 AB3/2Switch-disconnectors, high performance applications From 12 to 175 AB3/6Accessories for switch-disconnectorsB3/8Technical Data for Designers B3/17Chapter B3 TeSysControl";i:321;s:1184:"B3/2Switch- disconnectorsTeSys ControlSwitch-disconnectorsSwitch-disconnectors for standard applicationsb 3-pole rotary switch-disconnectors, 12 to 20 Ab Marking on operator .b Padlockable operating handle (padlocks not supplied).b Degree of protection IP 65. Main and Emergency stop switch-disconnectors for door mountingOperatorlthReferenceHandleFront plateFixingmmmmARed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60Ø22.5 12VCDN12 20VCDN20Main and Emergency stop switch-disconnectors for mounting at back of an enclosure (1)OperatorlthReferenceHandleFront plateFixingmmmmARed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60Ø22.5 12VCCDN12 20VCCDN20Main switch-disconnectors for door mountingOperatorlthReferenceHandleFront plateFixingmmmmABlack, padlockable with up to 3 padlocks (Ø4 to Ø8)Black60 x 60Ø22.5 12VBDN12 20VBDN20(1) Switches supplied with a shaft extension VZN17 and a door interlock plate KZ32 (see page B3/5). Product referencesVCDN20PB121292.epsVCCDN20PB121293.epsVBDN20PB119284.epsCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/22 and B3/23Schemes:page B3/23";i:322;s:952:"B3/3Switch- disconnectorsSwitch-disconnectors for standard applicationsSwitch bodiesDescriptionRatingAReference3-pole switch-disconnectors12VN1220VN20Add-on modulesDescriptionRatingAReferenceMain pole modules12VZN1220VZN20Neutral pole module with early make and late break contacts12 and 20VZN11Earthing module12 and 20VZN14Auxiliary contact block modules1 N/O late make contactVZN051 N/C early break contactVZN06Input terminal protection shroudsFor add-on pole modules or auxiliary contact block modules (single-pole shroud)VZN26For switch bodies (3-pole shroud)VZN08Maximum number of add-on modules that can be fitted on a switch bodyVZN12 or VZN20++VZN12 or VZN20VN12orororVZN11+VZN14VN20orVZN05 or VZN06VZN05 or VZN06TeSys ControlSwitch-disconnectorsProduct referencesVN20812801.tifVZN11580586.tifVZN14580587.tifVZN05580588.tifVZN26812805.tifVZN08812806.tifCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/22 and B3/23Schemes:page B3/23";i:323;s:102:"B3/4Switch- disconnectorsDF580544.epsVZNppVN12, VN20VZNppVZN14VZN17, VZN30KZ32, KZ83KCD1PZKCC1YZKAD1PZ";i:324;s:1237:"B3/5Switch- disconnectorsTeSys ControlSwitch-disconnectorsSwitch-disconnectors for standard applicationsb Degree of protection IP 65. b Marking on operator .b Padlockable operating handle (padlocks not supplied).b Operator fixing by 1 Ø22.5 hole; for other operators see pages B3/11 and B3/13.b For other accessories and empty enclosures, see pages B3/14, B3/15 and chapter A1. Operators for main and Emergency stop switch-disconnectorsHandleFront platemmReferenceRed, padlockable with 1 padlock (Ø4 to Ø6)Yellow45 x 45KCC1YZRed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60KCD1PZOperators for main switch-disconnectorsHandleFront platemmReferenceBlack, padlockable with up to 3 padlocks (Ø4 to Ø8)Black60 x 60KAD1PZAccessories for door interlockingFor rear fixing switch-disconnectors mounted at the back of an enclosure, in addition to a direct operatorDescriptionFront plateDistance enclosure back/doorSold in lots ofUnit referencemmmmShaft extensions–300...3301VZN17400...4301VZN30Door interlock plate45 x 45 or 60 x 60–5KZ32Plate for door mounting45 x 45 or 60 x 60–5KZ83Product referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/22 and B3/23Schemes:page B3/23";i:325;s:1480:"B3/6Switch- disconnectorsTeSys ControlSwitch-disconnectors - High performance applicationsSwitch-disconnectors for high performance applicationsb 3-pole rotary switch-disconnectors, 12 to 175 Ab Marking on operator .b Padlockable operating handle (padlocks not supplied).b Degree of protection IP 65.Main and Emergency stop switch-disconnectors for door mountingHandleFront platemmFixingRatingAReferenceWeight kgRed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60Ø22.512VCD020.21520VCD010.21525VCD00.21532VCD10.21540VCD20.215 4 screws12VCF020.25020VCF010.25025VCF00.25032VCF10.25040VCF20.25063VCF30.56080VCF40.560 Red, long, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow90 x 904 screws125VCF51.200175VCF61.200 Main and Emergency stop switch-disconnectors for mounting at back of an enclosure (1)HandleFront platemmFixingRatingAReferenceWeight kgRed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60Ø22.512VCCD020.39220VCCD010.39225VCCD00.39232VCCD10.39240VCCD20.392 4 screws12VCCF020.52720VCCF010.52725VCCF00.52732VCCF10.52740VCCF20.52763VCCF30.44080VCCF40.680 Red, long, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow90 x 904 screws125VCCF51.320175VCCF61.320(1) Unit supplied with a shaft extension VZN17 or VZ18 and a door interlock plate KZ32 or KZ74 (see page B3/14).Product referencesVCF0PB121294.epsVCF5PB121295.epsVCCF0PB121296.epsCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25";i:326;s:1408:"B3/7Switch- disconnectorsTeSys ControlSwitch-disconnectors - High performance applicationsSwitch-disconnectors for high performance applicationsb 3-pole rotary switch-disconnectors, 12 to 175 Ab Marking on operator .b Padlockable operating handle (padlocks not supplied).b Degree of protection IP 65. Main switch-disconnectors for door mountingHandleFront platemmFixingRatingAReferenceWeight kgBlack, padlockable with up to 3 padlocks (Ø4 to Ø8)Black60 x 60Ø22.512VBD020.21520VBD010.21525VBD00.21532VBD10.21540VBD20.215 4 screws12VBF020.25020VBF010.25025VBF00.25032VBF10.25040VBF20.25063VBF30.56080VBF40.560 Black, long, padlockable with up to 3 padlocks (Ø4 to Ø8)Black90 x 904 screws125VBF51.200175VBF61.200 Main and Emergency stop switch-disconnectorsFor mounting in an enclosure or for modular distribution boardsHandleFront platemmFixingRatingAReferenceWeight kgRed, padlockable with 1 padlock (Ø4 to Ø6)Yellow45 x 454 screws25VVE00.25032VVE10.25040VVE20.25063VVE30.53080VVE40.530 Main switch-disconnectorsFor mounting in an enclosure or for modular distribution boardsHandleFront platemmFixingRatingAReferenceWeight kgBlack, not padlockableBlack45 x 454 screws25VVD00.25032VVD10.25040VVD20.25063VVD30.56080VVD40.560 Product referencesPB121515.epsVBD01VBF4PB119275.epsVVE1PB121298.epsCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25";i:327;s:940:"B3/8Switch- disconnectorsTeSys ControlSwitch-disconnectors - High performance applicationsSwitch-disconnectors for high performance applicationsSwitch bodiesDescriptionRatingAReference3-pole switch-disconnectors (1)12V0220V0125V032V140V263V380V4125V5175V6Add-on modulesDescriptionRatingAReferenceMain pole modules12VZ0220VZ0125VZ032VZ140VZ263VZ380VZ4Neutral pole modules with early make and late break contacts (1)12 to 40VZ1163 to 80VZ12125 and 175VZ13Earthing modules12 to 40VZ1463 and 80VZ15125 and 175VZ16Auxiliary contact block modulesDescriptionTypeReferenceAuxiliary contact block modules with 2 auxiliary contactsN/O + N/C (2)VZ7N/O + N/OVZ20(1) Protection shrouds are available if required: see page B3/14.(2) Late make N/O, early break N/C contactsProduct references V5PB121299.epsVZ0580537.tifVZ11580538.tifVZ15580539.tifVZ20580540.tifCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25";i:328;s:1691:"B3/9Switch- disconnectorsTeSys ControlSwitch-disconnectors - High performance applicationsSwitch-disconnectors for high performance applicationsMaximum number of add-on modules that can be fitted on a switch body1 add-on module on each side of the switch bodyVZ7 or VZ20+V0pV0toV4+VZ7 or VZ20VZ7+V5orV6+VZ7ororororVZ11 or VZ12++VZ11 or VZ12VZ20++VZ20ororororVZ14 or VZ15++VZ14 or VZ15VZ13++VZ13ororororVZ0p/VZ0 to VZ4++VZ0p/VZ0 to VZ4VZ16++VZ16 2 add-on modules on each side of the switch bodyVZ0p+VZ0p+V0p+VZ0p+VZ7orVZ20orVZ11orVZ14VZ0+VZ0+V0+VZ0+VZ7orVZ20orVZ11orVZ14VZ1+VZ1+V1+VZ1+VZ7orVZ20orVZ11orVZ14VZ2+VZ2+V2+VZ2+VZ7orVZ20orVZ11orVZ14VZ3+VZ3+V3+VZ3+VZ7orVZ20orVZ12orVZ15VZ4+VZ4+V4+VZ4+VZ7orVZ20orVZ12orVZ15Note: The add-on modules mounted next to the switch body are main pole modules. Maximum of 3 main pole modules per switch body.Auxiliary switch switching anglesProduct referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/2560°0°01Handle inposition ‘0’Switching angle representation - example with V0 switchHandle inposition ‘1’V0 switchphysicalstatus0: contact open 1: contact closeHandle travel 0 > 10°3-pole switch-disconnectorsV02 / V01 / V0 / V1 / V2 / V3 / V4 / V5 / V601Main pole modules VZ02 / VZ01 / VZ0 / VZ1 / VZ2 / VZ3 / VZ401Neutral pole modules with early make and late break contactsVZ11 / VZ12 / VZ1301Auxiliary contact block modules with 2 auxiliary contacts (N/0+N/C) VZ7Late make N0 and earlier break NCN/001(Early break N0 and late make NC for travel 1-0)N/C10Auxiliary contact block modules with 2 auxiliary contacts (N/0+N/C) VZ20010130°60°60°60°60°60°90°75°45°20°";i:329;s:220:"B3/10Switch- disconnectorsDF503798.epsVN12, VN20 V02...V2VZN17, VZN30 V3, V4KZ32, KZ83 KCp1YZ KCp1LZKAp1BZKCp1PZKAp1PZKDp1PZKBp1PZVZ18, VZ31V5, V6 KZ81VZ18, VZ31KCF2PZ KAF2PZ KDF2PZ KBF2PZ KCF3PZ KAF3PZKDF3PZ KBF3PZ KZ74";i:330;s:1374:"B3/11Switch- disconnectorsTeSys ControlHandles for switch-disconnectorsb Marking on operator .b Padlockable operating handle (padlocks not supplied).b Degree of protection IP 65. Handles and front plates for main and Emergency stop switch-disconnectorsFor switch bodyOperatorReferenceHandleFront plateDimensionsFixingmmVN12, VN20 V02...V2Red, padlockable with 1 padlock (Ø4 to Ø6)Yellow45 x 45Ø22.5KCC1YZ4 screwsKCE1YZRed, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 60Ø22.5KCD1PZ4 screwsKCF1PZV3 and V4Red, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow60 x 604 screwsKCF2PZV5 and V6Red, long, padlockable with up to 3 padlocks (Ø4 to Ø8)Yellow90 x 904 screwsKCF3PZ (1)Handles and front plates for main switch-disconnectorsFor switch bodyOperatorReferenceHandleFront plateDimensionsFixingmmVN12, VN20 V02...V2Black, padlockable with up to 3 padlocks (Ø4 to Ø8)Black60 x 60Ø22.5KAD1PZ4 screwsKAF1PZV3 and V4Black, padlockable with up to 3 padlocks (Ø4 to Ø8)Black60 x 604 screwsKAF2PZV5 and V6Black, long, padlockable with up to 3 padlocks (Ø4 to Ø8)Black90 x 904 screwsKAF3PZ (1)(1) For door mounting of 63 and 80 A switch-disconnectors, adapter plate KZ106 must be ordered separately (see page B3/14).Product referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25";i:331;s:220:"B3/12Switch- disconnectorsDF503799.epsVN12, VN20 V02...V2VZN17, VZN30 V3, V4KZ32, KZ83 KCp1YZ KCp1LZKAp1BZKCp1PZKAp1PZKDp1PZKBp1PZVZ18, VZ31V5, V6 KZ81VZ18, VZ31KCF2PZ KAF2PZ KDF2PZ KBF2PZ KCF3PZ KAF3PZKDF3PZ KBF3PZ KZ74";i:332;s:1115:"B3/13Switch- disconnectorsTeSys ControlHandles for switch-disconnectorsb Marking on operator .b Degree of protection IP 65. Handles and front plates for Emergency stop switch-disconnectorsFor switch bodyOperatorReferenceHandleFront plateDimensionsFixingmmVN12, VN20 V02...V2Red, not padlockableYellow45 x 45Ø22.5KCC1LZ4 screwsKCE1LZYellow60 x 60Ø22.5KDD1PZ4 screwsKDF1PZV3 and V4Red, long, not padlockableYellow60 x 604 screwsKDF2PZV5 and V6Red, long, not padlockableYellow90 x 904 screwsKDF3PZ (1)Handles and front plates for switch-disconnectorsFor switch bodyOperatorReferenceHandleFront plateDimensionsFixingmmVN12, VN20 V02...V2Black, not padlockableBlack45 x 454 screwsKAE1BZBlack60 x 60Ø22.5KBD1PZ4 screwsKBF1PZV3 and V4Black, not padlockableBlack60 x 604 screwsKBF2PZV5 and V6Black, not padlockableBlack90 x 904 screwsKBF3PZ (1)(1) For door mounting of 63 and 80 A switch-disconnectors, adapter plate KZ106 must be ordered separately (see next page).Product referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25";i:333;s:1349:"B3/14Switch- disconnectorsTeSys ControlAccessories for switch-disconnectorsInput terminal protection shroudsDescriptionFor use onReferenceFor switch bodies (3-pole shroud)V02...V2VZ8V3 and V4VZ9V5 and V6VZ10For add-on pole modules (single-pole shroud)VZ02...VZ2, VZ11, VZ14VZ26VZ3, VZ4, VZ12, VZ15VZ27VZ13, VZ16VZ28For contact blocks with 2 auxiliary contacts–VZ29Components for door interlockingFor rear fixing switch-disconnectors mounted at the back of an enclosure, in addition to a direct operatorDescriptionFor use onDistance enc.back/doorSold in lots ofUnit referencemmShaft extensionsVN12, VN20 V02...V2300...3301VZN17 (1)400...4301VZN30 (1)V02...V2300...3301VZ17400...4301VZ30V3 and V4300...3201VZ18400...4201VZ31V5 and V6330...3501VZ18430...4501VZ31Door interlock platesVN12, VN20 V02...V2–5KZ32V3...V6–5KZ74DescriptionFor use onFront plate dimensionsSold in lots ofUnit referencemmPlates for door mounting of handles with 4 screw fixingVN12, VN20 V02...V245 x 45 or 60 x 605KZ83V3...V660 x 60 or 90 x 905KZ81Adapter plate for switch-disconnectorsV3 and V490 x 905KZ106(1) Can be used with V02 to V2 switches. Product referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25VZ8580583.tifPB121516.epsVZ31PB121517.epsKZ32580585.tifKZ81PB121518.eps580584.tifVZ29VZ26";i:334;s:731:"B3/15Switch- disconnectorsTeSys ControlAccessories for switch-disconnectorsAccessories for operatorsDescriptionFor use onFront plate dimensionsSold in lots ofUnit reference mmLegend holder with silver coloured blank legend plateFront plate45 x 455KZ1360 x 605KZ1590 x 905KZ103Legend holders without legend plateFront plate45 x 4520KZ1460 x 6010KZ1690 x 905KZ101Silver coloured blank legend plates for engraving by customerKZ16–10KZ77SealsVN12, VN2045 x 455KZ65V02...V260 x 605KZ66V3 and V460 x 605KZ62V3...V690 x 905KZ67Tightening toolFor operators with Ø22.5 fixing–5Z01Product referencesCharacteristics:pages B3/18 to B3/21Dimensions:pages B3/24 and B3/25Schemes:page B3/25KZ15PB121519.epsKZ67PB121520.epsZ01PB121521.eps";i:335;s:1282:"B3/16Switch- disconnectorsTeSys ControlSwitch-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 referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:336;s:523:"B3/17Switch- disconnectorsB3/17Switch- disconnectorsTechnical Data for DesignersSwitch-disconnectorsContentsCharacteristics .....................................B3/18 to B3/21Switch-disconnectors for standard applications: > Dimensions ..............................B3/22 to B3/23 > Schemes ................................................B3/23Switch-disconnectors for high performance applications: > Dimensions ..............................B3/24 to B3/25 > Schemes ................................................B3/25";i:337;s:2072:"B3/18Switch- disconnectorsTeSys ControlSwitch-disconnectorsCharacteristicsEnvironmentSwitch type (bare type)VN12 VZN12V02 VZ02VN20 VZN20V01 VZ01V0 VZ0VVD0 VVE0V1 VZ1VVD1 VVE1Conforming to standards IEC/EN 60947-3 and UL/CSA 60947-4-1Product certifications UL, CSA, UKCAUL, CSA, DNV-GL, CCC, IEC, UKCAUL, CSA,UKCAUL, CSA, DNV-GL, IEC, EAC, CCC (1), UKCADegree of protection with protection shroud IP 20 conforming to IEC 60529Ambient air temperature° C -20...+50Flame resistance° C 960 conforming to IEC 60695-2-11Shock resistance 1/2 sine wave = 11ms conforming to IEC60068-2-27gn 15301530Vibration resistance 10...150 Hz conforming to IEC 60068-2-6gn 51Electrical characteristics, a.c. operationSwitch type (bare type)VN12 VZN12V02 VZ02VN20 VZN20V01 VZ01V0 VZ0VVD0 VVE0V1 VZ1VVD1 VVE1Rated operational voltage (Ue)V690Rated impulse withstand voltage (Uimp)kV 6868Conventional thermal currents in free air (lth) and rated uninterrupted (lu)A 12202532Conventional thermal current in enclosure (lthe)A 10162025Power dissipation per pole for the above operational currentsAC-23AW–1.252AC-21AW–3.25Rated operational power and currentAC-21A/22A230...690 VA 12202532AC-23A230 VA/kW 10.6/314/419.7/5.5240 VA/kW 10.6/314/419.9/5.518.9/5.5400 VA/kW 8.1/411/5.514.5/7.521.8/11415 VA/kW 8.1/411/5.514/7.521/11500 VA/kW 8.9/5.511.9/7.516.7/11690 VA/kW 8.6/7.512.3/1117.5/15Rated operational powerAC -3230/240 VkW1.534400/415 VkW345.57.5500 VkW45.57.5690 VkW45.57.511Intermittent duty class 30Characteristics in normal operating conditionsRated making capacity AC-21A/22A/23A (I rms)A/ 400 V120200250320Rated breaking capacity AC-21A/22A/23A (I rms)A/ 400 V120200250Short-circuit characteristicsPermissible rms short time rating (Icw)A/ 400 V/1 s140300140300384Rated making capacity under short-circuit conditions (Icm) I peakkA/ 400 V0.510.51Rated conditional short-circuit current (I rms) with aM/gG fuseskA/ 400 V610610A12202535(1) CCC: except for VVD, VVE switches.CharacteristicsReferences:page B3/3Dimensions:page B3/22 Schemes:page B3/23Ref.";i:338;s:902:"B3/19Switch- disconnectorsV2 VZ2VVD2 VVE2V3 VZ3VVD3 VVE3V4 VZ4VVD4 VVE4V5V6VZ7 VZ20VZN05 VZN06IEC/EN 60947-3 and UL/CSA 60947-4-1IEC/EN 60947-5-1, UL/CSA 60947-5-1UL, CSA, DNV-GL, IEC, EAC, CCC (1), UKCAIP 20 conforming to IEC 60529-20...+50960 conforming to IEC 60695-2-1130–1–V2 VZ2VVD2 VVE2V3 VZ3VVD3 VVE3V4 VZ4VVD4 VVE4V5V6VZ7 VZ20VZN05 VZN0669086406380125175121232506310014010102.44.25.17.511–5.46.412.51525–406380125160le/AC-1525.8/7.550.3/1561.2/18.571.9/2296.6/306 A24.8/7.548.2/1558.5/18.568/2292.7/306 A29/1541.5/2257/3068.5/3783/454 A28/1540/2255/3066/3780/454 A28.5/18.544/3054/3764.5/4579/552 A17.5/1525/2233/3042/3749/451 A5.511152230–1118.5223037–1522303745–1118.53037–30–40063080012501750–32050064010001400–48075696015002100–12.12.8–1015063801252001616(1) CCC: except for VVD, VVE switches.References:page B3/3Dimensions:page B3/22 Schemes:page B3/23Ref.";i:339;s:1609:"B3/20Switch- disconnectorsTeSys ControlSwitch-disconnectorsCharacteristicsElectrical characteristics, d.c. operationSwitch type (bare type)VN12 VZN12V02 VZ02VN20 VZN20V01 VZ01V0 VZ0VVD0 VVE0V1 VZ1VVD1 VVE1Rated operational currentDC-1 (L/R = 1ms)812834.eps812835.eps812836.eps24 V1 contactA122025322 contactsA122025323 contactsA 1220253248 V1 contactA122025322 contactsA122025323 contactsA 1220253260 V1 contactA122025322 contactsA122025323 contactsA 12202532110 V1 contactA1.529102 contactsA81012163 contactsA 12202532220 V1 contactA1.522.532 contactsA7810123 contactsA 10141620250 V1 contactA0.60.70.812 contactsA34683 contactsA8101216Rated operational current DC-2 to DC-5 (L/R ≤ 15ms)24 V1 contactA122025322 contactsA122025323 contactsA 1220253248 V1 contactA122025322 contactsA122025323 contactsA 1220253260 V1 contactA101416202 contactsA122025323 contactsA 12202532110 V1 contactA1.522.532 contactsA34563 contactsA 12202532220 V1 contactA0.40.50.50.82 contactsA1.41.51.523 contactsA 1234250 V1 contactA0.30.40.50.82 contactsA0.40.60.813 contactsA 1.22.41.62Other characteristicsSwitch type (bare type)VN12 VZN12V02 VZ02VN20 VZN20V01 VZ01V0 VZ0VVD0 VVE0V1 VZ1VVD1 VVE1Mechanical durability (millions of operating cycles) 0.050.10.050.1Electrical durability in cat. AC-21 (millions of operating cycles) 0.050.10.050.1Electrical durability in cat. DC-1 to 5 (operating cycles) 30000Suitable for isolation Ye sCablingFlexible cable + cable endmm2 4646Solid cablemm2 410410Tightening torqueN.m 0.72.10.72.1CharacteristicsReferences:page B3/3Dimensions:page B3/22 Schemes:page B3/23Ref.";i:340;s:871:"B3/21Switch- disconnectorsV2 VZ2VVD2 VVE2V3 VZ3VVD3 VVE3V4 VZ4VVD4 VVE4V5V6VZ7 VZ20VZN05 VZN064063801251758 (le/DC-1)406380125175–406380125175–4063801251758 (le/DC-1)406380125175–406380125175–35405060704 (le/DC-1)406380125175–406380125175–12202530372 (le/DC-1)206380125175–406380125175–46812151 (le/DC-1)1425304050–25304080100–2453100.8 (le/DC-1)1220253040–2030405061–406380125175–406380125175–406380125175–406380125175–406380125175–406380125175–2540506070–406380125175–406380125175–5681012–810202224–4050637080–11.522.22.4–34678–710151613–11.21.51.61.8–23678–68101214–V2 VZ2VVD2 VVE2V3 VZ3VVD3 VVE3V4 VZ4VVD4 VVE4V5V6VZ7 VZ20VZN05 VZN060.10.030.10.050.10.030.1 (AC-15)0.053000030000 (DC-1)Ye s–616702 x 0.75...1.51025952 x 1...2.52.1422.60.7References:page B3/3Dimensions:page B3/22 Schemes:page B3/23Ref.";i:341;s:644:"B3/22Switch- disconnectorsTeSys ControlSwitch-disconnectors for standard applicationsDimensionsSwitch-disconnectorsSwitch bodies VN12, VN20Add-on modules VZN12, VZN20Add-on modules VZN11, VZN14 VZN05 and VZN066246,54856812765.eps391245,5812766.eps391245,5812767.epsMountingSwitch-disconnector mounted on enclosure doorVCDN12, VCDN20, VBDN12, VBDN20Single hole fixing1,5...574,544DD401033.eps312,722,5DF510390.epsVN12, VN204 screw fixing45 x 45 front plate60 x 60 front plate1,5...562,544DD401034.epsØ133636 DF580524.eps48 48DF580525.epsDimensions, mountingReferences:pages B3/2 to B3/5Characteristics:pages B3/18 to B3/21Schemes:page B3/23Ref.";i:342;s:672:"B3/23Switch- disconnectorsTeSys ControlSwitch-disconnectors for standard applicationsMounting (continued)Switch-disconnector mounted at back of enclosure with shaft extension VZN17 or VZN30 (clip-on mounting on 6 rail)VN12, VN20Single hole fixing4 screw fixing1,5...5eDD401035.eps1,5...5eDD401036.epsShaft extensionDistance (e) enclosure back/doormmVN12, VN20VZN17300...330VZN30400...430SchemesSwitch body VN12, VN20Main pole module VZN12, VZN20Neutral pole module VZN11Auxiliary contact blocksVZN05VZN061/L12/T13/L24/T25/L36/T3812769.eps812770.eps812771.eps1314812774.eps2221812775.epsMounting, schemesReferences:pages B3/2 to B3/5Characteristics:pages B3/18 to B3/21Ref.";i:343;s:1048:"B3/24Switch- disconnectorsTeSys ControlSwitch-disconnectors for high performance applicationsDimensionsSwitch-disconnectorsSwitch bodies V0p, V0 to V2Switch bodies V3 to V660DF580508.eps74 55DF580509.epscDF510472.epsGaHb==DF510473.epsabcGHØV3, V460836548485.5V5, V6901259068685.5Add-on modules VZ02 to VZ4 and VZ11 to VZ16Add-on modules VZ7, VZ20cDF580510.epsb aDF580511.eps48,5DF580512.eps6520DF580513.epsabcVZ02 and VZ01,VZ0 to VZ2, VZ11, VZ14167435VZ3, VZ4, VZ12, VZ15208346VZ13, VZ163012563MountingSwitch-disconnector mounted on enclosure doorSingle hole fixing V0p, V0 to V24 screw fixing V0p, V0 to V44 screw fixing 45 x 45 front plate V0p, V0 to V24 screw fixing 60 x 60 front plate V0p, V0 to V41,5...57244DB401026.eps312,722,5DF580505.eps1,5...5c44DB401027.eps1,5...5c37DB401028.eps3636 DB438740.eps4848 DF523861.epscV0p, V0 to V260V3, V465V5 and V6. 4 screw fixing90 x 90 front plate1,5...5906594 DB401029.eps68 68DF510471.epsDimensions, mounting References:pages B3/6 to B3/9Characteristics:pages B3/18 to B3/21Schemes:page B3/25Ref.";i:344;s:1154:"B3/25Switch- disconnectorsTeSys ControlSwitch-disconnectors for high performance applicationsMounting (continued)Switch-disconnector mounted at back of enclosure4 screw fixing V0p, V0 to V2 with shaft extension VZ17 or VZ30 (clip-on mounting on 6 rail possible for V0p to V2)Single hole fixing V3 to V4 with shaft extension VZ18 or VZ31V5 and V6 with shaft extension VZ18 or VZ311,5...5eDB401030.eps1,5...5eDB401031.eps60GDF510476.eps10030DF580522.eps1,5...5e 94 DB401032.epsShaft extensionDistance (e) enc.back/doorØGShaft extensionDistance (e) enc.back/doormmmmV02 and V01 V0 to V2VZ17300...3302 x 4.215V5 and V6VZ18300...350VZ30400...4302 x 4.215VZ31430...450V3 and V4VZ18300...3202 x 520VZ31400...4202 x 520Switch-disconnectors for modular distribution boardsVVp0 to VVp2VVp3 to VVp445745,56810645812762.eps60835,57211045812761.epsSchemesSwitch bodyMain pole moduleNeutral pole moduleAuxiliary contact blocksV02 and V01 V0 to V6VZ02 and VZ01 VZ0 to VZ4VZ11 to VZ13VZ7VZ201/L12/T13/L24/T25/L36/T3812754.eps812755.eps812756.eps22211314812757.eps13142423812758.epsMounting, schemesReferences:pages B3/6 to B3/9Characteristics:pages B3/18 to B3/21Ref.";i:345;s:26:"B3/26Switch- disconnectors";i:346;s:382:"B4/1Fuse carriersTeSys PowerFuse carriers Fuse carriersType of productRangePagesIntroductionB4/2For protection of control circuits or transformerUp to 25, 32, 50 or 125 AB4/3For protection of control circuits or transformerFor North American marketUp to 30 AB4/5For protection of motors or transformersUp to 25, 32 AB4/6Technical Data for Designers B4/11Chapter B4 TeSysPower";i:347;s:2647:"B4/2Fuse carriersTeSys PowerFuse carriersOperation: safetyThe fuse carrier performs two basic functions:b it isolates the downstream circuit by means of a visible break and wide opening contacts,b it holds the cartridge fuses designed to protect the installation against short-circuits.The type of cartridge fuse needed to protect the circuit must be determined before selecting the fuse carrier.Cartridge fuse selection (type, rating, size)TypeApplicationb Motor protection.b Transformer protection.Solutionb aM type fuses. These fuses are designed to withstand high current peaks of a very short duration. They must be combined with a thermal overload relay coupled with a contactor.Applicationb Lighting circuit protection.b Supply line protection.b Furnace protection.Solutionb gG type fuses, which are more widely used but whose limiting capacity is weaker than that of aM type fuses.RatinggG fusesaM fusesSee standard NF C 15-100.Table 53 A paragraph 532-2-1 and table 52 C paragraph 523-1.Motors3 x 220 VMotors3 x 400 VCartridge fusestype aMFuse carrierPinPinSizeRatingkWAkWAA9321528.510 x 3832LS1D32SizeUse the “fuse characteristics” table opposite to select the correct fuse size according to:b the nominal current of the circuit to be protected,b the operational voltage.Fuse carrier selectionApplicationIsolation of a circuit for safety reasons only.SolutionThe fuse carrier may be fitted with links.The maximum permissible current is indicated in the “pole characteristics” table opposite.ApplicationIsolation of a circuit and its protection against short-circuits.SolutionSelect a fuse carrier according to:b the type of cartridge fuse required,b the maximum permissible current in the fuse carrier poles (see “pole characteristics” table opposite). If the operational current is greater than the maximum permissible current in the poles of the fuse carrier corresponding to the cartridge fuse size selected, select the fuse carrier the next size up.The safety provided by using a fuse carrier can be increased by adding a padlocking device with up to three padlocks.Recommendations for useThe fuse carrier conforms to utilisation category AC-21A/22A of standard IEC 60947-3. It is therefore recommended that the fuse carrier early break auxiliary contacts always be inserted in the coil circuit of the contactor with which it is in series. If the fuse carrier is not associated with a contactor, it is essential to ensure that it will be operated off-load. IntroductionReferences:pages B4/3 to B4/8 Characteristics:pages B4/12, B4/14, B4/16Dimensions:pages B4/13, B4/15, B4/17Schemes:pages B4/13, B4/15, B4/18Ref.";i:348;s:1967:"B4/3Fuse carriersFor protection of control circuits or transformersFuse carriers (1)Conventional thermal current (Ith)Size of cartridge fuse or linkCompositionSold in lots ofUnit referenceAmm258.5 x 321 P12DF81N12DF10N 1 P + N (2)6DF81N2 P6DF823 P4DF833 P + N (2)3DF83N3210 x 381 P12DF101N12DF10N1 P + N (2)6DF101N2 P6DF1023 P4DF1033 P + N (2)3DF103N5014 x 511 P6DF141N6DF14N1 P + N (2)3DF141N2 P3DF1423 P2DF143C (3)3 P + N (2)1DF143NC (3)12522 x 581 P6DF221 N6DF22N1 P + N (2)3DF221N2 P3DF2223 P2DF223C (3)3 P + N (2)1DF223NC (3)Fuse carriers with “blown fuse” indicators (LED) (1) (4)Conventional thermal current (Ith)Size of cartridge fuse or linkCompositionSold in lots ofUnit referenceAmm258.5 x 321 P12DF81V1 P + N (2)6DF81NV2 P6DF82V3 P4DF83V3 P + N (2)3DF83NV3210 x 381 P12DF101V1 P + N (2)6DF101NV2 P6DF102V3 P4DF103V3 P + N (2)3DF103NV5014 x 511 P6DF141V1 P + N (2)3DF141NV2 P3DF142V3 P2DF143VC (3)3 P + N (2)1DF143NVC (3)12522 x 581 P6DF221V1 P + N (2)3DF221NV2 P3DF222V3 P2DF223VC (3)3 P + N (2)1DF223NVC (3)(1) Each pole can be marked. A clip-in marker holder is provided for this purpose. Clip-in markers type AB1Rp or AB1Gp can also be used. DF8ppp and DF10ppp are pad lockable fuse carriers.(2) N: neutral pole fitted with a locked tubular link as standard.(3) A letter “C” in the reference indicates that the fuse carrier can be fitted with auxiliary early break, “blown fuse” signalling and “fuse present” signalling contacts.(4) Operational voltage of the blown fuse indicator: 110 V...690 V.Product references - DF typeTeSys PowerFuse carriersPB120623.epsDF101PB120624.epsDF103PB111674.epsDF141DF143NCPB111685.epsPB111673.epsDF221PB111670.epsDF223NCPB120626.epsDF103VPB120625.epsDF101NVPB111824.epsDF141NVDF143VCPB111686.epsDF221NVPB111672.epsPB111671.epsDF223VCIntroduction:page B4/2Characteristics:page B4/12Dimensions:page B4/13Schemes:page B4/13i";i:349;s:2575:"B4/4Fuse carriersProduct references - DF typeTeSys PowerFuse carriers - AccessoriesAccessoriesAuxiliary early break and “blown fuse” signalling contacts (1)Fuse carriers to be equippedSize of cartridge fuse or linkNumber of contactsSold in lots ofUnit referenceDF14(3 P or 3 P + N)14 x 5111DF14AM121DF14AM2DF22(3 P or 3 P + N)22 X 5811DF22AM121DF22AM2Fuse carrier assembly kits (2)Fuse carriers to be assembled Size of cartridge fuse or linkCompositionSold in lots ofUnit referenceDF88.5 x 321 pin, 2 clips12DF10APDF1010 x 38DF1414 x 511 pin, 3 clips10DF14APDF2222 x 581 pin, 3 clips10DF22APMarking accessoriesDescriptionCompositionMarkingSold in lots ofUnit referenceClip-in markersStrip of 10 identical numbers or letters0...925AB1Rp (3)A...Z25AB1Gp (3)SubstitutionFuse carriersOld rangeNew rangeReferenceSize of cartridge fuse or linkCompositionReference w/o indicatorReference with indicatorDF6AB088.5 x 321 PDF81DF81VDF6AB1010 x 381 PDF101DF101VDF6N108.5 x 32 or 10 x 381 NDF10N–GK1CC8.5 x 321 P + NDF81NDF81NVGK1CD8.5 x 322 PDF82DF82VGK1CF8.5 x 323 PDF83DF83VGK1CH8.5 x 323 P + NDF83NDF83NVGK1DC10 x 381 P + NDF101NDF101NVGK1DD10 x 382 PDF102DF102VGK1DF10 x 383 PDF103DF103VGK1DH10 x 383 P + NDF103NDF103NVGK1EB14 x 511 PDF141DF141VGK1EN14 x 511 NDF14N–GK1EC14 x 511 P + NDF141NDF141NVGK1ED14 x 512 PDF142DF142VGK1EF14 x 513 PDF143CDF143VCGK1EH14 x 513 P + NDF143NCDF143NVCGK1FB22 x 581 PDF221DF221VGK1FN22 x 581 NDF22N–GK1FC22 x 581 P + NDF221NDF221NVGK1FD22 x 582 PDF222DF222VGK1FF22 x 583 PDF223CDF223VCGK1FH22 x 583 P + NDF223NCDF223NVCFuse carrier assembly kitsOld rangeNew rangeReferenceSize of cartridge fuse or linkReferenceGK1AP28.5 x 32 or 10 x 38DF10APGK1AP38.5 x 32 or 10 x 38DF10AP14 x 51DF14APGK1AP48.5 x 32 or 10 x 38DF10AP22 x 58DF22APGK1AP514 x 51DF14APGK1AP614 x 51DF14AP22 x 58DF22APGK1AP922 x 58DF22AP(1) These auxiliary contacts provide the following functions: early break, “blown fuse” signalling (if the fuse carrier is fitted with striker fuses) and “fuse present” signalling.(2) 1 pin and 2 clips are required to assemble two DF8 or DF10 fuse carriers together. 1 pin and 3 clips are required to assemble two DF14 or DF22 fuse carriers together.(3) When ordering, replace the p in the reference with the number or letter required. Example: AB1-R1 or AB1-GA.524196.epsDetail of assembly clip and pin mountingPF106836.epsPB111829.epsDF14AMpDF14APIntroduction:page B4/2Characteristics:page B4/12Dimensions:page B4/13Schemes:page B4/13i";i:350;s:1548:"B4/5Fuse carriersProduct references - DF typeTeSys PowerFuse carriers for North American marketFor protection of control circuits or transformersReferencesFuse carriers (1)Conventional thermal current (Ith)Size of cartridge fuse or linkCompositionSold in lots ofUnit referenceA30Class CC1 P12DFCC12 P12DFCC23 P6DFCC3Fuse carriers with “blown fuse” indicators (LED) (1) (2)Conventional thermal current (Ith)Size of cartridge fuse or linkCompositionSold in lots ofUnit referenceA30Class CC1 P12DFCC1V2 P6DFCC2V3 P6DFCC3VFuse carrier assembly kits (3)Fuse carriers to be assembledSize of cartridge fuse or linkCompositionSold in lots ofUnit referenceDFCCClass CC1 pin, 2 clips12DF10APMarking accessoriesDescriptionCompositionMarkingSold in lots ofUnit referenceClip-in markersStrip of 10 identical numbers or letter0...925AB1Rp (4)A...Z25AB1Gp (4)(1) Each pole can be marked. A clip-in marker holder is provided for this purpose. Clip-in markers type AB1Rp or AB1Gp can also be used. DFCC fuse holders are pad lockable.(2) Operational voltage of the blown fuse indicator: 230 V...690 V.(3) 1 pin and 2 clips are required to assemble two DFCC fuse carriers together.(4) When ordering, replace the p in the reference with the number or letter required. Example: AB1R1 or AB1GA.DFCC1PB120627.epsPB120628.epsDFCC3VDB432817.aiDetail of assembly clip and pin mountingIntroduction:page B4/2Characteristics:page B4/14Dimensions:page B4/15Schemes:page B4/15i";i:351;s:1185:"B4/6Fuse carriersProduct references - LS typeTeSys PowerFuse carriersFor protection of motors or transformers3-pole basic blocksConnection by spring terminalsRatingCartridge fuse sizeNumber of early break contacts (1)Single-phase protection device (2)Reference (3)Weightkg25 A10 x 38– (4)WithoutLS1D3230.270Connection by screw clamp terminals or connectors32 A10 x 38– (4)WithoutLS1D32 0.3004-pole basic blocksConnection by screw clamp terminals or connectors32 A10 x 38– (4)WithoutLS1D32+ LA8D324 (5)0.300Fuse carriers for the North American market25 and 30 A basic blocks: please consult your Regional Sales Office.(1) With 1 or 2 early break contacts to be inserted in the contactor control circuit.(2) Fuse carriers with single-phase protection device must be fitted with striker fuses.(3) LS1D: clips directly onto a 35 mm 5 rail or screw fixing.(4) Addition of add-on contact block, see page B4/7.(5) Can be mounted on left-hand or right-hand side of the basic block. PB111831.epsLS1D323PB111830.epsLS1D32PB111830.epsLS1D32+ LA8D324PB121303.epsIntroduction:page B4/2Characteristics:page B4/16Dimensions:page B4/17Schemes:page B4/18i";i:352;s:832:"B4/7Fuse carriersProduct references - for LS typeTeSys PowerFuse carriers - Handles and accessoriesIntroduction:page B4/2Characteristics:page B4/16Dimensions:page B4/17Schemes:page B4/18Add-on contact blocksDescriptionFor use onMountingMaximum numberType of contactsSold in lots ofUnit referenceInstantaneous auxiliary contacts (early break contacts)LS1D32Front1N/O + N/C10GVAE11N/O + N/O10GVAE20LS1D323Front1N/O + N/C10GVAE113N/O + N/O10GVAE203OperatorsExternal handles32 A3 or 4Right-hand side (IP54)LS1D32005 (1)Left-hand side (IP54)LS1D32006LinksTubular linksFor fuse carrierSold in lots ofUnit referenceRatingNumber of poles32 A3 or 410DK1CB92 (2)(1) Reference LS1D32005 replaces reference DK1FB005.(2) For use on a neutral circuit, the tubular link can be interlocked with special device LA8D25906 (sold in lots of 10).i";i:353;s:1846:"B4/8Fuse carriersAccessories for LS1D32 (screw clamp terminals)DescriptionApplicationSold in lots ofUnit referencePlate for mountingLS1D32 and contactor LC1D09...D38 with front faces aligned1LAD311Combination blocksBetween LS1D32 and contactor LC1K or LP1K10GV2AF01Between LS1D32 and contactor LC1D09...D3810GV2AF3Between LS1D32 mounted on LAD311 and contactor LC1D09...D3810GV2AF4DescriptionApplicationPitch mmReferenceSets of 3-pole 63 A busbars2 tap-offs45GV2G24554GV2G25472GV2G2723 tap-offs45GV2G34554GV2G3544 tap-offs45GV2G44554GV2G45472GV2G4725 tap-offs54GV2G554DescriptionApplicationSold in lots ofUnit referenceProtective end coverFor unused busbar outlets5GV1G10Terminal block Connection from the topFor supply to one or more GV2G busbar sets1GV1G09Cover for terminal blockFor mounting in modular panels10LA9E07Padlocking deviceFor use with up to 4 padlocks (not supplied) Ø6 mm shank max1GV2V03Accessories for LS1D323 (spring terminals)DescriptionApplicationReferencePlate for mountingLS1D323 and contactor LC1D09...D38 with front faces alignedLAD311DescriptionExtension byNumber of startersReferencePower splitter box, 63 ALAD32p2LAD3224LAD324DescriptionKit contentsReferenceAssembly andpower connection kitfor LS1D323 andLC1D093...D3231 LAD311 plate for mounting LS1D3232 LAD341 power connection modules- between LS1D323 and power splitter box- between LS1D323 and contactorLAD352DescriptionMaximum capacityApplicationSold in lots ofUnit referenceUpstream terminal block16 mm2Power supply to 1 or 2 power splitter boxes1LAD3B1Downstream terminal block16 mm2Connection of motor cables1LAD331Cable end reducer–For connection of conductors from 1 to 1.5 mm220LAD99Product references - for LS typeTeSys PowerFuse carriers - AccessoriesIntroduction:page B4/2Characteristics :page B4/16Dimensions :page B4/17Schemes :page B4/18i";i:354;s:18:"B4/9Fuse carriers";i:355;s:721:"B4/10Fuse carriersTeSys PowerFuse carriers, handles and accessoriesDF101DF101NDF101NVDF101PVDF101VDF102DF102VDF103DF103NDF103NVDF103VDF10APDF10NDF141DF141NDF141NVDF141VDF142DF142VDF143CDF143NCDF143NVCDF143VCDF14AM1DF14AM2DF14APDF14NDF221DF221NDF221NVDF221VDF222DF222VDF223CDF223NCDF223NVCDF223VCDF22AM1DF22AM2DF22APDF22NDF81DF81NDF81NVDF81VDF82DF82VDF83DF83NDF83NVDF83VDFCC1DFCC1VDFCC2DFCC2VDFCC3DFCC3VDK1CB92LA8D324LS1D30LS1D32LS1D32005LS1D32006LS1D323Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:356;s:530:"B4/11Fuse carriersTechnical Data for DesignersFuse carriersContentsDF type: > Characteristics ....................................B4/12 > Dimensions and schemes ...................B4/13DF type for the North American market: > Characteristics ....................................B4/14 > Dimensions and schemes ...................B4/15LS, GK type: > Characteristics ....................................B4/16 > Dimensions ..........................................B4/17 > Schemes .............................................B4/18";i:357;s:2596:"B4/12Fuse carriersTeSys PowerFuse carriers Environment characteristicsFuse carrier typeDF8DF10DF14DF22Conforming to standardsIEC/EN 60947-3, IEC/HD 60269-2IEC/EN 60947-3 (1), IEC/HD 60269-2, R22HL2, UL 4248-1 (2), CSA C22.2 No 4248-1 (2)IEC/EN 60947-3, UL 4248-1, CSA C22.2 No 4248-1Product certificationIEC, EAC, CCC, UKCAIEC, UL, CSA, EAC, DNV-GL, CCC, UKCAIEC, UL, CSA, EAC, UKCADegree of protectionConforming to IEC 60529IP 20Ambient air temperatureStorage°C-40...+80For operation, with derating (1)°C-20...+60Operating positions± 23° in relation to normal mounting planeFlame resistanceConforming to IEC 60695-2-1°C960Pole characteristicsFuse sizemm8.5 x 3210 x 3814 x 5122 x 58Maximum power dissipated by fuseW2.503.005.009.50Rated insulation voltage (Ui) with tubular links, a.c. or D.C. supplyV500690690690Rated impulse withstand voltage (Uimp)kV6688Conventional thermal current (Ith) for ambient air temperature y 20 °C (3)With tubular linksA253250125With aM cartridge fusesA253250125With gG cartridge fusesA253250100Rated conditional short-circuit currentConforming to IEC 60947-3400 VkA20120120120500 VkA–120120120690 VkA––8080Peak withstand current (dynamic stress)Conforming to IEC 60269-1With tubular linkskA11151519Cabling (number of conductors x c.s.a.)Min.Max.Min.Max.Min.Max.Min.Max.Solid cablemm21 x 1.51 x 162 x 61 x 1.51 x 162 x 61 x 2.51 x 252 x 101 x 2.51 x 352 x 25Flexible cable without cable endmm21 x 1.51 x 102 x 61 x 1.51 x 102 x 61 x 2.51 x 252 x 101 x 2.51 x 352 x 16Flexible cable with cable endmm21 x 1.51 x 102 x 61 x 1.51 x 102 x 61 x 2.51 x 252 x 101 x 2.51 x 352 x 16Tightening torqueNm2.23.54Characteristics of early break and signalling contacts DF14 AM and DF22 AMRated insulation voltage (Ui) a.c. supplyV250Conventional thermal current (Ith) for ambient air temperature y 20 °C (1)A5Rated operational current24 V48 V127 V240 VCategory AC-15A4432.5Category DC-13A310.20.1Definition of rated characteristicsConforming to IEC 60947-5-1B300Low load operating characteristicsMinimum voltageV10Minimum currentmA30CablingFaston connectors(1) DF101PV excluded.(2) DF101PV add UL/CSA 4248-19.(3) For use in an installation with ambient temperature > 20 °C, apply a derating coefficient: Maximum temperature20 °C30 °C40 °C50 °C60 °CMax. relative humidity95 %90 %80 %50 %50 %Current derating coefficient10.950.90.80.7Number of poles (each side)1 to 34 to 6u7Current derating coefficient10.950.9Characteristics - DF typeIntroduction:page B4/2References:pages B4/3 and B4/4Dimensions:page B4/13Schemes:page B4/13Ref.i";i:358;s:1011:"B4/13Fuse carriersTeSys PowerFuse carriers DimensionsModular fuse carriers 25 A and 32 A Mounting on 35 mm 5 railDF81 and DF81VDF101 and DF101VDF10NDF81N and DF81NV DF82 and DF82VDF101N and DF101NV DF102 and DF102VDF83 and DF83VDF103 and DF103VDF83N and DF83NVDF103N and DF103NV17,54x17,53x17,52x17,54558755,540,5476475DB436628.aiModular fuse carriers 50 AMounting on 35 mm 5 railDF141 and DF141V DF14NDF141N and DF141NVDF142 and DF142VDF143C and DF143VCDF143NC and DF143NVC107453,876,51,5x17,550,53x17,54,5x17,56x17,548,5 70DF537033.epsModular fuse carriers 125 AMounting on 35 mm 5 railDF221 and DF221V DF22NDF221N and DF221NVDF222 and DF222V DF223C and DF223VCDF223NC and DF223NVC126,5 50,576,551 45 1 2x17,54x17,5706x17,58x17,5DF537032.epsSchemesModular fuse carriersDFp1PDFpNDFp1P + NDFp2P812916.eps812917.eps12N812920.eps3412812918.epsDFp3PDFp3P + N563412812919.eps563412N812921.eps Dimensions, schemes - DF typeIntroduction:page B4/2References:pages B4/3 and B4/4Characteristics:page B4/12Ref.i";i:359;s:1487:"B4/14Fuse carriersCharacteristics - DF typeTeSys PowerFuse carriers for North American marketEnvironment characteristicsFuse carrier typeDFCCConforming to standardsUL 4248-1 & 4, CSA 22-2 No 4248-1 & 4Product certificationUL, CSA, CCC, UKCADegree of protectionConforming to IEC 60529IP 20Ambient air temperatureStorage°C-40...+80For operation, with derating (1)°C-20...+60Operating positionsWithout derating±23° in relation to normal vertical mounting planeFlame resistanceConforming to IEC 60695-2-1°C960Pole characteristicsFuse carrier typeDFCCFuse sizeClass CCMaximum power dissipated by fuseW3.00Rated insulation voltage (Ui) with tubular links, a.c. supplyV600Rated impulse withstand voltage (Uimp)kV6Conventional thermal current (Ith) for ambient air temperature y 40 °C (1)With tubular linksA30With aM cartridge fusesA30With gG cartridge fusesA30Short-circuit current withstandWith UL 248-4 Class CC fusesConforming to UL 512 at 600 VkA200Cabling (number of conductors x c.s.a.)Min.Max.Solid cablemm21 x 1.51 x 162 x 6Flexible cable without cable endmm21 x 1.51 x 102 x 6Flexible cable with cable endmm21 x 1.51 x 102 x 6Tightening torqueNm2.2(1) For use in an installation with ambient temperature > 20 °C, apply a derating coefficient:Maximum temperature20 °C30 °C40 °C50 °C60 °CMax. relative humidity95 %90 %80 %50 %50 %Current derating coefficient10.950.90.80.7Introduction:page B4/2References:page B4/5Dimensions:page B4/15Schemes:page B4/15Ref.i";i:360;s:413:"B4/15Fuse carriersDimensions, schemes - DF typeTeSys PowerFuse carriers for North American marketDimensionsModular fuse carriers 30 A Mounting on 35 mm 5 railDFCC1 and DFCC1VDFCC2 and DFCC2VDFCC3 and DFCC3V17,53x17,52x17,54558755,540,5476475DB436629.aiSchemesModular fuse carriersDFCC1PDFCC2PDFCC3P812916.eps3412812918.eps563412812919.epsIntroduction:page B4/2References:page B4/5Characteristics: page B4/14Ref.i";i:361;s:2195:"B4/16Fuse carriersTeSys PowerFuse carriersEnvironmentFuse carrier typeLS1D32LS1D323Conforming to standardsNF EN 60947-3 pIEC 60947-3pProduct certificationsBV, URAmbient air temperature for operation with links without derating°C-50...+70Maximum tiltin relation to normal vertical mounting plane±23°Pole characteristicsFuse size10 x 3810 x 38Rated operational voltage with links. a.c. supplyV690690Maximum continuous current atambient temperature y 40 °C (1) (Min. cable Ø/Ie)With tubular linksmm2/A6/32 or 4/25 or 2.5/164/25 or 2.5/16With aM fusesmm2/A6/32 or 4/22 or 2.5/204/25 or 2.5/20With gG fusesmm2/A4/25 or 2.5/20or 1.5/162.5/20 or 1.5/16Early break contact characteristicsRated operational voltageVa 250. c 60a 250. c 60Conventional thermal currentA2.52.5Blow fuse contact characteristics 95/96-98Rated operational voltageV––Conventional thermal currentA––Cartridge fuse characteristicsFuse size10 x 3810 x 38Type aMa 400 V A32 (2)25a 500 V A2020a 660 V A––Type gGa 400 V A25 (2)25a 500 V A2525a 660 V A––Maximum power dissipated by fuseW33CablingConnection by screw clamp terminals or connectorsNumber and c.s.a. of conductorsMin.Max.Min.Max.Solid cablemm22 x 12 x 6––Flexible cable without cable endmm22 x 1.52 x 6––Flexible cable with cable endmm22 x 12 x 4––ConnectionScrew clamp terminals––Tightening torqueNm1.7––Connection by spring terminalsNumber and c.s.a. of conductorsMin.Max.Min.Max.Solid cablemm2––2 x 1 (3)2 x 4Flexible cable without cable endmm2––2 x 1.5 (1)2 x 4(1) For use in an installation with ambient temperature > 55 °C, apply a derating coefficient equivalent to120 - ambient temperature 80√ (2) These values are for fuse carriers mounted side by side with a gap of 10 mm between them or mounted with sets of busbars GV2p54. If mounted side by side without a gap, use the following fuse sizes: aM fuse: 25 A and gG fuse: 20 A.(3) For cross-sections 1 to 1.5 mm2, the use of an LA9D99 cable end reducer is recommended.Characteristics - LS typeIntroduction:page B4/2References:pages B4/6 to B4/8 Dimensions:page B4/17Schemes:page B4/18Ref.i";i:362;s:447:"B4/17Fuse carriersTeSys PowerFuse carriersLS1D32LS1D32 + LA8D324Mounting on rail NSYDPR200BD Panel mounting Mounting on rail NSYDPR200BDMounting of 4th pole14,251,568,338,522,58945DF533526.epsDF533527.eps22,52xØ5844057DF533528.epsOn left-hand side894517,587DF533529.epsOn right-hand side17,58745DF533530.eps Dimensions, mounting - LS typeIntroduction:page B4/2References:pages B4/6 to B4/8 Characteristics:page B4/16Schemes:page B4/18Ref.i";i:363;s:390:"B4/18Fuse carriersIntroduction:page B4/2References:pages B4/6 to B4/8 Characteristics:page B4/16Dimensions:page B4/17TeSys PowerFuse carriersSchemes - LS typeFuse carriers without single-phase protection device3-poleLS1D32, D323LS1D32, D323 + GVAE11pLS1D32, D323 + GVAE20p563412DF533537.eps56341221221314DF533538.eps56341223241314DF533539.eps4-poleLS1D32 + LA8D32456783412DF533544.epsRef.i";i:364;s:653:"TeSysPowerB5/1Switch- disconnector fusesTeSys PowerSwitch-disconnector fusesIntroductionB5/2Switch-disconnector fuses Type of productRangePagesIEC - Switch-disconnector fuses For NFC / DIN fusesFrom 32 to 1250 AB5/4IEC - Switch-disconnector fuses For BS fusesFrom 32 to 1250 AB5/6UL - Switch-disconnector fuses For CC / J fusesFrom 30 to 800 AB5/8NFC - Cartridge fuses Type aM, gGFrom 0.16 to 125 AB5/10DIN - Cartridge fuses Type aM, gGFrom 10 to 1250 AB5/11Auxiliary contacts for IEC and UL switch-disconnector fusesFrom 32 to 1250 AB5/12HandlesFrom 32 to 1250 AB5/13Other accessoriesFrom 32 to 1250 AB5/14Technical Data for Designers B5/17Chapter B5 ";i:365;s:1431:"B5/2Switch- disconnector fusesIntroduction1Switch-disconnector fuse bNFC/DIN or BS fuse compatible bEnhanced isolation between poles bOn-load making/breaking with double break isolation of the power circuit2Operating mechanism bFor one front or side external handle, right or left side bCavity for early-break contacts3Terminal shrouds bFor use when the switch-disconnector fuse is installed outside an enclosure or when the operating voltage is over 500 V AC4Operating handle bPadlockable in open position5GS1AMppp Early-break signalling contactsActivated before the poles are opened6GS1ANpp Position signalling contacts bSynchronized with the poles operation7GS1AFpp Blown fuse signalling contacts bA missing fuse is also indicatedCustomizableGS2 APpGS2 APpGS2 AH260GS2 AF6p, AF7pGS1 AFGS1 AMpGS2 AE5pGS2 AE5pGS1 AN11GS2 AH550GS2 AH570GS1 AN22DB416394.epsBlown fuse signaling contacts and their control shaft7I,O position signalling contacts6Early break, I, O position signalling contact5External handle and shaft4Terminal shroud3Terminal shroud3Switch-disconnector fuse1Operating mechanism, control by front or by side external handle2 A customizable functional blockWhatever its rating, the switch-disconnector fuse fits the need: particular position of the handle, triggering of an automatic control before full opening, enhanced protection of terminals...GS2630 A switch-disconnector fuseTeSys PowerSwitch-disconnector fuses";i:366;s:1528:"B5/3Switch- disconnector fusesIntroductionPosition of the handle, a free choiceGS1JD3 - 100 A switch-disconnector fuseDirect lateral operatingGS1 AH01GS1 AH02DB416395.epsGS1 AH103DB416396.epsGS2DB3 - 32 A switch-disconnector fuseDirect front operatingThe handles are available in different lengths. They are chosen according the operating effort which depends on the rating of the switch-disconnector fuse.The drive shaft can be cut to the ideal length.The choice of a red and yellow handle (CNOMO standard) will identify an "Emergency Stop handle" among others handles, generally black and gray.GS2 AH260GS2 AE5pGS2 AH550GS2 AH570GS2 AE5pDB416397.epsGS2SB3 - 630 A switch-disconnector fuseRemote front and lateral (right only) operating Simplicity of the direct operatingThe mounting of an operating handle directly on the side of the switch-disconnector fuse is a simple operation. This handle will be for use by qualified personnel only.As the mechanical design is simplified, the manoeuvre will be immediately understood by the operator. Each handle can be padlocked in open position. Locking device for 3 padlocks. Performance remote operatingLocated on the front or side panel of an enclosure, the operating handle provide complementary features: bsimple (IP55) or reinforced (IP65) protection against dust bintermediate "Test" position bdoor interlock when the handle is in "Close" position, opening by mean of a special tool is needed for opening. boptional key-operated handle lockTeSys PowerSwitch-disconnector fuses";i:367;s:3176:"B5/4Switch- disconnector fusesGS1AH01PF568668.tifGS1AH02PF568669.tifGS2AHp10GS2AHp20PB123949.epsGS2AHp30GS2AHp40PB123950.epsGS2AHp50GS2AHp60PB123951.epsGS2AHp70GS2AHp80PB123952.epsHandlesSee details on handles page B5/13.IEC - For NFC / DIN fuses - From 32 to 1250 AGS1DD3GS1FD3GS1KD4GS1KKD3GS1LLD4GS1ND3RatingA3250631001251251602504006301250Number of poles33+N3434343434343434343434Fuse size10 x 3814 x 51Size 00022 x 5822 x 58Size 00Size 00Size 0Size 1Size 2Size 3Size 4For direct operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS1FD3GS1FD4GS1GD3GS1GD4GS1JD3GS1JD4GS1KD3GS1KD4GS1KKD3GS1KKD4GS1LLD3GS1LLD4GS1LD3GS1LD4GS1ND3GS1ND4GS1QQD3GS1QQD4GS2S3GS2S4GS2V3GS2V4HandleBlackGS1AH103GS1AH01GS1AH02GS1AH02GS2AH104GS2AH105Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN22O/I + early break GS1AM111 (1 OF)GS1AM1 (1 OF)GS1AM1 (1 OF)GS1AM110 (1 NO)GS1AM211 (2 OF)GS1AM2 (2 OF)GS1AM2 (2 OF)GS1AM101 (1 NC)Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74For external left hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS2FG3GS2FG4GS2GG3GS2GG4GS2JG3GS2JG4GS2KG3GS2KG4GS2KKG3GS2KKG4GS2LLG3GS2LLG4GS2LG3GS2LG4GS2NG3GS2NG4GS2QQG3GS2QQG4GS2SG3GS2SG4GS2VG3HandleBlack/GreyIP65GS2AH310GS2AH330GS2AH330GS2AH350Red/YellowIP65GS2AH320GS2AH340GS2AH340GS2AH360Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GGS1AN11G2NO + 2NC-GS1AN22GGS1AN22GO/I + early break 1NOGS1AM110GS1AM1102NOGS1AM101GS1AM101Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74For external front-mounted and right-hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS2F3GS2F4GS2G3GS2G4GS2J3GS2J4GS2K3GS2K4GS2KK3GS2KK4GS2LL3GS2LL4GS2L3GS2L4GS2N3GS2N4GS2QQ3GS2QQ4GS2S3GS2S4GS2V3GS2V4Front-mounted handleBlack/GreyIP55GS2AH515GS2AH535GS2AH535-Black/GreyIP65GS2AH510GS2AH530GS2AH530GS2AH550GS2AH570Red/YellowIP65GS2AH520GS2AH540GS2AH540GS2AH560GS2AH580Front-mounted handle + Test positionBlack/GreyIP65GS2AHT510GS2AHT530GS2AHT530-Red/YellowIP65GS2AHT520GS2AHT540GS2AHT540-RH side-mounted handleBlack/GreyIP55GS2AH215GS2AH235GS2AH235-Black/GreyIP65GS2AH210GS2AH230GS2AH230GS2AH250Red/YellowIP65GS2AH220GS2AH240GS2AH240GS2AH260Auxiliary contactsO/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NO-GS1AM110GS1AM110-1NC-GS1AM101GS1AM101-Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74AccessoriesShaft for external handle (mm)200GS2AE82GS2AE22GS2AE22GS2AE52320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS1AP33 (3P), GS1AP34 (4P)GS1AP33 (3P), GS1AP34 (4P)GS1AP43 (3P), GS1AP44 (4P)GS2AP73GS2AP64GS2AP83GS2AP84DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29Product referencesTeSys PowerSwitch-disconnector fuses Characteristics:pages B5/18 and B5/19Dimensions:pages B5/25 to B5/29Schemes: page B5/33";i:368;s:3415:"B5/5Switch- disconnector fusesIEC - For NFC / DIN fuses - From 32 to 1250 AGS1DD3GS1FD3GS1KD4GS1KKD3GS1LLD4GS1ND3RatingA3250631001251251602504006301250Number of poles33+N3434343434343434343434Fuse size10 x 3814 x 51Size 00022 x 5822 x 58Size 00Size 00Size 0Size 1Size 2Size 3Size 4For direct operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS1FD3GS1FD4GS1GD3GS1GD4GS1JD3GS1JD4GS1KD3GS1KD4GS1KKD3GS1KKD4GS1LLD3GS1LLD4GS1LD3GS1LD4GS1ND3GS1ND4GS1QQD3GS1QQD4GS2S3GS2S4GS2V3GS2V4HandleBlackGS1AH103GS1AH01GS1AH02GS1AH02GS2AH104GS2AH105Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN22O/I + early break GS1AM111 (1 OF)GS1AM1 (1 OF)GS1AM1 (1 OF)GS1AM110 (1 NO)GS1AM211 (2 OF)GS1AM2 (2 OF)GS1AM2 (2 OF)GS1AM101 (1 NC)Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74For external left hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS2FG3GS2FG4GS2GG3GS2GG4GS2JG3GS2JG4GS2KG3GS2KG4GS2KKG3GS2KKG4GS2LLG3GS2LLG4GS2LG3GS2LG4GS2NG3GS2NG4GS2QQG3GS2QQG4GS2SG3GS2SG4GS2VG3HandleBlack/GreyIP65GS2AH310GS2AH330GS2AH330GS2AH350Red/YellowIP65GS2AH320GS2AH340GS2AH340GS2AH360Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GGS1AN11G2NO + 2NC-GS1AN22GGS1AN22GO/I + early break 1NOGS1AM110GS1AM1102NOGS1AM101GS1AM101Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74For external front-mounted and right-hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DD3GS1DD4GS2F3GS2F4GS2G3GS2G4GS2J3GS2J4GS2K3GS2K4GS2KK3GS2KK4GS2LL3GS2LL4GS2L3GS2L4GS2N3GS2N4GS2QQ3GS2QQ4GS2S3GS2S4GS2V3GS2V4Front-mounted handleBlack/GreyIP55GS2AH515GS2AH535GS2AH535-Black/GreyIP65GS2AH510GS2AH530GS2AH530GS2AH550GS2AH570Red/YellowIP65GS2AH520GS2AH540GS2AH540GS2AH560GS2AH580Front-mounted handle + Test positionBlack/GreyIP65GS2AHT510GS2AHT530GS2AHT530-Red/YellowIP65GS2AHT520GS2AHT540GS2AHT540-RH side-mounted handleBlack/GreyIP55GS2AH215GS2AH235GS2AH235-Black/GreyIP65GS2AH210GS2AH230GS2AH230GS2AH250Red/YellowIP65GS2AH220GS2AH240GS2AH240GS2AH260Auxiliary contactsO/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NO-GS1AM110GS1AM110-1NC-GS1AM101GS1AM101-Blown fuse-GS1AF1-GS1AF23GS1AF24GS1AF23GS1AF24-GS1AF33GS1AF34GS1AF43GS1AF44GS1AF43GS1AF44GS2AF63GS2AF64GS2AF73GS2AF74AccessoriesShaft for external handle (mm)200GS2AE82GS2AE22GS2AE22GS2AE52320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS1AP33 (3P), GS1AP34 (4P)GS1AP33 (3P), GS1AP34 (4P)GS1AP43 (3P), GS1AP44 (4P)GS2AP73GS2AP64GS2AP83GS2AP84DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29Auxiliary contactsDF568473.epsGS1AM1ppGS1ANpppDF568476.epsGS1AMp11DF568474.epsGS1AMpDF568475.epsMaximal number of auxiliary contactsSwitch rating (A)Standard configurationWith additional bracketReference of additional bracket30...3244GS1AD10 (1)32...40044GS2AD20 (2)200...40088GS2AD20 (2)630...12508--See details on auxiliary contacts, page B5/12.(1) Only compatible with switch disconnector fuses starting by GS1Dpp(2) Only compatible with switch disconnector fuses starting by GS2pppCharacteristics:pages B5/18 and B5/19Dimensions:pages B5/25 to B5/29Schemes: page B5/33";i:369;s:1962:"B5/6Switch- disconnector fusesIEC - For BS fuses - From 32 to 1250 AGS1DDB3GS2JB3GS2MMB3GS2SB3RatingA32631001602002503154006308001250Number of poles33+N343434343434343434343434Fuse sizeA1A1A2-A3A4A4B1-B2B1-B2B1...B3B1...B3B1...B4C1-C2C1...C3D1For direct operatorsSwitch-disconnector fuses referenceGS1DDB3GS1DDB4----HandleBlackGS1AH103----Auxiliary contacts O/I + Test1NO + 1NC----2NO + 2NC----O/I + early break GS1AM111 (1 OF)---GS1AM211 (2 OF)---For external front-mounted and right-hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DDB3GS1DDB4GS2DB3GS2DB4GS2GB3GS2GB4GS2JB3GS2JB4GS2LLB3GS2LLB4GS2LB3GS2LB4GS2MMB3GS2MMB4GS2NB3GS2NB4GS2PPB3GS2PPB4GS2QQB3GS2QQB4GS2SB3GS2SB4GS2TB3GS2TB4GS2VB4Front-mounted handleBlack/GreyIP55GS2AH515GS2AH535GS2AH535-Black/GreyIP65GS2AH510GS2AH530GS2AH530GS2AH550GS2AH570Red/YellowIP65GS2AH520GS2AH540GS2AH540GS2AH560GS2AH580Front-mounted handle + Test positionBlack/GreyIP65GS2AHT510GS2AHT530GS2AHT530-Red/YellowIP65GS2AHT520GS2AHT540GS2AHT540-RH side-mounted handleBlack/GreyIP55GS2AH215GS2AH235GS2AH235-Black/GreyIP65GS2AH210GS2AH230GS2AH230GS2AH250Red/YellowIP65GS2AH220GS2AH240GS2AH240GS2AH260Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NOGS1AM110 - max 4 contactsGS1AM110 - max 8 contacts1NCGS1AM101 - max 4 contactsGS1AM101 - max 8 contactsAccessoriesShaft for external handle (mm)200GS2AE82GS2AE22GS2AE22GS2AE52320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS1AP33 (3P), GS1AP34 (4P)GS1AP43 (3P), GS1AP44 (4P)GS2AP73 (3P), GS2AP64 (4P)GS2AP83GS2AP84DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29Product referencesTeSys PowerSwitch-disconnector fusesCharacteristics:pages B5/20 and B5/21Dimensions:pages B5/25 to B5/29Schemes: page B5/33";i:370;s:1908:"B5/7Switch- disconnector fusesIEC - For BS fuses - From 32 to 1250 AGS1DDB3GS2JB3GS2MMB3GS2SB3RatingA32631001602002503154006308001250Number of poles33+N343434343434343434343434Fuse sizeA1A1A2-A3A4A4B1-B2B1-B2B1...B3B1...B3B1...B4C1-C2C1...C3D1For direct operatorsSwitch-disconnector fuses referenceGS1DDB3GS1DDB4----HandleBlackGS1AH103----Auxiliary contacts O/I + Test1NO + 1NC----2NO + 2NC----O/I + early break GS1AM111 (1 OF)---GS1AM211 (2 OF)---For external front-mounted and right-hand side-mounted operatorsSwitch-disconnector fuses referenceGS1DDB3GS1DDB4GS2DB3GS2DB4GS2GB3GS2GB4GS2JB3GS2JB4GS2LLB3GS2LLB4GS2LB3GS2LB4GS2MMB3GS2MMB4GS2NB3GS2NB4GS2PPB3GS2PPB4GS2QQB3GS2QQB4GS2SB3GS2SB4GS2TB3GS2TB4GS2VB4Front-mounted handleBlack/GreyIP55GS2AH515GS2AH535GS2AH535-Black/GreyIP65GS2AH510GS2AH530GS2AH530GS2AH550GS2AH570Red/YellowIP65GS2AH520GS2AH540GS2AH540GS2AH560GS2AH580Front-mounted handle + Test positionBlack/GreyIP65GS2AHT510GS2AHT530GS2AHT530-Red/YellowIP65GS2AHT520GS2AHT540GS2AHT540-RH side-mounted handleBlack/GreyIP55GS2AH215GS2AH235GS2AH235-Black/GreyIP65GS2AH210GS2AH230GS2AH230GS2AH250Red/YellowIP65GS2AH220GS2AH240GS2AH240GS2AH260Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NOGS1AM110 - max 4 contactsGS1AM110 - max 8 contacts1NCGS1AM101 - max 4 contactsGS1AM101 - max 8 contactsAccessoriesShaft for external handle (mm)200GS2AE82GS2AE22GS2AE22GS2AE52320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS1AP33 (3P), GS1AP34 (4P)GS1AP43 (3P), GS1AP44 (4P)GS2AP73 (3P), GS2AP64 (4P)GS2AP83GS2AP84DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29Characteristics:pages B5/20 and B5/21Dimensions:pages B5/25 to B5/29Schemes: page B5/33";i:371;s:1815:"B5/8Switch- disconnector fusesUL - For CC and J fuses - From 32 to 800 AGS1DU3GS2GU3NGS2QU3NGS2TU3Rating30 Compact3060100200400600800Number of poles33333333Fuse sizeCCJCCJJJJJJJFor direct operatorsSwitch-disconnector fuses referenceGS1DDU3GS1DU3----HandleBlackGS1AH106----Auxiliary contacts O/I + Test1NO + 1NC---2NO + 2NC---O/I + early break 1NOGS1AM110 + GS1AD10---1NCGS1AM101 + GS1AD10---For external front-mounted operatorsSwitch-disconnector fuses referenceGS1DDU3GS1DU3GS2EEU3GS2EU3NGS2GU3NGS2JU3NGS2MU3NGS2QU3NGS2SU3GS2TU3Front-mounted handleBlack/Grey1,3R, 12GS2AH110GS2AH130GS2AH130-4, 4XGS2AH410GS2AH430GS2AH430GS2AH150Red/Yellow1,3R, 12GS2AH120GS2AH140GS2AH140-4, 4XGS2AH420GS2AH440GS2AH440GS2AH160Front-mounted handle + Test positionBlack/Grey1,3R, 12GS2AHT110GS2AHT130GS2AHT130-4, 4XGS2AHT410GS2AHT430GS2AHT430-Red/Yellow1,3R, 12GS2AHT120GS2AHT140GS2AHT140-4, 4XGS2AHT420GS2AHT440GS2AHT440-Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NOGS1AM110 - max 4 contacts (1)GS1AM110 - max 4 contacts (1)GS1AM110 - max 8 contacts (1)GS1AM110 - max 8 contacts only1NCGS1AM101 - max 4 contacts (1)GS1AM101 - max 4 contacts (1)GS1AM101 - max 8 contacts (1)GS1AM101 - max 8 contacts onlyAccessoriesShaft for external handle (mm)320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS2AP43GS2AP53GS2AP73DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29(1) 4 more contacts allowed with GS1AD10 additional bracket.Product referencesTeSys PowerSwitch-disconnector fuses Characteristics:pages B5/22 and B5/23Dimensions:pages B5/30 to B5/32Schemes: page B5/33";i:372;s:1760:"B5/9Switch- disconnector fusesUL - For CC and J fuses - From 32 to 800 AGS1DU3GS2GU3NGS2QU3NGS2TU3Rating30 Compact3060100200400600800Number of poles33333333Fuse sizeCCJCCJJJJJJJFor direct operatorsSwitch-disconnector fuses referenceGS1DDU3GS1DU3----HandleBlackGS1AH106----Auxiliary contacts O/I + Test1NO + 1NC---2NO + 2NC---O/I + early break 1NOGS1AM110 + GS1AD10---1NCGS1AM101 + GS1AD10---For external front-mounted operatorsSwitch-disconnector fuses referenceGS1DDU3GS1DU3GS2EEU3GS2EU3NGS2GU3NGS2JU3NGS2MU3NGS2QU3NGS2SU3GS2TU3Front-mounted handleBlack/Grey1,3R, 12GS2AH110GS2AH130GS2AH130-4, 4XGS2AH410GS2AH430GS2AH430GS2AH150Red/Yellow1,3R, 12GS2AH120GS2AH140GS2AH140-4, 4XGS2AH420GS2AH440GS2AH440GS2AH160Front-mounted handle + Test positionBlack/Grey1,3R, 12GS2AHT110GS2AHT130GS2AHT130-4, 4XGS2AHT410GS2AHT430GS2AHT430-Red/Yellow1,3R, 12GS2AHT120GS2AHT140GS2AHT140-4, 4XGS2AHT420GS2AHT440GS2AHT440-Auxiliary contacts O/I + Test1NO + 1NC-GS1AN11GS1AN112NO + 2NC-GS1AN22GS1AN221NO + 1NC + test-GS1ANT11GS1ANT11-2NO + 2NC + test-GS1ANT22GS1ANT22-O/I + Test + early break 1NOGS1AM110 - max 4 contacts (1)GS1AM110 - max 4 contacts (1)GS1AM110 - max 8 contacts (1)GS1AM110 - max 8 contacts only1NCGS1AM101 - max 4 contacts (1)GS1AM101 - max 4 contacts (1)GS1AM101 - max 8 contacts (1)GS1AM101 - max 8 contacts onlyAccessoriesShaft for external handle (mm)320GS2AE8GS2AE2GS2AE2GS2AE5400GS2AE81GS2AE21GS2AE21GS2AE51Terminal shroudIntegratedGS2AP43GS2AP53GS2AP73DimensionsDirect front-mounted versionpage B5/25page B5/26page B5/26page B5/28External front-mounted versionpage B5/25page B5/27page B5/27page B5/29(1) 4 more contacts allowed with GS1AD10 additional bracket.Characteristics:pages B5/22 and B5/23Dimensions:pages B5/30 to B5/32Schemes: page B5/33";i:373;s:1193:"B5/10Switch- disconnector fusesProduct references812889.epsDF2CApppDF2CNpp812888.epsDF2EApppDF2ENpp812887.epsDF2FAppDF2FNppFor protection of equipment with current peaksFor protection of circuits without significant current peaksTeSys PowerSwitch-disconnector fuses NFC Cartridge fuses - Type aM / gG - From 0.25 to 125 AFuse typeMaximum rated voltageRatingSold in lots ofFuses without strikerUnit referenceV aAaMgG110–DF2BN0100Cylindrical8.5 x 31.5400210DF2BA0200DF2BN0200410DF2BA0400DF2BN0400610DF2BA0600DF2BN0600810–DF2BN08001010–DF2BN10001210–DF2BN12001610–DF2BN16002010–DF2BN2000Cylindrical10 x 385000.5010DF2CA005–110DF2CA01–210DF2CA02DF2CN02410DF2CA04DF2CN04610DF2CA06DF2CN06810DF2CA08DF2CN081010DF2CA10DF2CN101210DF2CA12DF2CN121610DF2CA16DF2CN162010–DF2CN204002010DF2CA20–2510DF2CA25DF2CN253210DF2CA32DF2CN32Cylindrical 14 x 516900.2510DF2EA002–0.5010DF2EA005–5001610DF2EA16–2010DF2EA20–2510DF2EA25DF2EN253210DF2EA32DF2EN324010DF2EA40DF2EN404005010DF2EA50DF2EN50Cylindrical 22 x 586901010–DF2FN102010–DF2FN202510–DF2FN253210–DF2FN324010DF2FA40DF2FN405010DF2FA50DF2FN505006310DF2FA63DF2FN638010DF2FA80DF2FN8010010DF2FA100DF2FN10040012510DF2FA125–";i:374;s:609:"B5/11Switch- disconnector fusesDIN Cartridge fuses - Type aM /gG - From 10 to 1250 APB121654.epsDF2HA1161For protection of equipment with current peaksFor protection of circuits without significant current peaksProduct referencesTeSys PowerSwitch-disconnector fuses Fuse typeMaximum rated voltageRatingSold in lots ofFuses without strikerFuses with strikerUnit referenceUnit referenceV aAaMgGaMgGaMgGBlade size 00690100310–DF2FGN100––125310–DF2FGN125––500160-10–DF2FGN160––Blade size 169016033DF2HA1161–––20033DF2HA1201DF2HN1201––2503-DF2HA1251–––500250-3–DF2HN1251––";i:375;s:3529:"B5/12Switch- disconnector fusesAuxiliary contacts for IEC and UL switch-disconnector fusesAuxiliary early break and/or O, I and Test position signalling contacts (1) (2) (3) Switch ratingContact typeType of operatorRated operating current Ie (A)ReferenceA (CEI)A (UL)< 24 V DC< 240 V AC32...125030 Compact 30...8001 N/OExternal, front or side-mounted (4)2.83GS1AM1101 N/CExternal, front or side-mounted (4)2.83GS1AM101Auxiliary O, I and Test position signalling contacts (3) (5) Switch ratingContact typeType of operatorRated operating current Ie (A)ReferenceA (CEI)A (UL)< 24 V DC< 240 V ACAuxiliary O and I position signalling contacts50...125030...8001 N/C + 1 N/OExternal, front or RH side-mountedDirect–10GS1AN11External, LH side–10GS1AN11G*2 N/C + 2 N/OExternal, front or RH side-mountedDirect–10GS1AN22External, LH side–10GS1AN22G*Auxiliary O, I and Test position signalling contacts (3)50...40030...4001 N/C + 1 N/OExternal, front side-mounted–10GS1ANT112 N/C + 2 N/OExternal, front side-mounted–10GS1ANT22Auxiliary early break O and I position signalling contacts Switch ratingContact typeType of operatorRated operating current Ie (A)ReferenceA (CEI)< 24 V DC< 240 V AC321 C/O–124GS1AM111*2 C/O–124GS1AM211*50...4001 C/ODirect, RH side124GS1AM1*2 C/ODirect, RH side124GS1AM2*Auxiliary "blown fuse" signalling contacts for use with NF C and DIN fuses (6) Contact typeSwitch ratingFuse sizeNumber of polesRated operating current Ie (A)ReferenceA (CEI)< 24 V DC< 240 V AC1st C/O5014 x 513 or 4124GS1AF1*100 and 12522 x 583124GS1AF23*4124GS1AF24*160Size 03124GS1AF33*4124GS1AF34*250 and 400Size 1 and Size 23124GS1AF43*4124GS1AF44*630Size 33124GS2AF63*4124GS2AF64*1250Size 43124GS2AF73*4124GS2AF74*2nd C/O50...1250–3 or 4124GS1AF*(*) Not for UL switch-disconnector.(1) For 32 A (CEI), 30 (UL) switch-disconnector fuses, these auxiliary contacts allow:- early break and O and I position signalling, - O and I position signalling,- O, I and Test position signalling, - Test position signalling.For 50 to 400 A (CEI), 30-400 A (UL) switch-disconnector fuses, they allow:- early break, - O and I position signalling,- O, I and Test position signalling, - Test position signalling.For 630 and 1250 A (CEI), 630 and 800 A (UL) switch-disconnector fuses, they allow:- early break and O and I position signalling,(2) Maximum number of auxiliary contacts:Switch rating A (CEI)A (UL)StandardWith additional bracketReference of additional bracket32 (7)30 CompactCC44 + 4GS1AD10J22 + 4GS1AD1032 (8)...16030...10044 + 4GS2AD20200...400200 and 40088 + 4GS2AD20630...1250600 and 80088–(3) The Test position allows testing of the control circuits off-load. Auxiliary contacts GS1AM110, GS1AM101 and GS1ANTpp only allow the text function with external handles GS2AHTppp.(4) These auxiliary contacts can also be used with 630, 800 and 1250 A switch-disconnector fuses fitted with a direct front-mounted operator.(5) Reversible add-on attachments for converting an N/C contact to an N/O contact and vice versa.(6) For striker fuses (BS fuses are not available with striker).(7) For GS1DDB3 fuse switch disconnector only.(8) For 32 A: for fuse switch disconnector GS2DB3 only.Product referencesDF568473.epsGS1AM1ppGS1ANpppDF568476.epsGS1AMp11DF568474.epsGS1AFppDF568475.epsTeSys Power Switch-disconnector fuses - Auxiliary contactsCharacteristics:page B5/24Dimensions:page B5/33Schemes: page B5/33";i:376;s:3028:"B5/13Switch- disconnector fusesHandles for IEC and UL switch-disconnector fusesHandles for direct operators Switch ratingType of operatorHandle colourReferenceA (CEI)A (UL)Handles for direct operators, padlockable-30 CompactFront-mountedBlackGS2AH10632-FrontBlackGS1AH10350 and 63-RH sideBlackGS1AH01100...400-RH sideBlackGS1AH02-600 and 800Front-mountedBlackGS2AH107630 and 800-FrontBlackGS2AH1041250-FrontBlackGS2AH105Handles for external operator Switch ratingHandle colourDegree of protectionProtection indexNemaReferenceA (CEI)A (UL)Handles for front-mounted external operators, padlockable and lockable in position O (1) Door interlock in I position (2)32...63-Grey/BlackIP 65–GS2AH510IP55–GS2AH515Red/YellowIP 65–GS2AH520100...400-Grey/BlackIP 65–GS2AH530IP55–GS2AH535Red/YellowIP 65–GS2AH540630 and 800-Grey/BlackIP65–GS2AH550Red/YellowIP65–GS2AH5601250-Grey/BlackIP65–GS2AH570Red/YellowIP65–GS2AH580-30 CompactGrey/Black–1, 3R, 12GS2AH110Red/Yellow–1, 3R, 12GS2AH120Grey/Black–1, 3R, 4, 4X, 12GS2AH410Red/Yellow–1, 3R, 4, 4X, 12GS2AH420-30...400Grey/Black–1, 3R, 12GS2AH130Red/Yellow–1, 3R, 12GS2AH140Grey/Black–1, 3R, 4, 4X, 12GS2AH430Red/Yellow–1, 3R, 4, 4X, 12GS2AH440-600 and 800Grey/Black–1, 3R, 12GS2AH150Red/Yellow–1, 3R, 12GS2AH160Handles for front-mounted external operators with test facility (3), padlockable and lockable in "O" position (1). Door interlock in “I” position (2)32...63-Grey/BlackIP 65–GS2AHT510Red/YellowIP65–GS2AHT520100...400-Grey/BlackIP65–GS2AHT530Red/YellowIP65–GS2AHT540-30 CompactGrey/Black–1, 3R, 12GS2AHT110Red/Yellow–1, 3R, 12GS2AHT120Grey/Black–1, 3R, 4, 4X, 12GS2AHT410Red/Yellow–1, 3R, 4, 4X, 12GS2AHT420-30...400Grey/Black–1, 3R, 12GS2AHT130Red/Yellow–1, 3R, 12GS2AHT140Grey/Black–1, 3R, 4, 4X, 12GS2AHT430Red/Yellow–1, 3R, 4, 4X, 12GS2AHT440Handles for external right-hand side-mounted operators, padockable and lockable in "O" position (1)32...63-Grey/BlackIP 65–GS2AH210IP55–GS2AH215Red/YellowIP65–GS2AH220100...400-Grey/BlackIP65–GS2AH230IP55–GS2AH235Red/YellowIP65–GS2AH240630...1250-Grey/BlackIP65–GS2AH250Red/YellowIP65–GS2AH260Handles for external left-hand side-mounted operators, padockable and lockable in "O" position (1)32...63-Grey/BlackIP 65–GS2AH310Red/YellowIP65–GS2AH320100...400-Grey/BlackIP65–GS2AH330Red/YellowIP65–GS2AH340630...1250-Grey/BlackIP65–GS2AH350Red/YellowIP65–GS2AH360(1) Lockable with device GS2AX1, to be ordered separately.(2) Door interlock override by means of a tool.(3) The Test facility allows testing of the control circuits off-load, by using auxiliary contacts GS1AM110, GS1AM101 or GS1ANTpp. In the “Test” position, the enclosure door can be opened.GS1AH01PF568668.tifGS1AH02PF568669.tifGS2AHp10GS2AHp20PB123953.epsGS2AHp30GS2AHp40PB123954.epsGS2AHp50GS2AHp60PB123955.epsGS2AHp70GS2AHp80PB123956.epsProduct referencesTeSys Power Switch-disconnector fuses - HandlesDimensions:pages B5/25 to B5/32";i:377;s:1993:"B5/14Switch- disconnector fusesProduct referencesAccessories for IEC and UL switch-disconnector fusesShafts for external operatorsSwitch ratingShaft lengthShaft cross sectionReferenceA (CEI)A (UL)mmmm3230 Compact2005 x 5GS2AE823205 x 5GS2AE84005 x 5GS2AE8150...40030...40020010 x 10GS2AE2232010 x 10GS2AE240010 x 10GS2AE21630...1250600 and 80020012 x 12GS2AE5232012 x 12GS2AE54012 x 12GS2AE51Terminal protection shrouds for upstream or downstream connector platesSwitch ratingNumber of polesReferenceA (CEI)A (UL)50 and 6330 Compact, 30...60 (3P)3 or 4(1)100...1601003GS1AP33–4GS1AP34200...4002003GS1AP43–4GS1AP44–4003GS1APU53630...800600 and 8003GS2AP73–4GS2AP641250–3GS2AP834GS2AP84Devices for locking fuse covers in "I" position (2)Switch ratingFuse sizeNumber of polesReferenceA5014 x 513 or 4(3)63Size 00C3 or 4GS1AV1100...16022 x 58, Size 003 or 4GS1AV2160Size 03GS1AV33250Size 13GS1AV534GS1AV54400Size 23GS1AV734GS1AV74Cage terminals for connection of bare cables (without lug)Switch ratingNumber of polesReferenceA50 and 633 or 4(4)100...1603GS1AW334GS1AW34200...2503GS1AW434GS1AW44External handle locking deviceSwitch ratingDescriptionReferenceA32...1250Device for RONIS EL11AP keylock (lock to be ordered separately).GS2AX1Flat mounting kitSwitch ratingDescriptionReferenceA50...400The kit, for use with a front-mounted external handle, includes: ba 200 mm shaft, cross section 10 x 10 mm, ban adapter plateGS2ADL2(1) For these ratings, the switch-disconnector fuses are fitted with terminal covers as standard.(2) For NF C and DIN switch-disconnector fuses fitted with right-hand mounted direct operator.(3) For this rating, switch-disconnector fuses are fitted with a cover locking device as standard.(4) For these ratings, switch-disconnector fuses are fitted with cage terminals as standard.GS2AE5PB121455.epsGS2AE2 - GS2AE21PB121456.epsGS2AE8 - GS2AE81PB121457.tifTeSys PowerSwitch-disconnector fuses - Accessories";i:378;s:31:"B5/15Switch- disconnector fuses";i:379;s:2013:"B5/16Switch- disconnector fusesTeSys PowerSwitch-disconnector fuses 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 referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:380;s:359:"B5/17Technical Data for Designers Switch-disconnector fusesContentsCharacteristics: > switch-disconnector fuses ....B5/18 to B5/23 > auxiliary contacts ................................B5/24Dimensions ..........................................B5/25 to B5/33Schemes .............................................................B5/33Switch- disconnector fuses";i:381;s:2897:"B5/18Switch- disconnector fusesIEC - For NFC / DIN fuses - From 32 to 1250 ASwitch-disconnector-fuse characteristicsTypeGS1DDGSpFGSpGGSpJGSpKGSpKKGSpLLGSpLGSpNGSpQQGS2SGS2VEnvironmentConforming to standardsSwitch-disconnector fusesIEC 60947-3IEC 60947-3FusesIEC 60269-1 and 2IEC 60269-1 and 2Product certificationsASEFA/LOVAG, LROS, UKCAASEFA/LOVAG, LROS, UKCADegree of protectionconforming to IEC 60529On front panel with terminal coversIP 20IP 20Ambient air temperature around the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistance conforming to IEC 60695-2-1Body°C960960960Fuse cover°C–850850Pole characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA3250631001251251601602504006301250Fuse size10 x 3814 x 51T00C22 x 5822 x 58T00T00T0T1T2T3T4Power dissipated per 1 poleW1.202.454.356.808.636.0010.4010.4019.0024.4061.00154.00Maximum fuse dissipation allowed per 1 poleW2.904.606.009.0011.0012.0012.0015.0023.0033.0060.00110.00Rated insulation voltage (Ui)V80075075075075075075075075080010001000Rated impulse withstand voltage (Uimp)kV88888888881212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3250631001251251601602504006301000a 500 VA325063100125125160160250315500800a 690 VA325063100 (3)100 (3)100 (3)125 (3)125 (3)250 (3)250/315315/400630Cat. DC-23A/B (1)c 440 V (2)A204040100100100125125200200/315 (4)400/630 (4)1000Rated operational power Cat. AC-23A/B (1)a 400 VkW1525305163638080132220355560a 500 VkW18.53340639090110110160220355560a 690 VkW254555908080110110220220/295295/400400/475Rated conditional short-circuit currentI rms at a 400 V with protection by gG (gl) fuseskA100100100100100100100 (50)10010050100100Rating of associated fusesA325063100125125125 (160)1602504006301250Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.57.610.620202022.72032.5407090Rated making capacityI rms at 400 V Cat. AC-23BA3205006301000125012501600160025004000630010 000Rated breaking capacityI rms at 400 V Cat. AC-23BA25640050080010001000128012802000320050408000Mechanical durabilityNumber of operating cycles2000010000100001000010000100001000010000100001000080005000Electrical durabilityNumber of operating cycles cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001000/2001000/2001000/2001000/2001000/2001000/2001000/200500/100CablingCable (c.s.a. min/max)mm22.5/166/2510/2525/9535/9535/9550/9550/9595/240185/2402 x 150 / 2 x 300- / 4 x 185Bars (max width)mm–––202020202032456380Tightening torqueN.m33.23.2121212121225254444(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.(2) 2 poles in series per phase.(3) With terminal covers.(4) Poles not juxtaposed.CharacteristicsTeSys Power Switch-disconnector fusesReferences:pages B5/4 and B5/5Dimensions:pages B5/25 to B5/29Schemes: page B5/33Ref.";i:382;s:2845:"B5/19Switch- disconnector fusesIEC - For NFC / DIN fuses - From 32 to 1250 ASwitch-disconnector-fuse characteristicsTypeGS1DDGSpFGSpGGSpJGSpKGSpKKGSpLLGSpLGSpNGSpQQGS2SGS2VEnvironmentConforming to standardsSwitch-disconnector fusesIEC 60947-3IEC 60947-3FusesIEC 60269-1 and 2IEC 60269-1 and 2Product certificationsASEFA/LOVAG, LROS, UKCAASEFA/LOVAG, LROS, UKCADegree of protectionconforming to IEC 60529On front panel with terminal coversIP 20IP 20Ambient air temperature around the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistance conforming to IEC 60695-2-1Body°C960960960Fuse cover°C–850850Pole characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA3250631001251251601602504006301250Fuse size10 x 3814 x 51T00C22 x 5822 x 58T00T00T0T1T2T3T4Power dissipated per 1 poleW1.202.454.356.808.636.0010.4010.4019.0024.4061.00154.00Maximum fuse dissipation allowed per 1 poleW2.904.606.009.0011.0012.0012.0015.0023.0033.0060.00110.00Rated insulation voltage (Ui)V80075075075075075075075075080010001000Rated impulse withstand voltage (Uimp)kV88888888881212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3250631001251251601602504006301000a 500 VA325063100125125160160250315500800a 690 VA325063100 (3)100 (3)100 (3)125 (3)125 (3)250 (3)250/315315/400630Cat. DC-23A/B (1)c 440 V (2)A204040100100100125125200200/315 (4)400/630 (4)1000Rated operational power Cat. AC-23A/B (1)a 400 VkW1525305163638080132220355560a 500 VkW18.53340639090110110160220355560a 690 VkW254555908080110110220220/295295/400400/475Rated conditional short-circuit currentI rms at a 400 V with protection by gG (gl) fuseskA100100100100100100100 (50)10010050100100Rating of associated fusesA325063100125125125 (160)1602504006301250Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.57.610.620202022.72032.5407090Rated making capacityI rms at 400 V Cat. AC-23BA3205006301000125012501600160025004000630010 000Rated breaking capacityI rms at 400 V Cat. AC-23BA25640050080010001000128012802000320050408000Mechanical durabilityNumber of operating cycles2000010000100001000010000100001000010000100001000080005000Electrical durabilityNumber of operating cycles cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001000/2001000/2001000/2001000/2001000/2001000/2001000/200500/100CablingCable (c.s.a. min/max)mm22.5/166/2510/2525/9535/9535/9550/9550/9595/240185/2402 x 150 / 2 x 300- / 4 x 185Bars (max width)mm–––202020202032456380Tightening torqueN.m33.23.2121212121225254444(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.(2) 2 poles in series per phase.(3) With terminal covers.(4) Poles not juxtaposed.References:pages B5/4 and B5/5Dimensions:pages B5/25 to B5/29Schemes: page B5/33Ref.";i:383;s:3064:"B5/20Switch- disconnector fusesIEC - For BS fuses - From 32 to 1250 ASwitch-disconnector-fuse characteristicsTypeGS1DDBGS2DBGS2GBGS2JBGS2LB or LLB (3)GS2MMBGS2NBGS2PPBGS2QQBGS2SBGS2TBGS2VBEnvironmentConforming to standardsSwitch-disconnector fusesIEC 60947-3IEC 60947-3FusesIEC 60269-1 and 2IEC 60269-1 and 2Product certificationsASEFA/LOVAG, LROS, UKCAASEFA/LOVAG, LROS, UKCADegree of protectionconforming to IEC 60529On Front panel, with terminal coversIP 20IP 20Ambient air temperature around the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistance conforming to IEC 60695-2-1Body°C960960Fuse cover°C–850850Pole characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA3232631001602002503154006308001250Fuse sizeA1A1A2-A3A4 Ø y 31 mmB1-B2 or A4 (3)B1-B2B1...B3B1...B3B1...B4C1-C2C1...C3D1Power dissipated per 1 poleW1.201.204.353.7011.20 or 9.708.8013.8017.0024.4061.0068.00154.00Maximum fuse dissipation allowed per 1 poleW3.103.103.808.6013.40 or 15.3014.3019.7029.6029.6055.0070.00100.00Rated insulation voltage (Ui)V800750750750750750750800800100010001000Rated impulse withstand voltage (Uimp)kV888888888121212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3232631001602002503154006308001000a 500 VA32 32 63100160200250315315500630800a 690 VA32 32 63100 (4)125 (4)200/160 (4)250 (4)250/315 (4)250/315315/400630630Cat. DC-23A/B (1)c 440 V (2)A202040100125200200200200/315 (5)400/630 (5)8001000Rated operational power Cat. AC-23A/B (1)a 400 VkW1515305180100132150220355450560a 500 VkW18.518.54063110140160220220355450560a 690 VkW25255590110150/185220220/295220/295295/400400400/475Rated conditional short-circuit currentI rms at a 400 V with protection by gG (gl) fuseskA808080808080808050808080Rating of associated fusesA3232631001602002503154006308001250Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.5910.62022.732.532.54040708090Rated making capacityI rms at 400 V Cat. AC-23BA3203206301000160020002500315040006300800010 000Rated breaking capacityI rms at 400 V Cat. AC-23BA25625650080012801600200025203200504064008000Mechanical durabilityNumber of operating cycles200001000010000100001000010000100001000010000800080005000Electrical durabilityNumber of operating cycles cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001000/2001000/2001000/2001000/2001000/2001000/200500/100500/100CablingCable (c.s.a. min/max)mm22.5/166/2510/2525/9550/9595/24095/240185/240185/2402 x 150 / 2 x 3002 x 185 / 2 x 300- / 4 x 185Bars (max width)mm–––202032324545636380Tightening torqueN.m33.23.2121225252525444444(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.(2) 2 poles in series per phase.(3) Fit switch-disconnector fuses GS2LB with B1 or B2 fuses and GS2LLB with A4 fuses.(4) With terminal covers.(5) Poles not juxtaposed.CharacteristicsTeSys PowerSwitch-disconnector fusesReferences:pages B5/6 and B5/7Dimensions:pages B5/25 to B5/29Schemes: page B5/33Ref.";i:384;s:3013:"B5/21Switch- disconnector fusesIEC - For BS fuses - From 32 to 1250 ASwitch-disconnector-fuse characteristicsTypeGS1DDBGS2DBGS2GBGS2JBGS2LB or LLB (3)GS2MMBGS2NBGS2PPBGS2QQBGS2SBGS2TBGS2VBEnvironmentConforming to standardsSwitch-disconnector fusesIEC 60947-3IEC 60947-3FusesIEC 60269-1 and 2IEC 60269-1 and 2Product certificationsASEFA/LOVAG, LROS, UKCAASEFA/LOVAG, LROS, UKCADegree of protectionconforming to IEC 60529On Front panel, with terminal coversIP 20IP 20Ambient air temperature around the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistance conforming to IEC 60695-2-1Body°C960960Fuse cover°C–850850Pole characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA3232631001602002503154006308001250Fuse sizeA1A1A2-A3A4 Ø y 31 mmB1-B2 or A4 (3)B1-B2B1...B3B1...B3B1...B4C1-C2C1...C3D1Power dissipated per 1 poleW1.201.204.353.7011.20 or 9.708.8013.8017.0024.4061.0068.00154.00Maximum fuse dissipation allowed per 1 poleW3.103.103.808.6013.40 or 15.3014.3019.7029.6029.6055.0070.00100.00Rated insulation voltage (Ui)V800750750750750750750800800100010001000Rated impulse withstand voltage (Uimp)kV888888888121212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3232631001602002503154006308001000a 500 VA32 32 63100160200250315315500630800a 690 VA32 32 63100 (4)125 (4)200/160 (4)250 (4)250/315 (4)250/315315/400630630Cat. DC-23A/B (1)c 440 V (2)A202040100125200200200200/315 (5)400/630 (5)8001000Rated operational power Cat. AC-23A/B (1)a 400 VkW1515305180100132150220355450560a 500 VkW18.518.54063110140160220220355450560a 690 VkW25255590110150/185220220/295220/295295/400400400/475Rated conditional short-circuit currentI rms at a 400 V with protection by gG (gl) fuseskA808080808080808050808080Rating of associated fusesA3232631001602002503154006308001250Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.5910.62022.732.532.54040708090Rated making capacityI rms at 400 V Cat. AC-23BA3203206301000160020002500315040006300800010 000Rated breaking capacityI rms at 400 V Cat. AC-23BA25625650080012801600200025203200504064008000Mechanical durabilityNumber of operating cycles200001000010000100001000010000100001000010000800080005000Electrical durabilityNumber of operating cycles cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001000/2001000/2001000/2001000/2001000/2001000/200500/100500/100CablingCable (c.s.a. min/max)mm22.5/166/2510/2525/9550/9595/24095/240185/240185/2402 x 150 / 2 x 3002 x 185 / 2 x 300- / 4 x 185Bars (max width)mm–––202032324545636380Tightening torqueN.m33.23.2121225252525444444(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.(2) 2 poles in series per phase.(3) Fit switch-disconnector fuses GS2LB with B1 or B2 fuses and GS2LLB with A4 fuses.(4) With terminal covers.(5) Poles not juxtaposed.References:pages B5/6 and B5/7Dimensions:pages B5/25 to B5/29Schemes: page B5/33Ref.";i:385;s:2435:"B5/22Switch- disconnector fusesCharacteristicsTeSys PowerSwitch-disconnector fusesUL, CSA, IEC - For CC and J fuses - From 32 to 800 ASwitch-disconnector-fuse characteristicsTypeGS1DDU3GS1DU3GS2EEU3GS2EU3NGS2GU3NGS2JU3NGS2MU3NGS2QU3NGS2SU3GS2TU3EnvironmentConforming to standardsSwitch-disconnector fusesUL 489, CSA 22.2 n°5,IEC 60947-3UL 98, UL 248, CSA 22.2 n°4,IEC 60947-3UL 98, CSA 22.2 n°4,IEC 60947-3FusesUL 248UL 248Degree of protectionconforming to IEC 60529With terminal coversIP 20IP 20Ambient air temperaturearound the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistanceconforming to IEC 60695-2-1Body°C960960960960Fuse cover°C––850850Pole characteristicsConventional thermal current (Ith)for ambient temperature y 40 °CA3030303060100200400600800Fuse sizeCCJCCJJJJJJLRated insulation voltage (Ui)V80080075075075075075080010001000Rated impulse withstand voltage (Uimp)kV888888881212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3232323263100200400630800a 500 VA3232323263100200315630630a 690 VA3232323263100200250630630Rated operational powerCat. AC-23A/B (1)a 400 VkW151515153051100220355450a 500 VkW18.518.518.518.54063140220450560a 690 VkW252525255590185220600600Prospective short-circuit current withstandConforming to UL 98 / UL 489a 600 VkA100100200200100200200200200200Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.55.57.617.617.62232368080Rated making capacityI rms at 400 V Cat. AC-23BA30030030030060010002000400060008000Rated breaking capacityI rms at 400 V Cat. AC-23BA2402402402404808001600320048006400Mechanical durabilityNumber of operating cycles1000010000100001000010000100008000600050005000Electrical durabilityNumber of operating cycles Cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001500/3001500/3001000/2001000/2001000/200500/100CablingCable (c.s.a. min/max)mm22.5/62.5/62.5/62.5/162.5/164/5016/15025/3002 x 150–AWG#14/#10#14/#10#14/#10#14/#6#14/#6#12/#1#6/300 Kcmil#4/600 Kcmil#2/600 Kcmil–Bars (max width)mm-----203245100100Tightening torqueN.m3 (for wire)4 (for wire)5.5 (for wire)3.5 (for wire)3.5 (for wire)4 (for wire)18 (for lug)35 (for lug)35 (for lug)35 (for lug)lb-in272748313135.4160310310310(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.References:pages B5/8 and B5/9Dimensions:pages B5/30 to B5/32Schemes: page B5/33Ref.";i:386;s:2384:"B5/23Switch- disconnector fusesUL, CSA, IEC - For CC and J fuses - From 32 to 800 ASwitch-disconnector-fuse characteristicsTypeGS1DDU3GS1DU3GS2EEU3GS2EU3NGS2GU3NGS2JU3NGS2MU3NGS2QU3NGS2SU3GS2TU3EnvironmentConforming to standardsSwitch-disconnector fusesUL 489, CSA 22.2 n°5,IEC 60947-3UL 98, UL 248, CSA 22.2 n°4,IEC 60947-3UL 98, CSA 22.2 n°4,IEC 60947-3FusesUL 248UL 248Degree of protectionconforming to IEC 60529With terminal coversIP 20IP 20Ambient air temperaturearound the deviceStorage°C-40...+80-40...+80Operation°C-20...+70-20...+70Flame resistanceconforming to IEC 60695-2-1Body°C960960960960Fuse cover°C––850850Pole characteristicsConventional thermal current (Ith)for ambient temperature y 40 °CA3030303060100200400600800Fuse sizeCCJCCJJJJJJLRated insulation voltage (Ui)V80080075075075075075080010001000Rated impulse withstand voltage (Uimp)kV888888881212Rated operational current (Ie)Cat. AC-23A/B (1)a 400 VA3232323263100200400630800a 500 VA3232323263100200315630630a 690 VA3232323263100200250630630Rated operational powerCat. AC-23A/B (1)a 400 VkW151515153051100220355450a 500 VkW18.518.518.518.54063140220450560a 690 VkW252525255590185220600600Prospective short-circuit current withstandConforming to UL 98 / UL 489a 600 VkA100100200200100200200200200200Peak value of permissible current (dynamic short-circuit withstand)Conforming to IEC 60269-1a 400 VkA5.55.57.617.617.62232368080Rated making capacityI rms at 400 V Cat. AC-23BA30030030030060010002000400060008000Rated breaking capacityI rms at 400 V Cat. AC-23BA2402402402404808001600320048006400Mechanical durabilityNumber of operating cycles1000010000100001000010000100008000600050005000Electrical durabilityNumber of operating cycles Cat. AC/DC-23A/B (1)1500/3001500/3001500/3001500/3001500/3001500/3001000/2001000/2001000/200500/100CablingCable (c.s.a. min/max)mm22.5/62.5/62.5/62.5/162.5/164/5016/15025/3002 x 150–AWG#14/#10#14/#10#14/#10#14/#6#14/#6#12/#1#6/300 Kcmil#4/600 Kcmil#2/600 Kcmil–Bars (max width)mm-----203245100100Tightening torqueN.m3 (for wire)4 (for wire)5.5 (for wire)3.5 (for wire)3.5 (for wire)4 (for wire)18 (for lug)35 (for lug)35 (for lug)35 (for lug)lb-in272748313135.4160310310310(1) Category “A”: frequent operating cycles, category “B”: infrequent operating cycles.References:pages B5/8 and B5/9Dimensions:pages B5/30 to B5/32Schemes: page B5/33Ref.";i:387;s:1822:"B5/24Switch- disconnector fusesCharacteristicsTeSys PowerSwitch-disconnector fusesAuxiliary contactsGS1AMp11, GS1AM1 and GS1AM2 early break and signalling contact characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA16Rated operational current (Ie)Cat. AC-15A127 V: 5 - 230 V: 4 - 400 /415 V: 3 - 440 V: 2Cat. DC-13A24 V: 12 - 48 V: 2 - 110 V: 0.6 - 220 V: 0.4DurabilityNumber of operating cyclesMechanical: 1000000Electrical: cat. AC-15: 30000Fuse protectiongGA6 maxCabling mmFaston connectors: 1 x 6.35 or 2 x 2.8GS1AN and GS1ANT signalling contact characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA20Rated operational current (Ie)Cat. AC-15A127 V: 12 - 230 V: 10 - 400/415 V: 8 - 440 V: 6Cat. DC-13A48 V: 4 - 110 V: 1.2 - 220 V: 1DurabilityNumber of operating cyclesMechanical: 30000 Electrical: cat. AC-15: 30000Fuse protectiongGA16 maxCablingCable (c.s.a. min/max)mm2Min: 1.5 - max: 10GS1AM110 and GS1AM101 early break and signalling contact characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA10Rated operational current (Ie)Cat. AC-15A120 V: 6 - 240 V: 3 - 400 V: 1.8 - 480 V: 1.5Cat. DC-13A24 V: 2.8 - 48 V: 1.4 - 125 V: 0.55 - 250 V: 0.27 - 400 V: 0.15DurabilityNumber of operating cyclesMechanical: 5000000Electrical: cat. AC-15: 1000000CablingCable (c.s.a. min/max)mm2Min: 1 x 0.22 - max: 2 x 2.5GSpAF "blown fuse" signalling contact characteristicsConventional thermal current (Ith) for ambient temperature y 40 °CA16Rated operational current (Ie)Cat. AC-15A230 V: 4 - 400 V: 3Cat. DC-13A24 V: 12 - 48 V: 2 - 110 V: 0.6 - 220 V: 0.4DurabilityNumber of operating cyclesMechanical: 30000Electrical: cat. AC-15: 30000CablingmmFaston connectors: 1 x 6.35References:page B5/12Dimensions:page B5/33Schemes: page B5/33Ref.";i:388;s:940:"B5/25Switch- disconnector fusesIEC - GS1pp (32 A) Switch-disconnector-fuseDirect front-mounted operatorGS1DDGS1DDB45658,5149637,5351521,51721,55,211244196,579,5982xØ5DF568730.eps9845658,5149637,5155,211244196,579,583982xØ5DF568731.epsExternal front-mounted operatorGS1DDDoor cut-out1537,514447090° 65°ITe stO3549Ø78102 min. (1)DF568732.eps4xØ72840Ø37DF568735.epsGS1DDBDoor cut-out143590° 65°ITe stOØ78447037,51549102 min. (1)DF568734.eps(1) With 1 or 2 auxiliary contacts GS1AM1pp: 130 mm.(2) With 3 or 4 auxiliary contacts GS1AM1pp: 155 mm.4xØ72840Ø37DF568739.epsExternal right-hand side-mounted operatorGS1DDDoor cut-out49494419706,59652,5I7090° OØ7836 min.DF568736.eps404xØ728Ø37DF568733.epsGS1DDBDoor cut-out449652,54949I7090° OØ7819706,536 min.DF568738.eps404xØ728Ø37DF568733.epsDimensionsTeSys PowerSwitch-disconnector fusesReferences:pages B5/4 and B5/5Characteristics:pages B5/18 and B5/19Schemes: page B5/33Ref.";i:389;s:1569:"B5/26Switch- disconnector fusesIEC - GS1pp (50...400 A) Switch-disconnector-fuseDirect right-hand side-mounted operatorGS1FD (50 A), GD (63 A), JD (100 A), KD, KKD (125 A), LD, LLD (160 A), ND (250 A) and QQD (400 A)RG1ØM70°PPP1bb2b1a1aK(2)JGR131 cLc1c2(1) (4) (5) Q H(3) IODF538732.epsGS1aa1bb1b2cc1c2GG1HJKØLMPP1QRR1ØFD3P118–118––87134–275.4106316.55––2733.5––––4P145–118––87134–275.4106316.55––2733.5––––GD3P133–118–159116.5134145325.4106366.55––3236––––4P165–118–159116.5134145325.4106366.55––3236––––JD, KD3P150108162268–116173–365.412740–54414136382019.52.58.54P186144162268–116173–365.412740–54414136382019.52.58.5KKD, LLD3P150108162268141126.5173193365.412740–54414136382019.52.58.54P186144162268141126.5173193365.412740–54414136382019.52.58.5LD3P192136162268174136.5173229505.414054–54414150452019.52.58.54P242172162268174136.5173229505.414054–54414150452019.52.58.5ND3P253180195345185146173251606.416264–66516660813219.52.5114P313240195345185146173251606.416264–66516660813219.52.511QQD3P271192205355200149173260666.417270–665175668650203114P337258205355200149173260666.417270–66517566865020311(1) Terminal cover.(2) Mounting on 5 rail only for GS1FD and GS1GD (50 and 63 A).(3) Protective screen, lockable in I position.(4) 1 or 2 auxiliary contacts GS1AFpp.(5) 1 or 2 auxiliary contacts GS1AMp.DimensionsTeSys PowerSwitch-disconnector fusesReferences:pages B5/4 and B5/5Characteristics:pages B5/18 and B5/19Schemes: page B5/33Ref.";i:390;s:1981:"B5/27Switch- disconnector fusesDimensionsIEC - GS2pp (32...400 A) Switch-disconnector-fuseExternal front and right-hand side-mounted operatorGS2DB (32 A), F (50 A), G, GB, JB (63 A), J (100 A), K, KK (125 A), L, LL, LB, LLB (160 A), MMB (200 A), N, NB (250 A), PPB (315 A), QQ and QQB (400 A)PP2P3c1M1M2PJG1GJ1J245Ø45(1)(2)(3)(4)a31c b2Hb2Mbb3b1P2P1P2Q ØE min.20 min.230 max.DF538733.epsGS2abb1b2b3cc1E min.GG1HJJ1J2ØMM1M2PP1P2P3QØF, DB3P121118–708587 (5)153100 (5)275.41063145185–15627592–12–4P148118–708587 (5)153100 (5)275.41063145185–15627592–12–G, GB3P136118–70159116.5 (6)145125325.41063650185–15632592–12–4P168118–70159116.5 (6)145125325.41063650185–15632592–12–J, JB, K3P148162268125141116 (6)187135365.4127405418514141836622.519.5208.54P184162268125141116 (6)187135365.4127405418514141836622.519.5208.5KK, LL3P148162268125141126.5 (6)193135365.4127405418514141836622.519.5208.54P184162268125141126.5 (6)193135365.4127405418514141836622.519.5208.5L, LB, LLB3P190162268125174136.5229145505.4140546418514141850622.519.5208.54P240162268125174136.5229145505.4140546418514141850622.519.5208.5MMB, NB, N3P234195345125185146251154606.41626486256166521760842.519.532114P294195345125185146251154606.41626486256166521760842.519.53211PPB, QQB, QQ3P252205355125200149260157666.417270912561755414.5668432050114P318205355125200149260157666.417270912561755414.566843205011(1) Terminal cover.(2) Rear access connector plates (option).(3) 1 to 8 auxiliary contacts GS1AM1pp.(4) 1 or 2 auxiliary contacts GS1AFpp.(5) 1 auxiliary contact GS1AM1pp: + 23.5 mm, 2 auxiliary contacts GS1AM1pp: + 47 mm.(6) 132 mm with 2 auxiliary contacts GS1AM1pp.Door cut-outFor external front-mounted operatorFor external right-hand side-mounted operator90° 65°ITe stO4xØ72840Ø37Ø78DF568742.epsIO90° 404xØ728Ø37Ø78DF568743.epsTeSys PowerSwitch-disconnector fuses References:pages B5/6 and B5/7Characteristics:pages B5/20 and B5/21Schemes: page B5/33Ref.";i:391;s:791:"B5/28Switch- disconnector fusesDimensionsIEC - GS2pp (630...1250 A) Switch-disconnector-fuseDirect front-mounted operatorGS2S, SB (630 A), TB (800 A), V and VB (1250 A)(2) (1) 250b22G113426090235,5471PP9c1155QR597(3)c79,585,5a235,518877300Ø13E min.DF568745.epsGS2abcc1E min.GPQRS, SB, TB3P3643002503802652849451654P458300250380265378945165V, VB3P44235528929530436212077884P5623552892953044821207788(1) Handle GS2AH104 for GS2S, GS2SB and GS2TB.(2) Terminal cover. (3) Rear access connector plates (GS2V and GS2VB).Handle GS2AH105 for GS2V and GS2VB (direct front-mounted operator)Connector plates for GS2V and GS2VB10328165165330DF568746.eps402520Ø1377DF568747.epsTeSys PowerSwitch-disconnector fuses References:page B5/5Characteristics:pages B5/19 to B5/21Schemes: page B5/33Ref.";i:392;s:678:"B5/29Switch- disconnector fusesDimensionsIEC - GS2pp (630...1250 A) Switch-disconnector-fuseExternal front and right-hand side-mounted operatorGS2S, SB (630 A), TB (800 A), V and VB (1250 A)613461210b21022E min.15 min.DF538734.epsGS2bE min.S, SB, TB3P2972654P297265V, VB3P3503044P350304Handle GS2AH570 or GS2AH580 for GS2V and GS2VB (external front-mounted operator)165165350603990° IODF568749.epsDoor cut-outFor external front-mounted operatorFor external right-hand side-mounted operator90° IO4xØ72840Ø37Ø78DF568750.epsIO90° 404xØ728Ø37Ø78DF568751.epsTeSys PowerSwitch-disconnector fuses References:page B5/5Characteristics:pages B5/19 to B5/21Schemes: page B5/33Ref.";i:393;s:778:"B5/30Switch- disconnector fusesDimensionsTeSys Power Switch-disconnector fusesUL, CSA, IEC - GS1pp GS2pp Switch-disconnector fuses (30 and 60 A)GS1DU3 (30 A) class CC fuses, GS1DDU3 (30 A) class J fusesDB417416.epsRatingFHJJ1NN1AAZ30 / CC9683.537.51579.525.511628.530 / J1059937.51579.525.511628.5GS2EEU3 (30 A) class CC fuses153311499912512566.545292910.3126.5DB417417.epsGS2EU3N, GS2GU3N (60 A) class J fusesDB417418.epsAccessoriesHandle for 30 and 60 A switch-disconnector fusesExternal front handleDoor cut-outExternal side handleDoor cut-out1537,514447090° 65°ITe stO3549Ø78DF568732.eps4xØ72840Ø37DF568735.eps49494419706,59652,5I7090° OØ78DF568736.eps404xØ728Ø37DF568733.epsReferences:pages B5/8 and B5/9Characteristics:pages B5/22 and B5/23Schemes: page B5/33Ref.";i:394;s:656:"B5/31Switch- disconnector fusesDimensionsTeSys PowerSwitch-disconnector fuses UL, CSA, IEC - GS2pp Switch-disconnector fuses (100 and 400 A)GS2JU3N (100 A) class J fusesGS2MU3N (200 A) class J fuses149.3122.2186172133363637.2DB417419.epsDB417420.epsGS2QU3N (400 A) class CC fuses180111.1390202.5101.25101.25259757524066668324.9DB417421.epsAccessoriesHandle for 100, 200 and 400 A switch-disconnector fusesFor external front-mounted operatorFor external right-hand side-mounted operator90° 65°ITe stO4xØ72840Ø37Ø78DF568742.epsIO90° 404xØ728Ø37Ø78DF568743.epsReferences:pages B5/8 and B5/9Characteristics:pages B5/22 and B5/23Schemes: page B5/33Ref.";i:395;s:557:"B5/32Switch- disconnector fusesDimensionsTeSys PowerSwitch-disconnector fuses UL, CSA, IEC - GS2pp Switch-disconnector fuses (600 and 800 A)GS2SU3 (600 A), GS2TU3 (800 A) class J fusesmin 26525015579.5907730038059730047185.585.5Ø13260250126.528465 34994945136411DB417422.epsAccessoriesHandle for 600 and 800 A switch-disconnector fusesFor external front-mounted operatorFor external right-hand side-mounted operator90° IO4xØ72840Ø37Ø78DF568750.epsIO90° 404xØ728Ø37Ø78DF568751.epsReferences:page B5/9Characteristics:page B5/23Schemes: page B5/33Ref.";i:396;s:705:"B5/33Switch- disconnector fusesAuxiliary contactsGS1AM111, GS1AM211GS1AM110, GS1AM1011898DF538730.eps242465DF538731.epsSchemes3-pole GS4-pole GS32 to 1250 A32 A50 to 1250 A1/L13/L25/L32/T14/T26/T3DF568508.eps1/L13/L25/L32/T14/T26/T37/L38/T3DF568510.eps1/L13/L25/L32/T14/T26/T37/L38/T3DF510769.epsAuxiliary contactsGS1AM110GS1AM101GS1AM111 and GS1AM1GS1AM211 and GS1AM21 N/O1 N/C1 C/O2 C/Op3p4DF568512.epsp2p1DF568513.eps111412DF568514.eps111412212422DF568515.epsGS1ANppGS1AFp1 N/C + 1 N/O2 N/C + 2 N/O1 C/O2 C/O13142221DF568517.eps1314222133344241DF510768.eps142DF568516.eps111412212422DF568515.epsDimensions, schemesTeSys PowerSwitch-disconnector fuses References:page B5/12Characteristics:page B5/24Ref.";i:397;s:31:"B5/34Switch- disconnector fuses";i:398;s:1537:"B6/1Motor circuit breakersTeSys Power - Deca, Giga Motor circuit breakersType of productRange (400/415 V AC) PagesIntroductionB6/3TeSys Deca Frame 2 - Motor circuit breakers Magnetic, Thermal magnetic(Product ref. GV2L, GV2LE, GV2P, GV2ME)0.06 or 15 kWB6/11TeSys Deca Frame 2 - Motor circuit breakers Thermal magnetic - delayed tripping - For high current peak motors or 3-phase transformers (Product ref. GV2RT)Add-on blocks, accessories (for TeSys Deca Frame 2 circuit breakers)0.09 or 11 kWB6/18TeSys Deca Frame 3 - Motor circuit breakers Magnetic, Thermal magnetic(Product ref. GV3L, GV3P)Add-on blocks, accessories (for TeSys Deca Frame 3 circuit breakers)5.5 to 45 kWB6/25TeSys Deca Frame 4 - Motor circuit breakers Magnetic, Thermal magnetic(Product ref. GV4L, GV4LE, GV4P, GV4PE, GV4PEM, GV4PB)Add-on blocks, accessories (for TeSys Deca Frame 4 circuit breakers)0.25 to 55 kW1/2 to 60 HPB6/31TeSys Giga Frame 5, 6 - Motor circuit breakers Thermal magnetic(Product ref. GV5P, GV6P)Add-on blocks, accessories (for TeSys Giga Frame 5, 6 circuit breakers)55 to 250 kWB6/49PowerLogic™ Energy measurement solutionsPowerTag Energy sensors can be used with TeSys Deca, Giga motor circuit breakersB6/58PowerTag Energy Link Modbus TCP/IP concentrator for PowerTag Energy sensorsB6/62TeSys Power - Modular circuit breakers for auxiliary circuitsModular circuit breakers Thermal magnetic(Product ref. GB)0.5 to 20 AB6/63Technical Data for Designers B6/69Chapter B6 TeSys PowerDeca, Giga and Modular Motor circuit breakersTeSysPower";i:399;s:27:"B6/2Motor circuit breakers";i:400;s:3488:"B6/3Motor circuit breakersTeSys PowerDeca, Giga Motor circuit breakersIntroductionCircuit breakers for motor protection and controlDeca, Giga motor circuit breakers provide compact, reliable and efficient solutions for: bisolation, bprotection against short circuits and overloads, bOn-Off manual control of motors from 0.06 to 250 kW.They are conforming to, depending of the versions, IEC/EN 60947-1, IEC/EN 60947-2, IEC/EN 60947-4-1 and UL 60497-4-1, CSA 22.2 n° 60497-4-1.Deca, Giga protection technologiesDeca, Giga circuit breakers are carried with 3 variants: bMagnetic detection: product references GV2LE, GV2L, GV3L, GV4L, GV4LE for protection against short-circuit. bThermal-magnetic: product references GV2ME (1), GV2P, GV3P, GV4P, GV4PE, GV5, GV6 for protection against short-circuits, overload, phase loss and phase unbalance. bAdvanced: product references GV4PEM combines GV4P protections and motor jam, long start, ground-fault protections.With a magnetic circuit breaker, a thermal relay is frequently associated in order to have a short circuit protection and an overload protection.TeSys Deca - Frame 2 circuit breakers: 45 mm width, for motors up to 15 kW The most commonly used circuit breaker. with a choice of about 100 auxiliaries and accessories. TeSys Deca Frame 2 circuit breakers and TeSys K, Deca contactors can be easily assembled as a single block with one accessory. The high Frame 2 electrical endurance (up to 100 000 operating cycles) makes it very suitable for direct manual motor control, especially ref. GV2ME (1) (thermal-magnetic c.b., Ith up to 32 A).Enclosure mounting is well adapted to ref. GV2L and GV2P, with their possible extended rotary handle and visible trip indication.TeSys Deca - Frame 3 circuit breakers: 55 mm width, for motors up to 45 kWHigh performance breakers, high breaking capacity (Ics 100 kA /400 V for ratings up to 32 A, 50 kA up to 80 A). Wide choice of auxiliaries / accessories, possible extended rotary handle. Visible tri indication.Patended Everlink connectors provide everlasting connection (no re-tightening required).Direct monoblock starter assembly with TeSys Deca contactors. No accessory required.TeSys Deca - Frame 4 circuit breakers: 81 mm width, for motors up to 55 kWState-of-the-art technology, TeSys Deca Frame 4 is compact and robust. Electronic core of ref. GV4P gives a great detection accuracy, with alarming and advanced protections for ref. GV4PEM, GV4PB.Magnetic, electronic thermal-magnetic, or electronic thermal magnetic with advanced protections versions.Ratings up to 115 A with breaking capacity Ics of 25 kA/400 V (B series), 50 kA/400 V (N series) or 100 kA/400 V (S series). TeSys Giga - Frame 5: 105 mm width, for motors up to 110 kW / Frame 6: 140 mm width, for motors up to 250 kWTeSys Giga - Frame 5 and 6 with advanced thermal-magnetic trip unit provide more effective protection to high power motors in the most demanding appliances. They provide protection to motors against overloads with selection of a trip class (5, 10 or 20), short-circuits, phase unbalance or phase loss.Adjustable over-load and short circuit current settings provide flexibility.Wide choice of auxiliaries/accessories are available for indication, control and operation.(1) Ref. GV2MEppAP are specific GV2ME references for CEE zone. GV2LEPB111879_21.epsGV2PPB121672.epsGV2MEPB121673.tifGV4pEpppPB114913.epsGV4ppppPB114914.epsGV5P150FPB120632.epsGV6P500FPB120633.epsGV3LPB121697.tifPB121680.tifGV3P80";i:401;s:1694:"B6/4Motor circuit breakersTeSys Deca, Giga circuit breakers - Range overviewMolded case circuit breakers for motor protection and control Deca - Frame 2Product referenceProtection againstRange (kW / 415 V AC)ControlTerminalsDimensions (W x H x D)Short-circuitsOverloadJam, ground-fault, long start...(Multifunction - see page B6/6)GV2Lp0.09 to 15Rotary handleScrew clamp44.5 x 89 x 97(with rotary handle)GV2LEp0.06 to 15ToggleScrew clamp44.5 x 89 x 78.5(with toggle)GV2Ppp0.06 to 15Rotary handleScrew clamp44.5 x 89 x 97(with rotary handle)GV2ME (1)pp0.06 to 11Push buttonScrew clamp, lug or spring44.5 x 89 x 78.2(with push button) (2)GV2RTpp0.09 to 11ToggleScrew clamp 44.5 x 89 x 78.5 (with toggle)Deca - Frame 3GV3Lp11 to 45Rotary handleLug, EverLink(BTR screw)55 x 132 x 136 (with rotary handle)GV3Ppp5.5 to 45Deca - Frame 4GV4Lp0.25 to 55 kWRotary handleLug, EverLink(BTR screw)81 x 156 x 116(with toggle)81 X 156 x 165(with rotary handle)GV4LEpToggleGV4PppRotary handleGV4PEppToggleGV4PEMpppToggleGV4PBppp½ to 60 HPToggleGiga - Frame 5GV5P150ppp55 to 110Direct rotary handleLug, screw clamp105 x 161 x 155 (3) (with direct rotary handle)GV5P220ppp Giga - Frame 6GV6P320ppp132 to 250Direct rotary handleLug, screw clamp140 x 255x 179 (3) (with direct rotary handle)GV6P500ppp(1) Ref. GV2MEppAP are specific GV2ME references for CEE zone.(2) 44.5 x 101 x 78.2 mm for GV2MEpp3.(3) Depth without keylock.Introduction TeSys PowerDeca, Giga Motor circuit breakersGV2LPB121671.epsGV2LEPB111879_10.epsGV2PPB121672.epsGV2MEPB121673.tifGV2RTPB121313.epsGV3LPB121697.tifGV3PPB121680.tifGV4LPB114914_L14.epsGV4PPB114914_L14.epsGV4PEMPB114917_14.epsGV6P500FPB120633.epsGV5P150FPB120632_L16.eps";i:402;s:2930:"B6/5Motor circuit breakersIntroduction TeSys PowerDeca, Giga Motor circuit breakersBasic functionsShort circuit protection (magnetic/thermal magnetic circuit breakers)It provides a protection of the installation against short-circuit by an instantaneous trip of the circuit breaker. The tripping is obtained by means of a magnetic element incorporated in the motor circuit breaker or by an electronic detection (ref. GV4P, GV5 and GV6).The magnetic tripping threshold is not adjustable, except on ref. GV4L, and is a fixed ratio of the maximum setting current In.Overload protection (thermal magnetic circuit breakers)It provides a protection of the motor against overload. When current drawn bythe motor is above its rated current, this continuous overcurrent lead toincrease of motor internal temperature and reduce motor life time. Use ofsuitable protective device shall avoid this damage to the motor. This is obtained by means of a thermal element incorporated in the motor circuit breaker, or by sensors for electronic products (ref. GV4P, GV5 and GV6).An automatic compensation for ambient temperature variations is also provided. The rated operational current of the motor is displayed by turning a graduated knob.Motor ON/OFF controlThe circuit breaker provides a local manual control of the motor when used on its own (without contactor). The operation is possible by push buttons, toggle, or a single rotary handle. Contacts position indicationBecause they are suitable for isolation, the circuit breakers, in the open position, provide an adequate isolation distance and indicate the accurate position of the moving contacts by the position of the operators.Additional functionsThey are provided by additional modules.Under voltage protectionTrips the circuit breaker in case of under voltage. The user is therefore protected against sudden starting of the machine when normal voltage is restored. Circuit breaker reset and/or start button “I” has to be pressed to restart the motor.Remote off-powerCircuit breaker can be remotely tripped with the addition of a shunt trip.Off-power lockingThe operators on both open-mounted and enclosed motor circuit breakers can be locked in the off position “O” by up to 3 padlocks.2/T14/T26/T31/L13/L25/L3DF510744.epsThermal protection circuit breaker (with rotary control)2/T14/T26/T31/L13/L25/L3DF569068.epsThermal magnetic protection circuit breaker(with rotary control) Motor circuit breakers versus fuse protection ?Circuit breakers are a common solution for Powering motor against short circuits and overloads. As a comparison, a fuse based solution can only provide a partial protection depending on the choice of the fuse type and rating. The thermal magnetic circuit breaker is adjustable and can be fine-tuned to the practical motor load.The fuse based solution offers a very fast protection.Fault signalling97980605DF537476.epsVoltage tripD1D2DF537469.eps";i:403;s:2221:"B6/6Motor circuit breakersIntroductionTeSys PowerDeca, Giga Motor circuit breakersAdvanced protections embedded on Deca - Frame 4 ref. GV4PEM, GV4PB (multifunction)In addition to basic protections, ref. GV4PEM, GV4PB embed protections against: bLong start (high inertia, resistive torque machines) bJam (overtorque, machine failure) bGround-fault (reduced isolation) bUnbalanced (phase currents are not equal) bPhase loss (1 or 2 phases missing).Fully configurable-advanced protections: bwireless with ‘EcoStruxure Power Device App’ application for Android smartphone through NFC (near field communication).OFFOFSDTeSysMN250V4681012212010CLASSIr(A)READYALARM>XXA>95%1514li=1725AIr I sdIitiL1L2L3L1L2L3GV4P EM115SUi mp 8kVUi 800VIn:115AUe(V)Icu(kA)Ics(kA)220 /240380 /415440500525690 /690120100703018101201007030182.550/ 60HzIEC/EN 6094 7- 2 Cat A 40°CWith Everlink LAD96595mm² (Rig id)1 x 1, 5.....70 C u1 x 1, 5.....95 CuPower tight ening torquemm² N.my10u16591 x 1, 5.....70 Cu1 x 1, 5.....95 C uEverLinkPate nted technologyDB439411.eps bwith EcoStruxure Power Commission software on a computer connected to the test socket through a configuration and maintenance module.2010CLASSIr(A)102100115807565708693READYALARM>95% T°PPYYWWDIr IsdIitili=1955AL1L2L3DB439412.epsRemote indications:Ref. GV4PEM, GV4PB circuit breaker may be equipped with an SDx alarming / fault differentiation module to prevent to trip or to identify the type of fault after a trip (see page B6/44).SDxTT95%TA MUN BGFJAMLSSDX12SDXSDTAMNTT95%TAMUNBGFJA MLS12141564128OFF10OFFOFSDTeSysMN250V4681012212010CLASSIr(A )READYALARM>XXA>95%1514li=1 725AIr IsdIitiL1L2L3L1L2L3GV4P EM115SUimp 8kVUi 8 00 VIn:115 AUe(V)Icu (kA) Ics(kA)220/24 0380/41 5440500525690/69 01201007030181012 010 07030182.550/60HzIEC/EN 609 47- 2 Cat A 40°CWith Everlink LAD96595mm² ( Rigi d)1 x 1,5.....70 C u1 x 1,5.....95 C uPower tightening torquemm² N.my10u16591 x 1,5.....70 Cu1 x 1,5.....95 CuEverLinkPatented technologymm² (F lexible)DB439413.epsPB114917.eps";i:404;s:1189:"B6/7Motor circuit breakersIntroductionTeSys PowerDeca, Giga Motor circuit breakersNo overheating connections - EverLink creep-compensated terminals for Frame 3, 4The EverLink patented technology for terminals dramatically reduces the risk of loose bare cables due to copper creeping. Vibration withstand is improved and periodic re-tightening is no longer needed.The clamp connectors which don’t need re-tightening.Creeping phenomenaCopper conductors are subject to creep with the time, reducing the contact pressure in conventional clampsDuring the tightening a force is applied on the conductors and on a spring.Maintaining of cables assured by pressure of spring and crimping of conductor on the contact plate.The spring compensates for cable conductor creep. Tightening force is assured. EverLink technology for Frame 3 and 4Frame 3 and 4 features a cable connection method with patented creep-compensating technology built directly into the terminal — EverLink:• With EverLink connectors, save space and time during panel assembly.• Bare cable connections are as safe as compression lug ones.PB121680.tifEverLink terminals, with BTR screwsDF526139.epsPB114914_24.eps";i:405;s:1838:"B6/8Motor circuit breakersIntroductionTeSys PowerDeca, Giga Motor circuit breakersAuxiliary functions provided by add-on blocksTeSys Deca - Frame 2TeSys Deca - Frame 3TeSys Deca - Frame 4TeSys Giga - Frame 5, 6 Auxiliary contacts add-on blocks For control, alarms, automatic actions: b Instantaneous indication of the position of the circuit breaker contacts b Trip indication, b Alarming. Trip units For remote tripping of circuit breaker: b Shunt trip / MX, trips the circuit breaker when powered b Undervoltage release / MN, trips the circuit breaker when voltage is loss. Open/Closepoles status GVAEUndervoltage releaseGVAUShunt tripGVASOpen/Closepoles status GVAEUndervoltage releaseGVAUShunt tripGVASShort circuit signallingGVAM11Short circuit signallingGVAM11Open/Closepoles status2945029452MN250V~/=SDXSDxSDx Auxiliary contacts for GV4PEM(alarming and fault differentiation)GV4ADM1111Trip statusGV4AE11Open/Closepoles statusGV4AE11Undervoltage releaseGV4AUShunt tripGV4ASOFFOFSDTeSysMN250V4681012212010CLASSIr(A)READYALARM>XXA>95%1514li=1725AIr Is dIitiL1L2L3L1L2L3GV4P EM115SUimp 8kVUi 800VIn:115AUe(V)Ic u(kA)Ics(kA)220/2 40380/4 15440500525690/6 90120100703018101201007030182.550/60HzIEC/EN 60947-2 Cat A 40°CWith Everlink LAD96595mm² (Rigid)1 x 1,5.....70 Cu1 x 1,5.....95 CuPower tightening torquemm² N.my10u16591 x 1,5 .....70 Cu1 x 1,5 .....95 Cumm² (Flexible)EverLinkPatented technologyUndervoltage releaseGV4AUShunt tripGV4ASHpHp1015203040751003PhResetTrip-ON-OFFTeSysGV5P 150FUimp 8kVUi 8 00VIn 150A50/60HzUe(V)Icu(kA)Ics(kA)230415440500690853635308853635308GB/TUL140 48. 4609 47- 4- 1LIS TED Man. MotorContr ollerIEC/ EN 6094 7-2 60947- 4-1 Thermal fault alarming /trip signalization moduleLV429424DB439580.eps";i:406;s:533:"B6/9Motor circuit breakersIntroductionTeSys PowerDeca, Giga Motor circuit breakersCompact power circuits wiring with TeSys Deca circuit breakers (Frame 2) and Deca contactors (1)Busbars and combination blocksPower busbars and combinations blocks provide a compact solution for assembling a group of motor starters. Theysave wiring time and provide a clear finish aspect.These solutions are available for Deca - Frame 2 circuit breakers + Deca contactors.DB425981.eps(1) Details on these solution in chapter B2 of catalogue.";i:407;s:28:"B6/10Motor circuit breakers";i:408;s:62:"B6/11Motor circuit breakersTeSys Deca - Frame 20.06 to 15 kW";i:409;s:1545:"B6/12Motor circuit breakersProduct referencesMotor circuit breakers from 0.09 to 15 kWDeca - Frame 2 (ref. GV2L): Control by rotary knob, connection by screw clamp terminalsStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Magnetic protection ratingTripping current Id ± 20 %Use in association with thermal overload relay (class 10 A)Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkAkWkAkWkAAA0.09gg––––––0.45LRD03GV2L030.12gg–––0.37gg0.638LRD04GV2L040.18gg––––––0.638LRD04GV2L04––––––0.55gg113LRD05GV2L050.25gg––––––113LRD05GV2L05––––––0.75gg113LRD06GV2L050.37gg0.37gg–––113LRD05GV2L050.55gg0.55gg1.1gg1.622.5LRD06GV2L06–––0.75gg–––1.622.5LRD06GV2L060.75gg1.1gg1.541002.533.5LRD07GV2L071.1––––––––LRD08GV2L081.5gg1.5gg34100451LRD08GV2L08–––––––––LRD08GV2L082.2gg3gg441006.378LRD10GV2L103gg4101005.5410010138LRD12GV2L144––––––––LRD14GV2L14––––––7.5410010138LRD14GV2L14––––––9410014170LRD16GV2L165.550507.5107511410014170LRD16GV2L167.550509107515410018223LRD21GV2L209505011107518.5410025327LRD22GV2L22115050151075–––25327LRD22GV2L2215505018.5107522410032416LRD32GV2L32TeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticGV2L16PB121671.tif(1) As % of Icu. Associated current limiter or fuses, where required. g > 100 kA.Characteristics:pages B6/72 to B6/74Curves:pages B6/77 to B6/82Dimensions, schemes:pages B6/90 to B6/92, B6/99";i:410;s:1619:"B6/13Motor circuit breakersMagnetic motor circuit breakers from 0.06 to 15 kWDeca - Frame 2 (ref. GV2LE): control by rocker lever, connection by screw clamp terminalsStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Magnetic protection ratingTripping current Id ± 20 %Use in association with thermal overload relayReference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkAkWkAkWkAAA0.06gg––––––0.45 LR2K0302GV2LE030.09gg––––––0.45 LR2K0304GV2LE030.12gg–––0.37gg0.638 LR2K0304GV2LE040.18gg––––––0.638 LR2K0305GV2LE04––––––0.55gg113 LR2K0305GV2LE050.25gg––––––113 LR2K0306GV2LE05––––––0.75gg113 LR2K0306GV2LE050.37gg0.37gg–––113 LR2K0306GV2LE050.55gg0.55gg1.1gg1.622.5 LR2K0307GV2LE06–––0.75gg–––1.622.5 LR2K0307GV2LE060.75gg1.1gg1.53752.533.5 LR2K0308GV2LE071.1gg––––––2.533.5 LR2K0308GV2LE071.5gg1.5gg3375451 LR2K0310GV2LE08–––2.2gg–––451 LR2K0312GV2LE082.2gg35010043756.378 LR2K0312GV2LE103gg4101005.537510138 LR2K0314GV2LE144gg5.510100–––10138 LR2K0316GV2LE14––––––7.537510138 LRD14GV2LE14––––––937514170 LRD16GV2LE165.515507.56751137514170 LR2K0321GV2LE167.5155096751537518223 LRD21GV2LE20915401147518.537525327 LRD22GV2LE2211154015475–––25327 LRD22GV2LE2215105018.54752237532416 LRD32GV2LE32(1) As % of Icu.g > 100 kA. TeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticGV2LEPB111879.epsProduct referencesCharacteristics:pages B6/72 to B6/74Curves:pages B6/77 to B6/82Dimensions, schemes:pages B6/90 to B6/92, B6/99";i:411;s:2379:"B6/14Motor circuit breakersMotor circuit breakers from 0.06 to 15 kW / 400 V, with screw clamp terminalsDeca - Frame 2 (ref. GV2ME) with pushbutton controlStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips (2)Magnetic tripping current Id ± 20 %Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkA%kWkA%kWkA%AA–––––– –––0.1...0.161.5GV2ME010.06gg––– –––0.16...0.252.4GV2ME020.09gg––– –––0.25...0.405GV2ME030.12 0.18ggg g– –– –– – 0.37 –g –g –0.40...0.638GV2ME040.25gg––– 0.55gg0.63...113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g gg g g – 0.75 1.1– g g– g g1...1.622.5GV2ME060.75gg1.1gg 1.53751.6...2.533.5GV2ME071.1 1.5g gg g1.5 2.2g gg g 2.2 33 375 752.5...451GV2ME082.2gg350100 43754...6.378GV2ME103 4g gg g4 5.510 10100 100 5.5 7.53 375 756...10138GV2ME145.5 –15 –50 –7.5 –6 –75 – 9 113 375 759...14170GV2ME167.515509675 1537513...18223GV2ME209154011475 18.537517...23327GV2ME2111154015475 –––20...25327GV2ME22 (3)15105018.5475 2237524...32416GV2ME32Motor circuit breakers from 0.06 to 15 kW / 400 V, with lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: ref. GV2ME08 becomes GV2ME086.Thermal magnetic circuit breakers GV2ME with built-in auxiliary contact blockWith instantaneous auxiliary contact block (composition, see page B6/21): b GVAE1, add suffix AE1TQ to the motor circuit breaker reference selected above. Example: GV2ME01AE1TQ.b GVAE11, add suffix AE11TQ to the motor circuit breaker reference selected above. Example: GV2ME01AE11TQ.b GVAN11, add suffix AN11TQ to the motor circuit breaker reference selected above. Example: GV2ME01AN11TQ. These circuit breakers with built-in contact block are sold in lots of 20 units in a single pack. (1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2MC or MP, please consult your Regional Sales Office. g > 100 kA. GV2MEPB121673.tifTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticProduct referencesCharacteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/85Dimensions, schemes:pages B6/93 to B6/97, B6/99";i:412;s:1117:"B6/15Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticProduct references - UL applicationsGV2MEPB121673.tifMotor circuit breakers from 3/4 to 20 HP / 460 V, with screw clamp terminalsDeca - Frame 2 (ref. GV2ME) with pushbutton controlThermal setting (A)Maximum Horsepower ratingsGroup Motor applicationsReferenceSingle-PhaseThree-Phase115 V200 V230 V115 V200 V230 V460 V575 VMax. Fuse or Circuit breaker (A)0.1...0.16––––––––450GV2ME010.16...0.25––––––––450GV2ME020.25...0.40––––––––450GV2ME030.40...0.63––––––––450GV2ME040.63...1–––––––1/2450GV2ME051...1.6––1/10–––3/43/4450GV2ME061.6...2.5–1/61/6–1/21/211.5450GV2ME072.5...41/81/41/3–3/43/423450GV2ME084...6.31/41/21/23/411.535450GV2ME106...101/211.512357.5450GV2ME149...143/4222331010450GV2ME1613...181232551015450GV2ME2017...231.533357.51520450GV2ME2120...252–––7.57.51520450GV2ME2224...3225557.5102025450GV2ME32Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/85Dimensions, schemes:pages B6/93 to B6/97, B6/99";i:413;s:1787:"B6/16Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticMotor circuit breakers from 0.06 to 11 kW, with spring terminal connectionsDeca - Frame 2 (ref. GV2ME) (1) with pushbutton controlStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips (3)Magnetic tripping current Id ± 20 %Reference400/415 V500 VPIcuIcs (2)PIcuIcs (2)kWkA%kWkA%AA–––––– 0.1...0.161.5GV2ME0130.06gg––– 0.16...0.252.4GV2ME0230.09gg––– 0.25...0.405GV2ME0330.120.18gggg–––0.40...0.638GV2ME0430.250.37gggg0.37gg0.63...113GV2ME0530.370.55gggg0.370.550.75gggggg1...1.622.5GV2ME0630.75gg1.1gg 1.6...2.533.5GV2ME0731.11.5gggg1.52.2gggg2.5...451GV2ME0832.2gg350100 4...6.378GV2ME10334gggg45.510101001006...10138GV2ME1435.515507.5675 9...14170GV2ME1637.515509675 13...18223GV2ME203911151540401147517...23327GV2ME2131115401547520...25327GV2ME223Contact blocksDescriptionMountingMaximum numberType of contactsSold in lots ofUnit referenceInstantaneous auxiliary contactsFront 1N/O + N/C10GVAE113N/O + N/O10GVAE203LH side2N/O + N/C1GVAN113N/O + N/O1GVAN203AccessoryDescriptionApplicationSold in lots ofUnit referenceCable end reducerFor connection of conductors from 1 to 1.5 mm220LA9D99(1) For connection of conductors from 1 to 1.5 mm2, the use of an LA9D99 cable end reducer is recommended.(2) Maximum rating which can be mounted in enclosures GV2MC or MP, please consult your Regional Sales Office(3) The thermal trip setting must be within the range marked on the graduated knob.g > 100 kA. GV2MEpp3PB121698.epsLA9D99DF533898.epsProduct referencesCharacteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/85Dimensions, schemes:pages B6/93 to B6/97, B6/99";i:414;s:2882:"B6/17Motor circuit breakersMotor circuit breakers from 0.06 to 30 kW / 400 V Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips (2)Magnetic tripping current Id ± 20 %Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkA%kWkA%kWkA%AADeca - Frame 2 (ref. GV2P): control by rotary knobScrew clamp terminals–––––––––0.1...0.161.5GV2P010.06gg––––––0.16...0.252.4GV2P020.09gg––––––0.25...0.405GV2P030.12 0.18g gg g– –– –– –0.37 –g –g –0.40...0.638GV2P040.25gg–––0.55g g0.63...113GV2P050.37 0.55g gg g0.37 0.55g gg g– 0.75– g– g1...1.622.5GV2P060.75gg1.1gg1.581001.6...2.533.5GV2P071.1gg1.5gg2.281002.5...451GV2P082.2gg3gg461004...6.378GV2P103gg5501005.561006...10138GV2P145.5 –g –g –7.5 –42 –75 –9 116 6100 1009...14170GV2P167.550509107515410013...18223GV2P209505011107518.5410017...23327GV2P21115050151075–––20...25327GV2P2215505018.5107522410024...32416GV2P32How to use the table : select your load operating voltage, then select its standard power value (below, in the same column). The appropriate circuit breaker is in the extreme right column, in the corresponding row.Exemple: GV2P04 can protect 0.12 and 0.18 kW under 400/415 V, and 0.18 kW under 440 V, and 0,37 kW under 690 V. No 500 V standard power value can fit GV2P04.Motor circuit breakers up to 50 HP / 600 V, UL 60947-4-1 type EDeca - Frame 2 (ref. GV2P) (3)To obtain a GV2P motor circuit breaker, UL 60947-4-1 type E, use the following with the circuit breaker:b a “Large Spacing” adapter GV2GH7.Motor circuit breakers from 3/4 to 20 HP / 460 V, with screw clamp terminalsDeca - Frame 2 (ref. GV2P) with rotary handleThermal setting (A)Maximum Horsepower ratings (4)Group Motor applicationsReferenceSingle-PhaseThree-Phase115 V200 V230 V115 V200 V230 V460 V575 VMax. Fuse or Circuit breaker (A)0.1...0.16––––––––450GV2P010.16...0.25––––––––450GV2P020.25...0.40––––––––450GV2P030.40...0.63––––––––450GV2P040.63...1–––––––1/2450GV2P051...1.6––1/10–––3/43/4450GV2P061.6...2.5–1/61/6–1/21/211.5450GV2P072.5...41/81/41/3–3/43/423450GV2P084...6.31/41/21/23/411.535450GV2P106...101/211.512357.5450GV2P149...143/4222331010450GV2P1613...181232551015450GV2P2017...231.533357.51520450GV2P2120...252–––7.57.51520450GV2P2224...3225557.5102025450GV2P32(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Accessory: see page B6/23.(4) 3P FLA corresponding values: see page A5/84.g > 100 kA.TeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticGV2P08PB121672.tifProduct referencesCharacteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/86Dimensions, schemes:pages B6/93 to B6/97, B6/99";i:415;s:1969:"B6/18Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticPB121514.epsGV2RTProduct referencesFor primaries of 3-phase transformersDeca - Frame 2 (ref. GV2RT) control by rocker leverStandard power ratings Setting range of thermal trips (2)Magnetic tripping current Id ± 20 %Reference230/240 V400/415 V440 V500 V690 VkVAkVAkVAkVAkVAAA–––––0.25...0.408GV2RT03–––––0.40...0.6313GV2RT04––0.630.6310.63...122GV2RT050.40.6311–1...1.633GV2RT060.631–1.61.621.6...2.551GV2RT0711.621.6222.52.52.5...478GV2RT081.622.52.544456.34...6.3138GV2RT102.545556.3–6...10200GV2RT1446.36.3–1012.59...14280GV2RT1656.310101012.51013...18400GV2RT20Accessory (3)DescriptionReferencePadlockable external operator (IP 54) black handle, blue legend plateGV2AP03(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Other accessories such as mounting, cabling and marking accessories are identical to those used for GV2ME motor circuit breakers, see page B6/23.For motors with high current peak on startingDeca - Frame 2 (ref. GV2RT) control by rocker leverStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips(1)Magnetic tripping current Id ± 20 %Reference220/ 230 V400/ 415 V440 V500 V690 VkWkWkWkWkWAA0.060.090.090.12––0.25...0.408GV2RT03–0.120.180.18–0.370.40...0.6313GV2RT040.090.120.250.370.250.370.370.550.63...122GV2RT050.180.250.370.550.370.550.370.550.750.751.11...1.633GV2RT060.370.750.751.11.11.51.6...2.551GV2RT070.550.751.11.51.51.52.22.232.5...478GV2RT081.12.22.23344...6.3138GV2RT101.52.234445.55.57.56...10200GV2RT142.235.55.57.57.59119...14280GV2RT1647.57.5991513...18400GV2RT205.5911111118.517...23400GV2RT21(1) The thermal trip setting must be within the range marked on the graduated knob.Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/85Dimensions, schemes:pages B6/98 to B6/99";i:416;s:28:"B6/19Motor circuit breakers";i:417;s:154:"B6/20Motor circuit breakersGV2 AK00GV1 L3GV ADGV AM11GV AM11GV ANGV ANGV2 PGV2 MEGV AXGV AUGV ASGV AE1GV AE1GV AE11, GV AE20GV2 LGV2 LEGV2 RTDB439407.eps";i:418;s:2432:"B6/21Motor circuit breakersContact blocksDescriptionMountingMaximum numberType of contactsSold in lots ofUnit referenceInstantaneous auxiliary contactsFront (1)1N/O or N/C (2)10GVAE1N/O + N/C10GVAE11N/O + N/O10GVAE20Side (LH)2N/O + N/C1GVAN11N/O + N/O1GVAN20Fault signalling contact + instantaneous auxiliary contactSide (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11Electric tripsMountingVoltageReferenceUndervoltage or shunt trips (4)Side (1 block on RH side of circuit breaker)24 V50 HzGVAp02560 HzGVAp02648 V50 HzGVAp05560 HzGVAp056100 V50 HzGVAp107100...110 V60 HzGVAp107110...115 V50 HzGVAp11560 HzGVAp116120...127 V50 HzGVAp125127 V60 HzGVAp115200 V50 HzGVAp207200...220 V60 HzGVAp207220...240 V50 HzGVAp22560 HzGVAp226380...400 V50 HzGVAp38560 HzGVAp386415...440 V50 HzGVAp415415 V60 HzGVAp416440 V60 HzGVAp385480 V60 HzGVAp415500 V50 HzGVAp505600 V60 HzGVAp505Undervoltage trip, INRS (can only be mounted on GV2ME) Safety device for dangerous machines conforming to INRS and VDE 0113Side (1 block on RH side of circuit breaker GV2ME)110...115 V50 HzGVAX11560 HzGVAX116127 V60 HzGVAX115220...240 V50 HzGVAX22560 HzGVAX226380...400 V50 HzGVAX38560 HzGVAX386415...440 V50 HzGVAX415440 V60 HzGVAX385Limiter blocksDescriptionMountingMaximum numberReferenceVisible isolation block (5)Front (1)1GV2AK00 (6)LimitersAt top (GV2ME and GV2P) for circuit breakers with screw clamp connections1GV1L3Independent (7)1LA9LB920(1) Mounting of a GVAE contact block or a GV2AK00 visible isolation block on GV2P and GV2L.(2) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(3) The GVAD is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p) in the reference with a U, example: GVAU025. To order a shunt trip: replace the dot (p) in the reference with an S, example: GVAS025.(5) Visible isolation of the 3 poles upstream of circuit breaker GV2P and GV2L.(6) Ie Max = 32 A.(7) For more information about the current limiter LA9LB920, see pages A4/31 and A4/61. TeSys PowerDeca - Frame 2 Motor circuit breakers - Add-on blocks and accessoriesProduct referencesPB111870.epsGV1L3PB138227.epsLA9LB920Characteristics:pages B6/87 to B6/89Dimensions, schemes:pages B6/90 to B6/99";i:419;s:160:"B6/22Motor circuit breakersGVAPYPHP(1)DB126629.eps(1) Standard front plate must be removed from the assembly and replaced by Protective front plate (GVAPYPHP).";i:420;s:1636:"B6/23Motor circuit breakersProduct referencesAccessories for circuit breakers with screw clamp connectionsDescriptionApplicationSold in lots of Unit referenceAdapter platesFor mounting a GV2 by screw fixing10GV2AF02For mounting a GV2ME and contactor LC1D09...D38 with front faces aligned1LAD311Height compensation plate7.5 mm to align GV2ME-GV2LE and GV2P-GV2L and allow the use of a common GV2Gppp busbar10GV1F03Combination blocksBetween GV2 and contactor LC1K or LP1K10GV2AF01Between GV2 and contactor LC1D09...D3810GV2AF3Between GV2 mounted on LAD311 and contactor LC1D09...D3810GV2AF4Motor starter adapter plateWith 3-pole connection for mounting a GV2 and a contactor LC1D09...D251GK2AF01DescriptionApplicationPitchReferencemmSets of 3-pole Ie = 63 A busbars2 tap-offs45GV2G24554GV2G25472GV2G2723 tap-offs45GV2G34554GV2G3544 tap-offs45GV2G44554GV2G45472GV2G4725 tap-offs54GV2G554DescriptionIeApplicationSold in lots of Unit referenceAProtective end cover-For unused busbar outlets5GV1G10Terminal block for supply to one or more GV2G busbar sets63Connection from the top1GV1G0963Can be fitted with current limiter GV1L3 (GV2ME and GV2P)1GV2G05Cover for terminal block-For mounting in modular panels10LA9E07Flexible 3-pole connection for connecting a GV2 to a contactor LC1D09...D25 25Centre distance between mounting rails: 100...120 mm10GV1G02“Large Spacing” adapter UL 60947-4-1 type E-For GV2Ppp (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)-For GV2P, GV2L, GV2LE and GV2RT (8 x 22 mm)100LA9D92TeSys PowerDeca - Frame 2 Motor circuit breakers - AccessoriesPB119241.epsGV1G09";i:421;s:2205:"B6/24Motor circuit breakers1DB126631.eps5324DB126630.eps6PB121315.eps7PB106297_45.epsExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) for red/yellow handle, in the O (Off) or I (On) for black handle, by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easier the assembling. The new Laser Square tool brings the accuracy to align the circuit breaker and the rotary handle.Padlockable external operators for ref. GV2P and GV2LDescription1 Kit handle + mounting system2 Universal handle3 Shaft4 Bracket5 Shaft support plate for deep enclosure6 Retrofit accessory7 Laser Square accessoryKit handle + mounting systemDescriptionItemReferenceFor GV2P/L Black handle, front plate, with trip status, IP 541GV2APN01Red handle, front plate, with trip status, IP 541GV2APN02Black handle, front plate, without trip status, IP 651GV2APN03Red handle, front plate, without trip status, IP 651GV2APN04For GV2LEPadlocking in “On” and “Off” position Black handle, blue front plate, IP 54-GV2AP03Universal handleFor GV2P/LBlack handle, with trip status, IP542GVAPB54Red handle, with trip status, IP54Red handle, without trip status, IP6522GVAPR54GVAPR65External handle protection frameFor GV2P/LYellow frame1GVAPYPHPBlack frame1GVAPBPHPShaftFor GV2P/LL = 315 mm3GVAPA1BracketFor GV2P/L4GVAPH02Shaft support plate for deep enclosureFor GV2P/LDepth u 250 mm5GVAPK11Retrofit accessoryFor GV2P/L6GVAPP1Laser Square accessoryFor GV2P/L7GVAPL01StickerSold in lots ofFor German10-GVAPSDEFor Chinese10-GVAPSCNFor Portuguese10-GVAPSPTFor Italian10-GVAPSITPadlocking deviceDescriptionReferenceFor all GV2 deviceFor use with up to 4 padlocks, Ø6 mm shank max. (padlocks not included)GV2V03TeSys PowerDeca - Frame 2 Motor circuit breakers - Handles and accessoriesProduct referencesGVAPYPHPPB121316.epsDimensions, schemes:page B6/91 ";i:422;s:60:"B6/25Motor circuit breakersTeSys Deca - Frame 311 to 45 kW";i:423;s:1176:"B6/26Motor circuit breakersMotor circuit breakers from 11 to 45 kWDeca - Frame 3 (ref. GV3L): control by rotary knob, connection by EverLink® BTR screw connectorsStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Magnetic protection ratingTripping current Id ± 20 %Use in association with thermal overload relay (class 10 A)Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkAkWkAkWkAAA1110010015125018.565025350LRD325GV3L251510010018.512502265032448LRD332GV3L3218.5501002212503765040560LRD340GV3L4022501003012504565050700LRD350GV3L5030501003712505565065910LRD365GV3L6537506045125055650731120LRD380GV3L7345506045125055650801120LRD380GV3L80(2)Connection by lugsTo order these circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: ref. GV3L32 becomes GV3L326. (1) As % of Icu. Associated current limiter or fuses, where required. (2) 750 A Lock Rotor Current max.g > 100 kA.TeSys PowerDeca - Frame 3 Motor circuit breakers - MagneticProduct referencesGV3L25PB121697.tifCharacteristics:pages B6/102 to B6/104Curves:pages B6/106 to B6/108Dimensions, schemes:pages B6/115 to B6/117";i:424;s:3131:"B6/27Motor circuit breakersMotor circuit breakers up to 45 kW / 400 V Standard power ratings of 3-phase motors 50/60 Hz in category AC-3Setting range of thermal trips (2)Magnetic tripping current Id ± 20 %Reference400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)kWkA%kWkA%kWkA%AADeca - Frame 3 (ref. GV3P): control by rotary knobConnection by EverLink® BTR screw connectors (3)5.51001007.51250116509...13182GV3P137.5100100912501565012...18252GV3P18 1110010015125018.565017...25350GV3P251510010018.512502265023...32448GV3P3218.5501002212503765030...40560GV3P4022501003012504565037...50700GV3P5030501004512505565048...65910GV3P653750604512505565062...731120GV3P734550604512505565070...801120GV3P80 (4)Connection by EverLink® BTR screw connectors, for assembly with a contactorTo assemble a GV3P32 to P73 circuit breaker with an LC1D40A to D73A contactor, it is possible to use the circuit breaker supplied without downstream EverLink® power terminal block. To order this product, add the digit 1 to the end of the references selected above. Example: ref. GV3P73 becomes GV3P731. Do not use direct mounting between GV3P80 and LC1D80A because of potential overheating, use cable link.Connection by lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: GV3P25 becomes GV3P256.Motor circuit breakers up to 40 HP / 460 V, UL 60947-4-1 type EDeca - Frame 3 - ref. GV3P13 (5) to GV3P65 (5)To obtain a motor-circuit breaker GV3P, UL 60947-4-1 type E, use the following with the circuit breaker:b a "Large Spacing" cover GV3G66,b a short-circuit signalling contact GVAM11.Motor circuit breakers from 7.5 to 50 HP / 460 V, with screw clamp terminalsDeca - Frame 3 (ref. GV3P) with rotary handleThermal setting (A)Maximum Horsepower ratings (6)ReferenceSingle-PhaseThree-Phase115 V230 V200 V230 V460 V575 V9...131/21.5337.510GV3P1312...183/42357.510GV3P18 17...251.5357.51520GV3P2523...32237.57.52025GV3P3230...403510102530GV3P4037...5037.510103040GV3P5048...6531015154050GV3P6562...7351520255060GV3P73Deca - Frame 3 - ref. GV3P13 to GV3P65 - with connection by lugs (5)To obtain a motor-circuit breaker ref. GV3P, UL 60947-4-1 type E, with connection by lugs, add the digit 6 to the end of reference selected above and use the following with the circuit breaker:b two IP 20 covers LAD96570,b a short-circuit signalling contact GVAM11.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) BTR screws: hexagon socket head. Require use of an insulated Allen key, in compliance with local wiring regulations.(4) For applications with stable full load current with maximum 80 A and Lock Rotor Current maximum 750 A.(5) Accessories: see page B6/30.(6) 3P FLA corresponding values: see page A5/84.Product referencesTeSys PowerDeca - Frame 3 Motor circuit breakers - Thermal-magneticGV3P80PB121680.tifGV3P651PB121675.epsGV3P736PB121703.epsCharacteristics:pages B6/102 to B6/105Curves:pages B6/109 to B6/111Dimensions, schemes:pages B6/115 and B6/117";i:425;s:311:"B6/28Motor circuit breakersGV AM11GV AM11GV AE1GV AE1GV AE11, GV AE20,GV3 LGV3 PGV3 G364GV AE113, GV AE203, GV AED 1013, GV AED 0113GV AED 101, GV AED 011GV2 V03GV3 G264GV3 APN02GVAPYPHP(1)DB439408.eps(1) Standard front plate must be removed from the assembly and replaced by Protective front plate (GVAPYPHP).";i:426;s:2214:"B6/29Motor circuit breakersContact blocksDescriptionMountingMaximum numberType of contactsSold in lots ofUnit referenceInstantaneous auxiliary contactsFront1N/O or N/C (1)10GVAE1N/O + N/C10GVAE11 (2)N/O + N/O10GVAE20 (2)Side (LH)2N/O + N/C1GVAN11 (2)N/O + N/O1GVAN20 (2)Fault signalling contact + instantaneous auxiliary contactFront1N/O (fault)+ N/O1GVAED101 (2)N/O (fault)+ N/C1GVAED011 (2)Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11Electric trips - undervotlage or shunt (4)MountingVoltageReferenceSide (1 block on RH side of circuit breaker)24 V50 HzGVAp02560 HzGVAp02648 V50 HzGVAp05560 HzGVAp056100 50 HzGVAp107100...110 V60 HzGVAp107110...115 V50 HzGVAp11560 HzGVAp116120...127 V50 HzGVAp125127 V60 HzGVAp115200 V50 HzGVAp207200...220 V60 HzGVAp207220...240 V50 HzGVAp22560 HzGVAp226380...400 V50 HzGVAp38560 HzGVAp386415...440 V50 HzGVAp415415 V60 HzGVAp416440 V60 HzGVAp385480 V60 HzGVAp415500 V50 HzGVAp505600 V60 HzGVAp505AccessoriesDescriptionReferenceSet of 3-pole busbarsIe = 115 APitch: 64 mm2 tap-offGV3Ppp and GV3LppGV3G2643 tap-offGV3Ppp and GV3LppGV3G364Cover "Large Spacing" UL 60947-4-1 type E(Only one cover required on supply side)GV3PppGV3G66 (1) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(2) Contact blocks available in version with spring terminal connections. Add a figure 3 at the end of the references selected above. Example: GVAED101 becomes GVAED1013.(3) The GVADpp is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p) in the reference with a U, example: GVAU025. To order a shunt trip: replace the dot (p) in the reference with an S, example: GVAS025.TeSys PowerDeca - Frame 3 Motor circuit breakers - Add-on blocks and accessoriesGV3G66PB108356.epsProduct referencesLimited torque throwaway bitsTorque limiting breakaway bitsDescriptionSold in lots ofReference5 N.m Yellow6LV4269929 N.m Green6LV426990PB121324.epsLV426992 LV426990Characteristics:pages B6/112 to B6/114Schemes:page B6/117";i:427;s:1947:"B6/30Motor circuit breakersProduct references1DB126637.eps5324DB126636.epsPB121327.epsExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position (depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easier the assembling. The new Laser Square tool brings the accurency to align the circuit breaker and the rotary handle.Padlockable external operators for Deca - Frame 3Description1 Kit handle + mounting system2 Universal handle3 Shaft4 Bracket5 Shaft support plate for deep enclosure6 Retrofit accessory7 Laser Square accessoryKit handle + mounting systemDescriptionItemReferenceFor GV3P/L Black handle, front plate, with trip status, IP 541GV3APN01Red handle, front plate, with trip status, IP 541GV3APN02Black handle, front plate, without trip status, IP651GV3APN03Red handle, front plate, without trip status, IP 651GV3APN04Universal handleFor GV3P/LBlack handle, with trip status, IP542GVAPB54Red handle, with trip status, IP542GVAPR54Red handle, without trip status IP652GVAPR65External handle protection frameFor GV2P/LYellow frame1GVAPYPHPBlack frame1GVAPBPHPShaftFor GV3P/LL = 315 mm3GVAPA1Shaft support plate for deep enclosureFor GV3P/LDepth u 300 mm5GVAPK12Retrofit accessoryFor GV3P/L6GVAPP1Laser Square accessoryFor GV3P/L7GVAPL01StickerSold in lots ofWarning labelFor German10-GVAPSDEFor Chinese10-GVAPSCNFor Portuguese10-GVAPSPTFor Italian10-GVAPSITTeSys PowerDeca - Frame 3 Motor circuit breakers - Handles and accessories6PB121315.epsGVAPYPHPPB121316.epsDimensions, schemes:pages B6/116";i:428;s:77:"B6/31Motor circuit breakersTeSys Deca - Frame 40.25 to 55 kW - 1/2 to 60 HP";i:429;s:2609:"B6/32Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakersIntroductionProtectionTeSys Deca - Frame 4 motor circuit breakers covers motor protection from 0.25 to 55 kW at 415 V AC (from 0.8 to 115 A) in one frame and are available in 3 breaking capacities: 25, 50 and 100 kA at 415 V AC IEC (15, 35, 65 kA at 480 V UL).TeSys Deca - Frame 4 motor circuit breakers are available with 3 types of protection: bMagnetic ref. GV4L: to be used with an overload relay or a drive bThermal magnetic ref. GV4P: electronic protection with wide range setting, dual class (10 & 20) bMultifunction motor protection ref. GV4PEM: ref. GV4P with adjustable advanced protections and possibility to have a side module SDx for alarming and motor functional fault differentiation.Power connectionTeSys Deca - Frame 4 motor circuit breaker come in standard with 2-holes EverLink™ power connectors with creep (1) compensation for bare copper cables. This Schneider Electric patended technique makes it possible to achieve accurate and durable tightening torque in order to avoid cable creep.Products may be delivered with connectors for bars or cables with compression lugs (except ref. GV4PB).Whatever, the connectors are field interchangeables and can be removed for the installation of one of both.And to tight at the right torque power connections particularly in the field, torque limiting breakaway bits may be used. OFSDEverLinkPatented technologyDB425664.epsOFSDDB425926.epsMountingTeSys Deca - Frame 4 motor circuit breaker can be mounted on a backplate or on a DIN rail (35 or 75 mm).HandleTeSys Deca - Frame 4 motor circuit breaker can be ordered with a toggle or a direct rotary handle (except for ref. GV4P Multifunction). It is also possible to equip a toggle one with a direct rotaty handle, or a front extended one, or a side one.AuxiliariesTeSys Deca - Frame 4 circuit breakers can be equiped with an open/close (OF) contact and a trip indication (SD) contact. These contacts are common point changeover type, with a normaly open (NO) and a normaly closed (NC) contact. TeSys Deca - Frame 4 motor circuit breaker may be equiped too with an MN (undervoltage release) or MX (shunt trip) coil.Ref. GV4P Multifunction circuit breakers can be equiped with 1 or 2 SDx module(s) in order to have alarming and motor functional fault differentiation (SDx - See page B6/44)Auxiliaries have spring connections for cables up to 1.5 mm². OFSDTripOISDxDB425752.epsOFSDTripOIMN/MXDB424979.epsOFSDTripOIOFSDDB424978.eps(1) Creep: normal crushing phenomenon of condustors, that is accentuated over time.";i:430;s:2270:"B6/33Motor circuit breakersIntroductionTeSys PowerDeca - Frame 4 Motor circuit breakers1 Long terminal shield LAD965902 Terminal spreaders LV4269403 Interphases barriers LV4269204 Crimp lug connector GV4LUG5 EverLink® connector LAD965956 Everlink® terminals and large spacing cover GV4G66 + LAD965957 Torque limiting breakaway bits LV42699p8 SDx alarming/fault differentiation module GV4ADM1111 (only with GV4PEM)9 Auxiliary contact block for OF or SD function GV4AE1110 - MN undervoltage release GV4AUpp - MX shunt trip GV4ASpp11 Direct mounting black or red on yellow bezel rotary handle GV4ADN01/ GV4ADN0212 Open door shaft operator (for front extended rotary handle) LV42693713 Front extended rotary handle kit with red handle on yellow bezel or black handle GV4APN01/ GV4APN02 /GV4APN0414 Side rotary handle kit with red handle on yellow bezel or black handle LV426935/LV426936.15 Toggle locking device 29370EverLinkPatented technologyEverlink20 mmGV4GEverlinkEverLinkPatented technologyLSGFT95%TxxsTAMTJAMUNBSDx12SDxSDTAMONLSGFT95%TxxsTAMTJAMUNB12141564128OFF10OFSDTeSysOMN250VL1L2L3GV4P EM115SUimp 8kVUi 800VIn:115AUe(V)Icu(kA)Ics(kA)220/240380/415440500525690/690120100703018101201007030182.550/60HzIEC/EN 60947-2 Cat A 40°CWith Everlink LAD96595mm² (Rigid)1 x 1,5.....70 Cu1 x 1,5.....95 CuPower tightening torquemm² N.my10u1659mm² (Rigid)1 x 1,5.....70 Cu1 x 1,5.....95 Cu4681012212010CLASSIr(A)READYALARM>XXA>95%1514li=1725AIr IsdIitiMX250V~/=Ø 4...8 OnOffResetTripØ 4...8 Ø 4...8 TripResetTeSysGV4PEM115SLISTED CBIssue No:186E10027GB14048.2240V480V600Y/347100651450/60Hz C at. A Ø 4...8 TripResetTeSysGV4PEM115SLISTED CBIss ue No:186E10027GB14048.2240V480V600Y/347100651450/60Hz Cat.A Ø 4...8 TripResetØ 4...8 OnOffResetTripTeSysGV4PEM115SLISTED CBIssue No:186E10027GB14048.2240V480V600Y/347100651450/60 Hz Cat.A Axial ref. OFFØ 4...8 TeSysGV4PEM115SLISTED CBIssue No:186E10027GB14048.2240V480V600Y/347100651450/60 Hz Cat.A Ø 4...8 DB432820.ai1113131214141512345768119910";i:431;s:576:"B6/34Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticIntroductionGV4LPB114910.epsGV4LEPB114909.epsStandard versionProtectionSetting is made using dial.Trip class (class)Ref. GV4L can be used with class 5, 10 or 20 relay.Short circuit protection (Ii)Protection with an adjustable pick-up Ii = 6 to 14 In. Settings are made in amperes.Standards and certificationsIEC/EN 60947-1, IEC/EN 60947-2, CCC, EAC.References:page B6/35Characteristics:pages B6/120 to B6/122Curves:pages B6/124 to B6/128Dimensions, schemes:pages B6/134, B6/135, B6/137Ref.";i:432;s:2031:"B6/35Motor circuit breakersMagnetic motor circuit breakers from 0.25 to 55 kWStandard power ratings of 3-phase motors - 50 / 60 HzInMagnetic setting range (Ii)Use in association with overload relay Class 10 or 20Reference with EverLink terminals400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)with togglewith rotary handlekWkA%kWkA%kWkA%A A0.25... 0.75251000.37... 1.1101000.55... 1.5--212... 28LRD05 (0.63... 1A) LRD06 (1... 1.6A) LRD07 (1.6... 2.5A)--5010025100825GV4LE02NGV4L02N100100301001025GV4LE02S-0.55... 1.5251000.75... 1.5101001.1... 2.2--3,521... 49LRD07 (1.6... 2.5A) LRD08 (2.5... 4A)--5010025100825GV4LE03NGV4L03N100100301001025GV4LE03S-1.5... 325100 2.2... 4101003... 7.5--742... 98LRD08 (2.5... 4A) LRD10 (4...6A)--5010025100825GV4LE07NGV4L07N100100301001025GV4LE07S-3... 5.5251003... 7.5101005.5... 11--12,575... 175LRD12 (5.5... 8A) LRD14 (7... 10A) LRD313 (9...13A)--5010025100825GV4LE12NGV4L12N100100301001025GV4LE12S-5.5... 11 251007.5... 15101007.5... 18.5--25150... 350LRD318 (12... 18A) LRD325 (17... 25A)GV4LE25BGV4L25B5010025100825GV4LE25NGV4L25N100100301001025GV4LE25S-11... 222510015... 301010018.5... 45--50300... 700LRD332 (23... 32A) LRD340 (30... 40A) LRD350 (37... 50A)GV4LE50BGV4L50B5010025100825GV4LE50NGV4L50N100100301001025GV4LE50S-18.5... 372510022... 551010030... 55--80480... 1120LRD365 (48... 65A) LRD3363 (63... 80A)GV4LE80BGV4L80B5010025100825GV4LE80NGV4L80N100100301001025GV4LE80SGV4L80S30... 552510030... 751010045... 90--115690... 1610LR9D5567 (60... 100A) LR9F5367 (60... 100A) LR9D5369 (90... 150A) LR9F5369 (90...150A)GV4LE115BGV4L115B5010025100825GV4LE115NGV4L115N100100301001025GV4LE115SGV4L115SConnection by lugsTo order circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: ref. GV4LE02N becomes GV4LE02N6.(1) As % of Icu.TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticProduct referencesCharacteristics:pages B6/120 to B6/122Curves:pages B6/124 to B6/128Dimensions, schemes:pages B6/134, B6/135, B6/137";i:433;s:2318:"B6/36Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticStandard versionProtectionSettings are made using dials.Overload or thermal protection (Ir)Inverse-time thermal protection against overloads with adjustable pick-up Ir. Wide range setting made in amperes. The tripping curve for the thermal protection, which indicates the time delay tr before tripping, is defined by the selected trip class.Trip class (class)The class is selected as a function of the normal motor starting time. bClass 10: starting time less than 10 s. bClass 20: starting time less than 20 s.For a given class, it is necessary to check that all motor-feeder components are sized to carry the 7.2 Ir starting current without excessive temperature rise during the time corresponding to the class.Short time delay protection (Isd)Short time delay protection (around 100 ms) to let through motor starting currents, but to protect cables and motor starter devices and allow not to oversize them (particularly usefull for wide range settings circuit breakers). Fixed pick-up Isd = 13 Ir.Short-circuit protection (li)Instantaneous protection with non-adjustable pick-up Ii=17 In.Phase unbalance or phase loss (Iunbal, tunbal)This function opens the circuit breaker if a phase unbalance occurs: bthat is greater than the 30 % of Irms (fixed pick-up): Iunbal bfollowing the non-adjustable time delay (tunbal) equal to: v0.7 s during starting v4 s during normal operation.Phase loss is an extreme case of phase unbalance and leads to tripping under the same conditions.Ground-fault protection (Ig, tg)Residual type ground-fault protection: bfixed pick-up Ig = In bfixed time delay tg = 0.1 s.IndicationsFront indications bGreen “Ready” LED: flashes slowly when the circuit breaker is ready to trip in the event of an abnormal deviation in engine operating conditions. bRed alarm LED: goes ON when the thermal image of the motor is greater than 95 % of the permissible temperature rise.Standards and certificationsIEC/EN 60947-1, IEC/EN 60947-2, IEC/EN 60947-4-1, UL 60497-4-1, CSA 22.2 n° 60497-4-1, CCC, EAC, CSA (cCSAus).IntroductionGV4PEPB114913.epsGV4PPB114914_30.epsReferences:page B6/37Characteristics:pages B6/120 to B6/123Curves:pages B6/129 to B6/131Dimensions, schemes:pages B6/134 and B6/135Ref.";i:434;s:2359:"B6/37Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticProduct referencesThermal magnetic motor circuit breakers from 0.25 to 55 kWStandard power ratings of 3-phase motors - 50 / 60 Hz in category AC-3Thermal setting range (Ir)Reference with EverLink terminals400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)with togglewith rotary handlekWkA%kWkA%kWkA% A0.25... 0.75251000.37... 1.1101000.55... 1.5--0.8... 2--5010025100825GV4PE02NGV4P02N100100301001025GV4PE02S-0.55... 1.5251000.75... 1.5101001.1... 2.2--1.4... 3.5--5010025100825GV4PE03NGV4P03N100100301001025GV4PE03S-1.5... 3251002.2... 4101003... 7.5--2.9... 7--5010025100825GV4PE07NGV4P07N100100301001025GV4PE07S-3... 5.5251003... 7.5101005.5... 11--5... 12.5--5010025100825GV4PE12NGV4P12N100100301001025GV4PE12S-5.5... 11 251007.5... 15101007.5... 18.5 --10... 25GV4PE25BGV4P25B5010025100825GV4PE25NGV4P25N100100301001025GV4PE25S-11... 222510015... 301010018.5... 45--20... 50GV4PE50BGV4P50B5010025100825GV4PE50NGV4P50N100100301001025GV4PE50S-22... 372510030... 551010037... 55--40... 80GV4PE80BGV4P80B5010025100825GV4PE80NGV4P80N100100301001025GV4PE80SGV4P80S37... 552510045... 751010075... 90--65... 115GV4PE115BGV4P115B5010025100825GV4PE115NGV4P115N100100301001025GV4PE115SGV4P115SThermal magnetic motor circuit breakers from 3/4 to 75 HP / 480 VSingle-Phase3-PhaseRatingReference with EverLink terminals120 V240 V208 V240 V480 V600 VPowerFLAPowerFLAPowerFLAPowerFLAPowerFLAPowerFLAwith togglewith rotary handleHPAHpAHpAHpAHpAHpA A--1/101.5----3/41.611.72--GV4PE02NGV4P02NGV4PE02S-1/1031/42.91/22.43/43.223.422.73.5--GV4PE03NGV4P03NGV4PE03S-1/45.83/46.91-1/26.626.834.856.17--GV4PE07NGV4P07NGV4PE07S-1/29.81-1/210310.639.67-1/211101112.5--GV4PE12NGV4P12NGV4PE12S-1-1/220317516.77-1/2221521202225GV4PE25BGV4P25BGV4PE25NGV4P25NGV4PE25S-3347-1/2401030.815423040404150GV4PE50BGV4P50BGV4PE50NGV4P50NGV4PE50S-7-1/28015682574.830806077757780GV4PE80BGV4P80BGV4PE80NGV4P80NGV4PE80SGV4P80S101002088308840104759610099115GV4PE115BGV4P115BGV4PE115NGV4P115NGV4PE115SGV4P115SConnection by lugsTo order circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: GV4PE02N becomes GV4PE02N6.(1) As % of Icu.Characteristics:pages B6/120 to B6/123Curves:pages B6/129 to B6/131Dimensions, schemes:pages B6/134, B6/135, B6/137";i:435;s:3720:"B6/38Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticAdvanced version Basic protectionSettings are made using dials.Overloads or thermal protection (Ir)Inverse-time thermal protection against overloads with adjustable pick-up Ir. Wide range setting made in amperes. The tripping curve for the thermal protection, which indicates the time delay tr before tripping, is defined by the selected trip class.Trip class (class)The class is selected as a function of the normal motor starting time. bClass 10: starting time less than 10 s. bClass 20: starting time less than 20 s.For a given class, it is necessary to check that all motor-feeder components are sized to carry the 7.2 Ir starting current without excessive temperature rise during the time corresponding to the class.Short-circuit protection (li)Instantaneous protection with non-adjustable pick-up Ii = 17 In.Advanced protectionSettings are made with an Android smartphone with dedicated application and using wireless NFC (Near Field Communication), or a computer with EcoStruxure Power Commission software and the configuration/maintenance tool kit (“Maintenance case” TRV00910).The LV434206 pocket battery allows the GV4PEM controller to be powered for adjustments and tests when no internal source is available.Short time delay protection (Isd)Short time delay protection (around 100 ms) to let through motor starting currents, but to protect cables and motor starter devices and allow not to oversize them (particularly usefull for wide range settings circuit breakers). Adjustable pick-up Isd = 5...13 Ir (13 by default).Phase unbalance or phase loss (Iunbal, tunbal)This function opens the circuit breaker if a phase unbalance occurs: bthat is greater than the 10...40 % of Irms (30% by default): Iunbal bfollowing a time delay (tunbal) equal to: v0.7 s during starting (non adjustable) v1...10 s during normal operation (4 s by default).Phase loss is an extreme case of phase unbalance and leads to tripping under the same conditions.Ground-fault protection (Ig, tg)Residual type ground-fault protection, with OFF position: badjustable pick-up Ig: v0.7...1 In for products with nominal current from 2 to 50 A v0.4...1 In for products with nominal current from 80 to 115 A badjustable time delay tg 0.1...0.4 s.Jam (Ijam, tjam)This function detects locking of the motor shaft caused by the load, with OFF position (OFF by default). During motor starting the function is disabled.During normal operation, it causes tripping: babove the Ijam pick-up that can be fine-adjusted from 1.5 to 8 Ir bin conjunction with the tjam time delay that can be adjusted from 1 to 30 s.Long start (Ilong, tlong)This protection supplements thermal protection (class). It is used to optimize the protection according to the starting parameters, with OFF position (OFF by default).It detects abnormal motor starting i.e. when the starting current remains too high or too low with respect to a pick-up value and a time delay.It causes tripping: bin relation with a llong pick-up that can be fine-adjusted from 1.5 to 8 Ir bin conjunction with the tlong time delay that can be adjusted from 1 to 200 s.IndicationsFront indications bGreen "Ready" LED: flashes slowly when the circuit breaker is ready to trip in the event of an abnormal deviation in engine operating conditions. bRed alarm LED: goes ON when the thermal image of the motor is greater than 95 % of the permissible temperature rise.Remote indications via SDx moduleSee description on page B6/44.Standards and certificationsIEC/EN 60947-1, IEC/EN 60947-2, IEC/EN 60947-4-1, UL 60497-4-1, CSA 22.2 n° 60497-4-1, CCC, EAC, CSA (cCSAus).IntroductionGV4PEMPB114917.eps";i:436;s:1481:"B6/39Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticProduct referencesAdvanced thermal magnetic motor circuit breakers from 0.25 to 55 kWStandard power ratings of 3-phase motors - 50 / 60 Hz in category AC-3Thermal setting range (Ir)"Reference with EverLink terminals"400/415 V500 V690 VPIcuIcs (1)PIcuIcs (1)PIcuIcs (1)with togglekWkA%kWkA%kWkA% A0.25... 0.75251000.37... 1.1101000.55... 1.5--0.8... 2-5010025100825GV4PEM02N100100301001025GV4PEM02S0.55... 1.5251000.75... 1.5101001.1... 2.2--1.4... 3.5-5010025100825GV4PEM03N100100301001025GV4PEM03S1.5... 3251002.2... 4101003... 7.5--2.9... 7-5010025100825GV4PEM07N100100301001025GV4PEM07S3... 5.5251003... 7.5101005.5... 11--5... 12.5-5010025100825GV4PEM12N100100301001025GV4PEM12S5.5... 11 251007.5... 15101007.5... 18.5--10... 25GV4PEM25B5010025100825GV4PEM25N100100301001025GV4PEM25S11... 222510015... 301010018.5... 45--20... 50GV4PEM50B5010025100825GV4PEM50N100100301001025GV4PEM50S22... 372510030... 551010037... 55--40... 80GV4PEM80B5010025100825GV4PEM80N100100301001025GV4PEM80S37... 552510045... 751010075... 90--65... 115GV4PEM115B5010025100825GV4PEM115N100100301001025GV4PEM115SConnection by lugsTo order circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above. Example: GV4PE02N becomes GV4PE02N6.(1) As % of Icu.Characteristics:pages B6/120 to B6/123Curves:pages B6/129 to B6/131Dimensions, schemes:pages B6/134, B6/135, B6/137";i:437;s:4140:"B6/40Motor circuit breakersIntroductionAdvanced version Ref. GV4PB is based on GV4PEM with specific tripping curve to follow UL489 SH supplement. It is designed with a large space connector in order to increase creepage and clearance distance.Basic protectionSettings are made using dials.Overloads or thermal protection (Ir)Inverse-time thermal protection against overloads with adjustable pick-up Ir. Wide range setting made in amperes.The tripping curve for the thermal protection, which indicates the time delay tr before tripping, is defined by the selected trip class.Trip class (class)The class is selected as a function of the normal motor starting time. It corresponds to the value of the tripping time delay for a current of 600 % of the rated tripping current according to UL489, SH supplement.The rated tripping current is selected as 125 % of the dial value. bClass 10: starting time less than 10 s. bClass 20: starting time less than 20 s.For a given class, it is necessary to check that all motor-feeder components are sized to withstand the 7.5 Ir starting current without excessive temperature rise during the time corresponding to the class.Short-circuit protection (li)Instantaneous protection with non-adjustable pick-up Ii=17 In.Advanced protection (same as ref. GV4PEM)Settings are made with: bAndroid smartphone using wireless NFC (Near Field Communication), or EcoStruxure Power Device App. computer + EcoStruxure Power Commission software and configuration/maintenance tool kit TRV00910 bLV434206 pocket battery, allows the GV4PB controller to be powered for adjustment and test. LV434206 pocket battery needs to be connected to the GV4PB controller to set the advanced protection.Short time delay protection (Isd)Short time delay protection (around 100 ms) to let through motor starting currents,but to protect cables and motor starter devices and allow not to oversize them(particularly usefull for wide range settings circuit breakers).Adjustable pick-up Isd = 5...13 Ir (13 by default).Phase unbalance or phase loss (Iunbal, tunbal)This function opens the circuit breaker if a phase unbalance occurs: bthat is greater than the 10...40 % of Irms (30 % by default): Iunbal bfollowing a time delay (tunbal) equal to: v0.7 s during starting (non adjustable) v1...10 s during normal operation (4 s by default).Phase loss is an extreme case of phase unbalance and leads to tripping under the same conditions.Ground-fault protection (Ig, tg)Residual type ground-fault protection, with OFF position: badjustable pick-up Ig: v0.7...1 In for products with nominal current from 2 to 50 A v0.4...1 In for products with nominal current from 80 to 115 A badjustable time delay tg 0.1...0.4 s.Jam (Ijam, tjam)This function detects locking of the motor shaft caused by the load, with OFF position (OFF by default). During motor starting the function is disabled.During normal operation, it causes tripping: babove the Ijam pick-up that can be fine-adjusted from 1.5 to 8 Ir bin conjunction with the tjam time delay that can be adjusted from 1 to 30 s.Long start (Ilong, tlong)This protection supplements thermal protection (class). It is used to optimize the protection according to the starting parameters, with OFF position (OFF by default).It detects abnormal motor starting i.e. when the starting current remains too high or too low with respect to a pick-up value and a time delay.It causes tripping: bin relation with a llong pick-up that can be fine-adjusted from 1.5 to 8 Ir bin conjunction with the tlong time delay that can be adjusted from 1 to 200 s.IndicationsFront indications bGreen "Ready" LED: flashes slowly when the circuit breaker is ready to trip in the event of an abnormal deviation in engine operating conditions. bRed alarm LED: goes ON when the thermal image of the motor is greater than 95 % of the permissible temperature riseRemote indications via SDx moduleSee description on page B6/44.Conforming to standards: IEC/EN 60947-2, IEC/EN 60947-4-1Product certifications: UL 489, CSA C22.2 n°5. GV4PBPB120622.epsTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magnetic (UL applications)";i:438;s:1008:"B6/41Motor circuit breakersProduct references - UL applicationsGV4PB - selection according to Short Circuit Current Rating (SCCR)240 V AC480Y/277 V AC600Y/347 V ACReferenceSCCRSCCRSCCRkAkAkA351814GV4PBpppB (1)653518GV4PBpppN1006525GV4PBpppS(1) Example: GV4PB07S, GV4PB115S.GV4PB thermal magnetic motor circuit breakers - selection according to FLA3P3P3PReference200 V230 V460 VFLAFLAFLARatedDial rangeAAA%A--1.61000.8 to 2GV4PB02NGV4PB02S2.52.231001.4 to 3.5GV4PB03NGV4PB03S4.84.24.81002.9 to 7GV4PB07NGV4PB07S7.89.67.61005 to 12.5GV4PB12NGV4PB12S17.5222110010 to 25GV4PB25BGV4PB25NGV4PB25S48424010020 to 50 GV4PB50BGV4PB50NGV4PB50S6254528040 to 80GV4PB80BGV4PB80NGV4PB80S9280778065 to 115GV4PB115BGV4PB115NGV4PB115SConnection by lugsPlease order GV4LUG accessory and LV426920 interphase barriers or LAD96590 terminal shield.Characteristics:pages B6/120 to B6/123Curves:pages B6/129 to B6/131Dimensions, schemes:pages B6/134, B6/135, B6/137TeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magnetic";i:439;s:2817:"B6/42Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Auxiliary contact blockProduct referencesAuxiliary contact blocksAuxiliary contacts give an indication of the circuit breaker status.They can be used for remote visual signaling, alarming, electrical locking, relay activation, etc...An auxiliary contact block provides one changeover contact with common point for OF or SD function, depending on the breaker cavity where it is inserted. Auxiliary contact - Open/Close OF functionIndicates Open/Closed position of the circuit breaker contacts.Auxiliary contact - Trip alarm SD function bIndicates that the circuit breaker has tripped due to: vElectrical fault (overload, short circuit, ...) vshunt trip vundervoltage release v"push-to-trip" button. bResets when circuit breaker is reset.Electrical characteristicCharacteristicsRated thermal current (A)5Minimum load2 mA at 17 V DCUtilization cat. (IEC 60947-5-1)AC12AC15DC12DC13DC14Operationalcurrent (A)24 V AC/DC5552.5148 V AC/DC552.51.20.2110...127 V AC / 110 V DC540.60.350.05220/240 V AC53---250 V DC--0.30.050.03380/440 V AC52.5---660/690 V AC50.11---Pilot duty B600 according UL508 and CSA 22.2 n°14.Installation and connection bAuxiliary contact blocks snap into left (for OF function) and right (for SD function) cavities behind the front accessory cover of the circuit breaker and their presence is visible on the front face through green flags. bOne model serves for all indication functions depending on where it is fitted in the circuit breaker. bEach NO and NC spring terminal may be connected by one 0.5...1.5 mm² flexible copper wire and by two for the common point. bWires can be exited out of any of the four corners of the breaker under the accessory cover. DescriptionMaximum numberMountingType of contactsSold in lots ofReferenceAuxiliary contact block for OF or SD indication2 (1 OF + 1 SD)Internal plug-inNO + NC1GV4AE11PB114961.epsGV4AE11 auxiliary contact blockOFFOFSDTeSysMN250V4681012212010CLASSIr(A)READYALARM>XXA>95%1514li=1725AIr I sdIitiL1L2L3L1L2L3GV4P EM115SUimp 8kVUi 800VIn:115AUe(V)Icu(kA)Ics(kA)220/240380/415440500525690/690120100703018101201007030182.550/60HzIEC/EN 60947-2 Cat A 40°CWith Everlin k LAD96595mm² (Rigid)1 x 1,5.....70 Cu1 x 1,5.....95 CuPower tightening torquemm² N.my10u16591 x 1,5.....70 Cu1 x 1,5.....95 CuEverLinkPatented te chnologyOFMN250VL1SDL3DB439414.epsVisible presence of auxiliary contact block in OF or SD cavity20 mmEverLinkEverLinkPatented technologyDB425665.epsOFSDOFSDTripOIDB425666.epsPluggable auxiliary contact - OF or SD is dependent on cavity. Multiple internal wiring possibilities, even with long terminal shieldsDB425977.epsCharacteristics:page B6/133Schemes:page B6/137";i:440;s:3508:"B6/43Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - MX and MN tripsMX shunt trip, MN undervoltage releaseMX and MN trip the circuit breaker on a control signal. They are mainly used for remote and emergency-off commands.It is advised to test the system every six months.MX shunt trip bTrips the circuit breaker when the control voltage rises above 70 % of its rated voltage (Un). bImpulse type u 20 ms or maintained control signals. bShunt trip 110...130 V AC is suitable for ground-fault protection when combined with a Class I ground-fault sensing element. bContinuous duty rated coil (1).0.7Un0Probable openingFailsafe opening1.1DB432869.epsOpening conditions of the MX release.MN undervoltage release bTrips the circuit breaker when the control voltage drops below 35 % of its rated voltage. bBetween 35 % and 70 % of the rated voltage opening is only probable. bAbove 70 % of the rated voltage, opening does not take place. bContinuous duty rated coil. bCircuit breaker closing is possible only if the voltage exceeds 85 % of the rated voltage. If an undervoltage condition exists, operation of the closing mechanism of the circuit breaker will not permit the main contacts to touch, even momentarily. This is commonly called "Kiss Free".0.70.35Un0Probable openingFailsafe opening1.1DB432866.eps0.85Un0Closing ensured1.1DB432867.epsOpening conditions of the MN release.Closing conditions of the MN release.Installation, connectionAccessories snap into cavities under the circuit breaker front accessory cover. Spring-type terminals in order to insure a fast and reliable connection to 0.5...1.5 mm² flexible copper wire (one per terminal).OperationCircuit breaker must be locally reset after trip by shunt trip (MX) or undervoltage release (MN).Tripping by MX or MN has priority over manual closing; in the presence of a standing trip order such an action does not result in main contacts closing, even temporarily. DescriptionMaximum numberMountingVoltageReferenceMX Shunt trip1Internal,plug-in24 Va 50/60 Hz, 24 VcGV4AS02748 Va 50/60 Hz, 48 VcGV4AS057110-130 Va 50/60 Hz 125 VcGV4AS137220-240 Va 50 Hz, 208-240 Va 60 Hz, 277 V 60 HzGV4AS287380-415 Va 50 Hz, 440-480 Va 60 HzGV4AS487MN undervoltage release1Internal,plug-in24 Va 50/60 Hz, 24 VcGV4AU02748 Va 50/60 Hz, 48 VcGV4AU057110-130 Va 50/60 Hz 125 VcGV4AU137220-240 Va 50 Hz, 208-240 Va 60 HzGV4AU247277 Va 60 hZGV4AU286380-415 Va 50 HzGV4AU415440-480 Va 60 HzGV4AU486(1) Except for MX 24 V AC/DC (in case of continuous activation, may generate some minor perturbation in sensitive environment).Product referencesPB114963.epsGV4AS137 shunt trip20 mmEverLinkEverLinkPatented technologyDB425667.epsDB425668.epsMN or MX plugged into cavity.Multiple internal wiring possibilities, even with long terminal shieldsDB439415.epsOFFOFSDTeSysMN250V4681012212010CLASSIr(A)READYALARM>XXA>95%1514li=1725AIr I sdIitiL1L2L3L1L2L3GV4P EM115SUimp 8kVUi 800VIn:115AUe(V)Icu(kA)Ics(kA)220/240380/415440500525690/690120100703018101201007030182.550/60HzIEC/EN 60947-2 Cat A 40°CWith Everlin k LAD96595mm² (Rigid)1 x 1,5.....70 Cu1 x 1,5.....95 CuPower tightening torquemm² N.my10u16591 x 1,5.....70 Cu1 x 1,5.....95 CuEverLinkPatented te chnologyMN250VL1Visible presence of MN undervoltage release in circuit breaker cavity, visible rated voltage through the window.Characteristics:page B6/132Schemes:page B6/137";i:441;s:3764:"B6/44Motor circuit breakersTeSys PowerRef. GV4PEM, GV4PB Motor circuit breakers - SD contact moduleSDx contact module for GV4PEM, GV4PB (Multifunction)The SDx provides alarming and functional fault differentiation for GV4PEM, GV4PB (Multifunction) circuit breaker.This module has 2 NO/NC outputs dry contacts which can be assigned with one of the 8 following SD status: bSDT95% overload alarm: thermal image of the motor is greater than 95 % of the permissible temperature rise. bSDTxxs overload alarm: circuit breaker will trip in xx seconds with the same load. xx is adjustable between 10 to 40 seconds (default 20 seconds) on the circuit breaker itself through NFC or a computer with EcoStruxure Power Commission software and an interface module (TRV00911). bSDTAM overload alarm just before tripping: in the event of a phase unbalance, overload, or on a jam fault, this output is activated to open the contactor and avoid circuit breaker tripping. In that case, contact can be manually or automatically reseted after an adjustable cooling time from 1 to 15 minutes. If after a 400 ms delay the motor is not stopped, the circuit breaker will trip. bSDT overload trip indication: circuit breaker has tripped due to an overload fault bSDJAM jam trip indication: circuit breaker has tripped due to a jam fault bSDUNB phase unbalance trip indication: circuit breaker has tripped due to an unbalance fault bSDLS long start trip indication: circuit breaker has tripped due to a long start fault bSDGF ground-fault trip indication: circuit breaker has tripped due to a ground-fault.Outputs are automatically resetted either when alarm disappears or when the circuit breaker is restarted.Output characteristics b2 NO/NC dry contacts b24...250 V AC/DC bMinimum load: 2 mA under 24 V DC bMax load: 5 A bAC15 (230 V max - 400 VA) bDC13 (24 V - 50 W)Power characteristics b24...240 V AC/DCInstallation, connection, settings and indicationThe SDx module is clipped on the right side of the circuit breaker. Each removable spring terminal can be connected by one 0.5... 1.5 mm² copper wire. Settings and indications are available on the front face.*** I1, I2: PLC digital inputs - used as alarm inputs,as an example.TT95%TAMUNBGFJAMLSTxxsTT95%TAMUNBGFJAMLSTxxsa/c (+)a/c (-)a/c (-)a/c (+)SDxSDL1SD12SD14SD22SD24SDL2SD11SD13SD21SD23AlarmfaultI1I2MotorDB432870.epsSDx wiring diagram> 100 %Thermal levelMotor currentSDT95% (1)SDTAM (2)SDT (3)OFSD95 %In400msTimeTripping thresholdTrippingResetDB432513.epsGV4PEM curvesSDx modules curvesAux. contacts curves(1) SDT95% (= 95% overload)(2) SDTAM (overload tripping pre alarm) here not connected to any contactor coil(3) SDT (= tripping on thermal fault)DescriptionMountingMaximum numberType of contactsUnit referenceSDx: alarming / fault differentiation module Side2N/O / N/CGV4ADM1111Product referencesGV4ADM1111 SDx contact moduleSDxLSGFT95%TxxsTAMTJAMUNBSDx12SDxSDTAMONLSGFT95%TxxsTAMTJAMUNB12141564128OFF10DB424786.epsSDx1SDTAMONTT95%TAMUNBGFJAMLS12141564128OFF10Txxs2SDxT95%TTAMUNBGFJAMLSTxxsDB425293.eps1236451 Green led lighted when the module is powered.2 Output 1: SD status assignment.3 Red led lighted when output 1 is activated.4 Cooling time setting before automatic restart (OFF – 1...15 min).5 Output 2: SD status assignment.6 Red led lighted when output 2 is activated.Contact rating (per UL/CSA B300 & R300)StandardRated Voltage UeOperational Current Ie AMake VABreak VAIthe AB300120 V AC336003605240 V AC1.5R300125 V DC0.2228 281250 V DC0.1The rated operational current Ie (A), the rated operational voltage Ue (V) and the break apparent power B (V.A) are correlated by the formula B = Ue · Ie; with Ie ≤ Ith.Dimensions:pages B6/136 and B6/137Schemes:page B6/137";i:442;s:4250:"B6/45Motor circuit breakersTeSys PowerRef. GV4PE, GV4PEM, GV4PB Motor circuit breakers - HandlesProduct referencesDirect mounting rotary handlesInstallationThe direct mounting rotary handle has to be mounted by 3 screws on the front accessory cover.OperationThe direct mounting rotary handle maintains: bsuitability for isolation bindication of the three positions OFF (O), ON (I) and tripped (Trip) baccess to the "push-to-trip" button bvisibility and access to the trip unit.Device padlockingThe circuit breaker may be locked in the OFF position by using one to three padlocks (not supplied) or in ON position after customer modification of the rotary handle before installation, padlock shackle Ø4-8 mm. Locking in the ON position does not prevent the circuit breaker from tripping if a circuit or motor malfunction occurs. In this case, the handle remains in the ON position after the circuit breaker trips. Unlocking is required for the handle to go to the tripped then the OFF position.Variations: door locking Door locking built-in functionality can be activated by the customer to prevent opening the door when the circuit breaker is ON or in trip position. For exceptional situations, door locking can be temporarily disabled with a tool by qualified personel to open the door when the circuit breaker is closed. DescriptionTypeDegree of protectionReferenceDirect mounting rotary handleBlack handleIP40GV4ADN01Red handle on yellow bezel(VDE standard, for machine control)IP40GV4ADN02Front extended rotary handlesInstallationThe door-mounted (extended) rotary handle is made up of: ba unit that has to be screwed on the front accessory cover of the circuit breaker ban assembly (handle mechanism and front plate) on the door that is always secured in the same position, whether the circuit breaker is installed vertically or horizontally ban adjustable extension shaft.The handle mechanism is fixed with a nut (Ø22 mm) to make assembly easier. The Laser Square tool (GVAPL01) can be used to accurately align the hole on the door with the circuit breaker.Operation when door is closedThe door mounted handle makes it possible to operate a circuit breaker installed in an enclosure from the front. The door mounted operating handle maintains: bsuitability for isolation bindication of the three positions OFF (O), ON (I) and tripped (Trip) bvisibility and access to trip unit when the door is open bdegree of protection of the handle on the door: IP54 or IP65 as per IEC 60529.Mechanical door locking when device closedA standard feature of the extended rotary handle is a locking function, built into the shaft, that disables door opening when the circuit breaker is in the ON or tripped positions.Door locking can be temporarily disabled with a tool by qualified personnel to open the door without opening the circuit breaker. This operation is not possible if the handle is locked by a padlock.Device and door padlockingPadlocking locks the circuit breaker handle and disables door opening: bstandard situation, in the OFF position, using 1 to 3 padlocks, shackle Ø4-8 mm, padlocks are not supplied bfor the black handle, with a voluntary modification of the door handle (to be done by the customer during installation), in the ON and OFF positions. Locking in the ON position does not prevent the circuit breaker from tripping if a circuit or motor malfunction occurs. In this case, the handle remains in the ON position after the circuit breaker trips. Unlocking is required for the handle to go to the tripped then the OFF position.Shaft lengthThe shaft length is the distance between the back of the circuit breaker and the door: bminimum shaft length is 214 mm bmaximum shaft length is 627 mm bshaft length must be adjusted.GV4APN01 front extended rotary handle kitPB121326.epsPB106297.epsGVAPL01 laser toolPB121325.epsGV4ADN02 direct mounting rotary handleOFSD1L13L25L3EverLinkPatented technologyTrip4P frame TripReset4P frame Ø 4... 8 OnOffResetTripØ 4...8 OnOffResetTripDB424921.epsFront extended rotary handle (door-mounting)OFSD1L13L25L3EverLinkPatented technologyTripØ 4...8 4P frame TripResetØ 4...8 4P frame Ø 4...8 TripReset4P frame Ø 4...8 DB424920.epsDirect mounting rotary handleDimensions:pages B6/134 to B6/136";i:443;s:3706:"B6/46Motor circuit breakersTeSys PowerRef. GV4PE, GV4PEM, GV4PB Motor circuit breakers - HandlesProduct referencesFront extended rotary handles (cont.)Operation when door is openedAn open door shaft operator can be used to operate the circuit breaker when door is opened. This accessory complies with UL508 A.The indication of the three positions OFF (O), ON (I) and tripped (Trip) is visible onthe circuit breaker.The circuit breaker itself may be locked in OFF position when the door is opened by 1 padlock / lockout hasp, shackle Ø4-8 mm.DescriptionTypeDegree of protectionReferenceFront extendedrotary handle kitBlack handleIP54GV4APN01Red handle on yellow bezelIP54GV4APN02IP65GV4APN04Open door shaft operatorLV426937Support arm for extended rotary handleLV426938Laser toolGVAPL01Spare part: GV4 universal handle (for replacement of front. ext. or side rotary handle) Black handleIP54LV426997Red handle on yellow bezelIP54LV426998IP65LV426999Side rotary handles (left or right)InstallationThe side-mounted rotary handle is made up of: ba unit that has to be screwed on the front accessory cover of the circuit breaker ban assembly (handle and front plate) on the side (left or right) of the enclosure ban adjustable extension shaftThe handle mechanism is fixed with a nut (Ø22 mm) to make assembly easier.OperationThe side mounted rotary handle makes it possible to operate circuit breakers installed in enclosure from the side. The side mounted rotary handle maintains: bsuitability for isolation bindication of the three positions OFF (O), ON (I) and tripped (Trip). Moreover, the position is visible on the circuit breaker itself bvisibility and access to trip unit when the door is open bdegree of protection of the handle on the side: IP54 or IP65 as per IEC 529.Device padlockingThe circuit breaker may be locked in the OFF position, or, for the black rotary handle only, in ON position after voluntary modification of the side handle (to be done by the customer during installation), by using one to three padlocks, padlock shackle Ø4-8 mm ; padlocks are not supplied.Locking in the ON position does not prevent free circuit breaker from tripping if a circuit or motor malfunction occurs. In this case, the handle remains in the ON position after the circuit breaker tripping. Unlocking is required to go to the tripped then the OFF position.Shaft lengthThe shaft length is the distance between the side of the circuit breaker and the side of the enclosure: bminimum shaft length is 45 mm bmaximum shaft length is 480 mm bshaft length must be adjusted.DescriptionTypeDegree of protectionReferenceSide rotary handle kitBlack handleIP54LV426935Red handle on yellow bezel (VDE standard, for machine control)IP54 (1)LV426936Spare part: GV4 universal handle (for replacement of front. ext. or side rotary handle)Black handleIP54LV426997Red handle on yellow bezelIP54LV426998IP65LV426999(1) IP65 possible with LV426935 kit (Black handle not used) + LV426999 Red handle on yellow bezel universal handle.LV426937 Open door shaft operatorPB121328.epsLV426998, LV426997 - Universal handlesLV426936 - Side rotary handle kitPB121329.epsOFSD1L13L25L3EverLinkPatented technologyTripØ 4...8 Axial ref. OFFØ 4...8 Side extended rotary handle (cover mounting)DB424923.epsOFSD1L13L25L3EverLinkPatented technologyTrip4P frame TripReset4P frame Ø 4...8 OnOffResetTripOpen door shaft operator mounted on front extended rotary handle assemblyDB425108.epsGV4APN01 Front extended rotary handle kitPB121326.epsLV426938 Support arm for extended rotary handleDB439409.epsOFSD1L13L25L3EverLinkPatented technologyTrip4P frame ResetDB439410.epsPB106297.epsGVAPL01 - Laser toolPB121330.epsDimensions:page B6/136";i:444;s:1504:"B6/47Motor circuit breakersTeSys PowerRef. GV4PE, GV4PEM, GV4PB Motor circuit breakers - AccessoriesPB121332.epsLV429375 leads + sealing accessoriesProduct referencesHandle padlocking devicesPadlocking systems can receive up to three padlocks with diameters of 5-8 mm (4-8 mm for rotary handles); padlocks not supplied. Locking in the OFF position guarantees isolation as per IEC 60947-2.Direct rotary handle padlockingBy padlock – No accessory required. bLock in OFF position. bLock in ON position with simple mechanism modification.Front Extended /Side rotary handle padlockingBy padlock – No accessory required. bLock in OFF position. bLock in ON position with simple mechanism modification (black handle only).Door opening prevented.Toggle handle padlockingBy padlock – removable toggle locking device required 29370. bLock in OFF position.OFSDEverLinkPatented technologyDB424926.eps3 padlocks mounted on 29370 toggle locking deviceDescriptionReferenceRemovable toggle locking device for 1 to 3 padlocks29370Sealing devicesControl type bFront removal. b Access to auxiliaries. b Access to settings and test connector.Toggle OFSDEverLinkPatented technologySDDB424927.epsOFSDEverLinkPatented technologyDB424928.epsRotary handleOFSDEverLinkPatented technologyØ 4...8 TripResetØ 4...8 SDDB424929.epsOFSDEverLinkPatented technologyØ 4...8 4P frame TripResetØ 4...8 DB424930.epsDescriptionReferenceBag of 6 leads + 6 sealing accessoriesLV429375PB121331.eps29370 removable toggle locking device";i:445;s:1874:"B6/48Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - AccessoriesProduct referencesEverLink power connectionDescriptionReferenceEverLink connectorLAD96595Crimp lug/busbar connectionDescriptionSold in lots ofReferenceCrimped lug connector + screws1GV4LUGTransparent terminal shield for crimped lug connector1LAD96590Interphase barriers 6LV426920Spreader 3-pole To increase the pitch to 35 mm1LV426940Limited torque throwaway bitsDescriptionSold in lots ofReferenceGreen - 9 N.m6LV426990Yellow - 5 N.m6LV426992Note: torque limiting breakaway bits may be used, particularly in the field, to tighten at the right torque EverLink™ or compression lug power connections.Test tool, software, demo for GV4PEMTest toolPocket batteryAllows the ref. GV4PEM or GV4PB controller to be powered for adjustments and tests when no internal source is available.LV434206Maintenance case TRV00910Comprising: bUSB maintenance interface bPower supply bGV4PEM cord bUSB cord bRJ45/RJ45 male cordSpare USB maintenance interfaceTRV00911USB interface spare power supply, 110-240 V AC, with 4 different socket adaptersTRV00915Spare cord for connecting GV4PEM to USB maintenance interfaceTRV00917SoftwareConfiguration and setting software EcoStruxure Power CommissionFree downloadLAD96595 EverLink connectorPB121333.epsGV4LUG crimped lug connectorPB121334.epsLV426940 spreader 3-pole PB121344.epsLV426992 5 N.m yellow throwaway bitsPB121341.epsLAD96590 transparent terminal shieldPB121335.epsLV426920 interphase barriers PB121343.epsLV426990 9 N.m green throwaway bitsPB121342.epsPB121337.epsTRV00910 maintenance case PB121336.epsLV434206 pocket batteryPB121339.epsTRV00917 spare GV4PEM cord for USB maintenance interfacePB121340.epsTRV00915 spare power supply 110-240 V ACPB121338.epsTRV00911 Spare USB maintenance interface";i:446;s:64:"B6/49Motor circuit breakersTeSys Giga - Frame 5, 655 to 250 kW";i:447;s:28:"B6/50Motor circuit breakers";i:448;s:1857:"B6/51Motor circuit breakersThermal-magnetic circuit breakers Frame 5 with screw clamp terminals up to 110 kW (1)Control by direct rotary handleStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Thermal setting range (Ir)ReferenceWeight400/415 V500 V660/690 VPIcuIcs (2)PIcuIcs (2)PIcuIcs (2)kWkA%kWkA%kWkA%Akg55...753610075...903010090... 110810070...150GV5P150F2.4701005010010100GV5P150H90...1103610011030100110...1328100100...220GV5P220F2.6701005010010100GV5P220H(1) Breakers have to be used with suitable rating of contactors, as defined in section A6.(2) As % of lcu.Thermal-magnetic circuit breakers Frame 6 with screw clamp terminals up to 250 kW (1)Control by direct rotary handleStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Thermal setting range (Ir)ReferenceWeight400/415 V500 V660/690 VPIcuIcs (2)PIcuIcs (2)PIcuIcs (2)kWkA%kWkA%kWkA%Akg132...16036100160...20025100200...25010100160...320GV6P320F6.5701005010010100GV6P320H200...25036100250...31525100315...40010100250...500GV6P500F6.7701005010010100GV6P500H(1) Breakers have to be used with suitable rating of contactors, as defined in section A6.(2) As % of lcu.Thermal-magnetic circuit breakers Frame 5/6 with screw clamp terminals (1)Control by direct rotary handleThermal setting Standard breaking capacityHigh breaking capacity3-Phase230 V460 V575 VAHPHPHPReferenceReference90...15050100150GV5P150FGV5P150H133...22075150200GV5P220FGV5P220H160...320125250300GV6P320FGV6P320H250...500150350500GV6P500FGV6P500H(1) Breakers have to be used with suitable rating of contactors, as defined in section A6. GV5P220FPB120638.epsGV6P320FPB120633.epsTeSys PowerGiga - Frame 5, 6 Motor circuit breakers - Thermal-magneticProduct referencesCharacteristics:page B6/140Curves:pages B6/141 to B6/143Dimensions:pages B6/146 to B6/152";i:449;s:1866:"B6/52Motor circuit breakers18 171514111325ResetTrip-ON-OFFTeSysGV5P 150FUimp 8kVUi 800VIn 150A50/60HzUe(V)Icu(kA)Ics(kA)230415440500690853635308853635308GB/TUL14048.460947-4-1LISTED Man. MotorControllerIEC/EN 60947-2 60947-4-1 ResetTrip-ON-OFFResetTrip-ON-OFFP08212015100AVacHpHp115101523020304804075575501001Ph3Ph246ALARM%Ir 510 20IrClassIsd 35 42 47 5257 60 65 72 80(A)6789101112135Ir>95READY>30AIr 7.2lrIsdli=1500AIEC60947-4-1ClassMicrologic 2.2MResetTrip-ON-OFFTeSysGV5P 150FUimp 8kVUi 800VIn 150A50/60HzUe(V)Icu(kA)Ics(kA)230415440500690853635308853635308GB/TUL14048.460947-4-1LISTED Man. MotorControllerIEC/EN 60947-2 60947-4-1 ResetTrip-ON-OFFTeSysGV5P 150FUimp 8kVUi 800VIn 150A50/60HzUe(V)Icu(kA)Ics(kA)230415440500690853635308853635308GB/TUL14048.460947-4-1LISTED Man. MotorControllerIEC/EN 60947-2 60947-4-1 139101216P0821 201 5246ResetTr ip-ON867412453PowerTagDielectricswitchTESTRUN19 DB432813.aiFrame 5 Motor circuit breaker - Add-on blocks and accessories1 Terminal shield GV7AC012 Insulating screen GV7AC053 Interphase barriers GV7AC044 Spreaders 45 mm GV7AC035 Steel connector GV7AC021 (1.5-95 mm²)6 Aluminum connector LV429227 (25-95 mm²)7 Aluminum connector GV7AC022 (120-185 mm²)8 Aluminum connector LV429244 (120-240 mm²)9 OF, SD, or SDE indication contacts 29450 (standard) / 29452 (for low level) 10 SDE adapter LV42945111 UVR or SHT voltage release LV42940p/LV42938p12 SDTAM thermal fault module LV42942413 Combination kit for contactor GV7AC06/GV7AC081...5: function related to each contact location, please refer to B6/54. 14 Direct rotary handle black GV5AP03 (shipped with the device)15 Direct rotary handle red on yellow bezel GV7AP0416 Open door shaft operator LV42693717 Extended rotary handle black GV7AP0118 Extended rotary handle red on yellow bezel GV7AP0219 PowerTag M250 wireless energy sensor LV434020";i:450;s:1711:"B6/53Motor circuit breakers421417121110313ResetTrip-OFF- ONTeSysGV6P 320FUimp 8kVUi 800VIn 320A50/60HzUe(V)Icu(kA)Ics(kA)23041544050069040363025104036302510GB/TUL14048.460947-4-1LISTED Man. MotorControllerIEC/EN 60947-2 60947-4-1 ResetTrip- ON-OFFTeSysGV6P 320FUimp 8kVUi 800VIn 320A50/60HzUe(V)Icu(kA)Ics(kA)23041544050069040363025104036302510GB/TUL14048.460947-4-1LISTED Man. MotorContr ollerIEC/EN 60947-2 60947-4-1 ResetTrip- ON-OFFResetTrip- ON-OFF8 510 20160180200220240 260 280 300 320 (A)6789101112135x IrALARM%T°IrClassIsdMicrologic 2.3M>95READY>50AIr 7.2lrIsdli=4800AIEC947-4-1ClassResetTrip- ON-OFFTeSysGV6P 320FUimp 8kVUi 800VIn 320A50/60HzUe(V)Icu(kA)Ics(kA)23041544050069040363025104036302510GB/TUL14048.460947-4-1LISTED Man. MotorContro llerIEC/EN 60947-2 60947-4-1 611615571672394PowerTagDielectricTESTRUNswitchDB432814.ai1 Terminal shield 45 mm LV4325932 Terminal shield 52.5 mm LV4325953 Interphase barriers LV432570 4 Insulating screen LV4325785 Spreader 52.5 mm LV4324906 Spreader 70 mm LV4324927 Aluminum connector LV432479 (1 x 35-300 mm2)8 Aluminum connector LV432481 (2 x 35-300 mm2)9 OF, SD, or SDE indication contacts 29450 (standard) / 29452 (for low level)10 SDTAM thermal fault module LV42942411 UVR or SHT voltage releases LV42940p/ LV42938p12 Direct rotary handle black GV6AP03 (shipped with the device)13 Direct rotary handle red on yellow bezel LV43259914 Open door shaft operator LV42693715 Extended rotary handle black LV43259816 Extended rotary handle red on yellow bezel LV43260017 PowerTag M630 wireless energy sensor LV434022Frame 6 Motor circuit breaker - Add-on blocks and accessories1...7: function related to each contact location, please refer to B6/54. ";i:451;s:3114:"B6/54Motor circuit breakersProduct referencesAdd-on auxiliary contacts - OF contactsThese allow remote indication of the circuit breaker contact states. They can be used for signalling, electrical locking, relaying, etc. They are available in two versions: standard and low level. They include a terminal block and the auxiliary circuits leave the circuit breaker through a hole provided for this purpose.They perform the following functions, depending on where they are located in the circuit breaker:LocationFunctionApplication1 and/or 4 (GV5) 1 and/or 4, 6, 7 (GV6)C/O contactIndicates the position of the circuit breaker poles. 2Trip indicationIndicates that the circuit breaker has tripped due to an overload, a short-circuit, a differential fault or the operation of a voltage trip (undervoltage or shunt trip), or of the “push to trip” test button. It resets when the circuit breaker is reset.3Electrical fault indicationIndicates that the circuit breaker has tripped due to an overload, a short-circuit or a differential fault. It resets when the circuit breaker is reset.5Adapter for electrical fault indicationThis accessory is mandatory for GV5 to provide electrical faultindication.TypeReferenceStandard29450Low level29452Adapter for electrical fault indicationLV429451Thermal fault module - SDTAMGV5/ GV6 can be equipped with thermal fault module. This module have:b a contact to indicate overload fault in the circuit-breakerb a contact to open the contactor. In the event of overload or phase unbalance, this output is activated 400 ms before circuit-breaker tripping to open the contactor and avoid circuit breaker tripping.VoltageReference24...415 V AC/DC LV429424 (1)Electric tripsThese allow the circuit breaker to be tripped via an electrical control signal.b Undervoltage release (UVR) - LV42940p b Trips the circuit breaker when the control voltage drops below 35 % of its rated voltage.b Between 35 % and 70 % of the rated voltage opening is possible but not guaranteed.b Above 70 % of the rated voltage, opening does not take place.b Continuous duty rated coil.b Circuit breaker closing is possible only if the voltage exceeds 85 % of the rated voltage. b Shunt trip (SHT) - LV42938pTrips the circuit breaker when the control voltage rises above 0.7 times the rated voltage.b Impulse type u 20 ms or maintained control signals.b Operation (LV42940p or LV42938p)v When the circuit breaker has been tripped by an UVR or by a SHT, it must be reset either locally.v Tripping has priority over manual closing: if a tripping order is present, manual action does not result in closing, even temporarily, of the contacts.v Durability: 50 % of the mechanical durability of the circuit breaker.TypeVoltageReferenceUndervoltage trip220...240 V, 50/60 HzLV429407Shunt trip110...130 V, 50/60 HzLV429386220...240 V, 50/60 HzLV429387(1) LV429429 takes the place of the UVR/SHT electric trip coil and an auxiliary contact (C/O contact 1). TeSys PowerGiga - Frame 5, 6 Motor circuit breakers - Add-on blocks and accessoriesCharacteristics:pages B6/144 and B6/145Schemes:page B6/152";i:452;s:4613:"B6/55Motor circuit breakersCabling accessoriesCable connectors: The connectors for Frame 5 snap directly on to the device terminals or are secured by clips to right-angle and straight terminal extensions as well as spreaders. Frame 6 connectors are screwed directly to the device terminals.Spreaders: Spreaders may be used to increase the pitch from 35 mm to 45 mm for Frame 5. The 45 mm pitch can be increased to 52.5 or 70 mm for Frame 6.Long terminal shields: They are used for front connection with cables or insulated bars. They comprise two parts assembled with captive screws, forming an IP40 cover. The top part is equipped with sliding grids with break marks for precise adaptation to cables or insulated bars. The rear part completely blocks off the connection zone. Partially cut squares can be removed to adapt to all types of connection for cables with lugs or copper bars. Long terminal shields may be mounted upstream and downstream of the breaker.Phase barriers: These interphase barriers are used for maximum insulation at the power-connection points.Insulating screens: These are fited at the rear of the device which provides insuation. Their use is mandatory for devices with spreaders, installed on backplates, when terminal shields are not used.Frame 5 Combination kits: These kits allow link between the circuit breaker and the contactor. The cover provides protection against direct finger contact. The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker.DescriptionApplicationSold in lots ofUnit reference GV5Unit reference GV6Steel connectors (set of 3)1.5...95 mm2 ≤ 150 A 1GV7AC021–Aluminium connectors (set of 3)25...95 mm2 ≤ 220 A1LV429227120...185 mm2 ≤ 220 A1GV7AC022120...240 mm2 ≤ 220 A1LV42924435...300 mm²1LV4324792 x 35...300 mm²1LV432481Spreader 3-pole (1)35...45 mm pole pitch1GV7AC0352.5 mm pole pitch1LV43249070 mm pole pitch1LV432492Long terminal shield (IP40) (1)35 mm pole pitch1GV7AC0145 mm pole pitch1LV43259352.5 mm pole pitch1LV432595Phase barriers (set of 6)1GV7AC04LV432570Insulating screens (set of 2)45 mm1GV7AC0570 mmLV432578Combination Kits (2)For contactor LC1F115...F185Connection kits between breaker and contactor1GV7AC06For contactor LC1D115 and D1501GV7AC08Direct rotary handleThe circuit breaker is always supplied direct rotary handle (black handle, black plate) as standard and it provides IP40 protection. The other type handles can be used by replacing this direct rotary handle. It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shackle diameter of 5 to 8 mm (padlocks not included). A MCC conversion accessory allows the direct rotary handle to be mounted on the enclosure door. In this case, the door cannot be opened if the circuit breaker is in the “ON” position. Circuit breaker closing is inhibited if the enclosure door is open and prevents the device from being closed if the door is open.DescriptionTypeSold in lots ofUnit reference GV5Unit referenceGV6Direct rotary handleBlack handle, black legend plate1GV5AP03GV6AP03Red handle, yellow legend plate1GV7AP04LV432599MCC conversion accessoryFour mounting direct rotary handle on enclosure door1GV7AP05LV432606Extended rotary handleAllows to operate a circuit breaker from the front of the switch board, which's installed in the back of an enclosure, which provides IP55 protection. It comprises:b a unit which is screwed onto the front accessory cover of the circuit breaker,b an assembly (handle mechanism and front plate) to be fitted on the enclosure door,b an extension shaft which must be adjusted.b The distance minimum and maximum distances between the mounting surface and the door arev 185...600 mm for Frame 5 v 209...600 mm for Frame 6It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shackle diameter of 5 to 8 mm (padlocks not included) and disables opening enclosure door. DescriptionTypeSold in lots ofUnit reference GV5Unit referenceGV6Extended rotary handleBlack handle, black legend plate1GV7AP01LV432598Red handle, yellow legend plate1GV7AP02LV432600(1) Terminal shields cannot be used together with spreaders.(2) The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker. TeSys PowerGiga - Frame 5, 6 Motor circuit breakers - AccessoriesLV432479PB120641.epsLV432490PB120642.epsLV432593PB120643.epsGV7AC04PB120644.epsGV6AP03PB120640.epsProduct referencesLV432599PB120645.epsGV7AP02PB120646.epsDimensions:page B6/149 ";i:453;s:2667:"B6/56Motor circuit breakersLV426937 Open door shaft operatorPB121328.epsPB106297.epsGVAPL01 Laser toolPB120637.epsLVA429375 Sealing accessoriesPB121345.epsLV434020, LV434022Other accessoriesBag of 6 tamper seals + 6 cover caps (1 large, 5 small) for screw headsLV429375PowerTag Measurement moduleWireless-communication module PowerTag is directly mounted on the bottom side of the circuit breaker.It provides capability to measure energy, monitor voltage loss, and trigger alarms. It then delivers useful data to a concentrator for monitoring and diagnosis of the associated circuit breaker.In addition to monitoring and alarming, PowerTag solution provides a complete knowledge of real time electrical values with a rich and accurate data transfer every 5 seconds.PowerTag energy sensors can be quickly and easily installed in new or existing panels at any time. Compared to traditional metering solutions, installation time and commissioning are much shorter with no wiring, hence an error proof high density solution and a built-in class 1 accuracy.FunctionsPowerTag energy sensor measures the following values in accordance with the IEC 61557-12 standard: bEnergy (4 quadrants):v Active energy (Wh): total and partial, delivered and receivedv Active energy per phase (Wh): totalv Reactive energy (VARh): partial, delivered and received bPower:v Active power (W): total and per phasev Reactive power (VAR): totalv Apparent power (VA): total bVoltages (V): phase-to-phase (U12, U23, U31) and phase-to-neutral (V1N, V2N, V3N) bCurrents (A): per phase (I1, I2, I3) bFrequency bPower factor bVoltage loss alarm:v PowerTag energy sensor sends a "voltage loss" alarm and the current-per-phase value before being de-energizedv At "voltage loss", PowerTag adds an overload alarm if the current is higher than the rated current of the associated protective device.Note: functions listed above depend on concentrators/gateways. DescriptionReferencePowerTag M250 3P: suitable for Frame 5 up to 220 ALV434020PowerTag M630 3P: suitable for Frame 6 up to 500 ALV434022TeSys PowerGiga - Frame 5, 6 Motor circuit breakers - AccessoriesProduct referencesFront extended rotary handles (cont.)Operation when door is openedAn open door shaft operator can be used to operate the circuit breaker when door is opened. This accessory complies with UL508 A.The indication of the three positions OFF (O), ON (I) and tripped (Trip) is visible on the circuit breaker.The circuit breaker itself may be locked in OFF position when the door is opened by 1 padlock / lockout hasp, shackle Ø4-8 mm.DescriptionReferenceOpen door shaft operatorLV426937Laser toolGVAPL01Dimensions:page B6/150";i:454;s:70:"B6/57Motor circuit breakersPowerLogicTM Energy measurement solutions";i:455;s:2204:"B6/58Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ Energy sensorsPresentationPowerTag EnergyIt is a wireless-communication energy sensor dedicated to: bEnergy Management bLoad Monitoring bPower Availability applications. It provides a class 1 solution to monitor energy at any level of a distribution panel, from load to main incomer.Thanks to the wireless communication between PowerTag Energy Sensors and PowerTag Energy Link gateway, the solution can be quickly and easily installed in new or existing panels.Main featuresReal time measurement (saved in the sensors): bU, V, I (up to 2000 A) bP, PF and energy values bDiagnostics, alarming.PowerTag Energy - Main componentsMeasurement - PowerTag Energy sensorsVoltages and currents are measured and processed by a sensor:1 PowerTag Energy Monoconnect: directly mounted on the device terminals, upstream (Acti9, Multi9 only) or downstream (Acti9, Multi9, TeSys Deca - Frame 5, 6 circuit breakers2 PowerTag Energy Phase Neutral: sensor is crossed by the conductors, voltage pickup connector mounted on device terminals3 PowerTag Energy Flex: sensor is crossed by the conductors4 PowerTag Energy Rope: fixed on bar conductors.Processing and communication – PowerTag Energy LinkThe system works with a concentrator or a gateway: bto collect data from the sensors bto process data bto provide additional alarms band make them available via Ethernet.PowerTag Energy Link12 3 14Connection (voltage and current)FeaturesUpstream bEnergy management: consumption in kWh bLoad monitoring: real-time measurementsDownstreamPreferred installation to take full benfit of voltage lossalarming in diagnosing the load bEnergy management: consumption in kWh bLoad monitoring: real-time measurements bPower availability: voltage loss alarmingNote: In combination with a contactor, Variable Speed Drive or motor starter: PowerTag Energy can ONLY be installed UPSTREAM of these devices.Select the PowerTag Energy devices, check the possible mounting positions in the PowerLogic – PowerTag Energy - Selection guide.Scan or Click to download:>> PowerLogic - PowerTag Energy - Selection guide ";i:456;s:2153:"B6/59Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ Energy Flex 63 AUse with TeSys Deca - Frame 2, 3 Motor circuit breakers Energy measurement – PowerLogicPowerTag Energy Flex 63 A (F63) As per IEC 61557-12 PMD-II/DD/K55/1 standard:with its flex design this PowerTag Energy can be used below a Deca Motor circuit breakers Frame 2, 3-type (ref. GV2ppp, GV3ppp) up to 63 A on 3P or 3P + N networks. The voltage picking is done by mean of 3 (3P) or 4 (3P + N) terminals. The shapes for brackets allow to mount and maintain it where needed in a panel.Main characteristicsPowerTag Energy measures the following values in accordance with the IEC 61557-12 standard PMD-I/DD/K55/1.Energy: bActive energy (kWh): total and partial, delivered and received.Real-time measurement values: bVoltages (V): phase-to-phase and phase-to-neutral bCurrents (A): per phase. bPower: vActive power (W): total and per phase vApparent power (VA): total bPower factor.Voltage loss alarms: bPowerTag Energy sends a 'voltage loss' alarm and the current-per-phase value before being de-energized bAt 'voltage loss', PowerTag Energy adds an overload alarm if the current is higher than the rated current of the associated protective device.Note: functions listed above depends on Concentrator/Gateway. DescriptionReferencePowerTag Energy Flex 63 A 3PA9MEM1573PowerTag Energy Flex 63 A 3P+NA9MEM1570InstallationNeutral picking shall be connected to have phase-to-neutral voltages, energy per phase and power per phase provided.The existing PowerTag cable ends have been designed for screw terminals for 16 mm2. To adapt PowerTag F63 to the different types of product terminals, it is possible to replace the PowerTag Energy voltage measurement terminals by other cable ends for WG22/0.33 mm2 wire.A9MEM1570A9MEM1573PB121656.epsPB121657.epsPowerTag Flex 63 A (terminals are for voltage measurement)Communication between PowerTag Energy Flex 63 A and PowerTag Link ref. A9XMWD20Scan or Click to download:>> PowerLogic - PowerTag Energy - Selection guide EthernetPowerTag LinkEthernet connector100 Base T - RJ45Characteristics / Dimensions:page B6/154";i:457;s:3047:"B6/60Motor circuit breakers Energy measurement – PowerLogicPowerTag Energy Flex 160 A (F160) As per IEC 61557-12 PMD-II/DD/K70/1 standard: with its flex design this PowerTag Energy can be used below a Deca motor circuit breaker Frame 4 - type (ref GV4pppp) up to 160 A on 3P or 3P + N networks. Its removable spring connector for voltage picking facilitates its installation, and shapes for brackets allows to mount and maintain it where needed in a panel.Main characteristicsPowerTag Energy Flex 160 A measures the following values in accordance with the IEC 61557-12 standard PMD-II/DD/K70/1. bEnergy (4 quadrants): vActive energy (kWh): total and partial, delivered and received vActive energy per phase (kWh): total and partial, delivered and received vReactive energy (kVARh): total and partial, delivered and received vReactive energy per phase (kVARh): total and partial, delivered and received vApparent energy (kVAh): total and partial vApparent energy per phase (kVAh): total and partial. bReal-time measurement values: vVoltages (V): phase-to-phase (U12, U23, U31) and phase-to-neutral (V1N, V2N, V3N) vCurrents (A): per phase (I1, I2, I3), calculated neutral current when connected (IN) vPower:Active power (W): total and per phaseReactive power (VAR): total and per phaseApparent power (VA): total and per phase vFrequency (Hz). vPower factor: total and per phase. bVoltage loss alarms: vPowerTag Energy Flex sensor sends a 'voltage loss' alarm and the current-per phase value before being de-energized. vAt 'voltage loss'', PowerTag Energy Flex adds an overload alarm if the current ishigher than the rated current of the associated protective device.Note: functions listed above depends on Concentrator/Gateway. DescriptionReferencePowerTag Energy Flex 160 A 3P / 3P+N A9MEM1580InstallationPowerTag Energy Flex 160 A can be installed in a panel directly on cables or busbars, associated to a product or not. Voltage pickings removable spring terminal has to be wired by 1 copper wire per phase with following characteristics:Wire range SolidStrandedStranded with terminals ends0.2...1.5 mm20.2...2.5 mm20.25...1.5 mm224...16 AWG24...14 AWG24...16 AWGIf phase-to-neutral voltages, energy per phase and power per phase are needed, then a Neutral picking cable must be connected between the spring-type connector of the PowerTag Energy Flex and a Neutral in the control panel.PowerTag Energy Flex 160 A is mainly advised for ComPact NSXm, ComPact INS160, Acti9 NG125, Acti9 C120, PowerPact B, TeSys Deca - Frame 4 - type circuit breaker, and all other devices with a rating between 63 A and 160 A.PB121658.epsPowerTag Energy Flex 160 ARef. A9MEM1580Communication between PowerTag Energy Flex 160 A and PowerTag Link ref. A9XMWD20PowerLogic™ Energy measurement solutionsPowerTag™ Energy Flex 160 A Use with TeSys Deca - Frame 4 Motor circuit breakers Scan or Click to download:>> PowerLogic - PowerTag Energy - Selection guide EthernetPowerTag LinkEthernet connector100 Base T - RJ45Characteristics / Dimensions:page B6/155";i:458;s:3273:"B6/61Motor circuit breakers Energy measurement – PowerLogicPowerTag Energy Monoconnect 250 A (M250)PowerTag Energy Monoconnect 630 A (M630)As per IEC 61557-12 PMD-II/DD/K70/1 standard:PowerTag Energy Monoconnect is directly mounted on the bottom side of a TeSys Deca - Frame 4 or 5 circuit breaker, for 3P and 3P+N electrical networks.Thanks to its integrated design, it does not require any specific wiring, and is compatible with the same connection accessories than the device it is mounted on. In addition to monitoring and alarming, PowerTag solution provides a complete knowledge of real time electrical values with a rich and accurate data transfer every 5 seconds.PowerTag Energy sensors can be quickly and easily installed in new or existing panels at any time. Compared to traditional metering solutions, installation time and commissioning are much shorter with no wiring, hence an error proof high density solution and a built-in class 1 accuracy.FunctionsPowerTag Energy sensor measures the following values in accordance with the IEC 61557-12 standard. bEnergy (4 quadrants): vActive energy (kWh): total and partial, delivered and received vActive energy per phase (kWh): total vReactive energy (kVARh): partial, delivered and received. bReal-time measurement values: vVoltages (V): phase-to-phase (U12, U23, U31) and phase-to-neutral (V1N, V2N, V3N) vCurrents (A): per phase (I1, I2, I3). bPower: vActive power (W): total and per phase vReactive power (VAR): total vApparent power (VA): total. bFrequency (Hz) bPower factor bVoltage loss alarm: vPowerTag Energy sends a "voltage loss" alarm and the current-per-phase value before being de-energized vAt 'voltage loss', PowerTag adds an overload alarm if the current is higher than the rated current of the associated protective device.Note: functions listed above depends on Concentrators/Gateways. DescriptionReferencePowerTag Monoconnect M250 3P: suitable for GV5 up to 220 ALV434020PowerTag Monoconnect M630 3P: suitable for GV6 up to 500 ALV434022InstallationThe module is self-powered and is installed for fixed devices directly on the bottom side of the circuit breaker or Vigi add-on terminals. For plug-in devices, it has to be installed on the base itself, top or bottom.PowerTag Energy M250/M630 3P has to be used with 3P devices, and an external neutral voltage tap is provided in case of the installation has a neutral to provide phase-to-neutral voltages, active energy per phase and power per phase.PowerTag Energy M250/M630 3P + N has to be used with 4P devices and with ComPact INS/INV switches.In case of retrofit, following points have to been checked: bClearance to be able to add PowerTag Energy module and to respect bending radius of cables. bCondition of power connectors: to be replaced if damaged. bTightening torques depending on the connector used.PB121663.epsLV434020PB121661.epsLV434022Communication between PowerTag Monoconnect M630 and PowerTag Link ref. A9XMWD20PowerLogic™ Energy measurement solutionsPowerTag™ Energy Monoconnect Use with TeSys Deca - Frame 5, 6 Motor circuit breakers Scan or Click to download:>> PowerLogic - PowerTag Energy - Selection guide EthernetPowerTag LinkEthernet connector100 Base T - RJ45Characteristics / Dimensions:page B6/156";i:459;s:3462:"B6/62Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ Link Ethernet Connection Concentrator for PowerTag Energy sensors Energy measurement – PowerLogicPowerTag LinkEthernet connection concentrator (Modbus TCP/IP) for wireless devices with data display web pages.The associated PowerTag Energy sensors allow alarms to be managed via email for terminal loads, and energy, power, current and voltage to be measured accurately in real time.The associated PowerTag Control modules are designed to monitor and control a circuit and notify wirelessly to the concentrator the information status of a contact (OF, SD, CT or TL position indication...).The associated PowerTag Link Display allows user to visualize data from energy sensors connected to the gateway.The entire system can easily be installed in existing LV equipments using Multi9/Acti9/Compact NSX type circuit breakers, TeSys and competitor's devices.Data transmitted: bTotal and partial energy bActive, apparent and reactive power, phase-to-phase and phase-to-neutral voltage bCurrents I1, I2, I3 bPower factor (cos φ) bVoltage loss and overload information bControl order to a circuit bInformation status of a contact.FunctionsPowerTag Link permits: bConcentration of PowerTag Energy wireless sensor data bEthernet connection via the RJ45 port bLoad monitoring: valarm sent by the energy sensor in the event of a voltage loss, vpre-alarms on predefined thresholds (50 %, 80 %) or customized thresholds (thresholds on currents, power, voltages and cumulative energies), vload running time counter, vpower synthesis (kW), vAlarm management on current/voltage/load level thresholds by e-mail, vSend control orders to PowerTag Control output to operate a load remotely and get oad status thanks to feedback loop on associated input, vCollect status of contact from PowerTag Control input, vDisplay of alarms and pre-alarms on PowerTag Link embedded web pages, vEasy integration into system with Com'X 200, Com'X 510 and other Schneider Electric software and third-party Building Management Systems (BMS) thanks to EcoStruxure Power Commission report in pdf format. This report provides dynamically all the Modbus registers and associated meanings for an easy integration into the system, vRemote metering capability using the PowerTag Link monitoring page, vSend measured data and alarms to the PowerTag Link Display that can be installed locally.DescriptionReferencePowerTag Link A9XMWD2Installation bOn DIN rail (width 54 mm). b230 V AC power supply.Testing and start-upPairing of wireless devices must be performed via the EcoStruxure Power Commission software, freely available by downloading. bThe software makes it possible, in particular, to attribute to each circuit a name, a use and the current rating (useful for alarms).Scan or Click to download:>> PowerLogic - PowerTag Energy - Selection guide Commissioning software: EcoStruxure Power Commission (1) bConfiguration and communication test of wireless devices bEditing of a complete test report (pdf) with the Modbus communication registers for easy integration into a supervision system bWindows XP, Windows 7, Windows 8 and Windows 10 compatible bDownloadable from: https://www.schneider-electric.com/ww/en/ download/document/Ecoreach_Installer(1) new name of Ecoreach software.PowerTag EnergyPowerTag ControlPowerTag Link DisplayPowerTag Linkref.: A9XMWD20Characteristics / Dimensions:page B6/157";i:460;s:107:"B6/63Motor circuit breakersTeSys Modular circuit breakers0.5 to 20 A (for equipment and control circuits)";i:461;s:2164:"B6/64Motor circuit breakersIntroductionModular thermal-magnetic circuit breakers protect and isolate the control circuits of industrial equipment with contactor coils, transformers....They protect and isolate single-phase auxiliary circuits such as solenoid valves, electro-brakes, battery chargers, supplied from the control circuit voltage. Ref. GB2CB, GB2CD, GB2DB12 ratings are available, from 0.5 to 20 A, in single-pole (GB2CB), single-pole + neutral (GB2CD) and 2-pole (GB2DB) versions.They have a magnetic tripping threshold set at between 12 and 16 In to withstand the current peaks generated by many industrial components. Ref. GB2CS2 ratings are available, 0.5 and 1 A, in single-pole version.The magnetic tripping threshold is set between 5 and 7 In. Functions, installationClip-on fixing onto all types of 35 mm 5 rails, on 4 rails and on Telequick mounting plates.Upstream and downstream marking by means of AB1 clip-in markers.Clear indication of “I” and “O” positions on the operator.Tamper-proof device which requires no special maintenance (fixed magnetic and thermal tripping thresholds). Selection for the protection of circuits supplied by transformersSingle-phase transformers.Magnetising peak: 20 In.Operation of magnetic trips: 13 In. PowerPrimary (1)SecondaryVA220/240 V380/415 V24 V48 V110 V220 V40GB2DB05GB2DB05GB2CD07GB2CD06GB2CD05GB2CD0563GB2DB05GB2DB05GB2CD08GB2CD07GB2CD06GB2CD05100GB2DB06GB2DB05GB2CD10GB2CD07GB2CD06GB2CD05160GB2DB07GB2DB06GB2CD14GB2CD09GB2CD07GB2CD06250GB2DB07GB2DB06GB2CD16GB2CD12GB2CD08GB2CD07400GB2DB08 GB2CD22GB2CD14GB2CD09GB2CD07630GB2DB10GB2DB08–GB2CD21GB2CD12GB2CD081000GB2DB14GB2DB09––GB2CD16GB2CD101600GB2DB20GB2DB14–––GB2CD142000GB2DB21GB2DB14––GB2CD22GB2CD162500GB2DB22GB2DB20–––GB2CD203000GB2DB22GB2DB20–––GB2CD214000–GB2DB21–––GB2CD225000–GB2DB22––––(1) If the breaking capacity of the GB2 is insufficient, use a GV2RT with 2 poles connected in series.TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticIntroductionGB2CBPB110899_20.epsGB2DBPB110902_20.epsGB2CSPB110900_20.epsGB2CDPB110901_20.eps";i:462;s:1166:"B6/65Motor circuit breakersProduct referencesCircuit breakers with magnetic tripping threshold: 12 to 16 InSingle-poleConventional rated thermal current Ith (1)Magnetic tripping current Id ± 20 %Sold in lots ofUnit referenceAA0.56.66GB2CB051146GB2CB062266GB2CB073406GB2CB084526GB2CB095666GB2CB106836GB2CB1281086GB2CB14101386GB2CB16121656GB2CB20162206GB2CB21202706GB2CB22Single-pole + neutralConventional rated thermal current Ith (1)Magnetic tripping current Id ± 20 %Sold in lots ofUnit referenceAA0.56.66GB2CD051146GB2CD062266GB2CD073406GB2CD084526GB2CD095666GB2CD106836GB2CD1281086GB2CD14101386GB2CD16121656GB2CD20162206GB2CD21202706GB2CD222-poleConventional rated thermal current Ith (1)Magnetic tripping current Id ± 20 %Sold in lots ofUnit referenceAA0.56.63GB2DB051143GB2DB062263GB2DB073403GB2DB084503GB2DB095663GB2DB106833GB2DB1281083GB2DB14101383GB2DB16121653GB2DB20162203GB2DB21202703GB2DB22(1) Conforming to IEC 60947-1. TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticGB2CBppPB110899_20.epsGB2CDppPB110901_20.epsGB2DBppPB110902_20.epsCharacteristics:pages B6/160 to B6/162Dimensions, schemes:page B6/163 ";i:463;s:658:"B6/66Motor circuit breakersProduct referencesCircuit breakers with magnetic tripping threshold: 5 to 7 InSingle-poleConventional rated thermal current Ith (1)Magnetic tripping current Id ± 20 %Sold in lots ofUnit referenceAA0.53.36GB2CS05166GB2CS06(1) Conforming to IEC 60947-1. Accessories for circuit breakers ref. GB2-CB, DB and CSDescriptionSold in lots ofUnit referenceBusbar set for supply to 10 GB2 DB or 20 GB2CB or GB2CS with 2 connectors1GB2G210TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticGB2CSppPB110900_20.epsGB2G210PB121347.epsCharacteristics:pages B6/160 to B6/162Dimensions, schemes:page B6/163 ";i:464;s:2448:"B6/67Motor circuit breakersTeSys PowerDeca, Giga and Modular Motor circuit 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 referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:465;s:2235:"B6/68Motor circuit breakersGV4LE25BGV4LE25B6GV4LE25NGV4LE25N6GV4LE25SGV4LE25S6GV4LE50BGV4LE50B6GV4LE50NGV4LE50N6GV4LE50SGV4LE50S6GV4LE80BGV4LE80B6GV4LE80NGV4LE80N6GV4LE80SGV4LE80S6GV4LUGGV4P02NGV4P02N6GV4P03NGV4P03N6GV4P07NGV4P07N6GV4P115BGV4P115B6GV4P115NGV4P115N6GV4P115SGV4P12NGV4P12N6GV4P25BGV4P25B6GV4P25NGV4P25N6GV4P50BGV4P50B6GV4P50NGV4P50N6GV4P80BGV4P80B6GV4P80NGV4P80N6GV4P80SGV4PB02NGV4PB02SGV4PB03NGV4PB03SGV4PB07NGV4PB07SGV4PB115BGV4PB115NGV4PB115SGV4PB12NGV4PB12SGV4PB25BGV4PB25NGV4PB25SGV4PB50BGV4PB50NGV4PB50SGV4PB80BGV4PB80NGV4PB80SGV4PE02NGV4PE02N6GV4PE02SGV4PE02S6GV4PE03NGV4PE03N6GV4PE03SGV4PE03S6GV4PE07NGV4PE07N6GV4PE07SGV4PE07S6GV4PE115BGV4PE115B6GV4PE115NGV4PE115N6GV4PE115SGV4PE115S6GV4PE12NGV4PE12N6GV4PE12SGV4PE12S6GV4PE25BGV4PE25B6GV4PE25NGV4PE25N6GV4PE25SGV4PE25S6GV4PE50BGV4PE50B6GV4PE50NGV4PE50N6GV4PE50SGV4PE50S6GV4PE80BGV4PE80B6GV4PE80NGV4PE80N6GV4PE80SGV4PE80S6GV4PEM02NGV4PEM02N6GV4PEM02SGV4PEM02S6GV4PEM03NGV4PEM03N6GV4PEM03SGV4PEM03S6GV4PEM07NGV4PEM07N6GV4PEM07SGV4PEM07S6GV4PEM115BGV4PEM115B6GV4PEM115NGV4PEM115N6GV4PEM115SGV4PEM115S6GV4PEM12NGV4PEM12N6GV4PEM12SGV4PEM12S6GV4PEM25BGV4PEM25B6GV4PEM25NGV4PEM25N6GV4PEM25SGV4PEM25S6GV4PEM50BGV4PEM50B6GV4PEM50NGV4PEM50N6GV4PEM50SGV4PEM50S6GV4PEM80BGV4PEM80B6GV4PEM80NGV4PEM80N6GV4PEM80SGV4PEM80S6GV5AP03GV5P150FGV5P150HGV5P220FGV5P220HGV6AP03GV6P320FGV6P320HGV6P500FGV6P500HGV7AC01GV7AC021GV7AC022GV7AC03GV7AC04GV7AC05GV7AC06GV7AC08GV7AP01GV7AP02GV7AP04GV7AP05GVAD0101GVAD0110GVAD1001GVAD1010GVAE1GVAE11GVAE113GVAE20GVAE203GVAED011GVAED0113GVAED101GVAED1013GVAM11GVAN11GVAN113GVAN20GVAN203GVAPA2GVAPBPHPGVAPH02GVAPK11GVAPYPHPGVAS025GVAS026GVAS055GVAS115GVAS116GVAS207GVAS225GVAS226GVAS385GVAS415GVAU025GVAU055GVAU115GVAU116GVAU125GVAU207GVAU225GVAU226GVAU385GVAU386GVAU415GVAU416GVAU505GVAX115GVAX116GVAX225GVAX226GVAX385GVAX386GVAX415LA9E07LAD311LAD96590LAD96595LV429385LV429386LV429387LV429388LV429405LV429406LV429407LV429408TeSys PowerDeca, Giga and Modular Motor circuit breakersProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:466;s:1660:"B6/69Motor circuit breakersTechnical Data for DesignersTeSys Deca, Giga and Modular Motor circuit breakersDeca - Frame 2: > characteristics .....................................B6/72 to B6/76 > curves ..................................................B6/77 to B6/86 > characteristics - accessories ...............B6/87 to B6/89 > dimensions, schemes ..........................B6/90 to B6/99Deca - Frame 3: > characteristics .................................B6/102 to B6/105 > curves ..............................................B6/106 to B6/111 > characteristics - accessories ...........B6/112 to B6/114 > dimensions, schemes ......................B6/115 to B6/117Deca - Frame 4: > characteristics .................................B6/120 to B6/123 > curves ..............................................B6/124 to B6/131 > characteristics - accessories ...........B6/132 to B6/133 > dimensions, schemes ......................B6/134 to B6/137Giga - Frame 5 - Frame 6: > characteristics .................................................B6/140 > curves ..............................................B6/141 to B6/143 > characteristics - accessories ...........B6/144 to B6/145 > dimensions, schemes ......................B6/146 to B6/152PowerTag Energy sensors: > PowerTag Energy Flex 63 A .............................B6/154 > PowerTag Energy Flex 160 A ...........................B6/155 > PowerTag Energy Monoconnect 250 A ............B6/156 > PowerTag Energy Link .....................................B6/157 Modular: > characteristics .................................B6/160 to B6/162 > dimensions, schemes ......................................B6/163 ";i:467;s:28:"B6/70Motor circuit breakers";i:468;s:62:"B6/71Motor circuit breakersTeSys Deca - Frame 20.06 to 15 kW";i:469;s:2384:"B6/72Motor circuit breakersCharacteristicsTeSys PowerDeca - Frame 2 Motor circuit breakersEnvironmentCircuit breaker typeGV2LGV2LEGV2MEGV2PGV2RTConforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-2CSA C22.2 n°60947-4-1 (1), UL 60947-4-1 Product certificationsCCC, EAC, BV, LROS,DNV-GL, RINA, UL (1),CSA, UKCACCC, EAC, BV, RINA,UL (1), UKCACCC, UL, CSA, EAC, ATEX, BV, LROS, UKCA, DNV-GL, RINACCC, UL, CSA, EAC, ATEX, BV, LROS, DNV-GL, RINA, UKCACCC, UL, CSA, EAC, BV, LROS, UKCAClimatic withstandAccording to IACS E10Degree of protection (front face)Conforming to IEC 60529Open mountedAgainst direct finger contact: IP20In enclosureIP65 withGV2PC01GV2PC02 enclosure-IP41 withGV2Mp01IP55 withGV2Mp02enclosureIP 65 withGV2PC01GV2PC02 enclosure-Shock resistanceConforming to IEC 60068-2-2730 gn - 11 msVibration resistanceConforming to IEC 60068-2-65 gn (5 to 150 Hz)Ambient air temperatureStorage°C-40...+80OperationOpen mounted°C-20...+60In enclosure°C-20...+40Temperature compensationOpen mounted°C-20...+60In enclosure°C-20...+40Flame resistanceConforming to IEC 60695-2-11°C960Maximum operating altitudem2000Suitable for isolationConforming to IEC 60947-1 § 7-1-6Ye sResistance to mechanical impactJ 0.5IK04Sensitivy to phase failureYes, conforming to IEC 60947-4-1 § 8-2-1-5-2 for GV2ME & GV2PTechnical characteristicsCircuit breaker typeGV2LGV2LEGV2MEGV2PGV2RTUtilisation categoryConforming to IEC 60947-2AConforming to IEC 60947-4-1AC-3Rated operational voltage (Ue)Conforming to IEC 60947-2V690Rated insulation voltage (Ui)Conforming to IEC 60947-2V690Rated voltageConforming to UL 60947-4-1V--600600600CSA C 22.2 n° 60947-4-1480480600600600Rated operational frequencyConforming to IEC 60947-4-1 UL, CSAHz50/60Rated impulse withstand voltage (U imp)Conforming to IEC 60947-2kV6Total power dissipated per poleW1.82.5Mechanical durability (C.O.: Closing, Opening)C.O.100 000Electrical durability for AC-3/415V duty (C.O.: Closing, Opening)415 V InC.O.100 000Duty class (maximum operating rate)C.O./h4025Maximum conventional rated thermal current (Ith)Conforming to IEC 60947-4-1A0.4...320.4...320.16...320.16...320.40...23Rated dutyConforming to IEC 60947-4-1Continuous duty(1) GV2L03 to GV2L22, GV2LE03 to GV2LE22. (2) UL 60947-4-1 type E for GV2Ppp (except 32 A).References:pages B6/11 to B6/18Curves:pages B6/77 to B6/86Dimensions:pages B6/90 to B6/99Ref.";i:470;s:1868:"B6/73Motor circuit breakersCharacteristicsTeSys PowerDeca - Frame 2 Motor circuit breakersMounting characteristicsOperating position Without derating, in relation to normal vertical mounting plane (1)90 ̊90 ̊90 ̊90 ̊DF510520.epsProducts side by side Db432868.epsWhen several products GV2MEpp, GV2Ppp, GV2RTpp are mounted side by side, the thermal trip setting Ir maybe need to be adjusted up to 1.1xIn.Do not exceed the maximum thermal setting Ir. E.g: GV2ME14, thermal setting range: 6...10, do not adjust Ir above 10 A.Connection characteristicsConnection to screw clamp terminals or spring terminalsBare cables hDF510554.epsCircuit breaker typeGV2LGV2LEGV2MEGV2PGV2RTConnection to screw clamp terminals (Max. number of conductors x c.s.a.)Min.Max.Min.Max.Min.Max.Min.Max.Min.Max.Solid cablemm22 x 12 x 62 x 12 x 62 x 12 x 62 x 12 x 62 x 12 x 6Flexible cable without cable endmm22 x 1.52 x 62 x 1.52 x 62 x 1.52 x 62 x 1.52 x 62 x 1.52 x 6Flexible cable with cable endmm22 x 12 x 42 x 12 x 42 x 12 x 42 x 12 x 42 x 12 x 4Tightening torqueN.m1.7Connection to spring terminals Number of conductors x c.s.a.Solid cablemm2––––2 x 1 (2)2 x 6––––Flexible cable without cable endmm2––––2 x 1.5 (2)2 x 4––––Connection by bars or lugsBars or lugsedLDF534046.epsdLDF534047.epsL'Ø6DF510615.epsCircuit breaker typeGV2MEpp6PitchWithout spreadersmm13.5With spreadersmm–Bars or cables with lugsemmy 6Lmmy 9.5L’mmy 9.5dmmy 10ScrewsM4Tightening torqueN.m1.7Bare cables (copper or aluminium) with connectorsHeight (h)mm–C.s.a.mm2–Tightening torqueN.m–(1) When mounting on a vertical rail, fit a stop to prevent any slippage.(2) For cross-sections 1 to 1.5 mm2, the use of an LA9D99 cable end reducer is recommended.References:pages B6/11 to B6/18Curves:pages B6/77 to B6/86Dimensions:pages B6/90 to B6/99Ref.";i:471;s:1688:"B6/74Motor circuit breakersBreaking capacity of GV2L and GV2LECircuit breaker typeGV2LEGV2L03 to 06070810141620223203 to 0506 &0708101416202232RatingA0.4 to 1.62.546.310141825320.4 to 11.6 to 2.546.31014182532Breaking capacity conforming to IEC 60947-2230/240 VIcu kAggggggg5050ggggggg5050Ics % (1)ggggggg100100ggggggg100100400/415 VIcu kAggggg15151510ggggg50505050Ics % (1)ggggg50504050ggggg50505050440 VIcu kAggg50158866gggg2020202020Ics % (1)ggg10010050505050gggg7575757575500 VIcukAggg50106644gggg1010101010Ics % (1)ggg10010075757575gggg10075757575690 VIcukAg33333333g44444444Ics % (1)g7575757575757575g100100100100100100100100Associated fuses (if required) if Isc > breaking capacity Icu conforming to IEC 60947-2 amendment 1230/240 VaMAggggggg8080ggggggg100100gGAggggggg100100ggggggg125125400/415 VaMAggggg63638080ggggg80 100 100100gGAggggg80 80100100ggggg100125125125440 VaMAggg505050506363gggg5063 80 8080gGAggg636363 638080gggg6380100100100500 VaMAggg50 50 50505050 gggg 50 50505050gGAggg636363636363gggg6363636363690 VaMAg16 25323240404040g 20254040 5050 5050gGAg2032404050505050g2532505063636363Cable protection against thermal stress in the event of short-circuit (PVC insulated copper cables) Minimum c.s.a. protected at 40 °C and at Isc max.1 mm2kApppy 10y 6(2)(2)(2)(2)pppy 10y 6(2)(2)(2)(2)1.5 mm2kApppy 20y 10(2)(2)(2)(2)pppy 20y 10(2)(2)(2)(2)2.5 mm2pppppppp(2)pppppppp(2)4...6 mm2ppppppppppppppppppg > 100 kA.p Cable c.s.a. protected.(1) As % of Icu.(2) Cable c.s.a. not protected. CharacteristicsTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:pages B6/12 and B6/13Curves:pages B6/77 to B6/86Dimensions:pages B6/90 to B6/99Ref.";i:472;s:1439:"B6/75Motor circuit breakersCharacteristicsTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticBreaking capacity of GV2ME, GV2RT and GV2PCircuit breaker typeGV2ME and GV2RTGV2P01 to 0607081014162021 & 223201 to 0607081014162021 & 2232RatingA0.1 to 1.62.5 4 6.310 14 1823 & 2532 0.1 to 1.62.546.3 10 14 18 23 & 2532Breaking capacity conforming to IEC 60947-2230/240 VIcukAggggggg5050gggggggggIcs % (1)ggggggg100100ggggggggg400/415 VIcukAggggg15151510gggggg505050Ics % (1)ggggg50504050gggggg505050440 VIcukAggg50158866ggggg50202020Ics % (1)ggg10010050505050ggggg75757575500 VIcukAggg50106644gggg5042101010Ics % (1)ggg10010075757575gggg10075757575690 VIcukAg33333333g88666444Ics % (1)g7575757575757575g100100100100100100100100Associated fuses (if required) if Isc > breaking capacity Icu conforming to IEC 60947-2230/240 VaMAgg g g g g g 80 80g g g g g g g g g gGAg g g g g g g 100100g g g g g g g g g 400/415 VaMAg g g g g 63 63 80 80 g g g g g g 100100100gGAg g g g g 8080100100g g g g g g 125125125440 VaMAg g g 50 50 50 50 63 63 g g g g g 50 638080gGAg g g 636363638080g g g g g6380100100500 VaMAg g g 50 50 50 50 50 50 g g g g 5050505050gGAg g g 636363636363g g g g 6363636363690 VaMAg 16 25 3232 40 4040 40 g 2025404050505050gGAg 2032404050505050g2532505063636363g > 100 kA.(1) As % of Icu.References:pages B6/14 to B6/18Curves:pages B6/83 to B6/86Dimensions:pages B6/93 to B6/98Ref.";i:473;s:1516:"B6/76Motor circuit breakersBreaking capacity of GV2ME, GV2RT and GV2P (used in association with current limiter GV1L3)Circuit breaker typeGV2ME and GV2RT01 to 06070810141620212232RatingA0.1 to 1.62.5 4 6.310 14 1823 2532Breaking capacity conforming to IEC 60947-2230/240 VIcukAggggggggggIcs % (1)gggggggggg400/415 VIcukAggggg100100100100100Ics % (1)ggggg5050404040440 VIcukAggggg5020202020Ics % (1)ggggg7575757575500 VIcukAgggg504210101010Ics % (1)gggg10010075757575Circuit breaker typeGV2P01 to 06070810141620212232RatingA0.1 to 1.6 2.5 4 6.310 14 1823 2532Breaking capacity conforming to IEC 60947-2230/240 VIcukAggggggggggIcs % (1)gggggggggg400/415 VIcukAggggggggggIcs % (1)gggggggggg440 VIcukAggggg100100100100100Ics % (1)ggggg5050505050500 VIcukAgggg100100100100100100Ics % (1)gggg505050505050690 V (3)Icu = IcskAg505050505050505050Circuit breaker typeGV2ME01 to 06070810141620212232RatingA0.1 to 1.62.5 46.3101418232532Cable protection against thermal stress in the event of short-circuit (PVC insulated copper cables)Minimum c.s.a. protected at 40 °C at Isc max.1 mm2pp p y 10 kAy 6 kA (2) (2) (2) (2) (2)1.5 mm2p p p y 20 kAy 10 kA (2) (2) (2) (2) (2)2.5 mm2p p p p p p p p p (2)4...6 mm2p p p p p p p pppg > 100 kA.p Cable c.s.a. protected.(1) As % of Icu.(2) Cable c.s.a. not protected.(3) With limiter LA9LB920.CharacteristicsTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticReferences:pages B6/14 to B6/18Curves:pages B6/83 to B6/86Dimensions:pages B6/93 to B6/98Ref.";i:474;s:521:"B6/77Motor circuit breakersCurvesTripping curves for GV2L or LE combined with thermal overload relay LRD or LR2KAverage operating times at 20 °C related to multiples of the setting current1010 00010,10,00111010010001000,01321Time (s)x the setting current (Ir)DF534092R.eps1 3 poles from cold state2 2 poles from cold state3 3 poles from hot state TeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:pages B6/12 and B6/13Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:475;s:659:"B6/78Motor circuit breakersCurrent limitation on short-circuit for GV2L and GV2LE only (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,111001543891076cos = 0.95= 0.9= 0.8= 0.7= 0.5= 0.3= 0.251510112Limited peak current (kA)Prospective Isc (kA)DF534093.eps1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2LE (14, 18, 23 and 25 A ratings). CurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:pages B6/12 and B6/13Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:476;s:693:"B6/79Motor circuit breakersCurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticCurrent limitation on short-circuit for GV2L and GV2LE + thermal overload relay LRD or LR2K (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,1110100cos = 0.95= 0.9= 0.8= 0.7= 0.5= 0.3= 0.2515 1112345678910Limited peak current (kA)Prospective Isc (kA)DF534094.eps1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2LE (14, 18, 23 and 25 A ratings). References:pages B6/12 and B6/13Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:477;s:482:"B6/80Motor circuit breakersThermal limit on short-circuit for GV2LE onlyThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,010,1110100123456789Sum of I2dt (kA2s)Prospective Isc (kA)DF534095.eps1 32 A2 25 A3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A CurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:page B6/13Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:478;s:483:"B6/81Motor circuit breakersCurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticThermal limit on short-circuit for GV2L onlyThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,010,111010012345687Sum of I2dt (kA2s)Prospective Isc (kA)DF534096.eps1 25 A and 32 A2 18 A3 14 A4 10 A5 6.3 A6 4 A7 2.5 A8 1.6 A References:page B6/12Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:479;s:666:"B6/82Motor circuit breakersThermal limit on short-circuit for GV2L and GV2LE + thermal overload relay LRD or LR2KThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,010,11101002345678915110Sum of I2dt (kA2s)Prospective Isc (kA)DF534097.eps1 32 A (GV2LE32)2 25 A and 32 A (GV2L32)3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A10 Limit of rated ultimate breaking capacity on short-circuit of GV2LE (14, 18, 23 and 25 A ratings). CurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:pages B6/12 to B6/13Characteristics:pages B6/72 to B6/76Dimensions:pages B6/90 to B6/92, B6/99Ref.";i:480;s:502:"B6/83Motor circuit breakersCurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticThermal-magnetic tripping curves for GV2ME, GV2RT and GV2PAverage operating times at 20 °C related to multiples of the setting current0,0010,11101000,0111,510100100010 000321Time (s)x the setting current (Ir)DF534075R.ai1 3 poles from cold state2 2 poles from cold state3 3 poles from hot state References:pages B6/14 to B6/18Characteristics:pages B6/72 to B6/76Dimensions:pages B6/93 to B6/99Ref.";i:481;s:720:"B6/84Motor circuit breakersCurrent limitation on short-circuit for GV2ME, GV2RT and GV2P (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V16543789101121001010,10,1110100cos = 0.95= 0.9= 0.8= 0.7= 0.5= 0.3= 0.2515 (12)Limited peak current (kA)Prospective Isc (kA)DF534076.eps1 Maximum peak current2 24 - 32 A3 20 - 25 A4 17 - 23 A5 13 - 18 A6 9 - 14 A7 6 - 10 A8 4 - 6.3 A9 2.5 - 4 A10 1.6 - 2.5 A11 1 - 1.6 A12 Limit of rated ultimate breaking capacity on short-circuit of GV2ME (14, 18, 23 and 25 A ratings) CurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticReferences:pages B6/14 to B6/18Characteristics:pages B6/72 to B6/76Dimensions:pages B6/93 to B6/99Ref.";i:482;s:555:"B6/85Motor circuit breakersCurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticThermal limit on short-circuit for GV2ME and GV2RTThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,010,111010034567891021Sum of I2dt (kA2s)Prospective Isc (kA)DF534077.eps1 24 - 32 A2 20 - 25 A3 17 - 23 A4 13 - 18 A5 9 - 14 A6 6 - 10 A7 4 - 6.3 A8 2.5 - 4 A9 1.6 - 2.5 A10 1 - 1.6 A References:pages B6/14 to B6/18Characteristics:pages B6/72 to B6/76Dimensions:pages B6/93 to B6/99Ref.";i:483;s:538:"B6/86Motor circuit breakersThermal limit on short-circuit for GV2PThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001010,10,010,1110100123456789Sum of I2dt (kA2s)Prospective Isc (kA)DF534078.eps1 20 - 25 A, 24 - 32 A2 17 - 23 A3 13 - 18 A4 9 - 14 A5 6 - 10 A6 4 - 6.3 A7 2.5 - 4 A8 1.6 - 2.5 A9 1 - 1.6 A CurvesTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticReferences:page B6/17Characteristics:pages B6/72 to B6/76Dimensions:pages B6/93 to B6/96, B6/99Ref.";i:484;s:1103:"B6/87Motor circuit breakersCharacteristics of GV2 electric tripsType of tripGVAUppp MN undervoltage tripGVAXpppMN undervoltage trip for GV2ME - safety device for dangerous machinesGVASppp MX shunt tripRated insulation voltage (Ui) Conforming to IEC 60947-1V690500690Conforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1V600-600Operational voltage (Ue)Conforming to IEC 60947-1V0.85...1.1 Uc0.85...1.1 Uc0.7...1.1 UcDrop-out voltageV0.7...0.35 Uc0.7...0.35 Uc0.75...0.2 UcInrush consumptiona cVA121214Sealed consumptiona cVA3.53.55Operating timeConforming to IEC 60947-1msFrom the moment the voltage reaches its operational value until opening of the circuit breaker. 10...15On-load factor100 %Cabling (screw clamp connection)Number of conductors2 or 4Solid cablemm21...2.5Flexible cable without cable endmm2 AWG0.75...2.5Flexible cable with cable endmm20.75...2.5Tightening torqueN.m1.4 maxMechanical durability (C.O.: Close - Open)C.O.30000 (GV2ME and GV2P)TeSys PowerElectric trips for Deca - Frame 2 Motor circuit breakersCharacteristicsReferences:page B6/21Dimensions:pages B6/90 and B6/93Ref.";i:485;s:2920:"B6/88Motor circuit breakersCharacteristicsType of contactsInstantaneous auxiliary GVAN, GVADFault signalling GVAD, GVAM11 (1)Instantaneous auxiliary GVAERated insulation voltage (Ui) (associated insulation coordination)Conforming to IEC 60947-1V690690250 (690 in relation to main circuit)Conforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1V600300 300Conventional thermal current (Ith)Conforming to IEC 60947-5-1A62.52.5Conforming to UL 60947-5-1, CSA C22.2 n° 60947-5-1A511Mechanical durability (C.O.: Close - Open)C.O.100 0001000100 000Operational power and current conforming to IEC 60947-5-1. a.c. operationAC-15/100 000 C.O.AC-14/1000 C.O.AC-15/100 000 C.O.Rated operational voltage (Ue)V48110 127230 240380 4154405006902448110 127230 2402448110 127230 240OperationOperational power, normal conditionsVA300500720850650500414364872724860120120Occasional breaking and making capacities, abnormal conditionskVA371315131290.220.30.450.450.480.61.272.4Rated operational current (Ie)A64.53.32.21.510.61.510.50.321.2510.5Operational power and current conforming to IEC 60947-5-1. d.c. DC-13/100 000 C.O.DC-13/1000 C.O.DC-13/100 000 C.O.Rated operational voltage (Ue)V244860110240(2)––244860–244860–OperationOperational power, normal conditionsW140240180140120––24159–24159–Occasional breaking and making capacities, abnormal conditionsW240360240210180––1005050–1005050–Rated operational current (Ie)A6531.30.5––10.30.15–10.30.15–Low power switching reliability of contactGVAE: Number of failures for “n” million operating cycles (17 V-5 mA): = 10-6Minimum operational conditions V17mA5Short-circuit protectionBy GB2CBpp circuit breaker (rating according to operational current for Ue y 415 V) or by gG fuse 10 A maxGB2CB06 or gG fuse 10 A maxCabling, screw clamp terminalsNumber of conductors12Solid cablemm21...2.51...2.5Flexible cable without cable endmm20.75...2.50.75...2.5Flexible cable with cable endmm20.75...1.50.75...1.5Tightening torqueN.m1.4 max1.4 maxCabling, spring terminal connectionsGVAN onlyFlexible cable without cable endmm20.75...2.50.75...2.5–0.75...1.5Operation of instantaneous auxiliary contactsGV3P, GV3L01Power poleGV AN20NONOGV AN11NONCGV AE1NONCGV AE20NONOGV AE11NONCGV AD10ppNONCGV AED10GV AED011GV201Power poleGV AN20NONOGV AN11NONCGV AE1NONCGV AE20NONOGV AE11NONCGV AD10ppNOGV AD01ppNC Contact open Contact closed Contact open Contact CloseNONCDB439583.epsOperation of fault signalling contacts GVAM11Change of state following tripping on short-circuit. GVAD10pp and GVAD01ppChange of state following tripping on short-circuit, overload or undervoltage.(1) For application example of fault signalling contact and short-circuit signalling contact.(2) Add an RC circuit type LA4D to the load terminals. TeSys PowerAuxiliary contacts for Deca - Frame 2 Motor circuit breakersReferences:page B6/21Dimensions:pages B6/90 and B6/93Ref.";i:486;s:1633:"B6/89Motor circuit breakersCharacteristicsCharacteristics of 3-pole busbars GV2GpppGV2GpppRated insulation voltage (Ui) Conforming to IEC 60947-1V690Conventional thermal current (Ith)Conforming to IEC 60439-1A63Rated operational current (Ie)A63Permissible peak current (I peak)kA11Permissible thermal limit (I2t)kA2s104Degree of protectionConforming to IEC 60529IP 20Terminal block Ye sCharacteristics of terminal blocks GV2G05 and GV1G09 (for GV2ME and GV2P)Rated insulation voltage (Ui) Conforming to IEC 60947-1V690Conventional thermal current (Ith)Conforming to IEC 60439-1A63Rated operational current (Ie)A63115Degree of protectionConforming to IEC 60529IP 20ConnectionSolid cablemm21 x 1.5 to 25 or 2 x 1.5 to 6Flexible cable without cable endmm21 x 1.5 to 16 or 2 x 1.5 to 4Flexible cable with cable endmm21 x 1.5 to 16 or 2 x 1.5 to 4Flexible or solid cable AWG1 AWG 4Tightening torqueConnectorN.m2.2Screw clamp terminalsN.m1.7Characteristics of current limiters (GV2ME and GV2P)TypeGV1L3LA9LB920Rated insulation voltage (Ui) Conforming to IEC 60947-1V690690Conventional thermal current (Ith)Conforming to IEC 60947-1A6363Rated operational current(Ie)A3232Operating thresholdrms currentA1500 (non adjustable threshold)1000 (non adjustable threshold)Connection1 conductor2 conductors1 conductor2 conductorsSolid cablemm21.5...251.5...101.5...251.5...10Flexible cable without cable endmm21.5...252.5...101.5...251.5...10Flexible cable with cable endmm21.5...161.5... 41.5...161.5... 4Tightening torqueN.m2.2 TeSys PowerAccessories for Deca - Frame 2 Motor circuit breakersReferences:page B6/21Dimensions:page B6/97Ref.";i:487;s:1306:"B6/90Motor circuit breakersDimensions and mountingGV2LDimensionsGVAD, AM, AN, AU, AS GV2AK0044,59,39,381 (1)18188982X15026X2156145==Block GVAD, AM, ANBlock GVAU, ASDF537438.eps981444,532DF537439.epsX1 Electrical clearance = 40 mm for Ue y 415 V, or 80 mm for Ue = 440 V, or 120 mm for Ue = 500 and 690 V.X2 = 40 mm.(1) Maximum.MountingAdapter plate GK2AF01On rail AM1DE200, AM1ED200 (35 x 15)Panel mountedOn pre-slotted mounting plate AM1PA13,58444,544,5106453554105±535Ø5,55AF1 EA48413,52455451359,5DF537440.eps7.5 mm height compensation plate GV1F03393513DF537441.epsGV2LEDimensionsGVAD, AM, AN, AU, ASGVAE4489167,56612,5X1X144,545==DF537442.eps9,39,31881 (1)Block GVAD, AM, ANBlock GV AU, ASDF537477.eps1510DF537443.epsX1 Electrical clearance = 40 mm for Ue y 690 V.(1) Maximum.MountingOn 35 mm 7 railOn panel with adapter plate GV2AF02On pre-slotted plate AM1PAOn rails DZ5MB201c44,544,5DF537444.eps84,54,23550/60DF537445.epsAF1 EA43550/60DF537446.eps15355060DZ5 MB201GV2 AF02DZ5 ME8DF537447.epsc = 80 on AM1DP200 (35 x 7.5) and 88 on AM1DE200, ED200 (35 x15)TeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:pages B6/12 to B6/13Characteristics:pages B6/72 to B6/76Curves:pages B6/77 to B6/86Ref.";i:488;s:756:"B6/91Motor circuit breakersMountingMounting of external operator GV2APN01, GV2APN02 or GV2APN04 for motor circuit breakers GV2L5,2==0,5...46436a60DB127415.epsDoor cut-out(1) For IP65 only.48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.epsMounting of external operator GVAPH02 for motor circuit breakers GV2L0,5...4643b6064,1173,4==DB127414.epsDoor cut-out(1) For IP65 only.48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.epsabMiniMaxiMiniMaxiGV2APNpp140250GV2APNpp + GVAPH02151250GV2APNpp + GVAPK11250434--GV2APNpp + GVAPH02 + GVAPK11--250445Mounting of external operator GV2AP03 for GV2LE1,5...5753135...2846545==44,5DB126649.epsDoor cut-out=54===54DF569008.epsDimensions and mountingTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticReferences:page B6/24Ref.";i:489;s:751:"B6/92Motor circuit breakersDimensions and mountingTeSys PowerDeca - Frame 2 Motor circuit breakers - MagneticGV2LESets of busbars GV2G445, GV2G454, GV2G472, with terminal block GV2G0563l3a18p45DF537451.epslpGV2G445 (4 x 45 mm)17945GV2G454 (4 x 54 mm)20654GV2G472 (4 x 72 mm)26072aNumber of tap-offs5678GV2G445224269314359GV2G454260314368422GV2G472332404476548Sets of busbars GV2LE Sets of busbars GV2Gppp with term. block GV1G09Sets of busbars GV2G245, GV2G254, GV2GR272GV1 G0940DB439581.epslDF537453.epsIGV2G245 (2 x 45 mm)89GV2G254 (2 x 54 mm)98GV2G272 (2 x 72 mm)116Set of busbars GV2G554Sets of busbars GV2G345 and GV2G354260DF537454.epslDF537455.epsIGV2G345 (3 x 45 mm)134GV2G354 (3 x 54 mm)152References:page B6/23Characteristics:page B6/89Ref.";i:490;s:814:"B6/93Motor circuit breakersDimensionsGV2MEGVAXGVAD, AM, AN, AU, AS, AXGVAEb67,2X14615,7X11145==44,5DF569027.eps169,39,381(1)18Block GVAD, AM, ANBlock GVAU, AS, AXDF569029.eps1510DF569030.epsbGV2MEpp89GV2MEpp3101(1) Maximum.X1 Electrical clearance = 40 mm for Ue y 690 VGV2PGVAD, AM, AN, AU, AS GV2AK0044,59,39,381(1)18188982X15026X2156145==Block GVAD, AM, ANBlock GVAU, ASDF569031.eps981444,532DF569032.eps(1) Maximum.X1 Electrical clearance = 40 mm for Ue y 415 V, or 80 mm for Ue = 440 V, or 120 mm for Ue = 500 and 690 VX2 = 40 mmGV2GH77044,515DF569033.epsDimensions and mountingTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticReferences:pages B6/14 to B6/17Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/86Ref.";i:491;s:991:"B6/94Motor circuit breakersDimensions and mountingMounting GV2MEOn 35 mm 5 railOn panel with adapter plate GV2AF02On pre-slotted plate AM1PAOn rails DZ5MB20180c==50/604,235DF569012.epsAF1 EA43550/6035605015DZ5 MB201GV2 AF02DZ5 ME8DF569034.epsc = 78.5 on AM1 DP200 (35 x 7.5)c = 86 on AM1 DE200, ED200 (35 x 15) GV2POn rail AM1DE200, ED200 (35 x 15)Panel mountedOn pre-slotted plate AM1PAAdapter plate GK2AF0113,58444,544,5106453554105±5355AF1 EA48413,52455451359,5DF569013.epsDimensionsGV2AF01GV2AF3Combination GV2ME + k contactorCombination GV2ME + d contactorCombination GV2P + d contactor7945152DF569035.epsc1c45bDF569014.eps45bc1cdd1DF569036.epsGV2ME +LC1D09...D18LC1D25 and D32GV2P +LC1D09...D18LC1D25 and D32b176.4186.8b176.4186.8c194.1100.4c1100.1106.4c99.6105.9c105.6111.9d19595d100.5100.5TeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticReferences:pages B6/14 to B6/17Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/86Ref.";i:492;s:585:"B6/95Motor circuit breakersDimensionsGV2AF4 + LAD311Combination GV2ME + d contactor45b2341c1cd1d125 ± 3DF569009.epsGV2ME +LC1D09...D18LC1D25 and D32b176.4186.8c1130.1136.4c135.6141.9d1107107d112.5112.5GV2ME + GV1L3 (current limiter)7.5 mm height compensation plate GV1F0345129 44,58977X1X140DF569011.epsX1 = 10 mm for Ue = 230 V or 30 mm for 230 V < Ue y 690 V393513DF569006.epsTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticDimensions and mountingReferences:pages B6/14 to B6/17Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/86Ref.";i:493;s:647:"B6/96Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticDimensions and mountingMountingMounting of external operator GV2APN01, GV2APN02 or GV2APN04 for motor circuit breakers GV2P5,2==0,5...46436a60DB127415.epsDoor cut-out 48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.epsMounting of external operator GVAPH02 for motor circuit breakers GV2P0,5...4643b6064,1173,4==DB127414.epsDoor cut-out(1) For IP65 only.48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.epsabMiniMaxiMiniMaxiGV2APNpp140250GV2APNpp + GVAPH02 151250GV2APNpp + GVAPK11250434--GV2APNpp + GVAPH02 + GVAPK11--250445(1) For IP65 only.References:page B6/24Ref.";i:494;s:720:"B6/97Motor circuit breakersGV2ME, GV2PSets of busbars GV2G445, GV2G454, GV2G472, with terminal block GV2G0563l3a18p45DF569037.epslpaGV2G445 (4 x 45 mm)17945Number of tap-offs5678GV2G454 (4 x 54 mm)20654GV2G445224269314359GV2G472 (4 x 72 mm)26072GV2G454260314368422GV2G472332404476548Sets of busbars GV2Gppp with terminal block GV1G09Sets of busbars GV2G245, GV2G254, GV2G272GV1 G0940DB439582.epslDF569038.epslGV2G245 (2 x 45 mm)89GV2G254 (2 x 54 mm)98GV2G272 (2 x 72 mm)116Sets of busbars GV2G554Sets of busbars GV2G345 and GV2G354260DF569039.epslDF569040.epslGV2G345 (3 x 45 mm)134GV2G354 (3 x 54 mm)152TeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticDimensions and mountingReferences:page B6/23Ref.";i:495;s:699:"B6/98Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakers - Thermal-magneticDimensions and mountingGV2RTDimensions8966X144167,5X112,545==44,5DF569016.epsX1: Electrical clearance = 40 mm for Ue < 690 VMountingMounting of external operator GV2AP031,5...51353133...282656==12,3DF569015.epsOn 35 mm 7 railOn panel with adapter plate GV2AF02On pre-slotted plate AM1PAOn rails DZ5MBc44,544,584,5DF569041.eps50/604,235DF569017.epsAF1 EA43550/60DF569018.eps35605015DZ5 MB201GV2 AF02DZ5 ME8DF569019.epsc = 80 on AM1DP200 (35 x 7.5)c = 88 on AM1DE200, ED200 (35 x 15)References:page B6/18Characteristics:pages B6/72 to B6/76Curves:pages B6/83 to B6/86Ref.";i:496;s:1598:"B6/99Motor circuit breakersTeSys PowerDeca - Frame 2 Motor circuit breakersSchemesSchemesGV2LppGV2LEppGV2PppGV2MEpp and GV2RT2/T14/T26/T31/L13/L25/L3DF510744.eps2/T14/T26/T31/L13/L25/L3DF537458.eps2/T14/T26/T31/L13/L25/L3DF569068.eps2/T14/T26/T31/L13/L25/L3DF569067.epsFront mounting add-on contact blocks Instantaneous auxiliary contactsFront mounting add-on contact blocks Instantaneous auxiliary contacts and fault signalling contactsGVAE1GVAE11GVAE20GVAED101GVAED01113141211orDF569069.eps13142221DF569070.eps13142324DF569071.eps97982324DF569072.eps97982122DF569073.epsSide mounting add-on contact blocks Instantaneous auxiliary contacts and fault signalling contactsGVAD0110GVAD0101GVAD1010GVAD100153549695DF569074.eps52519695DF569075.eps97985354DF569076.eps97985152DF569077.epsInstantaneous auxiliary contactsShort-circuit signalling contactsStart-Stop signalling contact blocksGVAN11GVAN20GVAM11GK2AX10GK2AX20GK2AX50(62)32(61)3143(73)44(74)DF569078.eps(64)34(63)3343(73)44(74)DF569079.eps050608DF569080.eps1314DF537471.eps13142324DF537472.eps22211314DF537473.epsFault signaling contact blocksVoltage tripsCurrent limiterGK2AX52GVAUpppGVASpppGVAXpppGV1L397980605DF537476.epsD1D2DF569081.epsD1D2DF511012.epsD1D2E1E2DF569083.eps1/L13/L25/L3DF569084.epsUse of fault signalling contact and short-circuit signalling contactConnection of undervoltage trip for dangerous machines (conforming to INRS) on GV2ME onlyGVAD10ppGVAM11Short-circuit signallingTrip signallingN/C or N/O Start-Stop contactDF569085.eps2/T14/T26/T31/L13/L25/L3D1D2E2E110A gG maxDB438755.epsReferences:pages B6/11 to B6/24Ref.";i:497;s:29:"B6/100Motor circuit breakers";i:498;s:60:"B6/101Motor circuit breakersTeSys Deca - Frame 35 to 45 kW";i:499;s:2614:"B6/102Motor circuit breakersTeSys PowerDeca - Frame 3 Motor circuit breakersCharacteristicsEnvironmentCircuit breaker typeGV3LGV3PConforming to standardsIEC/EN 60947-4-1 IEC/EN 60947-2 UL 60947-4-1CSA C22.2 n° 60947-4-1IEC/EN 60947-4-1 IEC/EN 60947-2UL 60947-4-1CSA C22.2 n° 60947-4-1 Product certificationsCCC, EAC, BV, LROS, DNV-GL, ABS, UL (1), CSA (2), UKCACCC, UL, CSA, EAC, ATEX,BV, LROS, DNV-GL, ABS, UKCAClimatic withstandAccording to IACS E10Degree of protection (front face)Conforming to IEC 60529Open mountedAgainst direct finger contact: IP20In enclosure-GV3PC01 and GV3PC02: IP55Shock resistance Conforming to IEC 60068-2-27 On: 15 gn -11 ms (On: 5 gn -11 ms for GV3L73, GV3L80, GV3P73, GV3P80) Off: 30 gn -11 msVibration resistance (3)Conforming to IEC 60068-2-64 gn (5...300 Hz)Ambient air temperatureStorage°C-40...+80OperationOpen mounted°C-20...+60 (3)In enclosure°C–-20...+40Temperature compensationOpen mounted°C–-20...+60In enclosure°C–-20...+40Flame resistanceConforming to IEC 60695-2-11°C960Maximum operating altitudem3000Suitable for isolationConforming to IEC 60947-1 § 7-1-6Ye s–Resistance to mechanical impactJ–10IK09 (in enclosure)Sensitivity to phase failureYes, conforming to IEC 60947-4-1 § 8-2-1-5-2 for GV3PTechnical characteristicsCircuit breaker typeGV3LGV3PUtilisation categoryConforming to IEC 60947-2A–Conforming to IEC 60947-4-1–AC-3Rated operational voltage(Ue)Conforming to IEC 60947-2V690Rated insulation voltage (Ui)Conforming to IEC 60947-2V690Rated voltageConforming to UL 60947-4-1, CSA C 22.2 n° 60947-4-1V600Rated operational frequencyConforming to IEC 60947-4-1 UL, CSAHz50/60Rated impulse withstand voltage (U imp)Conforming to IEC 60947-2kV6Total power dissipated per poleW8Mechanical durability (C.O.: Close, Open)C.O.50 000Electrical durability for AC-3 duty415 V InC.O.50 000 (20 000 for GV3L73, GV3P73, GV3L80, GV3P80)Duty class (maximum operating rate)C.O./h25Maximum conventional rated thermal current (Ith)Conforming to IEC 60947-4-1A–13 to 80Rated dutyConforming to IEC 60947-4-1Continuous dutyOperating threshold of magnetic trips 14 l max(1) For GV3L25 to 73, may be followed by 6 or 1.(2) For GV3L, GV3L25 to GV3L73 may be followed by 6 or 1 for use in conjunction with certified overload relay.(3) Leave a space of 9 mm between 2 circuit breakers: either an empty space, or side mounting add-on contact blocks. Side by side mounting is possible up to 40 °C.References:pages B6/26 and B6/27Curves:pages B6/106 to B6/111Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:500;s:1594:"B6/103Motor circuit breakersTeSys PowerDeca - Frame 3 Motor circuit breakersMounting characteristicsOperating position Without derating, in relation to normal vertical mounting plane (1)90 ̊90 ̊90 ̊90 ̊DF510520.epsConnection characteristicsConnection to screw clamp terminals or spring terminalsBare cableshDF510554.epsCircuit breaker typeGV3LGV3PConnection to screw clamp terminals (2) (Max. number of conductors x c.s.a.)Min.Max.Min.Max.Solid cablemm22 x 11 x 25 and 1 x 352 x 11 x 25 and 1 x 35Flexible cable without cable endmm22 x 11 x 25 and 1 x 352 x 11 x 25 and 1 x 35Flexible cable with cable endmm22 x 11 x 25 and 1 x 352 x 11 x 25 and 1 x 35Tightening torqueN.m55: 25 mm2 8: 35 mm255: 25 mm2 8: 35 mm2Connection by bars or lugsBars or lugsedLDF534046.epsdLDF534047.epsL'Ø6DF510615.epsCircuit breaker typeGV3Lpp6GV3Ppp6PitchWithout spreadersmm17.5With spreadersmm–Bars or cables with lugsemmy 6Lmmy 13.5L’mmy 16.5dmmy 10ScrewsM6Tightening torqueN.m6Bare cables (copper or aluminium) with connectorsHeight (h)mm–C.s.a.mm2–Tightening torqueN.m–(1) When mounting on a vertical rail, fit a stop to prevent any slippage.(2) For motor circuit breakers GV3P: BTR hexagon socket head screws, EverLink® system. Require use of an insulated Allen key, in compliance with local electrical wiring regulations.(3) For cross-sections 1 to 1.5 mm2, the use of an LA9D99 cable end reducer is recommended.CharacteristicsReferences:pages B6/26 and B6/27Curves:pages B6/106 to B6/111Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:501;s:1419:"B6/104Motor circuit breakersCharacteristicsBreaking capacity of GV3LTypeGV3L25GV3L32GV3L40GV3L50GV3L65GV3L73GV3L80Breaking capacity of the circuit-breaker only or of the circuit-breaker combined with a thermal overload relay230/240 VIcukA1001001001001006565Ics % (1)100100100100100100100400/415 VIcukA1001005050505050Ics % (1)1001001001001006060440 VIcukA50505050505050Ics % (1)1001001001001006060500 VIcukA12121212121212Ics % (1)50505050505050690 VIcukA6666666Ics % (1)50505050505050Associated fuses (if required) for use with circuit breaker only or circuit breaker combined with a thermal overload relay if lsc > breaking capacity230/240 VaMAggggggggGAggggggg415 VaMAgggg125125125gGAgggg160160160440 VaMA6380125125125125125gGA80100160160160160160500 VaMA63636363808080gGA80808080100100100690 VaMA50505050636363gGA63636363808080Use of circuit breakers without fusesMinimum cable length (in metres) limiting the maximum short-circuit current to 35 kA maximum.Cable c.s.a.mm2y 2535507095- (2)- (2)Isc (rms) 3-phase, incoming (Ue = 415 V)50 kAm5681013- (2)- (2)45 kAm557810- (2)- (2)40 kAm55558- (2)- (2)37 kAm55555- (2)- (2)g Fuse not required: breaking capacity Icn > Isc.(1) As % of Icu.(2) Please consult your Regional Sales Office.TeSys PowerDeca - Frame 3 Motor circuit breakers - MagneticReferences:page B6/26 Curves:pages B6/106 to B6/108Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:502;s:1036:"B6/105Motor circuit breakersTeSys PowerDeca - Frame 3 Motor circuit breakers - Thermal-magneticCharacteristicsBreaking capacity of GV3PMotor circuit breaker typeGV3P131825324050657380RatingA131825324050657380Breaking capacity conforming to IEC 60947-2230/240 VIcukA100100100100100100100100100Ics % (1)100100100100100100100100100400/415 VIcukA1001001001005050505050Ics % (1)1001001001001001001006060440 VIcukA505050505050505050Ics % (1)1001001001001001001006060500 VIcukA121212121212121212Ics % (1)505050505050505050690 VIcukA666666666Ics % (1)505050505050505050Associated fuses, if required if lsc > breaking capacity Icu230/240 VaMAggggggggggGAggggggggg415 VaMAgggg125125125125125gGAgggg160160160160160440 VaMA6380125125125125125125125gGA80100160160160160160160160500 VaMA636363638080808080gGA80808080100100100100100690 VaMA505050506363636363gGA636363638080808080g Fuse not required: breaking capacity Icn > Isc.(1) As % of Icu.References:page B6/27Curves:pages B6/109 to B6/111Dimensions:page B6/115Schemes:page B6/117 Ref.";i:503;s:564:"B6/106Motor circuit breakersCurvesTripping curves for GV3L combined with thermal overload relay LRD33Average operating time at 20 °C without prior current flow1010 00010,10,00111010010001000,01321BATime (s)x the setting current (Ir)DB425933.eps1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateA Thermal overload relay protection zoneB GV3L protection zone TeSys PowerDeca - Frame 3 Motor circuit breakers - MagneticReferences:page B6/26 Characteristics:pages B6/102 to B6/104Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:504;s:495:"B6/107Motor circuit breakersCurrent limitation on short-circuit for GV3L (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V11101001050143265Limited peak current (kA)Prospective Isc (kA)DB418280.eps1 Maximum peak current2 GV3L80 - GV3L73 - GV3L653 GV3L504 GV3L405 GV3L326 GV3L25 TeSys PowerDeca - Frame 3 Motor circuit breakers - MagneticCurvesReferences:page B6/26 Characteristics:pages B6/102 to B6/104Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:505;s:464:"B6/108Motor circuit breakersCurvesThermal limit on short-circuit for GV3LThermal limit in kA²SSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1011101001001000321456Sum of I2dt (kA2S)Prospective Isc (kA)DB425936.eps1 GV3L73 - GV3L802 GV3L653 GV3L504 GV3L405 GV3L326 GV3L25 TeSys PowerDeca - Frame 3 Motor circuit breakers - MagneticReferences:page B6/26 Characteristics:pages B6/102 to B6/104Dimensions:pages B6/115 and B6/116Schemes:page B6/117 Ref.";i:506;s:591:"B6/109Motor circuit breakersThermal-magnetic tripping curves for GV3PAverage operating times at 20 °C related to multiples of the setting current0,0010,11101000,01110100100010 0001a1b2a2bTime (s)x the setting current (Ir)DB425863.eps1a 3 poles from cold state (Ir mini.): GV3P1b 3 poles from cold state (Ir maxi.): GV3P2a 3 poles from hot state (Ir mini.): GV3P2b 3 poles from hot state (Ir maxi.): GV3P TeSys PowerDeca - Frame 3 Motor circuit breakers - Thermal-magneticCurvesReferences:page B6/27Characteristics:pages B6/102 to B6/105Dimensions:page B6/115Schemes:page B6/117 Ref.";i:507;s:646:"B6/110Motor circuit breakersCurvesCurrent limitation on short-circuit for GV3P (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V1101001001017689= 0.9= 0.8= 0.7= 0.5= 0.3= 0.2551342Limited peak current (kA)Prospective Isc (kA)DB425937.eps1 Maximum peak current2 70-80 A (GV3P80); 62-73 A (GV3P73)3 48-65 A (GV3P65)4 37-50 A (GV3P50)5 30-40 A (GV3P40)6 23-32 A (GV3P32)7 17-25 A (GV3P25)8 12-18 A (GV3P18)9 9-13 A (GV3P13) TeSys PowerDeca - Frame 3 Motor circuit breakers - Thermal-magneticReferences:page B6/27Characteristics:pages B6/102 to B6/105Dimensions:page B6/115Schemes:page B6/117 Ref.";i:508;s:595:"B6/111Motor circuit breakersMaximum thermal limit on short-circuit for GV3PThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V1001000101110 10043218765Sum of I2dt (kA2s)Prospective Isc (kA)DB425938.eps1 70-80 (GV3P80) - 62-73 (GV3P73)2 48-65 A (GV3P65)3 37-50 A (GV3P50)4 30-40 A (GV3P40)5 23-32 A (GV3P32)6 17-25 A (GV3P25)7 12-18 A (GV3P18)8 9-13 A (GV3P13) TeSys PowerDeca - Frame 3 Motor circuit breakers - Thermal-magneticCurvesReferences:page B6/27Characteristics:pages B6/102 to B6/105Dimensions:page B6/115Schemes:page B6/117 Ref.";i:509;s:982:"B6/112Motor circuit breakersCharacteristics of GV3 electric tripsType of tripGVAUppp MN undervoltage tripGVASppp MX shunt tripRated insulation voltage (Ui) Conforming to IEC 60947-1V690690Conforming to CSA C22-2 n°14, UL 508V600600Operational voltage (Ue)Conforming to IEC 60947-1V0.85...1.1 Uc0.7...1.1 UcDrop-out voltageV0.7...0.35 Uc0.75...0.2 UcInrush consumptiona cVA1214Sealed consumptiona cVA3.55Operating timeConforming to IEC 60947-1msFrom the moment the voltage reaches its operational value until opening of the circuit breaker. 10...15On-load factor100 %Cabling (spring connection)Number of conductors2 or 4Solid cablemm21...2.5Flexible cable without cable endmm2 AWG0.75...2.5Flexible cable with cable endmm20.75...2.5Tightening torqueN.m1.4 maxMechanical durability (C.O.: Close - Open)C.O.10000 (GV3P and GV3L)TeSys PowerElectric trips for Deca - Frame 3 Motor circuit breakersCharacteristicsReferences:page B6/29Dimensions:page B6/115Schemes:page B6/117 Ref.";i:510;s:2948:"B6/113Motor circuit breakersCharacteristicsType of contactsInstantaneous auxiliary GVAN, GVADFault signalling GVAD, GVAM11 (1)Instantaneous auxiliary GVAERated insulation voltage (Ui) (associated insulation coordination)Conforming to IEC 60947-1V690690250 (690 in relation to main circuit)Conforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1V600300 300Conventional thermal current (Ith)Conforming to IEC 60947-5-1A62.52.5Conforming to UL 60947-5-1, CSA C22.2 n° 60947-5-1A511Mechanical durability (C.O.: Close - Open)C.O.100 0001000100 000Operational power and current conforming to IEC 60947-5-1. a.c. operationAC-15/100 000 C.O.AC-14/1000 C.O.AC-15/100 000 C.O.Rated operational voltage (Ue)V48110 127230 240380 4154405006902448110 127230 2402448110 127230 240OperationOperational power, normal conditionsVA300500720850650500400364872724860120120Occasional breaking and making capacities, abnormal conditionskVA371315131290.220.30.450.450.480.61.272.4Rated operational current (Ie)A64.53.32.21.510.61.510.50.321.2510.5Operational power and current conforming to IEC 60947-5-1. d.c. DC-13/100 000 C.O.DC-13/1000 C.O.DC-13/100 000 C.O.Rated operational voltage (Ue)V244860110240(2)––244860–244860–OperationOperational power, normal conditionsW140240180140120––24159–24159–Occasional breaking and making capacities, abnormal conditionsW240360240210180––1005050–1005050–Rated operational current (Ie)A6531.30.5––10.30.15–10.30.15–Low power switching reliability of contactGVAE: Number of failures for “n” million operating cycles (17 V-5 mA): = 10-6Minimum operational conditions d.c. operationV17mA5Short-circuit protectionBy GB2CBpp circuit breaker (rating according to operational current for Ue y 415 V) or by gG fuse 10 A maxGB2CB06 or gG fuse 10 A maxCabling, screw clamp terminalsNumber of conductors12Solid cablemm21...2.51...2.5Flexible cable without cable endmm20.75...2.50.75...2.5Flexible cable with cable endmm20.75...1.50.75...1.5Tightening torqueN.m1.4 max1.4 maxCabling, spring terminal connectionsGVAN onlyFlexible cable without cable endmm20.75...2.50.75...2.5–0.75...1.5Operation of instantaneous auxiliary contactsGV3P, GV3L01Power poleGV AN20NONOGV AN11NONCGV AE1NONCGV AE20NONOGV AE11NONCGV AD10ppNONCGV AED10GV AED011GV201Power poleGV AN20NONOGV AN11NONCGV AE1NONCGV AE20NONOGV AE11NONCGV AD10ppNOGV AD01ppNC Contact open Contact closed Contact open Contact closedNONCDB439583.epsOperation of fault signalling contacts GVAM11Change of state following tripping on short-circuit. GVAD10pp and GVAD01ppChange of state following tripping on short-circuit, overload or undervoltage.(1) For application example of fault signalling contact and short-circuit signalling contact.(2) Add an RC circuit type LA4D to the load terminals. TeSys PowerAuxiliary contacts for Deca - Frame 3 Motor circuit breakersReferences:page B6/29Dimensions:page B6/115Schemes:page B6/117 Ref.";i:511;s:509:"B6/114Motor circuit breakersCharacteristicsCharacteristics of 3-pole busbars GV3GpppGV3Gp64Rated insulation voltage (Ui) Conforming to IEC 60947-1V690Conventional thermal current (Ith)Conforming to IEC 60439-1A115Rated operational current (Ie)A115Permissible peak current (I peak)kA20Permissible thermal limit (I2t)kA2s300Degree of protectionConforming to IEC 60529IP 20Terminal block – TeSys Power3-pole busbar for Deca - Frame 3 Motor circuit breakersReferences:page B6/29Dimensions:page B6/115Ref.";i:512;s:1311:"B6/115Motor circuit breakersDimensions and mountingGV3L, GV3PDimensions136X1X1132686455DF537480.eps918(2)(1)DF537481.epsX1 = Electrical clearance (ISC max) 40 mm for Ue y 500 V, 50 mm for Ue y 690 V(1) Blocks GVANpp, GVADpp and GVAM11.(2) Blocks GV3AUpp and GV3ASpp.Note: Leave a space of 9 mm between 2 circuit breakers: either an empty space or side-mounting add-on contact blocks. Side by side mounting is possible up to 40 °C.MountingMounting with contactor LC1D40A...D80A and relay LR3D313...380 (1) (2) (3)Side by side mounting with contactor LC1D40A...D73A(S-shape busbar system GV3S (1))1852997011513655DF567744.eps136119195DF567745.eps(1) Mountings with c.b. up to GV3L73, GV3P73.(2) For GV3L80, GV3P80 use cable between components for dissipating heat. Consult online datasheets for values(3) S-shape busbar system suitable up to 73 A.Mounting on rail AM1DE200 or AM1ED201Panel mounting, using M4 screws1446864DF537482.eps1363xØ4137,537,5DF567748.epsMounting on pre-slotted plate AM1PASet of busbars GV3G264Set of busbars GV3G36413618,718,7137,5AF1 EA4DF537435.eps11916DF510637.eps18316DF510638.epsTeSys PowerDeca - Frame 3 Motor circuit breakersReferences:pages B6/26 and B6/27Characteristics:pages B6/102 to B6/105Curves:pages B6/106 to B6/111Schemes:page B6/117 Ref.";i:513;s:386:"B6/116Motor circuit breakersMountingMounting of external operator GV3APN01, GV3APN02 or GV3APN04 for motor circuit breakers GV3L0,5...44360a606==DB127416.epsDoor cut-out 48====484Ø3,5 (1)1616Ø3,5Ø22DB126634.epsabMiniMaxiMiniMaxiGV3APNpp189300--GV3APNpp + GVAPK12300481(1) For IP65 only.Dimensions and mountingTeSys PowerDeca - Frame 3 Motor circuit breakersReferences:page B6/30Ref.";i:514;s:1449:"B6/117Motor circuit breakersSchemesTeSys PowerDeca - Frame 3 Motor circuit breakersSchemesGV3LppGV3Ppp2/T14/T26/T31/L13/L25/L3DF510744.eps2/T14/T26/T31/L13/L25/L3DF569068.epsFront mounting add-on contact blocks Instantaneous auxiliary contactsFront mounting add-on contact blocks Instantaneous auxiliary contacts and fault signalling contactsGVAE1GVAE11GVAE20GVAED101GVAED01113141211orDF569069.eps13142221DF569070.eps13142324DF569071.eps97982324DF569072.eps97982122DF569073.epsSide mounting add-on contact blocks Instantaneous auxiliary contacts and fault signalling contactsGVAD0110GVAD0101GVAD1010GVAD100153549695DF569074.eps52519695DF569075.eps97985354DF569076.eps97985152DF569077.epsInstantaneous auxiliary contactsShort-circuit signalling contactsGVAN11GVAN20GVAM11(62)32(61)3143(73)44(74)DF569078.eps(64)34(63)3343(73)44(74)DF569079.eps050608DF569080.epsVoltage tripsCurrent limiterGVAUpppGVASpppGVAXpppGV1L3D1D2DF569081.epsD1D2DF511012.epsD1D2E1E2DF569083.eps1/L13/L25/L3DF569084.epsUse of fault signalling contact and short-circuit signalling contactStart-Stop signalling contact blocksGVAD10ppGVAM11Short-circuit signallingTrip signallingN/C or N/O Start-Stop contactDF569085.epsGK2AX10GK2AX20GK2AX501314DF537471.eps13142324DF537472.eps22211314DF537473.epsFault signalling contact blocksGK2AX5297980605DF537476.epsReferences:pages B6/26 to B6/29Characteristics:pages B6/102 to B6/105Curves:pages B6/106 to B6/111Dimensions:page B6/115Ref.";i:515;s:29:"B6/118Motor circuit breakers";i:516;s:78:"B6/119Motor circuit breakersTeSys Deca - Frame 40.25 to 55 kW - 1/2 to 60 HP";i:517;s:2535:"B6/120Motor circuit breakersEnvironmentCircuit breaker typeGV4LGV4LEGV4PGV4PEGV4PEMGV4PBConforming to standardsIEC/EN 60947-1, IEC/EN 60947-2,IEC/EN 60947-4-1IEC/EN 60947-1, IEC/EN 60947-2, IEC/EN 60947-4-1, UL 60497-4-1, CSA 22.2 n° 60497-4-1IEC/EN 60947-2, IEC/EN 60947-4-1Product certificationsCCC, EAC, BV, EU-RO MR (1) , UKCACCC, EAC, CSA (cCSAus), ATEX, BV, EU-RO MR (1), UKCAUL 489, CSA C22.2 n°5, UKCAClimatic withstand According to IACS E10Degree of protection (front face)Conforming to IEC 60529Open mountedIP 40 front face except on connection area.Connection area:- IP20 with EverLink connector- IP40 with crimp lug connector and terminal shield.In enclosure (2)DRH = IP40 ERH = IP54 or IP65Shock resistanceConforming to IEC 60068-2-27 15g - 11 ms15g - 11 msVibration resistanceConforming to IEC 60068-2-6 2.0 to 13.2 Hz and amplitude ±1 mm 13.2 to 100 Hz acceleration 0.7 gAmbient air temperatureStorage°C -50...+85Operation°C -25...+70Temperature compensation°C Non applicable-25...+60 (3)Flame resistanceConforming to IEC 60695-2-11°C 960Maximum operating altitudem 2000 without derating. Up to 5000 with deratingSuitable for isolationConforming to IEC 60947-1 § 7-1-6 Ye sResistance to mechanical impactJ IK07 (2J)Sensitivity to phase failureNoYe sTechnical characteristicsUtilisation categoryConforming to IEC 60947-2 AAConforming to IEC 60947-4-1 AC-3 (4)Rated operational voltage (Ue)Conforming to IEC 60947-2V 690Rated insulation voltage (Ui) Conforming to IEC 60947-2V 800Rated voltageConforming to CSA C22-2 n°1, UL 60947-4-1VNon applicable600Rated operational frequencyConforming to IEC 60947-4-1, UL, CSAHz 50/60Rated impulse withstand voltage (U imp)Conforming to IEC 60947-2kV 8Total power dissipated per poleW 6.14.6Mechanical durability (C.O.: Closing, Opening)C.O. 40000Electrical durability for AC-3/415V duty (C.O.: Closing, Opening)415 V InC.O. 5 000Duty class (maximum operating rate)C.O./h 25Maximum conventional rated thermal current (Ith)Conforming to IEC 60947-4-1A115Rated dutyConforming to IEC 60947-4-1 Continuous duty(1) Refer to chapter on page A5/86 for details on Marine Classification Societies. (2) DRH = with Direct Rotary Handle ERH = with Extended Rotary Handle.(3) For operation up to 70 °C, please consult your regional sales office.(4) Up to 100 A.TeSys PowerDeca - Frame 4 Motor circuit breakersCharacteristicsReferences:pages B6/35 to B6/41Curves:pages B6/124 to B6/131Dimensions, schemes:pages B6/134 to B6/137Ref.";i:518;s:1268:"B6/121Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakersCharacteristicsMounting characteristicsOperating position Without derating, in relation to normal vertical mounting plane (1)90°90°90°90°90°90°90°90°DB425283.epsPower connection characteristicsPower connection by bare cables (EverLink connector)Bare cableshDF510554.epsConnection to screw clamp terminals (Max. number of conductors x c.s.a.)Min.Max.Solid cablemm2 AWGCu 1 x 1.5 + 1 x 2.5 Cu 2 x 14Cu 1 x 70 + 1 x 95 Cu 1 x 2/0 + 1 x 3/0Flexible cable without cable endmm2 AWGCu 1 x 1.5 + 1 x 2.5 Cu 2 x 6Cu 1 x 50 + 1 x 70 Cu 1 x 1/0 + 1 x 2/0Flexible cable with cable endmm2 AWGCu 1 x 1.5 + 1 x 2.5 Cu 2 x 6 Cu 1 x 50 + 1 x 70Cu 1 x 1/0 + 1 x 2/0Tightening torqueN.m5 y 10 mm2 / 8 AWG 9 u 16 mm2 / 6 AWGStripping length (h)Solid cablemm20Power connection by bars or lugsBars or lugsedLDF534046.epsdLDF534047R.epsDLDB425278.epsPitchWithout spreadersmm27With spreadersmm35Bars or cables with lugsemmy 8Lmmy 20dmmy 7Dmm6.4M6 ScrewsTightening torqueN.m5 y 10 mm2 / 8 AWG 9 u 16 mm2 / 6 AWG(1) When mounting on a vertical rail, fit a stop to prevent any slippage.References:pages B6/35 to B6/41Curves:pages B6/124 to B6/131Dimensions, schemes:pages B6/134 to B6/137Ref.";i:519;s:625:"B6/122Motor circuit breakersBreaking capacity of GV4L and GV4LECircuit breaker typeGV4LpppB GV4LEpppBGV4LpppN GV4LEpppNGV4LEpppSRatingA25508011523.5712.525508011523.5712.5255080115Breaking capacity conforming to IEC 60947-2230/240 VIcukA50100120Ics % (1)100100100400/415 VIcukA2550100Ics % (1)100100100440 VIcukA205070Ics % (1)100100100500 VIcukA102530Ics % (1)100100100525 VIcukA-1518Ics % (1)-100100690 VIcukA-810Ics % (1)-2525(1) As % of Icu.TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticCharacteristicsReferences:page B6/35 Curves:pages B6/124 to B6/128Dimensions, schemes:pages B6/134 to B6/137Ref.";i:520;s:1012:"B6/123Motor circuit breakersBreaking capacity of GV4P, GV4PE, GV4PBpppBCircuit breaker typeGV4PpppB GV4PEpppB GV4PEMpppBGV4PBpppBGV4PpppN GV4PEpppN GV4PEMpppNGV4PBpppNGV4PpppSGV4PEpppS GV4PEMpppSGV4PBpppSRatingA25508011523.5712.525508011523.5712.5255080115Breaking capacity conforming to IEC 60947-2230/240 VIcukA50100120Ics % (1)100100100400/415 VIcukA2550100Ics % (1)100100100440 VIcukA205070Ics % (1)100100100500 VIcukA102530Ics % (1)100100100525 VIcukA-1518Ics % (1)-100100690 VIcukA-810Ics % (1)-2525Breaking capacity conforming to UL 60947-4-1 and CSA 22.2 n° 60947-4-1120 VkA3565100208 VkA3565100240 VkA3565100480Y / 277 VkA183565480 V (2)kA183565600Y / 347 VkA141825600 V (2)kA141825(1) As % of Icu.(2) Except for MCC suitable for TAP conductor protection, in motor group installation and GV4PB.TeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticCharacteristicsReferences:pages B6/37 to B6/41Curves:pages B6/129 to B6/131Dimensions, schemes:pages B6/134 to B6/137Ref.";i:521;s:1193:"B6/124Motor circuit breakersCurvesTripping curves for GV4L and GV4LE combined with thermal overload relay LRD or LR9Average operating times at 20 ° C related to multiples of the setting currentGV4L02 and GV4LE02 to 12 with LRD05 to LRD14, GV4L80 and GV4LE80 with LRD3363GV4L25 AND GV4LE25 with LRD318, LRD325 GV4L50 AND GV4LE50 with LRD332, LRD340, LRD350A1AB2300.010.111010010 00010001101004Time (s)x Rating current (Ir)DB425306.epsA1AB2300.010.112420401010010 00010001101004Time (s)x Rating current (Ir)DB425957.eps1 3 poles from cold state2 2 poles from cold state3 3 poles from hot state4 6 ...14 IrA Thermal overload relay protection zoneB GV4L protection zone1 3 poles from cold state2 2 poles from cold state3 3 poles from hot state4 6 ...14 IrA Thermal overload relay protection zoneB GV4L protection zoneGV4L115 and GV4LE115 with class 10 LR9F5367, LR9D5369 and class 20 LR9D5567, LR9F5569 00.010.111010010 00010001101.1210023B1ATime (s)x Rating current (Ir)DB425292.eps1 Cold state curve2 Hot state curve3 6 ...14 IrTeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticReferences:page B6/35 Characteristics:pages B6/120 to B6/122Dimensions, schemes:pages B6/134 to B6/137Ref.";i:522;s:551:"B6/125Motor circuit breakersCurvesCurrent limitation on short-circuit for GV4L, GV4LE (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 Vcos ø = 0.95= 0.9= 0.8= 0.7= 0.5= 0.25= 0.31234567890,11101000,1110100Limited peak current (kA)Prospective Isc (kA)DB425304.eps1 Maximum peak current2 GV4L1153 GV4L804 GV4L505 GV4L256 GV4L127 GV4L078 GV4L039 GV4L02 TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticReferences:page B6/35 Characteristics:pages B6/120 to B6/122Dimensions, schemes:pages B6/134 to B6/137Ref.";i:523;s:672:"B6/126Motor circuit breakersCurrent limitation on short-circuit for GV4L, GV4LE + thermal overlaoad relay LRD or LR9 (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 Vcos ø = 0.95= 0.9= 0.8= 0.7= 0.5= 0.25= 0.310,11101000,111010023456789Limited peak current (kA)Prospective Isc (kA)DB425305.eps1 Maximum peak current2 GV4L115 + LR9D5367 or LR9F53673 GV4L80 + LRD33614 GV4L50 + LRD3405 GV4L25 + LRD3256 GV4L12 + LRD3137 GV4L07 + LRD128 GV4L03 + LRD079 GV4L02 + LRD07 TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticCurvesReferences:page B6/35 Characteristics:pages B6/120 to B6/122Dimensions, schemes:pages B6/134 to B6/137Ref.";i:524;s:465:"B6/127Motor circuit breakersThermal limit on short-circuit for GV4L, GV4LEThermal limit in kA²SSum of kA²S = f (prospective Isc) at 1.05 Ue = 435 V110100100011010012345678Sum of I2dt (kA²S)Prospective Isc (kA)DB425153.eps1 GV4L1152 GV4L803 GV4L504 GV4L255 GV4L126 GV4L077 GV4L038 GV4L02 TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticCurvesReferences:page B6/35 Characteristics:pages B6/120 to B6/122Dimensions, schemes:pages B6/134 to B6/137Ref.";i:525;s:614:"B6/128Motor circuit breakersThermal limit on short-circuit for GV4L, GV4LE + thermal overlaoad relay LRD or LR9Thermal limit in kA²S in the magnetic operating zoneSum of kA²S = f (prospective Isc) at 1.05 Ue = 435 V0,1110100100011010012345678Sum of I2dt (kA²S)Prospective Isc (kA)DB425154.eps1 GV4L115 + LR9D5367 or LR9F53672 GV4L80 + LRD33613 GV4L50 + LRD3404 GV4L25 + LRD3255 GV4L12 + LRD3136 GV4L07+ LRD127 GV4L03+ LRD078 GV4L02 + LRD07TeSys PowerDeca - Frame 4 Motor circuit breakers - MagneticCurvesReferences:page B6/35 Characteristics:pages B6/120 to B6/122Dimensions, schemes:pages B6/134 to B6/137Ref.";i:526;s:1008:"B6/129Motor circuit breakersTeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticCurvesThermal-magnetic tripping curves for GV4P, GV4PE, GV4PEM, GV4PBAverage operating times at 20 °C related to multiples of the setting currentGV4P, GV4PE, GV4PEMGV4P, GV4PE, GV4PEM0.0010.010.111010010 0001000110100t < 20ms2134Times (s)X the setting current IrDB425930.eps0.0010.010.111010010 00010001101003t < 20ms421Times (s)X the setting current IrDB425958.aiGV4PBGV4PB0.0010.010.111010010 0001000110100t < 20ms2134Times (s)X the setting current IrDB432750.eps0.0010.010.111010010 00010001101003t < 20ms412Isd = 5 ...13 x IrTimes (s)X the setting current IrDB432751.epsHot stateCold state1 Class 102 Class 203 Isd = 13 x Ir (GV4P - GV4PE); Isd = 5....13 x Ir (GV4PEM - GV4PB)4 Ii = 17 In1 Class 102 Class 203 Isd = 13 x Ir (GV4P - GV4PE); Isd = 5.... 13 x Ir (GV4PEM - GV4PB)4 Ii = 17 In References:pages B6/37 to B6/41Characteristics:pages B6/120 to B6/123Dimensions, schemes:pages B6/134 to B6/137Ref.";i:527;s:583:"B6/130Motor circuit breakersCurrent limitation on short-circuit for GV4P, GV4PE, GV4PEM, GV4PB (3-phase 400/415 V)Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 V0,11101000,11cos ø = 0.9510100= 0.9= 0.8= 0.7= 0.5= 0.3= 0.25123456789Limited peak current (kA)Prospective Isc (kA)DB425155.eps1 Maximum peak current2 GV4P1153 GV4P804 GV4P505 GV4P256 GV4P127 GV4P078 GV4P039 GV4P02 TeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticCurvesReferences:pages B6/37 to B6/41Characteristics:pages B6/120 to B6/123Dimensions, schemes:pages B6/134 to B6/137Ref.";i:528;s:527:"B6/131Motor circuit breakersThermal limit on short-circuit for GV4P, GV4PE, GV4PEM, GV4PBThermal limit in kA2s in the magnetic operating zoneSum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V110100100011010012345678Sum of I2dt (kA²S)Prospective Isc (kA)DB425156.eps1 GV4P1152 GV4P803 GV4P504 GV4P255 GV4P126 GV4P077 GV4P038 GV4P02 TeSys PowerDeca - Frame 4 Motor circuit breakers - Thermal-magneticCurvesReferences:pages B6/37 to B6/41Characteristics:pages B6/120 to B6/123Dimensions, schemes:pages B6/134 to B6/137Ref.";i:529;s:1813:"B6/132Motor circuit breakersCharacteristics of electric tripsType of tripGV4AUppp MN (undervoltage release)Rated insulation voltage (Ui) Conforming to IEC 60947-1V= UeOperational voltage (Ue)Conforming to IEC 60947-1V24 V AC/DC48 V AC/DC110-130 V AC 125 V DC208-240 V 60 Hz 220-240 V 50 Hz277 V 60 Hz380-415 V 60 Hz440-480 V 60 HzInrush consumptiona cVA< 7 VA < 2 W< 7 VA < 2 W< 7 VA < 2 W< 7 VA < 7 VA < 7 VA < 7 VA Sealed consumptiona cVA< 7 VA < 2 W< 7 VA < 2 W< 7 VA < 2 W< 7 VA < 7 VA < 7 VA < 7 VA Operating timeConforming to IEC 60947-1ms< 50On-load factor100 %Cabling (spring connection)Number of conductors1 per terminalSolid cablemm2No solid cable allowedFlexible cable without cable endmm2 AWGCu 0.5 mm2 to 1.5 mm2 Cu 20AWG to 16AWG Flexible cable with cable endmm2No cable with cable end allowedTightening torqueN.mNAMechanical durability (C.O.: Close - Open)C.O.20000 Characteristics of electric tripsType of tripGV4ASppp MX (Shunt trip)Rated insulation voltage (Ui) Conforming to IEC 60947-1V= UeOperational voltage (Ue)Conforming to IEC 60947-1V24 V AC/DC48 V AC/DC110-130 V AC 125 V DC208-240 V 60 Hz 220-240 V 50 Hz380-415 V 50 Hz 440-480 V 60 HzInrush consumptiona cVA< 6 VA < 10 W< 6 VA < 10 W< 6 VA < 10 W< 6 VA< 6 VASealed consumptiona cVA< 4 VA < 1 W< 4 VA < 1 W< 4 VA < 1 W< 4 VA< 4 VAOperating timeConforming to IEC 60947-1ms< 50 On-load factor100 %Cabling (spring connection)Number of conductors1 per terminalSolid cablemm2No solid cable allowedFlexible cable without cable endmm2 AWGCu 0.5 mm2 to 1.5 mm2 Cu 20AWG to 16AWG Flexible cable with cable endmm2No cable with cable end allowedTightening torqueN.mNAMechanical durability (C.O.: Close - Open)C.O.20000TeSys PowerDeca - Frame 4 Motor circuit breakers - Electric tripsCharacteristicsReferences:page B6/43Ref.";i:530;s:1537:"B6/133Motor circuit breakersReferences:page B6/42CharacteristicsAuxiliary contact characteristicsType of contactsAuxiliary contact block GV4AE11SDx contact module for GV4PEM , GV4PB, GV4ADM1111Rated insulation voltage(Ui) Conforming to IEC 60947-1V690250Conforming to CSA C22-2 n°14 UL 508V--Conventional thermal current (Ith)Conforming to IEC 60947-5-1A55Conforming to CSA C22-2 n°14 UL 508A55Mechanical durability (C.O.: Close - Open)C.O.40 000100 000Operational power and current conforming to IEC 60947-5-1 a.c. operationRated operational voltage (Ue)V2448110/ 127230/ 240380/ 440660/ 69048110230/ 240380/ 415440690Operational power (AC12)VA120240635120022003450400Occasional breaking and making capacitieskVA1.22.46.35122234.5Operational current (Ie)AC-12A555555AC-15A55432.50.131.5Operational power and current conforming to IEC 60947-5-1 d.c. operationRated operational voltage (Ue)V2448110250244860110250Operational power (DC12)W120120667550Occasional breaking and making capacitiesW12001200660750Rated operational current (Ie)DC-12A52.50.60.3DC-13A2.51.20.350.0520.220.11DC-14A10.20.050.03Low power switching reliability of contact10-6 at 17 V / 2 mAMinimum operational conditionsd.c. operationV 17mA 2Short-circuit protection5 A fuse gG conforming to IEC 60947-5-1Spring terminals cablingNumber of conductors1 per holeSolid cablemm2-0.2 to 1.5Flexible cable without cable endmm20.5 to 1.50.2 to 2.5Flexible cable with cable endmm2-0.25 to 1.5 TeSys PowerDeca - Frame 4 Motor circuit breakers - Auxiliary contactsRef.";i:531;s:759:"B6/134Motor circuit breakersDimensions and mountingTeSys PowerDeca - Frame 4 Motor circuit breakersGV4 with toggle: GV4LE, GV4PE, GV4PEM, GV4PBWith EverLink® connectorWith crimp lug connectorX111 (4.37)156 (6.14) (1) 171 (6.74) (2)103 (4.06)116 (4.57)DB432740.epsXY111 (4.37)188 (7.41)==81 (3.19)DB432741.epsX103116111159167(1)(2)DB425962R.eps XY255284DB425963.eps(1) Interphases barriers.(2) Long terminal shield.(1) GV4LE, GV4PE, GV4PEM.(2) GV4PB.GV4 with rotary handle: GV4L, GV4P, or GV4LE, GV4PE, GV4PEM, GV4PB with GV4ADN01, GV4ADN02 direct mounting rotary handleDimensions1031658.5XDB425964.epsXY==81688.57DB425965.epsSDx module 18148XDB425966.epsReferences:pages B6/35 to B6/48Characteristics:pages B6/120 to B6/123Curves:pages B6/124 to B6/131Ref.";i:532;s:587:"B6/135Motor circuit breakersDimensions and mountingTeSys PowerDeca - Frame 4 Motor circuit breakersGV4L, GV4P, GV4LE, GV4PE, GV4PEM, GV4PBPanel mounting with M4 screwsDoor cut-out for rotary handleMinimum safety clearance3 Ø4.517563DB425163.eps7085DB425164.epsABCCDB425971.epsSafety clearance (mm)Painted sheet metalBare sheet metalABCABCNo accessory30004005Interphase barriers000005Long terminal shield000005Toggle-type, rotary handle-type: identical clearance values.References, introduction:pages B6/35 to B6/41Characteristics:pages B6/120 to B6/123Curves:pages B6/124 to B6/131Ref.";i:533;s:722:"B6/136Motor circuit breakersDimensions and mountingTeSys PowerDeca - Frame 4 Motor circuit breakersGV4 with extended rotary handleFront extended rotary handle GV4APN01, GV4APN02, GV4APN04208 min. / 620 max.214 min. / 627 max.X448.5DB436340.epsTripOI36.540.532.548.578.56831.5XYDB436341.epsSide (left or right) extended rotary handle LV426935, LV426936461261562.56060XDB425970.epsTripOI45 min. / 480 max.4440.572.58136.531.568XYDB425969.epsFront and side extended rotary handle, door/side panel cut-outFront and side extended rotary handleIP65, door panel cut-outIP54, door/side panel cut-out8.56060XDB436342.eps15.94 Ø3.5Ø3.5Ø2215.9==48==48XDB425177.eps15.9Ø3.5Ø2215.9XDB425973.epsReferences:pages B6/45 to B6/47Ref.";i:534;s:870:"B6/137Motor circuit breakersMagnetic motor circuit breakersGV4L, GV4LEGV4P, GV4PE, GV4PEM, GV4PB2/T14/T26/T31/L13/L25/L3DF510744.eps2/T14/T26/T31/L13/L25/L3DF569068.epsAccessoriesElectrical tripsGV4AE11 auxiliary contactsMN GV4AUpppMX GV4ASpppUsed as OF contactUsed as SD contactD1D2a (+)a (-)DB425286.epsa (+)a (-)C1C2DB425287.eps11111412DB425284.eps91919492DB425285.epsSide mounting add-on contact blocks Instantaneous auxiliary contacts and fault signalling contacts*** I1, I2: PLC digital inputs - used as alarm inputs,as an example.TT95%TAMUNBGFJAMLSTxxsTT95%TAMUNBGFJAMLSTxxsa/c (+)a/c (-)a/c (-)a/c (+)SDxSDL1SD12SD14SD22SD24SDL2SD11SD13SD21SD23AlarmFaultI1I2DB425927.epsSchemesTeSys PowerDeca - Frame 4 Motor circuit breakersReferences:pages B6/35 to B6/48Characteristics:pages B6/120 to B6/123Curves:pages B6/124 to B6/131Dimensions:pages B6/134 and B6/135Ref.";i:535;s:29:"B6/138Motor circuit breakers";i:536;s:65:"B6/139Motor circuit breakersTeSys Giga - Frame 5, 655 to 250 kW";i:537;s:2285:"B6/140Motor circuit breakersCharacteristicsTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Thermal magneticEnvironmentCircuit breaker typeGV5P/ GV6PConforming to standardsIEC/EN 60947-4-1 IEC/EN 60947-2UL 60947-4-1CSA C22.2 n° 60947-4-1Product certificationsCB, UKCA,UL, CSA, EAC, DNV-GL (1)Climatic withstandAccording to IACS E10Degree of protection (front face)Conforming to IEC 60529Bare circuit breaker with terminal shieldsIP40 with direct rotary handleInstalled in switchboardIP40 with direct rotary handle / IP43 with MCC conversion accessory/ IP55 with extended rotary handleShock resistanceConforming to IEC 60068-2-2715 gn -11 msVibration resistanceConforming to IEC 60068-2-62.5 gn (25 Hz)Ambient air temperatureStorage in packing°C-50...+85OperationOpen mounted°C-25... +70In enclosure°C-25...+70Flame resistanceConforming to IEC 60695-2-11°C960Maximum operating altitudem2000Suitable for isolationConforming to IEC 60947-1 § 7-1-6Ye sResistance to mechanical impactJ0.5Sensitivity to phase failureYe sTechnical characteristicsCircuit breaker typeGV5P150GV5P220GV6P320GV6P500Utilisation categoryConforming to IEC 60947-2AConforming to IEC 60947-4-1AC-3Rated operational voltage (Ue)Conforming to IEC 60947-2V690Rated insulation voltage (Ui) Conforming to IEC 60947-2V800Rated voltageConforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1V600Rated operational frequencyConforming to IEC 60947-4-1 UL, CSAHz50/60Rated impulse withstand voltage (U imp)Conforming to IEC 60947-2kV8Total power dissipated per poleW9.217.619.239.7Mechanical durability (C.O.: Close, Open)C.O.40 00020 00015 00015 000Electrical durability for AC-3 duty400/415 V (In)C.O.20 00010 0006 0004 000Duty class (maximum operating rate)C.O./h25Maximum conventional rated thermal current (Ith) Conforming to IEC 60947-4-1A70...150100...220160...320250...500Rated dutyConforming to IEC 60947-4-1Continuous dutyMounting characteristicsOperating position Without derating, in relation to normal vertical mounting plane90°90°90°90°90°90°90°90°DB425283.eps(1) EAC & DNV-GL certifications are in progress. Please check with your nearest sales office for more details.References:page B6/51Curves:pages B6/141 to B6/143Dimensions:pages B6/146 to B6/151Schemes:page B6/152 Ref.";i:538;s:1127:"B6/141Motor circuit breakersCurvesThermal-magnetic tripping curves for GV5PMicroLogic 2.2 M - 150/220 ADB432745.eps.5.7123457102030507010020030010 0005 0002 0001 000500200100502010521.5.2.1.05.02.01.005.002.001Ii = 15 x In150 A : Ir = 70 ...150 A220 A : Ir = 100 ...220 AIsd = 5 ...13 x IrTime (s)X the setting current Irclass 20class 10class 5t < 10 ms Reflex tripping.Thermal-magnetic tripping curves for GV6PMicroLogic 2.3 M - 320 AMicroLogic 2.3 M - 500 ADB432748.eps.5.7123457102030507010020030010 0005 0002 0001 000500200100502010521.5.2.1.05.02.01.005.002.001Ii = 15 x Int < 10 msIsd = 5 ...13 x IrTime (s)class 20class 10class 5320 A : Ir = 160 ...320 AX the setting current IrDB432749.eps.5.7123457102030507010020030010 0005 0002 0001 000500200100502010521.5.2.1.05.02.01.005.002.001Ii = 13 x Int < 10 ms500 A : Ir = 250 ...500 AIsd = 5 ...13 x IrTime (s)class 20class 10class 5X the setting current Ir Reflex tripping. TeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Thermal-magneticReferences:pages B6/51 to B6/55Characteristics:page B6/140Dimensions:pages B6/146 to B6/151Schemes:page B6/152 Ref.";i:539;s:487:"B6/142Motor circuit breakersTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Thermal-magneticCurrent limitation on short-circuit (3-phase 400 - 415 V)Dynamic stressFor GV5P/6PpppF/H type= 0.9= 0.8= 0.7= 0.5= 0.25= 0.31101000,1110100HHHHFFF1234FLimited peak current (kA)Prospective Isc (kA)DB432832.eps1 GV5P150F/H2 GV5P220F/H3 GV6P320F/H4 GV6P500F/H References:pages B6/51 to B6/55Characteristics:page B6/140Dimensions:pages B6/146 to B6/151Schemes:page B6/152 CurvesRef.";i:540;s:561:"B6/143Motor circuit breakersTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Thermal-magneticMaximum thermal limit on short-circuitThermal limit in kA2s in the magnetic operating zoneSum of I²dt = f (prospective Isc) at 1.05 Ue = 435 V2x1041023x1045x1042x1062x1051051061075x1063x1053467100203040605x1053x10655070141FFFFHHHH23Sum of I2dt (A2s)Prospective Isc (kA)DB432833.eps1 GV5P150F/H2 GV5P220F/H3 GV6P320F/H4 GV6P500F/H References:pages B6/51 to B6/55Characteristics:page B6/140Dimensions:pages B6/146 to B6/151Schemes:page B6/152 CurvesRef.";i:541;s:1336:"B6/144Motor circuit breakersCharacteristics of GV5P/GV6P electric tripsType of tripLV42940p undervoltage tripLV42938p shunt tripRated insulation voltage (Ui) Conforming to IEC 60947-1V690690Conforming to CSA C22-2 n°14, UL 508V600600Operational voltage (Ue)Conforming to IEC 60947-1V0.85...1.1 Uc0.7...1.1 UcDrop-out voltageV0.7...0.35 Uc0.7...0.35 UcInrush consumptiona VA< 10Sealed consumptiona VA< 5 Operating timeConforming to IEC 60947-1 msFrom the moment the voltage reaches its operational value until opening of the circuit breaker. < 50On-load factor100 %Cabling Number of conductors1Solid cablemm21.5Flexible cable without cable endmm2 1.5Flexible cable with cable endmm21Tightening torqueN.m1.2Mechanical durability (C.O.: Close - Open)C.O.50 % of the mechanical durability of the circuit breaker.Characteristics of GV5P/GV6P thermal fault moduleType of tripLV429424 (1)Operational voltage (Ue)Conforming to IEC 60947-1V24 to 415 V AC/ DCConventional thermal current (Ith)Conforming to IEC 60947-5-1A80 mA max.(1) LV429424 takes the place of the AU/AS electric trip coil and an auxiliary contact.TeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Electric tripsCharacteristicsReferences:pages B6/52 to B6/56Characteristics:page B6/140Dimensions:pages B6/146 to B6/151Schemes:page B6/152 Ref.";i:542;s:1415:"B6/145Motor circuit breakersCharacteristicsAuxiliary contact characteristicsType of contacts2945029452Rated insulation voltage(Ui) (associated insulation coordination)Conforming to IEC 60947-1V690690Conventional thermal current (Ith)Conforming to IEC 60947-5-1A65Mechanical durability (C.O.: Close - Open)C.O.50 00050 000Operational current conforming to IEC 60947-5-1 a.c. operationAC-12 or AC-15. 50 000 C.O.AC-12 or AC-15. 50 000 C.O.Rated operational voltage (Ue)V2448110220/ 240380/ 4406902448110230/ 240380/ 415Rated operational current (Ie)AC-12A66666655555AC-15A665420.1332.521.5Operational current conforming to IEC 60947-5-1 d.c. operationDC-12 or DC-14. 50 000 C.O.DC-12 or DC-14. 50 000 C.O.Rated operational voltage (Ue)V24481102502448110250Rated operational current (Ie)DC-12A62.50.60.352.50.60.3DC-14A10.20.050.0310.20.050.03Minimum operational conditionsd.c. operationV 244mA 1001Short-circuit protectionBy GB2CBpp circuit breaker (rating according to operational current for Ue y 415 V) or gG fuse, 10 A max.CablingSolid cablemm21 x 1.5 conductor1 x 1.5 conductorFlexible cable without cable endmm21 x 1.5 conductor1 x 1.5 conductorFlexible cable with cable endmm21 x 1.5 conductor1 x 1.5 conductor TeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakers - Auxiliary contactsReferences:pages B6/52 to B6/56Characteristics:page B6/140Dimensions:pages B6/146 to B6/151Schemes:page B6/152 Ref.";i:543;s:951:"B6/146Motor circuit breakersDimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5PGV6PDimensionsDimensions8186121155XDB432759.eps 7327.544.5105tripTrip-ON-OFFXY161====DB432760.epsDB432761.eps105110145179XDB432762.epsResetTr ip- ON-OFFYX1234083255====140With long terminal shields or interphases barriers GV5P + GV7AC04/GV7AC01 GV6P + LV432593 / LV432595 / LV432570tripTrip-ON-OFFXY105DB432764.epsX290==357==(2)(1)DB432763.epsDB432766.epsResetTr ip- ON-OFFXYBDB432765.epsXA==474==(2)(1)(1) Interphases barriers: GV7AC04.(2) Terminal shield: GV7AC01.(1) Interphases barriers: LV432570.(2) Terminal shield: LV432593 (45mm) / LV432595 (52.5mm) . ABLV432593400140LV432595480157.5 References:pages B6/51 to B6/56Characteristics:page B6/140Curves:pages B6/141 to B6/143Schemes:page B6/152 Insulating screenDB425254.epsMotor circuit breakerGV5P + GV7AC05GV6P + LV4325783PW x H x thickness (mm)140 x 105 x 1203 x 175 x 1.5Ref.";i:544;s:879:"B6/147Motor circuit breakersDimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5P/GV6PPanel mounting - GV5PPanel mounting - GV6PMounting on 2 mounting rails for GV5P onlyDB432779.eps352 Ø617.5XY12562.5DB432780.eps45200XY22.54 Ø64 Ø0.23100DB432781.epsX15DB432782.eps125135DZ5 ME5X35Door cut-out mounting GV5PWith access to trip unitDB432784.epsResetTrip-ON-OFFResetTrip-ON-OFFResetTrip-ON-OFFResetTrip-ON-OFFDB432785.epsXY29.57747.595DB432786.epsResetTrip-ON-OFFResetTrip-ON-OFFResetTrip-ON-OFFResetTrip-ON-OFFDB432787.eps102X54.5Y47.595Door cut-out mounting GV6PWith access to trip unitDB432789.epsResetTrip- ON-OFFResetTrip- ON-OFFDB432790.epsXY4212763.5127DB432791.epsResetTrip- ON-OFFResetTrip- ON-OFFDB432792.epsXY63.512790175References:pages B6/51 to B6/56Characteristics:page B6/140Curves:pages B6/141 to B6/143Schemes:page B6/152 Ref.";i:545;s:1065:"B6/148Motor circuit breakersReferences:pages B6/51 to B6/56Characteristics:page B6/140Curves:pages B6/141 to B6/143Schemes:page B6/152 Dimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5PMinimum electrical clearancetripResetTr ip-ON-OFFAABBDB432770.epstripResetTr ip-ON-OFFABBA(1)DB432771.epstripResetTr ip-ON-OFFABBA(2)DB432772.epsClearance in mmPainted sheet metalBare metal plateABABNo accessoriesV y 500 Va3004020V > 500 Va----Interphases barriers (1)V y 500 Va001020V > 500 Va----Terminal shield (2)V y 500 Va001010V > 500 Va30104020GV6PMinimum electrical clearanceResetTr ip- ON-OFFA1A1B1B1DB432823.epsResetTr ip- ON-OFFB1B1A1A1(1)DB432824.epsResetTr ip- ON-OFFB1B1A1A1(2)DB432825.epsResetTr ip- ON-OFFB1B1A1A1(3)DB432826.epsClearance in mmPainted sheet metalBare sheet metalA1B1A1B1No accessoriesV y 500 Va3004020V > 500 Va----Interphase barriers(1)V y 500 Va001020V > 500 Va----Long terminal shield (LV432593) (2)V y 500 Va3004010V > 500 Va5005020Long terminal shield (LV432595) (3)V ≤ 500 Va001010V > 500 Va3003020Ref.";i:546;s:753:"B6/149Motor circuit breakersDimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5P/GV6PGV5 with extended rotary handle GV7AP01/ GV7AP02DB432777.epsZX4710171 min. / 600 max.ResetTrip-ON-OFF9=75X75=DB432828.eps45°9.25Ø50936722 Ø4.2XYDB432773.epsGV6 with extended rotary handle LV432598/ LV432600Z4710195 min. / 600 max.XDB432830.epsResetTr ip- ON-OFFø5...824.67575X==DB432829.eps545°36YX24.6Ø502 Ø4.272DB432775.epsReferences:pages B6/51 to B6/56Characteristics:page B6/140Curves:pages B6/141 to B6/143Schemes:page B6/152 GV5P/GV6PMCC type direct rotary handleResetTrip-ON-OFFResetTrip-ON-OFFtrippedOOFFre setONIDB432794.epsAX1–3DB432793.epsDB432795.epsCBCXYDABCD150/220 A125 ±25010041320/500 A149 ±272.514551Ref.";i:547;s:829:"B6/150Motor circuit breakersDimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5PCombination of GV5P and contactor LC1Fppp/LC1Dppp with kit GV7AC0ptripTr ip-ON-OFFXYBADB432768.epsCXDB432767.epsYDFEXØ7x10DB432769.epsABCDEFGV5P + LC1F115 + GV7AC061193342434485120GV5P + LC1F150 + GV7AC061193342434685120GV5P + LC1F185 + GV7AC061193382494885120GV5P + LC1D115 + GV7AC081203322054885120GV5P + LC1D150 + GV7AC081203322054885120Minimum distance between 2 circuit breakers mounted side by side = 0GV5P/GV6PWith additional PowerTagGV5P with LV434020 / Panel mountingDB436383.aiC1C2XTypeC1C2GV5P8186GV6P95.5110DB436391.aitripResetTrip-ON-OFF52.53517.53Ø6YY80.5120.520110562.540125XXGV6P with LV434022 / Panel mountingDB436392.aiResetTrip- ON-OFFPowerTag704514022.56 Ø6YYXX320127.520010065192.5";i:548;s:702:"B6/151Motor circuit breakersDimensions and mountingTeSys PowerGiga - Frame 5 - Frame 6 Motor circuit breakersGV5P/GV6PFront connection without accessoriesGV5PGV6PCables with lugs barsBars/cables with lugs-ON-ONDB432840.eps7010.5ZXXDB432841.eps113.514ZXXDB432842.epsGV5PBare-cables connectorsGV7AC021/LV429227/GV7AC022LV429244-ON-ONDB432843.eps7022ZXXDB432844.eps-ON-ONDB432845.eps7045ZXXDB432846.epsGV6PBare-cables connectorsLV432479LV432481- ONDB432847.eps113.514ZXXDB432848.epsZ113.546.5XXDB432849.epsGV5P/GV6PSpreaders-ON-ONDB432850.epstripTrip-ON-OFFtripTrip-ON-OFFDCXYABBDB432851.epsTypeABCDGV5P/ Spreaders GV7AC031144511100GV6P/ Spreaders LV43249013552.515152.5GV6P/ Spreaders LV4324921707015166";i:549;s:1558:"B6/152Motor circuit breakersSchemesTeSys PowerGiga - Frame 5 - Frame 6 Motors circuit breakersSchemesMotor circuit breakersAdd-on auxiliary contacts according to their location (1)GV5P/ 6P29450, 294522/T14/T26/T31/L13/L25/L3DF569098.epsLocation 1C/O contactLocation 2 Trip indicationLocation 3 Electrical fault indication (2)Location 4 C/O contact111412DF569099.eps919492DF569100.eps818482DF569101.eps212422DF569102.epsA self-adhesive label, supplied with the contact, can be affixed to the front face of the circuit-breaker to allow personalised marking according to the function of the contact or contacts.(1) See pages B6/52 to B6/54.(2) Adapter LV429451 is mandatory for electrical trip indication in GV5.Electric tripsLV42940p LV42938pThermal fault module LV429424D1D4DF569103.epsC1C2DF569104.epsThermal fault moduleAuto reset (mn)OFF1141521241068DB432742.epsRecommended application schemes for LV429424a (+) 24 to 415 Va (-)Thermal fault moduleAuto reset (mn)OFF1141521241068SD1SD4SD2SD3SDTManualresetKA1KA1KM1KM1QKM1Closing orderOpeningorderDB432743.epsSD1, SD3: thermal fault module input power supplySD2: over-load fault signal output. This output will stay-put until resetSD4: contactor control outputSD2 and SD4: Static outputs: 24 to 415 V AC / V DC; 80 mA maxKM1: LC1D or LC1F contactorKA1: CA2 or CAD type control relaysTerminals shown in green OO must be connected by customer.References:pages B6/51 to B6/56Characteristics:pages B6/140Curves:pages B6/141 to B6/143Dimensions:pages B6/146 to B6/151Ref.";i:550;s:71:"B6/153Motor circuit breakersPowerLogicTM Energy measurement solutions";i:551;s:1383:"B6/154Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ Energy FlexCharacteristicsEnergy measurement – PowerLogicPowerTag Energy Flex 63 A (F63) Main characteristicsRated voltage3PUnPhase-to-phaseV380... 415 V AC ± 20 %3P+NUnPhase-to-neutralV220... 240 V AC ± 20 %Phase-to-phaseV380... 415 V AC ± 20 %FrequencyHz50/60Maximum currentImaxA63 Basic currentIbA10 Saturation currentA130 Maximum consumption3P/3P+NVAy 2Starting currentIstmA40Additional characteristicsOperating temperature°C-25 to +60Storage temperature°C-40 to +85Overvoltage categoryAs per IEC 61010-1Cat. IIIMeasuring categoryAs per IEC 61010-2-030Cat. IIIPollution degree3Altitudemy 2000Degree of protectionDevice onlyIP20IK05Radio-frequency communicationISM band 2.4 GHzGHz2.4 to 2.4835ChannelsAs per IEEE 802.15.411 to 26Isotropic Radiated PowerEquivalent (EIRP)dBm0Maximum transmission timems< 5Channel occupancyMessages sent everys5 minimumCharacteristics of measuring functionsFunctionSymbolPerformance category as per IEC 61557-12 (PMD-I/DD/K55/1)Measuring rangeClassActive powerP 19 W to 63 kWActive energyEa 1Total and partial 0 to 99999999.9 kWhCurrentI 140 mA to 63 AVoltageU 0.5Un ± 20 %Power factorPFA 10 to 1DimensionsA9MEM15733P3P + NPB121656.eps2007043354 12Ø 8.518119.5DB438487.eps2007043354 12Ø 8.518119.5DB438488.epsA9MEM1570PB121657.epsReferences:page B6/59Ref.";i:552;s:1973:"B6/155Motor circuit breakersEnergy measurement – PowerLogicPowerTag Energy Flex 160 A (F160) Main characteristics (as per IEC 61557-12)Rated voltageUnPhase-to-neutralV100...277 V AC ± 20 %Phase-to-phase173...480 V AC ± 20 %FrequencyHz50/60Maximum currentImaxA160Maximum operating current1.2 x ImaxSaturation current2 x ImaxMaximum consumptionVA3Starting currentIstmA100Basic currentIbA25Additional characteristicOperating temperature °C-25 to +70Storage temperature°C-40 to +85Overvoltage category As per IEC 61010-1Cat. IVMeasuring category As per IEC 61010-2-030Cat. IVPollution degree3AltitudemUp to 2000 without derating (1)Degree of protection deviceIP20IK05Radio-frequency communicationISM band 2.4 GHzGHz2.4 to 2.4835ChannelsAs per IEEE 802.15.411 to 26Isotropic Radiated Power Equivalent (EIRP) dBm0Maximum transmission time ms< 5Channel occupancyFor 1 devicesmessages sent every 5Characteristics of measuring functionsFunctionSymbolPerformance category as per IEC 61557-12 (PMD-II/DD/K70/1)Measuring rangeClassMeasuring rangeTotal active power (Active power per phase)P12.5 to 160 A24 W (8 W) to 192 kWTotal reactive power(Reactive power per phase)QA230 VAR (10 VAR) to 192 kVARTotal apparent power(Apparent power per phase)SA238 VA (13 VA) to 192 kVAActive Energy: per phase, total, partial, delivered and receivedEa10 to 281.109 kWhReactive energy:per phase, total, partial, delivered and receivedErA20 to 281.109 kVARhApparent energy:per phase, total, partialEapA20 to 281.109 kVAhFrequencyf150 / 60 Hz ± 2 %45 to 65 HzPhase currentI15 to 160 A100 mA to 320 ANeutral currentINC2Voltages (Line to Line)U0.5Un ± 20 %138 to 576 V ACPower factor(per phase, total) PFA1From 0.5 inductive to 0.8 capacitive-1 to 1(1) Above 2000 m, please consult us.DimensionsPowerTag Energy Flex 160 APB121658.eps38.921.4DB438489.eps272790.8==62Ø 17DB438490.epsPowerLogic™ Energy measurement solutionsPowerTag™ Energy FlexCharacteristicsReferences:page B6/60Ref.";i:553;s:2197:"B6/156Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ Energy Monoconnect 250 A, 630 ACharacteristicsEnergy measurement – PowerLogicPowerTag Energy Monoconnect 250 A, 630 AMain characteristicsRated voltageUnPhase-to-neutralV230 V AC ± 20 %Phase-to-phaseV400 V AC ± 20 %FrequencyHz50/60Maximum currentImaxA250/630Maximum operating current1.2 x ImaxSaturation current2 x ImaxMaximum consumptionVA3.7Starting currentIstmA160/400Basic currentIbA40/100Additional characteristicOperating temperature °C-25 to +70Storage temperature°C-50 to +85Overvoltage category As per IEC 61010-1Cat. IVMeasuring category As per IEC 61010-2-030Cat. IIIPollution degree3AltitudeUp to 2000 m without derating (1)Degree of protection deviceIP20IK07Radio-frequency communicationISM band 2.4 GHzGHz2.4 to 2.4835ChannelsAs per IEEE 802.15.411 to 26Isotropic Radiated Power Equivalent (EIRP) dBm0Maximum transmission time ms< 5Channel occupancyFor 1 devicesmessages sent every 5Characteristics of measuring functionsFunctionSymbolPerformance category as per IEC 61557-12 (PMD-II/DD/K70/1)Measuring range (250 A / 630 A)ClassMeasuring rangeTotal active power (Active power per phase)P14 to 250 A / 10 to 630 A88 W (29 W) to 416 kW /222 W (74 W) to 1048 kWTotal reactive power(Reactive power per phase)QA288 VAR to 416 kVAR /221 VAR to 1048 kVARTotal apparent power(Apparent power per phase)SA288 VA to 416 kVA / 221 VA to 1048 kVAActive Energy: per phase, total, partial, delivered and receivedEa10 to 281.109 kWhReactive energy:per phase, total, partial, delivered and receivedErA20 to 281.109 kVARhFrequencyf145 to 55 Hz45 to 65 HzPhase currentI18 to 250 A / 20 to 630 A160 mA to 500 A / 400 mA to 1260 AVoltages (Line to Line)U0.5Un ± 20 %320 to 480 V ACPower factorPFA1From 0.5 inductive to 0.8 capacitive-1 to 1(1) Above 2000 m, please consult us.DimensionsGV5P with LV434020 / Panel mountingGV6P with LV434022 / Panel mountingWith additional PowerTagDB438491.epstripResetTr ip-ON-OFF52.580.5120.520110562.540125YXXYY17.5353 Ø6DB438492.epsRes etTrip- ON-OFFPowerTag320127.520010065192.522.545140706 Ø6XXYYDB438493.epsC1C2XTypeC1C2GV5P8186GV6P95.5110References:page B6/61Ref.";i:554;s:1283:"B6/157Motor circuit breakersPowerLogic™ Energy measurement solutionsPowerTag™ LinkCharacteristicsEnergy measurement – PowerLogicPowerTag LinkMain characteristicsSupply voltageUsV110/230 V AC ± 20 %, 2 AFrequencyHz50/60Power consumptionVA5Communication interfaceEthernet 10/100 BASE-T, Cable length y 100 m Cat.6 STPWireless communicationUp to 20 or 100 PowerTag Energy sensorsIntegrated connection typeDHCP client (Ethernet port)Local indicationProduct stateGreen, orange and red LEDEthernet state (LAN ST)Green, orange and red LEDOvervoltage categoryIIIRadio-frequency communicationISM band 2.4 GHzGHz2.4 to 2.4835Degree of protection (IEC 60529)Device onlyIP20Device in modular enclosureIP40Insulation class IIFire resistance650 °C, 30 sEnvironmentIn compliance with the RoHS directiveREACH RegulationsAdditional characteristicsOperating temperature°C-25 to +60Storage temperature°C-40 to +85Pollution degree2Tropicalization (IEC 60068-2-30)Treatment 2 (relative humidity of 93 % at 40°C) Operating altitudem0 to 2000Electromagnetic compatibilityReference standardsImmunityEN 55035EmissionsEN 55032Electromagnetic compatibility and Radio spectrum Matters (ERM)EN 300328EN 301489-1EN 301489-17DimensionsPowerTag LinkDB438494.eps855444625.5645References:page B6/62Ref.";i:555;s:29:"B6/158Motor circuit breakers";i:556;s:108:"B6/159Motor circuit breakersTeSys Modular circuit breakers0.5 to 20 A (for equipment and control circuits)";i:557;s:2177:"B6/160Motor circuit breakersEnvironmentCircuit breaker typeGB2CBGB2CDGB2DBGB2CSConforming to standardsIEC 60947-1, 947-2, EN 60947-1, 60947-2Product certificationscCSAus (1)cCSAus (1)––Degree of protectionConforming to IEC 60529IP 20Shock resistanceConforming to IEC 60068-2-2722 gn for 20 msVibration resistanceConforming to IEC 60068-2-65 gn (5...110 Hz)Ambient air temperature around the deviceStorage°C-40...+80Operation°C-20...+60Flame resistanceConforming to IEC 60695-2-11°C960Maximum operating altitudem3000Operating positionIn relation to normal vertical mounting plane DF534265.epsGB2CB,CD, CSGB2DBCablingMinimum c.s.a.Maximum c.s.a.Solid cablemm21 x 0.751 x 6 or 2 x 4Flexible cable with cable endmm21 x 0.751 x 4 or 2 x 2.5Tightening torqueN.m1.2Technical characteristicsUtilisation categoryConforming to IEC 60947-2AAAARated operational voltage (Ue)Conforming to IEC 60947-2V250 (2)250415250 (2)Conforming to CSA C22-2 Nr 14 and UL 1077V277277––Rated operational frequencyConforming to IEC 60947-2Hz50/6050/6050/6050/60Rated impulse withstand voltage (U imp)Conforming to IEC 60947-2kV4444Total power dissipated per poleW2221.9Mechanical and electrical durabilityC.O.: Closing - OpeningC.O.8000800080008000Operational current correction coefficient (a or c)According to the permissible ambient temperature°C-20-100+10+20+30+40+50+60Correction coefficient1.21.151.11.0510.950.900.850.80Tripping thresholdOf the magnetic trips12...16 In12...16 In12...16 In5...7 In(1) Except for GB2CB16, GB2CB22, GB2CD16, GB2CD22.(2) Ue = 415 V when a GB2 circuit breaker is fitted on every live conductor.Tripping curvesAverage operating time at 20 °C without prior current flow (cold state)GB2CB, GB2CD, GB2 DBGB2CS 1,051,5234568101522010100501522010152201060120500200100 x In1,051,5234568101522010100501522010152201060120500200100 x InMillisecondsSecondsMinutesDF534266.eps1,051,5234568101522010100501522010152201060120500200100 x InMillisecondsSecondsMinutesDF534267.eps TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticCharacteristicsReferences:pages B6/65 and B6/66Dimensions:page B6/163Schemes:page B6/163Ref.";i:558;s:1865:"B6/161Motor circuit breakersCircuit breaker typeGB2CB05CB06CB07CB08CB09CB10CB12CB14CB16CB20CB21CB22RatingA0.5123456810121620Breaking capacity conforming to IEC 60947-2 a 50/60 Hz110 VIcukA5050151063332222Ics % (1)1005050505075757575757575230/240 VIcukA5050153321.51.51.51.51.51.5Ics % (1)252525505075757575757575Associated fuses, if required if Isc > breaking capacity Icu conforming to IEC 60947-2110 VaMAgg20252540405050636363gGAgg25323250506363808080230/240 VaMAgg16202032324040505050gGAgg25323240405050636363Circuit breaker typeGB2CD05CD06CD07CD08CD09CD10CD12CD14CD16CD20CD21CD22RatingA0.5123456810121620Breaking capacity conforming to IEC 60947-2 a 50/60 Hz110 VIcukA5050151063332222Ics % (1)1005050505075757575757575230/240 VIcukA5050153321.51.51.51.51.51.5Ics % (1)252525505075757575757575Associated fuses, if required if lsc > breaking capacity Icu conforming to IEC 60947-2110 VaMAgg20252540405050636363gGAgg25323250506363808080230/240 VaMAgg16202032324040505050gGAgg25323240405050636363Circuit breaker typeGB2DB05DB06DB07DB08DB09DB10DB12DB14DB16DB20DB21DB22RatingA0.5123456810121620Breaking capacity conforming to IEC 60947-2 a 50/60 Hz110 VlcukA5050151063332222Ics % (1)1005050505075757575757575230/240 VlcukA5050153321.51.51.51.51.51.5Ics % (1)252525505075757575757575400/415 VlcukA5050153321.51.51.51.51.51.5Ics % (1)252525505075757575757575Associated fuses, if required if lsc > breaking capacity Icu conforming to IEC 60947-2110 VaMAgg20252540405050636363gGAgg25323250506363808080230/240 VaMAgg16202032324040505050gGAgg25323240405050636363400/415 VaMAgg16202032324040505050gGAgg25323240405050636363(1) As % of Icu.g Fuse not required. Breaking capacity Icu > lsc. TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticCharacteristicsReferences:pages B6/65 and B6/66Dimensions:page B6/163Schemes:page B6/163Ref.";i:559;s:1760:"B6/162Motor circuit breakersCircuit breaker typeGB2pp05pp06pp07pp08pp09pp10pp12pp14 pp16pp20pp21pp22Breaking capacity (lcu) conforming to IEC 60947-2 c24 VkA1.51.51.51.51.51.51.51.51.51.51.51.548 VkA11111111––––Operational current conforming to IEC 60947-5-1 cDC-1224 VA0.512345681012162048 VA0.5123456810121620DC-1324 VA0.512345681012162048 VA0.51234568––––Circuit breaker typeGB2CS05CS06RatingA0.51Breaking capacity conforming to IEC 60947-2 a 50/60 Hz110 VlcukA5050lcs % (1)100100230/240 VlcukA5050lcs % (1)2525400/415 V (2)lcukA5050lcs % (1)2525Breaking capacity (lcu) conforming to IEC 60947-2 c24 VkA1.51.548 VkA11Operational current conforming to IEC 60947-5-1 cDC-1224 VA0.5148 VA0.51DC-1324 VA0.5148 VA0.51Maximum permissible line length for star-delta starting (length of cable containing 2 or more conductors)With contactors LCpD09 ...D18Operational voltageV4811023048110230C.s.a.0.60 mm2m(3)313656852300.75 mm2m(3)3946081102901 mm2m(3)52610101453801.5 mm2m(3)78910152205702.5 mm2m(3)1301520263609504 mm2m(3)2002400415801500With contactors LCpD25...D32Operational voltageV4811023048110230C.s.a.0.60 mm2m(3)(3)230(3)562300.75 mm2m(3)(3)290(3)702901 mm2m(3)(3)390(3)953801.5 mm2m(3)(3)580(3)1405702.5 mm2m(3)(3)970(3)2309504 mm2m(3)(3)1500(3)3751500With contactors LCpD40...D80Operational voltageV4811023048110230C.s.a.0.60 mm2m(3)(3)46(3)131000.75 mm2m(3)(3)60(3)171301 mm2m(3)(3)80(3)221701.5 mm2m(3)(3)120(3)342502.5 mm2m(3)(3)190(3)564204 mm2m(3)(3)310(3)90680(1) As % of Icu.(2) One GB2CS circuit breaker on each live conductor.(3) Use relays. TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticCharacteristicsReferences:pages B6/65 and B6/66Dimensions:page B6/163Schemes:page B6/163Ref.";i:560;s:494:"B6/163Motor circuit breakersDimensionsGB2CBpp, GB2CDpp, GB2CSppGB2DBpp74158282757967DF534272.eps30748585788270DF534273.epsMarking: up to twelve AB1 R clip-in markers. SchemesGB2CBppGB2CDppGB2DBppGB2CSpp2/T11/L1DF534274.eps2/T11/L13/L2 (13) 4/T2 (14)DF534275.eps1/L13/L22/T14/T2DF534276.eps2/T11/L1DF534277.eps TeSys PowerModular circuit breakers for auxiliary circuits - Thermal-magneticDimensions and schemesReferences:pages B6/65 and B6/66Characteristics:pages B6/160 to B6/162Ref.";i:561;s:29:"B6/164Motor circuit breakers";i:562;s:393:"B7/1Control relaysTeSys ControlSK, K, Deca Control relaysTeSys SK, K Relays ProductPagesMini relays - 2 contacts, simultaneous actionTeSys SK, SKE B7/2Relays - 4 contacts, simultaneous actionTeSys KB7/4Auxiliary contact blocks, accessoriesTeSys KB7/6TeSys Deca RelaysRelays 5 contacts, simultaneous actionB7/8TeSys Deca AccessoriesB7/10Chapter B7 Technical Data for Designers B7/13TeSysControl";i:563;s:1423:"B7/2Control relaysProduct references Mini control relaysb Width of mini control relays 27 mm.b Mounting on 35 mm 7 rail.b Connection by connectors.Control circuit supplyAuxiliary contactsBasic reference, to be completed by adding the voltage code (1)a.c. supply2–CA2SK20pp11CA2SK11ppd.c. supply2–CA3SK20pp11CA3SK11ppMini control relay with alternating contactsThis mini control relay with alternating contacts (see function diagram page B7/17) makes it possible to automatically split the operating time between 2 circuits of a redundant system.By regularly energising the “safety circuits”, this device makes it possible to ensure that they are operating correctly.b Width of mini control relay 45 mm.b Fixing by Ø4 screws.b Connection by connectors.b Cannot be fitted with front-mounted auxiliary contact block.b Cannot be fitted with coil suppressor module.Control circuit supplyAuxiliary contactsBasic reference, to be completed by adding the voltage code (1)a.c. supply2–CA2SKE20pp(1) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Mini control relays CA2SK and CA2SKEVolts a 50/60 Hz2448110120220230240380400CodeB7E7F7G7M7P7U7Q7V7Mini control relays CA3SKVolts c1224364872CodeJDBDCDEDSD TeSys ControlSK, SKE Mini control relaysCA2SK11ppPB121522.tifCA2SKE20ppPB121523.epsCharacteristics:pages B7/14 and B7/15Dimensions:page B7/16Schemes:page B7/17";i:564;s:1025:"B7/3Control relaysProduct referencesInstantaneous auxiliary contact blocks Clip-on front mountingFor use on control relaysMaximum number of blocks per contactorCompositionReferenceCA2SK2012–LA1SK20–2LA1SK0211LA1SK11Suppressor modulesConnection without need for tools by clipping onto right-hand side of contactorFor use on control relaysTypeFor voltagesSold in lots ofUnit referenceCA2SK and CA3SKVaristor(1)a and c 24 V...48 V10LA4SKE1Ea and c 110 V...250 V10LA4SKE1UDiode(2)c 24 V...250 V10LA4SKC1U(1) Protection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(2) No overvoltage or oscillating frequency. Slight increase in drop-out time (1.1 to 1.5 times the normal time). TeSys ControlSK, SKE Mini control relays - Contact block - SuppressorCharacteristics:page B7/15Dimensions:page B7/16Schemes:page B7/17LA1SKppPB111639_R.epsLA4SKp1pPB111640_R.eps";i:565;s:2047:"B7/4Control relaysProduct referencesControl relays for a.c. control circuitb Mounting on 35 mm 7 rail or Ø4 screw fixing. b Screws in the open “ready-to-tighten” position. Control circuitConsumptionAuxiliary contactsBasic reference, to be completed by adding the voltage code (1)Screw clamp connections4.5 VA 4–CA2KN40pp31CA2KN31pp22CA2KN22ppSpring terminal connections4.5 VA 4–CA2KN403pp31CA2KN313pp22CA2KN223ppFaston connectors, 1 x 6.35 or 2 x 2.84.5 VA 4–CA2KN407pp31CA2KN317pp22CA2KN227ppSolder pins for printed circuit boards4.5 VA 4–CA2KN405pp31CA2KN315pp22CA2KN225ppControl relays for d.c. control circuitb Mounting on 35 mm 7 rail or Ø4 screw fixing.b Screws in the open “ready-to-tighten” position. Screw clamp connections3 W 4–CA3KN40pp31CA3KN31pp22CA3KN22ppSpring terminal connections3 W4–CA3KN403pp31CA3KN313pp22CA3KN223ppSolder pins for printed circuit boards3 W4–CA3KN405pp31CA3KN315pp22CA3KN225pp(1) Please check the availability of your variant in the index page B7/12. The SEARCH function of your viewer can be used. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Control relays CA2K (0.8...1.15 Uc) (0.85...1.1 Uc)Volts a 122024(2)364248110115127220/230230/380/400400/440500660/50/60 Hz230240400415690CodeJ7Z7B7C7D7E7F7FE7FC7M7P7U7Q7V7N7R7S7Y7Up to and including 240 V, coil with integral suppression device available: add 2 to the code required. Example: J72Control relays CA3K (0.8...1.15 Uc)Volts c122024(2)36486072100110125200220230240250CodeJDZDBDCDEDNDSDKDFDGDLDMDMPDMUDUDCoil with integral suppression device available: add 3 to the code required. Example: JD3.(2) When connecting an electronic sensor or timer in series with the coil of the control relay, select a 20 V coil (a code Z7, c code ZD) so as to compensate for the incurred voltage drop. TeSys ControlK Control relaysCharacteristics:pages B7/18 and B7/19Dimensions:page B7/20Schemes:page B7/21CA2KN22ppPB123768.epsCA3KNpp3ppPB123770.tifCA2KNpp5ppPB123769.tif";i:566;s:1220:"B7/5Control relaysCharacteristics:pages B7/18 and B7/19Dimensions:page B7/20Schemes:page B7/21Product referencesLow consumption control relays d.c. control circuitb Mounting on 35 mm 7 rail or Ø4 screw fixing. b Screws in the open “ready-to-tighten” position.Control circuitConsumptionAuxiliary contactsBasic reference, to be completed by adding the voltage code (1)Screw clamp connections1.8 W 4–CA4KN40pp31CA4KN31pp22CA4KN22ppSpring terminal connections1.8 W 4–CA4KN403pp31CA4KN313pp22CA4KN223ppFaston connectors, 1 x 6.35 or 2 x 2.81.8 W 4–CA4KN407pp31CA4KN317pp22CA4KN227ppSolder pins for printed circuit boards1.8 W 4–CA4KN405pp31CA4KN315pp22CA4KN225pp(1) Please check the availability of your variant in the index page B7/12. The SEARCH function of your viewer can be used. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office): Control relays CA4K (Wide range coil: 0.7...1.3 Uc)Volts c1220244872110120CodeJW3ZW3BW3EW3SW3FW3GW3Coil with integral suppression device fitted as standard, by bi-directional peak limiting diode.TeSys ControlK Control relaysCharacteristics:pages B7/18 and B7/19Dimensions:page B7/20Schemes:page B7/21CA4KN40pppPB123771.eps";i:567;s:1262:"B7/6Control relaysProduct referencesInstantaneous auxiliary contact blocksClip-on front mounting, 1 per control relayConnectionCompositionReferenceScrew clamp terminals2–LA1KN20 –2LA1KN0211LA1KN114–LA1KN40 (1)31LA1KN31 (1)22LA1KN22 (1)13LA1KN13 (1)–4LA1KN04 (1)Spring terminals2–LA1KN203–2LA1KN02311LA1KN1134–LA1KN403 (1)31LA1KN313 (1)22LA1KN223 (1)13LA1KN133 (1)–4LA1KN043 (1)Faston connectors1 x 6.35 or 2 x 2.82–LA1KN2074–LA1KN407 (1)31LA1KN317 (1)Electronic time delay contact blocksb Relay output with common point changeover contact, a or c 240 V, 2 A maximumb Control voltage 0.85...1.1 Ucb Maximum switching capacity 250 VA or 150 Wb Operating temperature -10...+ 60 °Cb Reset time: 1.5 s during the time delay period 0.5 s after the time delay period Clip-on front mounting, 1 per control relayVoltageTypeTiming rangeComposition ReferenceVsa or c 24...48 On-delay1...301LA2KT2Ea 110...240On-delay1...301LA2KT2UOther versionsElectronic timers type RE4.Please consult your Regional Sales Office.(1) Block of 4 contacts for use on CA2K and CA3K.TeSys ControlK Contact blocks - Time delaysCharacteristics:page B7/19Dimensions:page B7/20Schemes:page B7/21LA1KN22PB121750.tifLA1KNpp3PB123795.epsLA1KNpp7PB123796.epsLA2KT2EPB123797.eps";i:568;s:1595:"B7/7Control relaysSuppressor modules incorporating LED indicatorMounting and connectionTypeFor voltagesSold in lots ofUnit referenceClips onto front of relay with locating device.No tools required.Varistor (1)a and c12...24 V5LA4KE1Ba and c32...48 V5LA4KE1Ea and c50...129 V5LA4KE1FCa and c130...250 V5LA4KE1UGDiode + Zener diode (2)c12...24 V5LA4KC1Bc32...48 V5LA4KC1ERC (3)a110...250 V5LA4KA1UMounting accessoriesDescriptionApplicationSold in lots ofUnit referenceMounting plates On 2 4 rails110/120 mm fixing centres 10DX1AP25Marking accessoriesDescriptionApplicationSold in lots ofUnit referenceMarker holder Clip-on fixing on front face–100LA9D90Clip-in markers4 maximum per relayStrips of 10 identical numbers 0 to 925AB1Rp (4)Strips of 10 identical capital letters A to Z25AB1Gp (4)(1) Protection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(2) No overvoltage or oscillating frequency. Polarised component. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(3) Protection by limiting the transient voltage to 3 Uc max. and limitation of the oscillating frequency. Slight increase in drop-out time (1.2 to 2 times the normal time).(4) Complete the reference by replacing the dot with the required character. Product referencesTeSys ControlK AccessoriesDimensions:page B7/20Schemes:page B7/21LA4KC1BPB123798.epsLA9D90PB123799.epsAB1R9PB121534.epsDB439372.eps";i:569;s:117:"B7/8Control relaysSee page opposite for mounting possibilitiesaccording to control relay type and ratingDB439375.eps";i:570;s:2747:"B7/9Control relaysControl relays for connection by screw clamp terminalsTypeNumber of contactsCompositionBasic reference, to be completed by adding the control voltage code (1)Instantaneous55–CAD50pp (3)32CAD32pp (3)Control relays for connection by spring terminalsInstantaneous55–CAD503pp 32CAD323ppInstantaneous auxiliary contact blocks for connection by screw clamp terminalsFor use in normal operating environmentsNumber of contactsMaximum number per relay CompositionReferenceClip-on mountingfrontside21–11LADN11–1 on LH side11LAD8N11 (6)1–2–LADN20–1 on LH side2–LAD8N20 (6)1––2 LADN02–1 on LH side–2LAD8N02 (6)4 (4)1–22 LADN22LADN22S (7)13LADN134– LADN40–4 LADN0431LADN314 (4)1–22 LADC22Including 1 N/O and 1 N/C make before break.With dust and damp protected contacts, for use in particularly harsh industrial environmentsNumber of contactsMaximum number per relayCompositionReferenceFront mountingprotected (5)not protected212–––– LA1DX20–2––– LA1DX022–2––LA1DY20 (8)4 (4)12––2–LA1DZ402––11LA1DZ31Instantaneous auxiliary contact blocks for connection by spring terminals This type of connection is not possible for contact blocks LAD 8 and blocks with dust and damp protected contacts. For all other instantaneous auxiliary contact blocks, add the digit 3 to the end of the references selected above. Example: LADN11 becomes LADN113. (1) Please check the availability of your variant in the index page B7/12. The SEARCH function of your viewer can be used. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office).a.c. supplyVolts a24424811011522023024038040041544050/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7d.c. supply (coils with integral suppression device fitted as standard)Volts c122436486072110125220250440U from 0.7 to 1.25 UcJDBDCDEDNDSDFDGDMDUDRDLow consumption (coils with integral suppression device fitted as standard) Volts c512202448110220250CodeALJLZLBLELFLMLUL(2) LC: low consumption.(3) To order control relays with connection by lugs, add the digit 6 to the end of the selected reference. Example: CAD50pp becomes CAD506pp.(4) Blocks with 4 auxiliary contacts cannot be used on low consumption control relays.(5) Product fitted with 4 earth screen continuity terminals.(6) These contact blocks are allowed with AC coil control relay only.(7) With red front face - for safety chain indication.(8) With 2 earth screen continuity poles.Product referencesCharacteristics:pages B7/22 to B7/24Curves:page B7/25Dimensions:page B7/26Schemes:page B7/27CAD50ppPB121687.epsCAD503ppPB121688.epsLADN22PB121689.epsLA1DY20PB123800.epsTeSys ControlDeca Control relays";i:571;s:3315:"B7/10Control relaysTime delay auxiliary contact blocks for connection by screw clamp terminals (1)Number and type of contactsMaximum number per relayTime delayReferenceFront mountingTypeRange1 N/C and 1 N/O1On-delay0.3...3 s (2)LADT01...30 sLADT210...180 sLADT41...30 s (3)LADS2Off-delay0.3...3 s (2)LADR01...30 sLADR2(Sealing cover: see page B8/42)10...180 sLADR4Time delay auxiliary contact blocks for connection by spring terminals Add the digit 3 to the references selected above. Example: LADT0 becomes LADT03. Mechanical latch blocks (4)Unlatching controlMaximum number per relayBasic reference to be completed (5)Front mountingManual or electric1LAD6K10pSuppressor modulesThese modules clip onto the top of the control relay and the electrical connection is instantly made. Fitting of an input module is still possible.RC circuits (Resistor-Capacitor)b Effective protection for circuits highly sensitive to “high frequency” interference. b Voltage limited to 3 Uc maximum and oscillating frequency limited to 400 Hz maximum.b Slight time delay on drop-out (1.2 to 2 times the normal time).For mounting onOperational voltageReferenceCAD aa 24...48 VLAD4RCEa 50...127 VLAD4RCGa 110...250 VLAD4RCUVaristors (peak limiting) b Protection provided by limiting the transient voltage value to 2Uc maximum. b Maximum reduction of transient voltage peaks.b Slight time delay on drop-out (1.1 to 1.5 times the normal time).CAD aa 24...48 V LAD4VEa 50...127 VLAD4VGa 110...250 VLAD4VUFreewheel diodeb No overvoltage or oscillating frequency. b Increase in drop-out time (6 to 10 times the normal time).b Polarised component.CAD cc 5...600 VLAD4DDL (6)Bidirectional peak limiting diode (7)b Protection provided by limiting the transient overvoltage value to 2Uc maximum. b Maximum reduction of transient voltage peaks.CAD a a 24 V LAD4TBa 72 VLAD4TSCAD cc 24 VLAD4TBDLc 72 VLAD4TSDLc 125 VLAD4TGDLc 250 VLAD4TUDL(1) These contact blocks cannot be used on low consumption control relays.(2) With extended scale from 0.1 to 0.6 s.(3) With switching time of 40 ms ±15 ms between opening of the N/C contact and closing of the N/O contact.(4) Power should not be simultaneously applied or maintained to the mechanical latching block of the CADN. The duration of the control signal to the mechanical latching block and the CADN should be u 100 ms.(5) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts a and c2432/3642/4860/72100110/127220/240256/277380/415CodeBCEENKFMUQ(6) Not compatible with low consumption control relays.(7) CADpp c and low consumption control relays are fitted with a built-in bi-directional peak limiting diode suppressor as standard. On control relays produced after 15th July 2004, this diode is removable. It can therefore be replaced by the user (see references LAD4Tppp above). It can also be replaced by a freewheel diode LAD4DDL. Product referencesCharacteristics:pages B7/22 to B7/24Illustrations:page B7/8Curves:page B7/25Dimensions:page B7/26Schemes:page B7/27LAD6K10MDB439373.epsLAD4RCUDF510384.epsDF503726.epsLAD4DDLTeSys ControlDeca AccessoriesPB123803.epsPB123772.epsPB121537.epsPB121538.epsLADT2DB439374.eps";i:572;s:2023:"B7/11Control relaysAccessories (to be ordered separately)DescriptionFor mounting onSold in lots ofUnit referenceFor markingSheet of 64 blank legends, self-adhesive, 8 x 33 mmCAD, LAD (4 contacts)10LAD21Sheet of 112 blank legends, self-adhesive, 8 x 12 mmLAD (2 contacts),LADTLAD22“SIS Label” labelling software for legends LAD21 and LAD22, supplied on CD-RomMulti-language version:English, French, German, Italian, Spanish1XBY2ULegend holder, snap-in, 8 x 18 mmLC1D09...38LC1DT20...40LADN (4 contacts)LADT, LADR100LAD90For protectionSealing coverLADT, LADR1LA9D901Safety cover preventing access to the moving contact carrierCADLAD9ET11Red cover (for safety chain indication)CAD1LAD9ET1SLAD9ET1SPB123804.epsSpare parts: coilsSpecificationsb Average consumption at 20 °C: - inrush (cos φ = 0.75) 50/60 Hz: 70 VA at 50 Hz, - sealed (cos φ = 0.3) 50/60 Hz: 8 VA at 60 Hz, b Operating range (θ < 60 °C): 0.85 to 1.1 UcControl circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitReference (1)VΩH50/60 Hz121.330.05LXD1J7 245.370.22LXD1B73210.10.39LXD1C742170.67LXD1D74821.70.87LXD1E7110124.14.6LXD1F7115129.85LXD1FE7120150.65.4LXD1G7 (2)200410.715LXD1L7208430.416LXD1LE7 (2)220515.418LXD1M7 (3)230538.620LXD1P7240562.322LXD1U7277800.729LXD1W7 (2)380155155LXD1Q7 (4)400163360LXD1V7415169465LXD1N7440199373LXD1R7480239887LXD1T7 (2)500249995LXD1S75753294125LXD1SC76003810136LXD1X76604656165LXD1YC76905020180LXD1Y7(1) The last 2 digits in the reference represent the voltage code.(2) Coil for use only on 60 Hz.(3) Suitable for use on 230 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see pages B8/82 and B8/84).(4) Suitable for use on 400 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see pages B8/82 and B8/84).Product referencesLA9D901810535.epsTeSys ControlDeca Accessories, spare coilsPB121532.eps";i:573;s:2419:"B7/12Control relaysTeSys ControlSK, K, Deca Control relaysCA2KN223B7CA2KN223F7CA2KN223P7CA2KN223P72CA2KN22B7CA2KN22B72CA2KN22D7CA2KN22E7CA2KN22F7CA2KN22F72CA2KN22FC7CA2KN22FE7CA2KN22G7CA2KN22G72CA2KN22L7CA2KN22M7CA2KN22M72CA2KN22N7CA2KN22P7CA2KN22P72CA2KN22Q7CA2KN22R7CA2KN22T7CA2KN22U7CA2KN22V7CA2KN313P72CA2KN315F7CA2KN31B7CA2KN31D7CA2KN31E7CA2KN31F7CA2KN31G7CA2KN31K7CA2KN31M7CA2KN31M72CA2KN31P7CA2KN31P72CA2KN31U7CA2KN31V7CA2KN40B7CA2KN40B72CA2KN40E7CA2KN40F7CA2KN40FC72CA2KN40G7CA2KN40M7CA2KN40N7CA2KN40P7CA2KN40T7CA2KN40U7CA2SK11B7CA2SK11E7CA2SK11F7CA2SK11G7CA2SK11M7CA2SK11P7CA2SK11T7CA2SK11U7CA2SK11UE7CA2SK11V7CA2SK20B7CA2SK20D7CA2SK20E7CA2SK20F7CA2SK20G7CA2SK20M7CA2SK20P7CA2SK20Q7CA2SK20T7CA2SK20U7CA2SK20UE7CA2SKE20B7CA2SKE20G7CA2SKE20M7CA2SKE20P7CA2SKE20Q7CA2SKE20T7CA2SKE20U7CA3KN223BDCA3KN223BD3CA3KN22BDCA3KN22BD3CA3KN22EDCA3KN22ED3CA3KN22FDCA3KN22FD3CA3KN22GDCA3KN22GD3CA3KN22JDCA3KN22MDCA3KN22MD3CA3KN22NDCA3KN22SDCA3KN313BDCA3KN313BD3CA3KN315BDCA3KN317SDCA3KN31BDCA3KN31BD3CA3KN31EDCA3KN31ED3CA3KN31FDCA3KN31FD3CA3KN31GDCA3KN31GD3CA3KN31JDCA3KN31MDCA3KN31MD3CA3KN31ND3CA3KN31UDCA3KN403BDCA3KN403BD3CA3KN40BDCA3KN40BD3CA3KN40EDCA3KN40ED3CA3KN40EPDCA3KN40FDCA3KN40FD3CA3KN40GDCA3KN40GD3CA3KN40MDCA3KN40MD3CA3SK11BDCA3SK20BDCA3SK20JDCA4KN223BW3CA4KN225BW3CA4KN22BW3CA4KN22EW3CA4KN22FW3CA4KN22SW3CA4KN313BW3CA4KN31BW3CA4KN31FW3CA4KN31SW3CA4KN403BW3CA4KN40BW3CA4KN40EW3CA4KN40FW3CAD323B7CAD323BDCAD323BLCAD323E7CAD323F7CAD323FE7CAD323G7CAD323JDCAD323P7CAD326B7CAD326BDCAD326BLCAD326CDCAD326E7CAD326F7CAD326FDCAD326G7CAD326GDCAD326K7CAD326KDCAD326L7CAD326M7CAD326MDCAD326P7CAD326Q7CAD326R7CAD326SDCAD326SLCAD326U7CAD326V7CAD326VDCAD32B7CAD32BDCAD32BLCAD32CDCAD32D7CAD32E7CAD32EDCAD32ELCAD32F7CAD32FC7CAD32FDCAD32FE7CAD32FLCAD32G7CAD32GDCAD32JDCAD32JLCAD32L7CAD32M7CAD32MDCAD32N7CAD32P7CAD32Q7CAD32R7CAD32SDCAD32T7CAD32U7CAD32UDCAD32V7CAD32X7CAD32XDCAD32Y7CAD503BDCAD503BLCAD503FDCAD503FE7CAD503P7CAD506B7CAD506BDCAD506EDCAD506F7CAD506FDCAD506KDCAD506M7CAD506MDCAD506P7CAD506R7CAD50B7CAD50BDCAD50BLCAD50D7CAD50E7CAD50EDCAD50F7CAD50FDCAD50FE7CAD50G7CAD50GDCAD50K7CAD50L7CAD50M7CAD50MDCAD50N7CAD50P7CAD50Q7CAD50R7CAD50SDCAD50U7CAD50UDCAD50Y7Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:574;s:756:"B7/13Control relaysTechnical Data for DesignersTeSys SK, K, Deca Control relaysContentsTeSys SK Mini control relays: > characteristics ...................B7/14 and B7/15 > dimensions ..........................................B7/16 > schemes ..............................................B7/17TeSys K Control relays: > characteristics ...................B7/18 and B7/19 > dimensions ..........................................B7/20 > schemes ..............................................B7/21Deca Control relays: > characteristics ......................B7/22 to B7/24 > curves .................................................B7/25 > dimensions ..........................................B7/26 > schemes ..............................................B7/27";i:575;s:1782:"B7/14Control relaysEnvironmentRated insulation voltage (Ui)Conforming to IEC 60947, CSA 22-2 n° 14, UL 508V690Conforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5ApprovalscULus, EAC, UKCA, CB certificationDegree of protectionConforming to IEC 60529Protection against direct finger contact IP2XAmbient air temperature around the deviceStorage°C-50...+70Operation°C-20...+50Maximum operating altitudeWithout deratingm2000Operating positionVertical axis Horizontal axis DF511028.epsDF511029.epsWithout deratingWithout deratingConnection by connectorsMin.Max.Solid cablemm21 x 1.5 or 2 x 1.51 x 6 or 2 x 4Flexible cable without cable endmm21 x 0.5 or 2 x 0.351 x 6 or 2 x 2.5Flexible cable with cable endmm21 x 0.35 or 2 x 0.351 x 6 or 2 x 1.5Tightening torquePozidriv n° 1 headN.m0.8Terminal referencingConforming to standards EN 50005 and EN 50011Up to 4 contactsControl circuit characteristicsControl relayCA2SKCA2SKECA3SKRated control circuit voltage (Uc)Va 24...400c 12...72Control voltage limits (y 50 °C)For operation0.85...1.1 Uc0.85...1.1 UcFor drop-outy 0.20 Ucy 0.10 UcAverage consumption at 20 °C and at UcInrush16 VA 23 VA2.2 WSealed4.2 VA 4.9 VA 2.2 W Heat dissipationW1.41.52.2Operating time at 20 °C and at UcBetween coil energisation andopening of the N/C contactsms8...1610...18closing of the N/O contactsms7...148...12Between coil de-energisation andopening of the N/O contactsms6...84...6closing of the N/C contactsms8...106...8Maximum operating rateIn operating cycles per hour12001200Mechanical durability at Ucin millions of operating cycles50/60 Hz coil10–Standard c coil–10 CharacteristicsTeSys ControlSK, SKE Mini control relaysReferences:pages B7/2 and B7/3Dimensions:page B7/16Schemes:page B7/17Ref.";i:576;s:1285:"B7/15Control relaysCharacteristicsAuxiliary contact characteristics of mini control relays and instantaneous contact blocksRated operational voltage (Ue)VUp to 690Rated insulation voltage (Ui)Conforming to IEC 96047V690Conventional rated thermal current (Ith)For ambient temperature y 55 °CA10Frequency of the operational currentHzUp to 400Short-circuit protectionConforming to IEC 60947, gl fuseA10Operational power of contacts conforming to IEC 60947a.c. supply, category AC-15d.c. supply, category DC-13Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4). Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V2448110/ 127220/ 230380/ 400440V24481102204401 million operating cyclesVA4896240440800880W120806052513 million operating cyclesVA173486158288317W553830282610 million operating cyclesVA7143666120132W1511987Occasional making capacityVA100020505000100001400013 000W720600400300230 TeSys Control SK, SKE Mini control relaysReferences:page B7/3Dimensions:page B7/16Schemes:page B7/17Ref.";i:577;s:563:"B7/16Control relaysDimensionsMini control relaysCA2SK and CA3SK3,5LA4 SK55,55627DF533668.eps562755,584,553,5LA1 SK (1)DF533669.eps(1) Only on CA2SK20.MountingMini control relaysCA2SK and CA3SKOn mounting rail NSYDR200BD or NSYDR200 (7 35 mm)5655,527DF533670.epsDimensionsCA2SKE4684558DF533671.epsMountingCA2SKEOn panelOn mounting rail NSYDR200BD or NSYDR200 (7 35 mm)34-3548-50DF533672.eps456858DF533673.epsDimensions and mountingTeSys Control SK, SKE Mini control relaysReferences:pages B7/2 and B7/3Characteristics:pages B7/14 and B7/15Schemes:page B7/17Ref.";i:578;s:562:"B7/17Control relaysSchemesCA2SK20, CA3SK20CA2SK11, CA3SK112 N/O1 N/O + 1 N/CA113/NO14A223/NO24DF533674.epsA113/NO14A221/NO22DF533675.epsCA2SKECA2SKE2 N/OFunction diagramA113/NO14A223/NO24DF533676.epsA2A114132423De-energisedCloseOpenCloseOpenEnergisedDF533677.epsInstantaneous auxiliary contacts 2 N/O2 N/C1 N/O + 1 N/CLA1SK20LA1SK02LA1SK1133/NO344443/NODF533678.eps31/NC324241/NCDF533679.eps33/NO344241/NCDF533680.eps SchemesTeSys Control SK, SKE Mini control relaysReferences:pages B7/2 and B7/3Characteristics:pages B7/14 and B7/15Dimensions:page B7/16Ref.";i:579;s:2614:"B7/18Control relaysCharacteristicsEnvironmentConforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSA, CCC, EAC, UKCA, CB certification Operating positions Vertical axisDF533629.epsHorizontal axisDF511026.epsDF533630.eps Without deratingWithout deratingPossible positions for CA2K only, with derating, please consult your Regional Sales Office.ConnectionMin.Max.Max. to IEC 60947Screw clamp connectionsSolid cablemm21 x 1.52 x 41 x 4 + 1 x 2.5Flexible cable without cable endmm21 x 0.752 x 42 x 2.5Flexible cable with cable endmm21 x 0.341 x 1.5 + 1 x 2.51 x 1.5 + 1 x 2.5Spring terminalsSolid cablemm21 x 0.751 x 1.52 x 1.5Flexible cable without cable endmm21 x 0.751 x 1.52 x 1.5Faston connectorsClipmm2 x 2.8 or 1 x 6.35Solder pins for printed circuit boardWith locating device between power and control circuits4 mm x 35 micronsTightening torquePhilips head n° 2 and Ø6N.m0.8Terminal referencingConforming to standards EN 50005 and EN 50011Up to 8 contactsDegree of protectionConforming to IEC 60529Protection against direct finger contact IP2x (devices with screw clamp terminals or pins for printed circuit board)Ambient air temperaturearound the deviceStorage°C-50...+80Operation°C-25...+50Maximum operating altitudeWithout deratingm2000Vibration resistance Control relay open2 gn5...300 Hz Conforming to IEC/EN 60068-2-27Control relay closed4 gnFlame resistanceConforming to IEC 60695-2-11850 °CShock resistance(1/2 sine wave, 11 ms)Conforming to IEC/EN 60068-2-27Control relay open10 gnControl relay closed15 gnControl circuit characteristicsControl relay typeCA2K CA3K CA4KRated control circuit voltage (Uc)Va 12...690c 12...250c 12...120Control voltage limits (y 50 °C) single voltage coilFor operation0.8...1.15 Uc0.8...1.15 Uc0.7...1.3 UcFor drop-outy 0.2 Ucy 0.1 Ucy 0.1 UcMechanical durability at Uc In millions of operating cycles50/60 Hz coil10––Standard c coil–20–Wide range, low consumption c coil––30Maximum operating rateIn operating cycles per hour10 00010 0006000Average consumption at 20 °C and at UcInrush30 VA 3 W 1.8 W Sealed4.5 VA 3 W 1.8 W Heat dissipationW1.331.8Operating time at 20 °C and at UcBetween coil energisation andopening of the N/C contactsms5...1525...3525...35closing of the N/O contactsms10...2030...4030...40Between coil de-energisation and opening of the N/O contactsms10...201010...20closing of the N/C contactsms15...251515...25Maximum immunity to microbreaksms222 TeSys Control K Control relaysReferences:pages B7/4 to B7/7Dimensions:page B7/20Schemes:page B7/21Ref.";i:580;s:2455:"B7/19Control relaysCharacteristicsContact characteristics of control relays and instantaneous contact blocksNumber of auxiliary contactsOn CApK4On LA1K 2 or 4 for CA2K and CA3K, 2 for CA4KRated operational voltage (Ue)Up toV 690Rated insulation voltage (Ui) Conforming to IEC 60947V 690Conforming to UL 60947-5-1, CSA C22.2 n° 60947-5-1 V 600Conventional thermal current (Ith)For ambient temperature y 50 °CA 10Frequency of the operational currentHz Up to 400Minimum switching capacityU minV 17I min mA 5Short-circuit protectionConforming to IEC 60947, gG fuseA10Rated making capacityConforming to IEC 60947I rmsA 110Short-time ratingPermissible for 1 sA80500 ms A90100 ms A110Insulation resistanceMΩ > 10Non-overlap distance CApK and LA1K: linked contacts conforming to INRS, BIA and CNA specificationsmm0.5 (see schemes page B7/21)Operational power of contacts conforming to IEC 60947a.c. supply, category AC-15d.c. supply, category DC-13Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4)Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load. V24 48110/127220/230380/400440600/690V24481102204406001 million operating cyclesVA48962404408008801200W12080605251503 million operating cyclesVA173486158288317500W55383028262510 million operating cyclesVA7143666120132200W15119876Occasional making capacityVA1000205050001000014000130009000W7206004003002302001 Breaking limit of contacts valid for: b maximum of 50 operating cycles at 10 s intervals (power broken = making current x cos φ 0.7).2 Electrical durability of contacts for: b 1 million operating cycles (2a)b 3 million operating cycles (2b)b 10 million operating cycles (2c).3 Breaking limit of contacts valid for:b maximum of 20 operating cycles at 10 s intervals with current passing for 0.5 s per operating cycle.4 Thermal limit10 000500030002000100080060050040030020010080602448110220440690 V1203805004016 0008000600040002c2b412aPower broken in VADF523305.eps10007005003002001008060504030201086122448110220440600 V25020014010050202c2a342bPower broken in WTime constant in msDF510561.eps TeSys Control K Control relays & contact blocksReferences:page B7/6Dimensions:page B7/20Schemes:page B7/21Ref.";i:581;s:631:"B7/20Control relaysDimensions and mountingControl relaysCA2K, CA3K, CA4K On panelOn printed circuit board5735LA1 K5850==3545==DF533637.eps 4951.545588.65===A1A21.9DB425840.epsOn mounting rail NSYDR200BD or NSYDR200 (7 35 mm)575845DF533639.epsDX1AP25 On asymmetrical rail with clip-on mounting plates11045120575727DZ5 ME5DF533641.epsElectronic time delay contact blocksLA2KTOn control relay383827DF533642.eps57LA2 KT5838DF533644.epsSuppressor modulesLA4KOn control relay62622DB439585.eps572258LA4 KDF533645.epsTeSys Control K Control relaysReferences:pages B7/4 to B7/7Characteristics:pages B7/18 and B7/19Schemes:page B7/21Ref.";i:582;s:1106:"B7/21Control relaysSchemesControl relaysWith integral suppression deviceCA2K, CA3K, CA4KCA3KCA4K4 N/O3 N/O + 1 N/C2 N/O + 2 N/C+A1–A2DF533649.eps_+ A1A2DD425737.epsA1A214243413/NO23/NO33/NO43/NO44DF533646.epsA1A213/NO1421/NC2233/NO3443/NO44DD425735.epsA1A213/NO1421/NC2231/NC3243/NO44DD425736.epsInstantaneous auxiliary contact blocks LA1KFor CA2K, CA3K, CA4KFor CA2K, CA3K2 N/O2 N/C1 N/O + 1 N/C4 N/O3 N/O + 1 N/C2 N/O + 2 N/CLA1KN20, LA1 KN207LA1KN02, LA1 KN027LA1KN11, LA1 KN117LA1KN40, LA1 KN407LA1KN31, LA1 KN317LA1KN2253/NO5463/NO64DF533651.eps61/NC6251/NC52DF533652.eps61/NC6253/NO54DD425738.eps54647453/NO63/NO73/NO83/NO84DF533654.eps627453/NO5461/NC73/NO83/NO84DD425739.eps53/NO5461/NC6271/NC7283/NO84DD425740.eps1 N/O + 3 N/C4 N/CLA1KN13LA1KN045462728253/NO61/NC71/NC81/NCDD425741.eps51/NC5261/NC6271/NC7281/NC82DF533658.epsElectronic time delay contact blocks LA2KTSuppressor modulesFor CA2K, CA3K, CA4KLA4KCLA4KE1 C/O+_DF533660.epsDF533661.epsLA2KT2A1A2181516DF533659.epsTeSys ControlK Control relaysReferences:pages B7/4 to B7/7Characteristics:pages B7/18 and B7/19Dimensions:page B7/20Ref.";i:583;s:2099:"B7/22Control relaysTeSys Control Deca Control relaysEnvironmentControl relay typeCAD aCAD cCAD clow consumptionRated insulation voltage (Ui)Conforming to IEC 60947-5-1 Overvoltage category III and degree of pollution 3V690690690Conforming to UL, CSAV600600600 Rated impulse withstand voltage (Uimp)Conforming to IEC 60947kV666Separation of electrical circuitsConforming to IEC 60536 Reinforced insulation up to 400 VConforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSA, CCC, EAC, UKCA, CB certification, EU-RO-MR by DNV-GL Degree of protectionConforming to IEC 60529Front face protected against direct finger contact IP 2XProtection against direct finger contact IP 2XAmbient air temperature around the deviceStorage°C-60...+80Operation (1)°C-40...+60Allowed (1)°C+60...+70 at Uc to 1,●● x UcMaximum operating altitudeWithout deratingm300030003000 Operating positionsWithout derating in the following positions30° 30° DF510764.epsDF510765.eps90°90°180°DF510766.eps180°Positions that are not allowedDF537814.epsDF537815.epsShock resistance (2) half sine wave for 11msControl relay open10 gn10 gn10 gnControl relay closed15 gn15 gn15 gn Vibration resistance (2) 5...300 HzControl relay open2 gn2 gn2 gnControl relay closed4 gn4 gn4 gn Screw clamp connectionsFlexible conductor without cable end1 conductormm21...41...41...42 conductorsmm21...41...41...4Flexible conductor with cable end1 conductormm21...41...41...42 conductorsmm21...2.51...2.51...2.5Solid conductor without cable end1 conductormm21...41...41...42 conductorsmm21...41...41...4Tightening torqueN.m1.71.71.7 Spring terminal connections1 or 2 flexible or rigid conductors without cable endmm21...2.51...2.51...2.5(1) As per IEC60947-1, operating time and drop out voltage given and tested for -5...+40 °C.(2) In the least favourable direction, without change of contact state, with coil supplied at Uc. CharacteristicsReferences:pages B7/9 to B7/11Curves:page B7/25Dimensions:page B7/26Schemes:page B7/27Ref.";i:584;s:1320:"B7/23Control relaysTeSys Control Deca Control relaysControl circuit characteristicsControl relay typeCAD aCAD cCAD low consumptionRated control circuit voltage (Uc)V12...69012...440c 5...72Control voltage limitsOperationWith coil 50/60 Hz0.8...1.1 Uc at 50 Hz––0.85...1.1 Uc at 60 Hz––With standard coil, wide range–0.7...1.25 Uc 0.7...1.25 Uc Drop-out0.3...0.6 Uc0.1...0.25 Uc0.1...0.25 Uc Average consumption at 20 °C and at Uca 50/60 Hz (at 50 Hz)VAInrush: 70––sealed: 8–– With standard coilW–Inrush or sealed: 5.4Inrush or sealed: 2.4 Operating time(at rated control circuit voltage and at 20 °C)Between coil energisation and- opening of the N/C contactsms4...1955 ± 15 %67 ± 15 %- closing of the N/O contactsms12...2263 ± 15 %77 ± 15 % Between coil de-energisation and- opening of the N/O contactsms4...1220 ± 20 %27 ± 20 %- closing of the N/C contactsms6...1725 ± 20 %35 ± 20 % Short supply failureMaximum duration without affecting hold-in of the devicems222Maximum operating rateIn operating cycles per second333Mechanical durabilityIn millions of operating cyclesWith coil 50/60 Hz (at 50 Hz)30––With standard coil cwide range–3030Time constant L/Rms–2840 CharacteristicsReferences:pages B7/9 to B7/11Curves:page B7/25Dimensions:page B7/26Schemes:page B7/27Ref.";i:585;s:1160:"B7/24Control relaysCharacteristics of instantaneous contacts incorporated in the control relayNumber of contacts5 Rated operational voltage (Ue)Up toV690Rated insulation voltage (Ui)Conforming to IEC 60947-5-1V690Conforming to UL, CSAV600 Conventional thermal current (Ith)For ambient temperature ≤ 60 °CA10Frequency of the operational currentHz25...400Minimum switching capacityU minV17I minmA5 Short-circuit protectionConforming to IEC 60947-5-1gG fuse: 10 ARated making capacityConforming to IEC 60947-5-1I rmsa 140, c 250Short-time ratingPermissible for1 s A100500 ms A120100 ms A140 Insulation resistanceMΩ> 10 Non-overlap timeGuaranteed between N/C and N/O contactsms1.5 (on energisation and on de-energisation)Tightening torquePhilips head n° 2 and Ø6N.m1.7 Non-overlap distance Linked contacts in association with auxiliary contacts LADNMechanically linked contactsConforming to IEC 60947-5-1The 3 N/O contacts and the 2 N/C contacts of CAD N32 are linked mechanically by one mobile contact carrier.CharacteristicsReferences:pages B7/9 to B7/11Curves:page B7/25Dimensions:page B7/26Schemes:page B7/27TeSys Control Deca Control relaysRef.";i:586;s:1229:"B7/25Control relaysRated operational power of contacts (conforming to IEC 60947-5-1)a.c. supply, categories AC-14 and AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet:making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4). V24481152304004406001 million operating cyclesVA60120280560960105014403 million operating cyclesVA16328016028030042010 million operating cyclesVA4820407080100 d.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the power.Operating cyclesV24481252504401 millionW96767676443 millionW48383832–10 millionW141212–– Curves0,10,20,30,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,77123546810Millions of operating cyclesCurrent broken in ADF510762.eps0,10,20,30,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,77123546810440 V48 V250 V125 V24 VMillions of operating cyclesCurrent broken in ADF510763.epsReferences:pages B7/9 to B7/11Characteristics:pages B7/22 to B7/24Dimensions:page B7/26Schemes:page B7/27TeSys Control Deca Control relaysRef.";i:587;s:1151:"B7/26Control relaysDimensionsCAD aCAD c or LC (low consumption)4512,5(LAD8)bcc1c2c3DF511080.epsbcc1c2c345DF511081.epsCAD3250323503CAD3250323503b7799b7799cwithout cover or add-on blocks8484cwithout cover or add-on blocks9393with cover, without add-on blocks8686with cover, without add-on blocks9595c1with LADN or C (2 or 4 contacts)117117c1with LADN or C (2 or 4 contacts)126126c2with LAD6K10129129c2with LAD6K10138138c3with LADT, R, S 137137c3with LADT, R, S 146146with LADT, R, S and sealing cover141141with LADT, R, S and sealing cover150150Operating cyclesV24481252504401 millionW120907568613 millionW705038332810 millionW2518141210MountingCADPanel mountedMounted on rail NSYDR200BD or NSYDR20060/70==35==(1)cDF511082.eps78==45c810711.epsCAD aCAD c or LC CAD aCAD c or LC cwith cover8695c(NSYDR200BD) (2)8897c(NSYDR200BD) (2)96105(1) 2 elongated holes 4.5 x 9.(2) With cover.Mounted on plate AM1Pc3560/70AF1 EA4DF523319.epsCAD aCAD c or LC cwith cover8695 Dimensions and mountingReferences:pages B7/9 to B7/11Illustration:page B7/8Characteristics:pages B7/22 to B7/24Curves:page B7/25Schemes:page B7/27TeSys Control Deca Control relaysRef.";i:588;s:1805:"B7/27Control relaysInstantaneous auxiliary contacts5 N/O3 N/O + 2 N/CCAD50CAD32A1A203/NO0413/NO1423/NO2433/NO3443/NO44A1A203/NO0413/NO1431/NC3221/NC2243/NO44DD425742.epsInstantaneous auxiliary contact blocks1 N/O + 1 N/C2 N/O2 N/CLADN11LAD8N11 (1)LADN20LAD8N20 (1)LAD8N02LADN0253/NO5461/NC62DD425743.eps153/NO154161/NC162(184)(183)(172)(171)DD425744.eps 53/NO5463/NO64DD425745.eps153/NO154163/NO164(184)(183)(174)(173)DD425746.eps261/NC262(282)(281)251/NC252(272)(271)DD425753.eps51/NC5261/NC62DD425749.eps (1) The figures in brackets are for the device mounted on the RH side of the control relay.2 N/O + 2F N/C1 N/O + 3 N/C4 N/O4 N/C3 N/O + 1 N/CLADN22LADN13LADN40LADN04LADN3153/NO5461/NC6271/NC7283/NO84DD425748.eps53/NO5461/NC6271/NC7281/NC82DB439309.eps53/NO5463/NO6473/NO7483/NO84DD425750.eps71/NC7281/NC8251/NC5261/NC62DD425751.eps53/NO5461/NC6273/NO7483/NO84DD425752.eps2 N/O + 2 N/C including1 N/O + 1 N/Cmake before breakWith dust and damp protected contacts2 N/O protected2 N/C protected2 N/O protected (2) with 2 cable screen terminals2 N/O protected +2 N/O non protected2 N/O protected +1 N/O + 1 N/Cnon protectedLADC22LA1DX20LA1DX02LA1DY20LA1DZ40LA1DZ3153/NO5461/NC6287/NO8875/NC76127336.eps53/NO5463/NO64810727.eps5251/NC6261/NC810734.eps53/NO5463/NO64810726.eps(2) Product fitted with 4 earth screen continuity terminals. Time delay auxiliary contact blocksMechanical latch blocksOn-delay 1 N/O + 1 N/COff-delay 1 N/O + 1 N/CLADTLADSLADRLAD6K1055/NC5667/NO68810716.eps55/NC5667/NO68810719.eps57/NO5865/NC66810721.epsE2E1A2A1810732.eps53/NO5483/NO8463/NO6473/NO746261/NC53/NO5483/NO8473/NO74SchemesReferences:pages B7/9 to B7/11Illustration:page B7/8Characteristics:pages B7/22 to B7/24Curves:page B7/25Dimensions:page B7/26TeSys Control Deca Control relaysRef.";i:589;s:20:"B7/28Control relays";i:590;s:1462:"B8/1ContactorsTeSys Control SK, K, SKGC, Deca, Modular ContactorsTeSys SK, K contactorsType of productRangePagesContactors 27 and 45 mm width for use in modular panels TeSys SKFrom 12 to 20 A B8/2Contactors TeSys KFrom 6 to 16 AB8/4Reversing pre-assembled contactors TeSys KFrom 6 to 16 AB8/8Auxiliary contact blocks - accessoriesB8/13TeSys K, Deca, Giga S207 series Contactors for railway applications.Click on image to download.TeSys S335 series contactors for electrodomestic application.Click on image to download.TeSys Deca contactorsAC-3/ AC-3e, AC-1, UL CSA applications-TeSys Deca green contactors (with AC/DC compatible coil)From 9 to 80 A B8/16AC-3/ AC-3e applications -3-pole, 4-pole TeSys Deca contactorsFrom 9 to 150 AB8/22AC-1 applications -3-pole, 4-pole TeSys Deca contactorsFrom 25 to 200 AB8/23UL CSA application -3-pole TeSys Deca contactorsFrom 25 to 200 AB8/28Reversing, changeover pre-assembledTeSys Deca contactorsFrom 9 to 150 AB8/29Reversing contactorsTeSys Deca green contactors (with AC/DC compatible coil)From 9 to 80 A B8/33Contactors for switching capacitor banksFrom 12.5 to 60 kVARB8/34Auxiliary contact blocks – accessories – spare coils for TeSys DecaB8/36Modular contactorsModular contactors From 16 to 100 AB8/51Modular Dual tariff contactors 16, 25, 40 or 100 AB8/52Modular Impulse relay Up to 16 AB8/53Auxiliary contact blocks - accessoriesB8/54Chapter B8 Technical Data for Designers B8/61TeSysTeSysControl";i:591;s:2800:"B8/2ContactorsTeSys ControlSK Contactors bWidth of contactor 27 mm. bMounting on 35 mm 7 rail. bScrew clamp terminals. LC1SK contactors can be fitted with an add-on block or auxilliary contact block, LP1SK and LC1SKGC contactors can't.PB111641.epsLC1SK0600ppMini-contactors for motor in category AC-3Standard power ratings of 3-phase motors 50/60 Hz in category AC-3 (1)Rated operational voltage in AC-3 up to 400 VNumber of polesInstantaneous auxiliary contacts Basic reference. Complete with code indicating control circuit voltage (2) (3)220 V 230 V380 V 415 V660 V 690 VkWkWkWA1.12.22.262––LC1SK0600pp Mini-contactors for motor in category AC-1Non inductive loads maximum current (θ y 55 °C) utilisation category AC-1Control circuit supplyNumber of polesInstantaneous auxiliary contactsBasic reference. Complete with code indicating control circuit voltage (2) (3)APB111639.eps12a.c.2––LC1SK0600ppd.c.2––LP1SK0600pp(1) For use in AC-3 category and 3-phase circuits, an LA1SKpp auxiliary contact block should be ordered separately for mounting on the contactor.(2) Standard control circuit voltages (variable delivery times, please consult your Regional Sales Office): Mini-contactors LC1SKVolts a 50/60 Hz2448110120220230240380400CodeB7E7F7G7M7P7U7Q7V7Mini-contactors LP1SKVolts c1224364872CodeJDBDCDEDSD(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.Add-on power pole (for 3-phase circuits) with aux. contactFor use on contactor LC1SK0600ppwith 1 NO power pole (6 A AC-3, 10 A AC-1)and with 1 NC aux. contact (Ith 10 A). Ue 690 V AC 50/60 Hz for both contactsNumber of polesInstantaneous auxiliary contactsReference LA1SK01Clip-on front mounting1–1LA1SK01Product referencesCharacteristics:pages B8/62 to B8/65Dimensions, schemes:page B8/66Instantaneous auxiliary contact blocksFor use on contactorLC1SK0600ppAux. contacts: Ith 10 A. Ue: 690 V AC 50/60 Hz Maximum number of blocks per contactorCompositionReferenceClip-on front mounting12–LA1SK20–2LA1SK0211LA1SK11 PB111640.epsLA4SKp1pCoil suppressor modulesClip-on fixing and electrical connection on right-hand side, without use of toolsFor use on contactorsTypeFor voltagesSold in lots ofUnit referenceLC1SK0600pp LP1SK0600pp, LC1SKGCVaristor (1)a and c 24 V...48 V10LA4SKE1E a and c 110 V...250 V10LA4SKE1UDiode (2)c 24 V...250 V10LA4SKC1U(1) Protection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(2) No overvoltage or oscillating frequency. Slight increase in drop-out time (1.1 to 1.5 times the normal time).Click HERE for access to online contactor selectorSELECT";i:592;s:1522:"B8/3ContactorsTeSys ControlSKGC ContactorsMini-contactors 25 and 47 mm pitch for use in modular panels. bMounting on 35 mm 7 rail or fixing by four Ø4 screws, except for LC1SKGC200. bConnection by connectors. bMini-contactor fitted with transparent, sealable protective cover to prevent front face access.PB111643.epsLC1SKGC200Mini-contactors, width 27 mmStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Rated operational current in AC-3 up to 400 VNon inductive loads category AC-1 maximum current θ y 50 °CNo. of polesBasic reference, to be completed by adding the voltage code (1) (2)220 V 230 V380 V 415 V660 V 690 VkWkWkWAA–––5202––LC1SKGC200ppPB111644.epsMini-contactors, width 45 mmStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Rated operational current in AC-3 up to 400 VNon inductive loads category AC-1 maximum current θ y 50 °CNo. of polesBasic reference, to be completed by adding the voltage code (1) (2)220 V 230 V380 V 415 V660 V 690 VkWkWkWAA1.14492031–LC1SKGC310ppLC1SKGC3003–1LC1SKGC301pp(1) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts a50/60 Hz2448110120220230240380400CodeB7E7F7G7M7P7U7Q7V7(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used. Product referencesCharacteristics:pages B8/67 to B8/69Curves:page B8/70Dimensions, schemes:page B8/71Click HERE for access to online contactor selectorSELECT";i:593;s:3317:"B8/4ContactorsTeSys ControlK ContactorsPB123779.tifLC1K0910ppMounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.3-pole contactors - Motor control 6 to 16 A in categories AC-3, AC-3e, AC-4 - a.c. coilStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3eRated operational current in category AC-3/ AC-3e 440 V up toInstantaneous auxiliary contactsBasic reference, to be completed by adding the voltage code (1) (2)220 V 230 V380 V 415 V440 V 690 VkWkWkWAPB123781.epsLC1K09103ppScrew clamp connections1.52.2361-LC1K0610pp-1LC1K0601pp2.24491-LC1K0910pp-1LC1K0901pp35.54 (> 440)121-LC1K1210pp5.5 (440)-1LC1K1201pp47.54 (> 440)161-LC1K1610pp5.5 (440)-1LC1K1601ppSpring terminal connections (3)For 6 to 12 A ratings only, in the references selected above, insert a figure 3 before the voltage code. Example: LC1K0610pp becomes LC1K06103pp.PB123783.epsFaston connectors, 1 x 6.35 or 2 x 2.8For 6 to 16 A ratings, in the references selected above, insert a figure 7 before the voltage code. Example: LC1K0610pp becomes LC1K06107pp.Solder pins for printed circuit boardsFor 6 to 16 A ratings, in the references selected above, insert a figure 5 before the voltage code. Example: LC1K0610pp becomes LC1K06105pp.3-pole silent contactorsRecommended for use in areas sensitive to noise, high interference mains supplies, etc.Coil with rectifier incorporated, suppressor fitted as standard.Screw clamp connections1.52.2361-LC7K0610pp-1LC7K0601pp2.24491-LC7K0910pp-1LC7K0901pp35.54 (> 440)121-LC7K1210pp5.5 (440)-1LC7K1201ppFaston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LC7K0610pp becomes LC7K06107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code. Example: LC7K0610pp becomes LC7K06105pp. Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - a.c. (4)Contactors LC1K (0.8...1.15 Uc) (0.85...1.1 Uc) Volts122024 (1)364248110115120127200/208220/230230230/24050 Hz (5)B5D5E5P550/60 HzJ7Z7B7C7D7E7F7FE7G7FC7L7M7P7U7Volts 256277380/400400400/415440480500575600660/69050/60 HzW7UE7Q7–V7N7R7T7S7SC7X7Y7––Up to and including 240 V, coil with integral suppression device available: add 2 to the code required. Example: J72.Contactors LC7K (0.85...1.1 Uc)Volts244248110115220230/24050/60 HzB7D7E7F7FE7M7U7(1) For mains supplies with a high level of interference (voltage surge > 800 V), use a suppressor module LA4KE1FC (50...129 V) or LA4KE1UG (130...250 V), see page B8/14.(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(3) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.(4) (0.8...1.15 Uc) for single voltage coil; (0.85...1.1 Uc) for dual voltage coil, exemple 200/208 V AC.(5) Only available for ‘screw clamp terminals’ versions. LC1K09107ppPB123782.epsLC1K09105ppPB123786.epsLC7K0910ppProduct referencesCharacteristics:pages B8/72 to B8/74Dimensions:page B8/76Schemes:page B8/77SELECTClick HERE for access to online contactor selector";i:594;s:3248:"B8/5ContactorsTeSys ControlK ContactorsPB123787.epsContactor selection according to utilisation category, see pages A5/52 to A5/57 and A5/60 to A5/63.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.3-pole contactors - Motor control 6 to 12 A in categories AC-3, AC-3e, AC-4 - d.c. coilStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3eRated operational current in category AC-3/ AC-3e 440 V up toInstan-taneous auxiliary contacts Basic reference, to be completed by adding the voltage code (1) (2)LP1K0910pp220 V230 V380 V415 V440 V690 VkWkWkWAPB123789.epsScrew clamp connections1.52.2361–LP1K0610pp–1LP1K0601pp2.24491–LP1K0910pp–1LP1K0901pp35.54 (> 440)121–LP1K1210pp5.5 (440)–1LP1K1201ppSpring terminal connections (3)In the references selected above, insert a figure 3 before the voltage code. Example: LP1K0610pp becomes LP1K06103pp. LP1K09103ppFaston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP1K0610pp becomes LP1K06107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code. Example: LP1K0610pp becomes LP1K06105pp.3-pole low consumption contactorsCompatible with programmable controller outputs.Wide range coil (0.7...1.30 Uc), suppressor fitted as standard, consumption 1.8 W.Screw clamp connections1.52.2361–LP4K0610pp–1LP4K0601pp2.24491–LP4K0910pp–1LP4K0901pp35.54 (> 440)121–LP4K1210pp5.5 (440)–1LP4K1201ppPB123790.epsSpring terminal connectionsIn the references selected above, insert a figure 3 before the voltage code. Example: LP4K0610pp becomes LP4K06103pp. Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP4K0610pp becomes LP4K06107pp. Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LP4K0610pp becomes LP4K06105pp.LP1K09105ppStandard control circuit voltages (for other voltages, please consult your Regional Sales office)d.c. supply (contactors LP1K: 0.8...1.15 Uc)Volts122024 (1)36486072100110125155174200220230240250CodeJDZDBDCDEDNDSDKDFDGDPDQDLDMDMPDMUDUDCoil with integral suppression device available: add 3 to the code required. Example: JD3Low consumption (contactors LP4K: 0.7...1.3 Uc)Volts1220244872110120CodeJW3ZW3BW3EW3SW3FW3GW3Coil with integral suppression device fitted as standard, by bi-directional peak limiting diode.(1) For LP1K only, when connecting an electronic sensor or timer in series with the contactor coil, select a 20 V coil (a control circuit voltage code Z7, c control circuit voltage code ZD) so as to compensate for the incurred voltage drop.(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(3) For LCpKpppp3 / LPpKpppp3 with spring terminal), Ith max = 16 A.PB123792.epsLP4K0910ppProduct referencesCharacteristics:pages B8/72 to B8/74Dimensions:page B8/76Schemes:page B8/77SELECTClick HERE for access to online contactor selector";i:595;s:3292:"B8/6ContactorsTeSys ControlK ContactorsContactor selection according to utilisation category, see pages A5/58 and A5/59.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.PB123780.epsLC1K09004pp3 or 4-pole contactors - Load control up to 20 A in category AC-1 - a.c. coil (1)Non-inductive loads Category AC-1 Maximum current at θ y 50 °CNumber of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the voltage code (2) (3)AScrew clamp connections203–1–LC1K0910pporLC1K1210pp3––1LC1K0901pporLC1K1201pp4–––LC1K09004ppPB123781.epsorLC1K12004pp22––LC1K09008ppSpring terminal connections (4)In the references selected above, insert a figure 3 before the voltage code. Example: LC1K0910pp becomes LC1K09103pp.Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LC1K0910pp becomes LC1K09107pp. Solder pins for printed circuit boardsLC1K09103ppIn the references selected above, insert a figure 5 before the voltage code.Example: LC1K0910pp becomes LC1K09105pp.PB123783.epsLC1K09107pp3 or 4-pole silent contactors (1)Recommended for use in areas sensitive to noise, high interference mains supplies, etc.Coil with rectifier incorporated, suppressor fitted as standard.Screw clamp connections203–1–LC7K0910pporLC7K1210pp3––1LC7K0901pporLC7K1201pp4–––LC7K09004pporLC7K12004pp22––LC7K09008ppFaston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LC7K0910pp becomes LC7K09107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LC7K0910pp becomes LC7K09105pp.(1) Coordination tables between 9 and 12 A ratings according to number of operating cycles, see AC-1 curve on page A5/58.PB123786.epsStandard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - a.c. (5)Contactors LC1K (0.8...1.15 Uc) (0.85...1.1 Uc) Volts122024 (2)364248110115120127200/208220/230230230/24050 Hz (6)B5D5E5P550/60 HzJ7Z7B7C7D7E7F7FE7G7FC7L7M7P7U7Volts 256277380/400400400/415440480500575600660/69050/60 HzW7UE7Q7V7N7R7T7S7SC7X7Y7Up to and including 240 V, coil with integral suppression device available: add 2 to the code required. Example: J72.Contactors LC7K (0.8...1.1 Uc)Volts244248110115220230/24050/60 HzB7D7E7F7FE7M7U7(2) For mains supplies with a high level of interference (voltage surge > 800 V), use a suppressor module LA4KE1FC (50...129 V) or LA4KE1UG (130...250 V), see page B8/14.(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(4) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.(5) (0.8...1.15 Uc) for single voltage coil; (0.85...1.1 Uc) for dual voltage coil, exemple 200/208 V AC.(6) Only available for ‘screw clamp terminals’ versions. LC7K0910ppProduct referencesCharacteristics:pages B8/72 to B8/74Dimensions:page B8/76Schemes:page B8/77SELECTClick HERE for access to online contactor selector";i:596;s:3317:"B8/7ContactorsTeSys ControlK ContactorsContactor selection according to utilisation category, see pages A5/58 and A5/59.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.PB123788.eps3 and 4-pole contactors - Load control - 20 A in category AC-1 - d.c. coil (1)Non-inductive loads Category AC-1 Maximum current at θ y 50 °CNumber of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the voltage code (2) (3)AScrew clamp connections203–1–LP1K0910ppLP1K09004pporLP1K1210pp3––1LP1K0901pporLP1K1201pp4–––LP1K09004ppPB123789.epsorLP1K12004pp22––LP1K09008ppSpring terminal connections (4)In the references selected above, insert a figure 3 before the voltage code. Example: LP1K0910pp becomes LP1K09103pp.Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP1K0910pp becomes LP1K09107pp. Solder pins for printed circuit boardsLP1K09103ppIn the references selected above, insert a figure 5 before the voltage code.Example: LP1K0910pp becomes LP1K09105pp.PB123790.eps3 or 4-pole 20 A / AC-1 - d.c. low consumption coil (1)Compatible with programmable controller outputs.Wide range coil (0.7...1.30 Uc), suppressor fitted as standard, consumption 1.8 W.Screw clamp connections203–1–LP4K0910ppporLP4K1210ppp3––1LP4K0901ppporLP4K1201ppp4–––LP4K09004pppLP1K09105pporLP4K12004ppp22––LP4K09008pppPB123792.epsLP4K0910pppSpring terminal connectionsIn the references selected above, insert a figure 3 before the voltage code. Example: LP4K0910pp becomes LP4K09103pp. Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP4K0910pp becomes LP4K09107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LP4K0910pp becomes LP4K09105pp.(1) Coordination tables between 9 and 12 A ratings according to number of operating cycles, see AC-1 curve on page A5/58.Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - d.c. (contactors LP1K: 0.8...1.15 Uc)Volts c122024 (2)36486072100110125155174200220230240250CodeJDZDBDCDEDNDSDKDFDGDPDQDLDMDMPDMUDUDCoil with integral suppression device available: add 3 to the code required. Example: JD3.Coil voltage codes - low consumption d.c. (contactors LP4K: 0.7...1.3 Uc)Volts c1220244872110120CodeJW3ZW3BW3EW3SW3FW3GW3Coil with integral suppression device fitted as standard, by bi-directional peak limiting diode. (2) For LP1K only, when connecting an electronic sensor or timer in series with the contactor coil, select a 20 V coil (a control circuit voltage code Z7, c control circuit voltage code ZD) so as to compensate for the incurred voltage drop.(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(4) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.Product referencesCharacteristics:pages B8/72 to B8/74Dimensions:page B8/76Schemes:page B8/77SELECTClick HERE for access to online contactor selector";i:597;s:2789:"B8/8ContactorsReversing contactor selection according to utilisation category, see pages A5/52 to A5/57 and A5/60 to A5/63.Integral mechanical interlock.It is essential to link the contacts of the electrical interlock.Pre-wired power circuit connections as standard on screw clamp versions.Mounting on 35 mm 7 rail or Ø4 screw fixing. Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.PB123784.tif3-pole reversing contactors - Motor control 6 to 16 A in categories AC-3, AC-3e, AC-4 - a.c. coilStandard power ratings of 3-phase motors 50/60 Hz in category AC-3/ AC-3eRated operational current in category AC-3/ AC-3e 440 V up toInstantaneous auxiliary contacts per contactorBasic reference, to be completed by adding the voltage code (1) (2)220 V230 V380 V415 V440 V690 VLC2K0910ppkWkWkWAScrew clamp connectionsPB123785.epsLC2K09105pp1.52.2361–LC2K0610pp–1LC2K0601pp2.24491–LC2K0910pp–1LC2K0901pp35.54 (> 440)121–LC2K1210pp5.5 (440)–1LC2K1201pp47.54 (> 440)161–LC2K1610pp5.5 (440)–1LC2K1601ppSpring terminal connections (3)For 6 to 12 A ratings only, in the references selected above, insert a figure 3 before the voltage code. Example: LC2K0610pp becomes LC2K06103pp. Faston connectors, 1 x 6.35 or 2 x 2.8For 6 to 16 A ratings, in the references selected above, insert a figure 7 before the voltage code. Example: LC2K0610pp becomes LC2K06107pp.Solder pins for printed circuit boardsFor 6 to 16 A ratings, in the references selected above, insert a figure 5 before the voltage code.Example: LC2K0610pp becomes LC2K06105pp.Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - a.c. (4)Reversing contactors LC2K (0.8...1.15 Uc) (0.85...1.1 Uc) Volts122024 (1)364248110115120127200/208220/230230230/24050/60 HzJ7Z7B7C7D7E7F7FE7G7FC7L7M7P7U7Volts 256277380/400400400/415440480500575600660/69050/60 HzW7UE7Q7V7N7R7T7S7SC7X7Y7Up to and including 240 V, coil with integral suppression device available: add 2 to the code required. Example: J72.(1) For mains supplies with a high level of interference (voltage surge > 800 V), use a suppressor module LA4KE1FC (50...129 V) or LA4KE1UG (130...250 V), see page B8/14.(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(3) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.(4) (0.8...1.15 Uc) for single voltage coil; (0.85...1.1 Uc) for dual voltage coil, exemple 200/208 V AC.TeSys ControlK Reversing contactorsProduct referencesCharacteristics:pages B8/72 to B8/74Dimensions:page B8/78Schemes:page B8/79SELECTClick HERE for access to online contactor selector";i:598;s:3451:"B8/9ContactorsReversing contactor selection according to utilisation category, see pages A5/52 to A5/57 and A5/60 to A5/63.Integral mechanical interlock.It is essential to link the contacts of the electrical interlock.Pre-wired power circuit connections as standard on screw clamp versions.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.3-pole reversing contactors - Motor control 6 to 12 A in categories AC-3, AC-3e, AC-4 - d.c. coilStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/AC-3eRated operational current in category AC-3/AC-3e 440 V up toInstan-taneous auxiliary contacts per contactorBasic reference, to be completed by adding the voltage code (1) (2)220 V380 V440 V230 V415 V690 VkWkWkWAScrew clamp connections1.52.2361–LP2K0610pp–1LP2K0601pp2.24491–LP2K0910pp–1LP2K0901pp35.54 (> 440)121–LP2K1210pp5.5 (440)–1LP2K1201ppSpring terminal connections (3)In the references selected above, insert a figure 3 before the voltage code. Example: LP2K0610pp becomes LP2K06103pp. Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code.Example: LC2K0610pp becomes LC2K06107pp.Solder pins for printed circuit boardsFor 6 to 16 A ratings, in the references selected above, insert a figure 5 before the voltage code.Example: LC2K0610pp becomes LC2K06105pp.3-pole low consumption reversing contactorsCompatible with programmable controller outputs.Wide range coil (0.7...1.30 Uc), suppressor fitted as standard, consumption 1.8 W.Screw clamp connections1.52.2361–LP5K0610pp–1LP5K0601pp2.24491–LP5K0910pp–1LP5K0901pp35.54 (> 440)121–LP5K1210pp5.5 (440)–1LP5K1201ppSpring terminal connectionsIn the references selected above, insert a figure 3 before the voltage code. Example: LP5K0610pp becomes LP5K06103pp. Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code.Example: LP5K0610pp becomes LP5K06107pp. Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LP5K0610pp becomes LP5K06105pp.Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - d.c. Reversing contactors LP2K (0.8...1.15 Uc)Volts122024 (1)36486072100110125155174200220230240250CodeJDZDBDCDEDNDSDKDFDGDPDQDLDMDMPDMUDUDCoil with integral suppression device available: add 3 to the code required. Example: JD3.Coil voltage codes - low consumption d.c.Reversing contactors LP5K (0.7...1.3 Uc)Volts1220244872110120CodeJW3ZW3BW3EW3SW3FW3GW3Coil with integral suppression device fitted as standard, by bi-directional peak limiting diode. (1) For LP2K only, when connecting an electronic sensor or timer in series with the contactor coil, select a 20 V coil (a control circuit voltage code Z7, c control circuit voltage code ZD) so as to compensate for the incurred voltage drop.(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(3) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.TeSys ControlK Reversing contactorsProduct referencesCharacteristics:pages B8/72 to B8/75Dimensions:page B8/78Schemes:page B8/79SELECTClick HERE for access to online contactor selector";i:599;s:2685:"B8/10ContactorsPB123784.tifWarning: reversing contactors LC2K0910pp and LC2K0901pp are pre-wired for reverse motor operation as standard.Reversing contactor selection according to utilisation category, see pages A5/58 and A5/59.Integral mechanical interlock.It is essential to link the contacts of the electrical interlock.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.3 or 4-pole reversing contactors - Load control - 20 A in category AC-1 - a.c. coil (1)Non-inductive loadsCategory AC-1Maximum current at θ y 50 °CNumber of polesInstantaneous auxiliary contacts per contactorBasic reference, to be completed by adding the voltage code (2) (3)LC2K0910ppAScrew clamp connections203–1–LC2K0910pporLC2K1210pp3––1LC2K0901ppPB123785.epsLC2K09105pporLC2K1201pp4–––LC2K09004pporLC2K12004ppSpring terminal connections (4)In the references selected above, insert a figure 3 before the voltage code. Example: LC2K0910pp becomes LC2K09103pp.Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LC2K0910pp becomes LC2K09107pp. Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LC2K0910pp becomes LC2K09105pp.(1) Coordination tables between 9 and 12 A ratings according to number of operating cycles, see AC-1 curve on page A5/58.Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - a.c. (5)Reversing contactors LC2K (0.8...1.15 Uc) (0.85...1.1 Uc) Volts122024 (2)364248110115120127200/208220/230230230/24050/60 HzJ7Z7B7C7D7E7F7FE7G7FC7L7M7P7U7Volts 256277380/400400400/415440480500575600660/69050/60 HzW7UE7Q7V7N7R7T7S7SC7X7Y7Up to and including 240 V, coil with integral suppression device available: add 2 to the code required. Example: J72.(2) For mains supplies with a high level of interference (voltage surge > 800 V), use a suppressor module LA4KE1FC (50...129 V) or LA4KE1UG (130...250 V), see page B8/14.(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(4) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.(5) (0.8...1.15 Uc) for single voltage coil; (0.85...1.1 Uc) for dual voltage coil, exemple 200/208 V AC.TeSys ControlK Reversing contactorsProduct referencesCharacteristics:pages B8/72 to B8/75Dimensions:page B8/78Schemes:page B8/79SELECTClick HERE for access to online contactor selector";i:600;s:3474:"B8/11ContactorsWarning: reversing contactors LP2K0910pp and LP2K0901pp are pre-wired for reverse motor operation as standard.Reversing contactor selection according to utilisation category, see pages A5/58 and A5/59.Integral mechanical interlock.It is essential to link the contacts of the electrical interlock.Mounting on 35 mm 7 rail or Ø4 screw fixing.Screws in the open “ready-to-tighten” position.Add-on auxiliary contact blocks and accessories, see pages B8/13 to B8/15.3 or 4-pole reversing contactors - Load control - 20 A in category AC-1 - d.c. coil (1)Non-inductive loadsCategory AC-1Maximum current at θ y 50 °CNumber of polesInstantaneous auxiliary contacts per contactorBasic reference, to be completed by adding the voltage code (2) (3)AScrew clamp connections203–1–LP2K0910pporLP2K1210pp3––1LP2K0901pporLP2K1201pp4–––LP2K09004pporLP2K12004ppSpring terminal connections (4)In the references selected above, insert a figure 3 before the voltage code. Example: LP2K0910pp becomes LP2K09103pp.Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP2K0910pp becomes LP2K09107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LP2K0910pp becomes LP2K09105pp.3 or 4-pole reversing contactors - 20 A / AC-1 - d.c. low consumption coil (1)Compatible with programmable controller outputs.Wide range coil (0.7...1.30 Uc), suppressor fitted as standard, consumption 1.8 W.Screw clamp connections203–1–LP5K0910ppporLP5K1210ppp3––1LP5K0901ppporLP5K1201ppp4–––LP5K09004ppporLP5K12004pppSpring terminal connectionsIn the references selected above, insert a figure 3 before the voltage code. Example: LP5K0910pp becomes LP5K09103pp. Faston connectors, 1 x 6.35 or 2 x 2.8In the references selected above, insert a figure 7 before the voltage code. Example: LP5K0910pp becomes LP5K09107pp.Solder pins for printed circuit boardsIn the references selected above, insert a figure 5 before the voltage code.Example: LP5K0910pp becomes LP5K09105pp.(1) Coordination tables between 9 and 12 A ratings according to number of operating cycles, see AC-1 curve on page A5/58.Standard control circuit voltages (for other voltages, please consult your Regional Sales office)Coil voltage codes - d.c. (reversing contactors LP2K: 0.8...1.15 Uc)Volts c122024 (2)36486072100110125155174200220230240250CodeJDZDBDCDEDNDSDKDFDGDPDQDLDMDMPDMUDUDCoil with integral suppression device available: add 3 to the code required. Example: JD3.Coil voltage codes - low consumption d.c. (reversing contactors LP5K: 0.7...1.3 Uc)Volts c1220244872110120CodeJW3ZW3BW3EW3SW3FW3GW3Coil with integral suppression device fitted as standard, by bi-directional peak limiting diode. (2) For LP2K only, when connecting an electronic sensor or timer in series with the contactor coil, select a 20 V coil (a control circuit voltage code Z7, c control circuit voltage code ZD) so as to compensate for the incurred voltage drop.(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(4) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.TeSys ControlK Reversing contactorsProduct referencesCharacteristics:pages B8/72 to B8/75Dimensions:page B8/78Schemes:page B8/79SELECTClick HERE for access to online contactor selector";i:601;s:91:"B8/12ContactorsLC1, LC7, LP1 KLC1, LC7, LP1 KLC1, LC7, LP1 KLC1, LP1 KLP4LP4LP4DB439406.eps";i:602;s:1816:"B8/13ContactorsTeSys ControlK Contactors - Auxiliary contacts blocksInstantaneous auxiliary contact blocks Recommended for standard applications. Clip-on front mounting, 1 block per contactorConnectionFor use on contactorsComposition ReferenceScrew clamp terminalsAll products with screw clamp terminals2–LA1KN20–2LA1KN0211LA1KN11All products with screw clamp terminals except low consumption4–LA1KN4031LA1KN3122LA1KN2213LA1KN13–4LA1KN04Spring terminalsAll products with spring terminals2–LA1KN203–2LA1KN02311LA1KN113All products with spring terminals except low consumption4–LA1KN40331LA1KN31322LA1KN22313LA1KN133–4LA1KN043Faston connectors, 1 x 6.35 or 2 x 2.8All products with Faston connectors2–LA1KN207All products with Faston connectors except low consumption4–LA1KN40731LA1KN317With terminal referencing to standard EN 50012. Clip-on front mounting, 1 block per contactorScrew clamp terminals with referencing conforming to standard EN 50012All 3-pole + N/O products with screw clamp terminals except LP4 and LP5K12–2LA1KN02M11LA1KN11MAll 3-pole + N/O products with screw clamp terminals except LP4 or LP5K06, K09 and K1231LA1KN31M22LA1KN22MElectronic time delay auxiliary contact blocksRelay output with common point changeover contact, a or c 240 V, 2 A maximum.Control voltage 0.85...1.1 Uc.Maximum switching capacity 250 VA or 150 W.Operating temperature -10...+60 °C.Reset time: 1.5 s during the time delay period, 0.5 s after the time delay period.Clip-on front mounting, 1 block per contactorVoltageTypeTiming rangeComposition ReferenceVsa or c 24...48On-delay1...301LA2KT2Ea 110...240On-delay1...301 LA2KT2UProduct referencesCharacteristics:page B8/75Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79PB121750_R.tifLA1KN22PB123817.epsLA1KN223PB123818.epsLA1KN407";i:603;s:1119:"B8/14ContactorsPB123798_R.epsLA4KpppReferencesMounting and connectionTypeFor voltagesSold in lots ofUnit referenceClip-on fixing on the front of contactors LC1 and LP1, with locating device.No tools required.Varistor (1)a and c 12...24 V5LA4KE1B a and c 32...48 V5LA4KE1Ea and c 50...129 V5LA4KE1FCa and c 130...250 V5LA4KE1UGDiode + Zener diode (2)c 12...24 V5LA4KC1Bc 32...48 V5LA4KC1ERC (3)a 110...250 V5LA4KA1U(1) Protection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(2) No overvoltage or oscillating frequency. Polarised component. Slight increase in drop-out time (1.1 to 1.5 times the normal time).(3) Protection by limiting the transient voltage to 3 Uc max. and limitation of the oscillating frequency. Slight increase in drop-out time (1.2 to 2 times the normal time).Product referencesTeSys ControlK Contactors - Suppressor modulesCharacteristics:page B8/75Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79";i:604;s:1297:"B8/15ContactorsMounting and marking accessoriesDescriptionApplicationSold in lots ofUnit referenceMounting plates (1)For fixing on 2 4 rails110/120 mm fixing centres10DX1AP25Marker holderClip-onOnto front of contactor100LA9D90Clip-in markers4 maximum per contactorStrips of 10 identical numbers 0...925AB1Rp (2)Strips of 10 identical letters A...Z25AB1Gp (2)PB121398.epsLA9E01Connection accessoriesDescriptionApplicationSold in lots ofUnit preferenceParalleling linksFor 2 polesWith screw clamps4LA9E01For 4 polesWith screw clamps2LA9E02Set of 6 power connectionsFor 3-pole reversing contactors for motor controlFor contactors with screw clamp terminals100LA9K0969(1) Order 1 mounting plate for fixing a contactor and 2 mounting plates for fixing a reversing contactor.(2) Complete the reference by replacing the dot with the required character.TeSys ControlK Contactors - AccessoriesProduct referencesDimensions:pages B8/76 and B8/78DF565019.epsDX1AP25> Click on QR code to downloadControl Panel Technical Guide:Mounting and wiring accessories for TeSys K, Deca, F contactors. Star-delta, reverser, low-high speed control motor starters and changeover applications - Product references and details on all kits and wiring accessories.>> Ref. Document: CPTG011_EN ";i:605;s:1040:"B8/16Contactors* such as PLC I/O type M580, M340, M221 or M241 or extended I/O type Advantys STB range, or in association with Deca electronic overload relays or Tera Motor management system.Deca green, enriching Deca family9 - 12 - 18 A25 - 32 - 38 A40 - 50 - 65 A9 - 12 - 18 A25 - 32 - 38 A40 - 50 - 65 - 80 ADirect control by 24 V/500 mA DC I/O, with coil ref. BBEWhen implemented with other Schneider Electric products*, Deca green contactors are part of a comprehensive solution that is ideal for all types of industrial machines and processes. Deca Overload relayBy combining a Deca green contactor with our new Deca electronic overload relay, you will have less heat generation, and further reduce energy consumption.Deca conventional contactors 9 to 150 A, for motor control and other applications.Deca green delivers a consistent low consumption range of contactors from 9 A to 80 A, covering control voltage from 24 to 250 V, with same coils for AC and DC. 80 - 95 A115 - 150 A80 AIntroductionTeSys ControlDeca Contactors";i:606;s:1191:"B8/17Contactors(1) Up to 38 A.(2) 40 to 80 A.Approx. 100TeSys Deca green (2) with 'BBE' coil (0.5 W)TeSys Deca (1) with 'BL' low consumption coil (2.4 W)Current in a '500 mA' digital outputCurrent in a '100 mA' digital outputI (mA)t (ms)Coil current in digital output Deca green contactors ("BBE" coil) vs Deca contactors (low consumption "BL" coil)P (W)1005W3W1WCC (TeSys Deca)CA(TeSys Deca)CA/CC (TeSys Deca green)t (ms)Coil currents comparisonDeca green contactors (AC/DC coil) vs Deca contactors (AC, DC coils)Deca  green  brings a  significant reduction of energy consumption.Deca green contactor is well adapted to direct control by PLC static outputs, even in its high ratings.09-12-18 AAvailable in25-32-38 A40-50-65-80 AHighly competitive coil consumptionSmall changes can generate big savings. The new Deca green contactor is equipped with an innovative electronic coil. These electronic-coil contactors require up to 80 % less energy than electro-mechanical contactors.This innovation results in concrete values: for example, large plants can noticeably reduce their energy bills and heat dissipation in cabinet.IntroductionTeSys ControlDeca Contactors";i:607;s:2007:"B8/18ContactorsProduct referencesTeSys ControlDeca green Contactors LC1D09pppPB121708.tifLC1D40ApppPB121710.tifDeca green contactors have a dark grey casing and a 3-character code voltage.3-pole contactors - Motor control up to 37 kW / 400 V - Category AC-3/ AC-3eStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated operational current in AC-3/ AC-3e 440 Vup toInstantaneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1)WeightFixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 VkWkWkWkWkWkWAkgConnection by screw clamp terminals2.24445.55.5911LC1D09ppp0.36835.55.55.57.57.51211LC1D12ppp0.37347.59910101811LC1D18ppp0.3785.511111115152511LC1D25ppp0.4337.515151518.518.53211LC1D32ppp0.438918.518.518.518.518.53811LC1D38ppp0.442Power connections by EverLink® BTR (3) screw connectors and control by screw clamp terminal1118.5222222304011LC1D40Appp0.9921522253030335011LC1D50Appp 0.99718.530373737376511LC1D65Appp 1.0022237373737376611LC1D80Appp1.002Connection for lugs or barsFor LC1D40A to LC1D80A, insert a figure 6 before the voltage code.Example: LC1D40Appp becomes LC1D40A6pppAuxiliary contact blocks and add-on modulesSee pages B8/36 to B8/42. Control voltage codesAC/DC or 24 V DC supplyVolts24 (DC only)24-6048-130100-250LC1D09 ...D38, LC1D40A ... D80AU 0.85...1.1 UcBNEEHEKUELC1D09 ... D38U 0.8 ... 1.2 UcBNELC1D40A ... D80AU 0.8...1.2 UcBBE(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see B8/42).Characteristics: pages B8/80 to B8/87Curves: page B8/90Dimensions: pages B8/98 to B8/100Schemes: pages B8/101 and B8/102Click HERE for access to online contactor selectorSELECT";i:608;s:2189:"B8/19ContactorsProduct referencesTeSys ControlDeca green ContactorsDeca green contactors have a dark grey casing and a 3-character code voltage.LC1D09pppPB121708.tif3-pole contactors - Load control from 25 to 80 A - Category AC-1Non inductive loads maximum current (θ y 60 °C)utilisation category AC-1Number of polesInstan-taneous auxiliary contactsPartial reference, to be completed by adding the control voltage code (1) Weight Fixing (2)AkgConnection by screw clamp terminalsLC1D40ApppPB121710.tif25311LC1D09ppp0.368orLC1D12ppp0.37332311LC1D18ppp0.37840311LC1D25ppp0.43350311LC1D32ppp0.438orLC1D38ppp0.442Connection by EverLink®, BTR screw connectors (3)60311LC1D40Appp0.99280311LC1D50Appp0.997orLC1D65Appp (4)1.002orLC1D80Appp (4)1.002Connection for lugs or barsFor LC1D40A to LC1D80A, insert a figure 6 before the voltage code.Example: LC1D40Appp becomes LC1D40A6ppp4-pole contactorsLC1DT60ApppPB121712.epsConnection by EverLink®, BTR (3) screw connectors 60411LC1DT60Appp1.23080411LC1DT80Appp 1.290Connection for lugs or barsFor LC1DT60A to LC1DT80A, insert a figure 6 before the voltage code.Example: LC1DT60Appp becomes LC1DT60A6ppp4-pole changeover contactorsConnection by EverLink®, BTR (3) screw connectors 60 411LC2DT60Appp2.46080411LC2DT80Appp 2.580Control voltage codesAC/DC 24 V DC supplyVolts24 (DC only)24-6048-130100-250LC1D09...D80A and LCpDT60A...DT80AU 0.85 .... 1.1 UcBNEEHEKUELC1D09 .... D38U 0.8 .... 1.2 UcBNELC1D40 to LC1D80A, LCpDT60A to LCpDT80AU 0.8...1.2 UcBBE(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80A, LCpDT60A and LCpDT80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(4) Coordination tables according to the number of operation cycles, consult online datasheets for values.Characteristics: pages B8/80 to B8/87Curves: page B8/90Dimensions: pages B8/98 to B8/100Schemes: pages B8/101 and B8/102Click HERE for access to online contactor selectorSELECT";i:609;s:2142:"B8/20ContactorsProduct referencesTeSys ControlDeca green ContactorsDeca green contactors have a dark grey casing and a 3-character code voltage.PB121708.tifLC1D09ppp3-pole contactors conforming to UL and CSA standards (North American market) - 25 to 80 AStandard power ratings of motors 50/60 HzAssociated cable type 75 °C-CuContinuous currentType of contactor required Partial reference, to be completed by adding the control voltage code (1) Single-phase 1 Ø3-phase 3 Ø115 V230 V 240 V200 V 208 V230 V 240 V460 V 480 V575 V 600 VFixing, connection (2)HPHPHPHPHPHPAConnection by screw clamp terminals1/312257.5AWG 18 - 1025LC1D09ppp0.52337.510AWG 18 - 1025LC1D12pppLC1D40ApppPB121710.tif13551015AWG 18 - 832LC1D18ppp2 37.57.51520AWG 14 - 640LC1D25ppp2510102025AWG 14 - 650LC1D32pppPower connections by EverLink® BTR (3) screw connectors and control by spring terminals3 510103030AWG 16 - 260LC1D40Appp37.515154040AWG 16 - 270LC1D50Appp51020204050AWG 16 - 280LC1D65Appp51020204050AWG 16 - 280LC1D80ApppConnection for lugs or barsFor LC1D40A to LC1D80A, insert a figure 6 before the voltage code.Example: LC1D40Appp becomes LC1D40A6pppApplications with High-Fault Short-Circuit Current ratingsHigh-fault short-circuit current ratings are: 100 kA at 600 V with Class J fuses and 85 kA (D09-38), 100 kA (D40A-65A) at 480 V and 50 kA at 600 V with circuit breakers.Control voltage codesAC/DC 24 V DC supplyVolts24 (DC only)24-6048-130100-250LC1D09 ... D32, LC1D40A ... D80AU 0.85 .... 1.1 UcBNEEHEKUELC1D09 ... D38U 0.8 .... 1.2 UcBNELC1D40A ... D80AU 0.8...1.2 UcBBE(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).Characteristics: pages B8/80 to B8/87Curves: page B8/90Dimensions: pages B8/98 to B8/100Schemes: pages B8/101 and B8/102Click HERE for access to online contactor selectorSELECT";i:610;s:2249:"B8/21ContactorsTeSys ControlDeca green ContactorsProduct referencesSelection of PLC coordinated contactors Laboratory tests have been carried out in order to validate trouble free contactor closings and openings with different PLC output modules.The coil must be defined according to the contactor rating range and output module. See selection table below.The PLC your are using>>>Compatible contactors (1)Coil codePLC typeOutput typeOutput I (A)Output module commercial referenceM221 / M241 / M251Static output: 24 V DC0.5 TM3DQ8ppp and Q16ppp (T, TG, U, UG)>>>LC1D09pp to LC1D38pp,BL, BNELC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppBBE0.3 (sealed)0.8 (inrush)TM3XTYS4>>>LC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppBBE, BD, BNE0.1TM3DQ16pp and Q32pp (TK, UK)>>>LC1D09pp to LC1D38ppBLRelay output: 24 V DC / 230 V AC 2TM3DQ8 and DQ16 (R,RG), TM3DM8 and DM24 (R,RG)>>>LC1D09pp to LC1D38pp, LC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppCode of any DC coil up to 24 V or any AC coil up to 230 VM340 / M580Static output: 24 V DC0.5BMXDDO1602 and DM16022>>>LC1D09pp to LC1D38ppBL, BNELC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppBBE0.1BMXDDO3202, BMXDDM3202K, BMXDDO6402K>>>LC1D09pp to LC1D38ppBLRelay output: 24 V DC / 230 V AC 2BMXDRA0805 and DM16025>>>LC1D09pp to LC1D38pp, LC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppCode of any DC coil up to 24 V or any AC coil up to 230 VTriac output: 230 V AC0.6BMXDAO1605>>>LC1D09pp to LC1D38pp, LC1D40ppp to LC1D80Appp, LC1DT60Appp to LC1DT80ApppCode of any AC coil up to 230 V (P7 code = 230 V)ADVANTYSStatic output: 24 V DC0.5STBDDO3200>>>LC1D09pp to LC1D38ppBL, BNELC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppBBETriac output: 230 V AC2STBDAO8210>>>LC1D09pp to LC1D38pp, LC1D40Appp to LC1D80A, LC1DT60Appp to LC1DT80ApppCode of any AC coil up to 230 V (P7 code = 230 V AC)Coils consumption characteristicsCoil typeUc DC - min -maxAverage consumption at UC DC / 20 °CInrushSealedBL24 V - 0.8 Uc to 1.1 Uc2.4 W - 2.4 VA2.4 W - 2.4 VABNE14 W - 14 VA0.7 W - 0.7 VABBE 11 W - 11 VA 0.5 W - 0.5 VA(1) Replace dot by coil code. Ex LC1D09pp becomes LC1D09BL.Deca green contactors - Coordination with PLC output modules (static/relay/triac)";i:611;s:4096:"B8/22ContactorsProduct referencesTeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorLC1D09ppPB121681.epsLC1D25ppPB121706.tifLC1D80AppPB121707.tifLC1D95ppPB123774.tifLC1D115ppPB123775.tif3-pole contactors - Motor control up to 75 kW at 400 V, in category AC-3/ AC-3eStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated operational current in AC-3/ AC-3e 440 Vup toInstantaneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1)Weight (3)Fixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 V1000 VkWkWkWkWkWkWkWAkgConnection by screw clamp terminals2.24445.55.5–911LC1D09pp0.32035.55.55.57.57.5–1211LC1D12pp0.32547.5991010–1811LC1D18pp0.3305.51111111515–2511LC1D25pp0.3707.515151518.518.5–3211LC1D32pp0.375918.518.518.518.518.5–3811LC1D38pp0.380Power connections by EverLink® BTR screw connectors (4) and control by screw clamp terminal1118.522222230–4011LC1D40App0.850152225303033–5011LC1D50App0.85518.53037373737–6511LC1D65App 0.860223737373737–6611LC1D80App0.860Connection by screw clamp terminals or connectors223745455545–8011LC1D80pp1.590254545455545–9511LC1D95pp1.6103055595975806511511LC1D115pp2.50040758080901007515011LC1D150pp2.500Connection by lugs or barsIn the references selected above, insert a figure 6 before the voltage code.Example: LC1D09pp becomes LC1D096pp.Separate componentsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC1D09...D150 (D115 and D150 coils with built-in suppression as standard, by bi-directional peak limiting diode).50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7S7LC1D09...D65 (not available with "connection for lugs or bars")50 HzB5D5E5P5LC1D80...D11550 HzB5D5E5F5FE5M5P5U5Q5V5N5R5S560 HzB6–E6F6–M6–U6Q6––R6–d.c. supplyVolts122436486072110125220250440LC1D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 UcJDBDCDEDNDSDFDGDMDUDRDLC1D40A ...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JD(5)(5)(5)(5)(5)(5)(5)(5)(5)RDLC1D80...D95U 0.85...1.1 UcJDBDCDEDNDSDFDGDMDUDRDU 0.75...1.2 UcJWBWCWEW–SWFW–MW––LC1D115 and D150 (coil with built-in suppression device as standard)U 0.75...1.2 Uc–BD–EDNDSDFDGDMDUDRDLow consumption DC (for low consumption AC/DC: Deca green contactors, page B8/18)Volts c 512202448110220250 LC1D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. LC1D80 to D95 a: clip-on mounting on 35 mm 5 rail NSYSDR or 75 mm 5 rail AM1DL or screw fixing. LC1D80 to D95 c: clip-on mounting on 75 mm 5 rail AM1DL or screw fixing. LC1D115 and D150: clip-on mounting on 2 x 35 mm 5 rails NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.160 kg from LC1D09 to D38, 0.075 kg from LC1D40A to D80A and 1 kg for LC1D80 and D95.(4) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(5) For these coil voltages, choose from Deca green contactors. Same product ref. radical, just add BBE coil voltage code for 24 V DC, BNE for 24-60V AC/DC, EHE for 48-130 V AC/DC, KUE for 100-250 V AC/DC. Exemple: LC1D40ABBE.SELECT";i:612;s:2927:"B8/23ContactorsPB121713.tif3-pole contactors - Motor control up to 30 kW at 400 V, in category AC-3/ AC-3eStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated operational current in AC-3/ AC-3e 440 V up toInstantaneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1) Fixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 V1000 VkWkWkWkWkWkWkWAPower and control connections by spring terminalsLC1D123pp2.24445.55.5911LC1D093pp35.55.55.57.57.51211LC1D123pp47.59910101811LC1D183pp5.511111115152511LC1D253ppPB121723.eps7.515151518.518.532 (3)11LC1D323ppPower connections by EverLink® BTR screw connectors (4) and control by spring terminals1118.5222222304011LC1D40A3pp1522253030335011LC1D50A3pp18.530373737376511LC1D65A3pp2237373737376611LC1D80A3ppConnection by Faston connectorsThese contactors are fitted with Faston connectors: 2 x 6.35 mm on the power poles and 1 x 6.35 mm on the coil and auxiliary terminals.For contactors LC1D09 and LC1D12 only, replace the figure 3 with a 9 in the references selected above.Example: LC1D093pp becomes LC1D099pp.LC1D80A3ppSeparate componentsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440LC1D09...D80A50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7d.c. supplyVolts122436486072110125220250440LC1D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 UcJDBDCDEDNDSDFDGDMDUDRDLC1D40A...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 UcJDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC1D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D32: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) Must be wired with 2 x 4 mm2 cables in parallel on the upstream side. On the downstream side, outgoing terminal block LAD331 may be used (Quickfit technology, see page B1/18). When wired with a single cable, the product is limited to 25 A (11 kW/400 V motors).(4) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).TeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorProduct referencesSELECT";i:613;s:3600:"B8/24ContactorsPB121681.eps3-pole contactors - Load control from 25 to 200 A in category AC-1Non inductive loads maximum current (θ y 60 °C)utilisation category AC-1Number of polesInstan-taneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1)Weight (3)Fixing (2)LC1D09ppAkgConnection by screw clamp terminals25311LC1D09pp0.320orLC1D12pp0.32532311LC1D18pp0.33040311LC1D25pp0.37050311LC1D32pp0.375orLC1D38pp0.380PB121723.epsConnection by EverLink®, BTR screw connectors (4)60311LC1D40App0.85080311LC1D50App0.855orLC1D65App (5) 0.860orLC1D80App (5)0.860Connection by screw clamp terminals or connectors125 311LC1D80pp1.590orLC1D95pp (5)1.610200311LC1D115pp2.500orLC1D150pp (6)2.5003-pole contactors for connection by lugsIn the references selected above, insert a figure 6 before the voltage code.Example: LC1D09pp becomes LC1D096pp.LC1D80AppStandard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC1D09...D150 ( LC1D115 and D150 coils with built-in suppression device as standard)50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7S7LC1D09...D65 (not available with "connection for lugs or bars")50 HzB5D5E5P5LC1D80...D15050 HzB5D5E5F5FE5M5P5U5Q5V5N5R5S560 HzB6–E6F6–M6–U6Q6––R6–d.c. supplyVolts122436486072110125220250440LC1D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC1D40A ...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JD(7)(7)(7)(7)(7)(7)(7)(7)(7)RDLC1 or LP1D80 and D95U 0.85...1.1 UcJDBDCDEDNDSDFDGDMDUDRDU 0.75...1.2 UcJWBWCWEW–SWFW–MW––LC1D115 and D150 (coils with built-in suppression device fitted as standard)U 0.75...1.2 Uc–BD–EDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC1D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULProduct referencesTeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. LC1D80 and D95 a: clip-on mounting on 35 mm 5 rail NSYSDR or 75 mm 5 rail AM1DL or screw fixing. LC1 or LP1D80 to D95 c: clip-on mounting on 75 mm 5 rail AM1DL or screw fixing. LC1D115 and D150: clip-on mounting on 2 x 35 mm 5 rails NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.160 kg from LC1D09 to D38, 0.075 kg from LC1D40A to D80A and 1 kg for LC1D80 and D95.(4) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(5) Coordination tables according to the number of operating cycles, see AC-1 curve, page A5/58.(6) 32 A with 2 x 4 mm2 cables connected in parallel.(7) For these coil voltages, choose from Deca green contactors. Same product ref. radical, just add BBE coil voltage code for 24 V DC, BNE for 24-60 V AC/DC, EHE for 48-130 V AC/DC, KUE for 100-250 V AC/DC. Exemple: LC1D40ABBE.SELECT";i:614;s:2988:"B8/25Contactors3-pole contactors - Load control from 16 to 80 A in category AC-1Non inductive loads maximum current (θ y 60 °C)utilisation category AC-1Number of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1)Weight (3)Fixing (2)AkgConnection by spring terminals16 311LC1D093pp (4)0.320orLC1D123pp (4)0.32525311LC1D183pp (5)0.335orLC1D253pp (6)0.325orLC1D323pp (6)0.325Power connections by EverLink® BTR screw connectors (7) and control by spring terminals60311LC1D40A3pp0.85080311LC1D50A3pp (8) 0.855orLC1D65A3pp (8)0.860orLC1D80A3pp (8)0.8603-pole contactors for connection by Faston connectorsThese contactors are fitted with Faston connectors: 2 x 6.35 mm on the power poles and 1 x 6.35 mm on the coil terminals. For contactors LC1D09 and LC1D12 only, in the references selected from the previous page, insert a figure 9 before the voltage code. Example: LC1D09pp becomes LC1D099pp.Separate componentsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42.Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC1D09...D80A50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7S7d.c. supplyVolts122436486072110125220250440LC1D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC1D40A...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250 LC1D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.160 kg from LC1D09 to D38 and 0.075 kg from LC1D40A to D80A.(4) 20 A with 2 x 2.5 mm2 cables connected in parallel.(5) 32 A with 2 x 4 mm2 cables connected in parallel.(6) 40 A with 2 x 4 mm2 cables connected in parallel.(7) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(8) Coordination tables according to the number of operating cycles, see AC-1 curve, page A5/58.Characteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorProduct referencesTeSys ControlDeca ContactorsPB121713.tifLC1D123ppPB121723.epsLC1D80A3ppSELECT";i:615;s:3470:"B8/26ContactorsPB121714.tifLC1DT20pp4-pole contactors - Load control, 20 to 200 A in category AC-1Non inductive loads maximum current (θ y 60 °C)utilisation category AC-1Number of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the control voltage code (1)Weight (3)Fixing (2)AkgConnection by screw clamp terminals204–11LC1DT20pp0.3652211LC1D098pp0.365254–11LC1DT25pp0.3652211LC1D128pp0.365324–11LC1DT32pp0.4252211LC1D188pp0.425404–11LC1DT40pp0.4252211LC1D258pp0.425PB121715.tifConnection by EverLink®, BTR screw connectors604–11LC1DT60App1.090804–11LC1DT80App1.150Connection by screw clamp terminals or connectors6022––LC1D40008pp1.440orLP1D40008pp2.21080 22––LC1D65008pp1.450orLP1D65008pp2.2201254–––LC1D80004pp1.760orLP1D80004pp2.68522––LC1D80008pp1.840orLP1D80008pp2.910LC1DT80App2004–––LC1D115004pp2.860PB123776.epsLC1D65008pp4-pole contactors for connection by lugs or barsIn the references selected above, insert a figure 6 before the voltage code. Example: LC1DT20pp becomes LC1DT206pp. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC1D09...D150 and LC1DT20...DT80A (LC1D115 and D150 coils with built-in suppression device as standard)50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7–LC1D80...D11550 HzB5D5E5F5FE5M5P5U5Q5V5N5R5S560 HzB6–E6F6–M6–U6Q6––R6–d.c. supplyVolts122436486072110125220250440LC1D09...D25 and LC1DT20...DT40 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC1DT60A ...DT80A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JD(4)(4)(4)(4)(4)(4)(4)(4)(4)RDLP1D40...D80U 0.85...1.1 UcJDBDCDEDNDSDFDGDMDUDRDU 0.75...1.2 UcJWBWCWEW–SWFW–MW––LC1D115 (coil with built-in suppression device as standard)U 0.75...1.2 Uc–BD–EDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC1D09...D25 and LC1DT20...DT40 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC1D09 to D38 and LC1DT20 to DT80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. LC1D80 a: clip-on mounting on 35 mm 5 rail NSYSDR or 75 mm 5 rail AM1DL or screw fixing. LC1 or LP1D80 c: clip-on mounting on 75 mm 5 rail AM1DL or screw fixing. LC1D115 and D150: clip-on mounting on 2 x 35 mm 5 rails NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.160 kg from LC1D09 to D38, 0.075 kg from LC1DT60A and D80A and 1 kg for LC1D80.(4) For these coil voltages, choose from Deca green contactors. Same product ref. radical, just add BBE coil voltage code for 24 V DC, BNE for 24-60 V AC/DC, EHE for 48-130 V AC/DC, KUE for 100-250 V AC/DC. Exemple: LC1DT60ABBE.Product referencesTeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorSELECT";i:616;s:2350:"B8/27Contactors4-pole contactors - Load control, 20 to 80 A in category AC-1Non inductive loads maximum current (θ y 60 °C)utilisation category AC-1Number of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the voltage code (1)Weight (3)Fixing (2)AkgConnection by spring terminals204–11LC1DT203pp0.3802211LC1D0983pp0.380254–11LC1DT253pp0.3802211LC1D1283pp0.380324–11LC1DT323pp0.4252211LC1D1883pp0.425404–11LC1DT403pp0.4252211LC1D2583pp0.425Connection by EverLink®, BTR screw connectors and control circuit by spring terminals604–11LC1DT60A3pp 1.090804–11LC1DT80A3pp 1.150Separate componentsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC1D09...D25 and LC1DT20...DT80A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7–d.c. supplyVolts122436486072110125220250440LC1D09...D25 and LC1DT20... DT40 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC1DT60A...80A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC1D09...D25 and LC1DT20...DT40 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used. (2) LC1D09 to D38 and LC1DT20 to DT80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.160 kg from LC1D09 to D38, 0.075 kg for LC1DT60A and DT80A.Product referencesTeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorLC1DT253ppPB121716.tifLC1DT80A3ppPB121715.tifSELECT";i:617;s:3832:"B8/28ContactorsPB121681.epsContactors conforming to UL and CSA standards (North American market ) - 25 to 160 AStandard power ratings of motors 50/60 HzAssociated cable type 75 °C-CuUL continuous currentType of contactor required Basic reference, to be completed by adding the control voltage code (1)Single-phase 1 Ø3-phase 3 Ø120 V240 V208 V240 V480 V600 VFixing, connection (2)HPHPHPHPHPHPALC1D09ppConnection by screw clamp terminals1/312257.5AWG 18 - 1025LC1D09ppPB121706.tif0.52337.510AWG 18 - 1025LC1D12pp13551015AWG 18 - 832LC1D18pp2 37.57.51520AWG 14 - 640LC1D25pp2510102025AWG 14 - 650LC1D32pp (3)2510102025AWG 14 - 650LC1D38pp (3)Power connections by EverLink® BTR screw connectors and control by spring terminals3 510103030AWG 16 - 260LC1D40App37.515154040AWG 16 - 270LC1D50App51020204050AWG 16 - 280LC1D65App51020204050AWG 16 - 280LC1D80AppLC1D25ppConnection by screw clamp terminals or connectors7.51525306060AWG 10 - 2110LC1D80pp7.5 1525306060AWG 10 - 2110LC1D95pp––304075100AWG 8-1/0160LC1D115pp––4050100125AWG 8-1/0160LC1D150ppPB121707.tifApplications with High-Fault Short-Circuit ratingsHigh-fault short-circuit current ratings are: 100 kA (D09-80, D115-150) at 600 V with Class J fuses and 85 kA (D09-38), 100 kA (D40A-80, D115-150) at 480 V and 50 kA (D09-80, D115-150) at 600 V with circuit breakers.Application exampleFor a 15 HP-230 V motorSelect a contactor type LC1D50A.Information: the contactor rating selected corresponds to “size 2”, the associated cable is type AWG3 75 °C-Cu.Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts 244248110115120208220230240380400415440480500LC1D09...D150 (D115 and D150 coils with built-in suppression device as standard)50/60 HzB7D7E7F7FE7G7 (4)LE7 (4)M7P7U7Q7V7N7R7T7 (4)S7LC1D09...D65 (not available with "connection for lugs or bars")50 HzB5D5E5P5LC1D80...D11550 HzB5D5E5F5FE5G5–M5P5U5Q5V5N5R5–S560 HzB6–E6F6–G6L6M6–U6Q6––R6T6–d.c. supplyVolts122436486072110125220250440LC1D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC1D40A...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JD(5)(5)(5)(5)(5)(5)(5)(5)(5)RDLC1D80 and D95U 0.85...1.1 UcJDBDCDEDNDSDFDGDMDUDRDU 0.75...1.2 UcJWBWCWEW–SWFW–MW––LC1D115 and D150 (coils with built-in suppression device as standard)U 0.75...1.2 Uc–BD–EDNDSDFDGDMDUDRDLow consumptionVolts c51220244872110220250LC1D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELSLFLMLUL(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used. (2) LC1D09 to D65A: clip-on mounting on 35 mm 6 rail NSYSDR or screw fixing. LC1D80 and LC1D95: clip-on mounting on 35 mm 6 rail NSYSDR or 75 mm 6 rail AM1DL or screw fixing. LC1D115 and D150: clip-on mounting on 2 x 35 mm 6 rails NSYSDR or screw fixing.(3) Versions with spring terminals LC1D323 and LC1D383 are not certified UL/CSA.(4) Contactors LC1D40A, 50A, 65A, 80A: for this coil voltage use is only on 60 Hz.(5) For these coil voltages, choose from Deca green contactors. Same product ref. radical, just add BBE coil voltage code for 24 V DC, BNE for 24-60 V AC/DC, EHE for 48-130 V AC/DC, KUE for 100-250 V AC/DC. Exemple: LC1D40ABBE.LC1D80AppPB123774.epsLC1D95ppProduct referencesTeSys ControlDeca ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/94 to B8/97Schemes: pages B8/101 to B8/102Click HERE for access to online contactor selectorSELECT";i:618;s:3765:"B8/29ContactorsPB121717.tifLC2D12pp3-pole reversing contactors - Motors up to 75 kW / 400 V in category AC-3/ AC-3eHorizontally mounted - Pre-wired power connections.Standard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated operational current in AC-3/ AC-3e 440 Vup toInstantaneous auxiliary contactspercontactorContactors supplied with coilBasic reference, to be completed by adding the control voltage code (1)Weight (3)Fixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 V1000 VkWkWkWkWkWkWkWAkgPB121685.epsWith mechanical interlock, without electrical interlocking, for connection by screw clamp terminals or connectors2.24445.55.5–911LC2D09pp (4)0.68735.55.55.57.57.5–1211LC2D12pp (4)0.69747.5991010–1811LC2D18pp (4)0.7075.51111111515–2511LC2D25pp (4)0.7877.515151518.518.5–3211LC2D32pp (4)0.797918.518.518.518.518.5–3811LC2D38pp (4)0.8071118.522222230–4011LC2D40App1.870LC2D65App152225303033–5011LC2D50App1.88018.53037373737–6511LC2D65App1.890223745455545–8011LC2D80pp3.200254545455545–9511LC2D95pp3.200PB123819.tifLC2D1156ppWith mechanical interlock and electrical interlocking, for connection by screw clamp terminals or connectors3055595975806511511LC2D115pp6.35040758080901007515011LC2D150pp6.400Connection by lugs or barsFor reversing contactors LC2D09 to LC2D38, LC2D115 and LC2D150, in the references selected above, insert a figure 6 before the voltage code. Example: LC2D09pp becomes LC2D096pp.To build a 40 to 65 A reversing contactor, for connection by lugs, order 2 contactors LC1DppA6 and mechanical interlock LAD4CM (see page B8/43).Component partsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC2D09...D150 (D115 and D150 coils with built-in suppression device as standard)50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7S7LC2D80...D11550 HzB5D5E5F5FE5M5P5U5Q5V5N5R5S560 HzB6–E6F6–M6–U6Q6––R6–d.c.supplyVolts122436486072110125220250440LC2D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC2D40A...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC2D09...D38 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used. (2) LC2D09 to D65A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. LC2D80 and D95: clip-on mounting on 35 mm 5 rail NSYSDR or 75 mm 5 rail AM1DL or screw fixing. LC2D115 and D150: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) The weights indicated are for contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.330 kg for LC2D09 to D38, 0.150 kg for LC1D40A to D65A.(4) For reversing contactors with electrical interlocking pre-wired at the factory, add suffix V to the references selected above. Example: LC2D09B7 becomes LC2D09B7V.Note: when assembling a reversing contactor, it is good practice to incorporate a 50 ms time delay.Product referencesTeSys ControlDeca Reversing contactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/103 and B8/104Schemes: pages B8/105 and B8/106Click HERE for access to online contactor selectorSELECT";i:619;s:3356:"B8/30ContactorsTeSys ControlDeca Reversing contactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/103 and B8/104Schemes: pages B8/105 and B8/106PB121718.tif3-pole reversing contactors - Motors up to 15 kW / 400 V in category AC-3/ AC-3ePre-wired power connections.Mechanical interlock without electrical interlocking.Standard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated opera-tional current in AC-3/ AC-3e 440 Vup toInstan-taneous auxiliary contactspercontactorContactors supplied with coilBasic reference, to be completed by adding the voltage code (1)Weight (3)LC2D123pp Fixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 VkWkWkWkWkWkWAkgFor connection by spring terminals2.24445.55.5911LC2D093pp0.68735.55.55.57.57.51211LC2D123pp0.69747.59910101811LC2D183pp0.7075.511111115152511LC2D253pp0.7877.515151518.518.532 (4)11LC2D323pp0.797Power connection by EverLink®, BTR screw connectors (5) and control by spring terminals1118.5222222304011LC2D40A3pp1.8701522253030335011LC2D50A3pp1.88018.530373737376511LC2D65A3pp1.890For connection by Faston connectorsAll power connections are to be made by the customer.These contactors are fitted with Faston connectors: 2 x 6.35 mm on the power poles and 1 x 6.35 mm on the coil terminals.For reversing contactors LC2D09 and LC2D12 only, in the references selected above, replace the figure 3 before the voltage code with a figure 9.Example: LC2D093pp becomes LC2D099pp.Component partsAuxiliary contact blocks and add-on modules: see pages B8/36 to B8/42.Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC2D09...D65A50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7S7d.c. supplyVolts122436486072110125220250440LC2D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLC2D40A ...D65A (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.75...1.25 Uc JDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC2D09...D32 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/45 to B8/48.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC2D09 to D32: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. (3) The weights indicated are for reversing contactors with a.c. control circuit. For d.c. or low consumption control circuit, add 0.330 kg for LC2D09 to D38, 0.150 kg for LC1D40A to D65A.(4) Must be wired with 2 x 4 mm2 cables in parallel on the upstream side. On the downstream side, outgoing terminal block LAD331 may be used (Quickfit technology, see page B1/18).When wired with a single cable, the product is limited to 25 A (11 kW/400 V motors).(5) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).Product referencesClick HERE for access to online contactor selectorSELECT";i:620;s:2217:"B8/31ContactorsPB121719.eps4-pole changeover contactor pairs - 20 to 200 A in category AC-1Pre-assembled. Pre-wired power connections LC2DT20 to LC2DT40: mechanical interlock without electrical interlocking. LC2D80004: order separately 2 auxiliary contact blocks LADNp1 to obtain electrical interlocking between the 2 contactors (see page B8/36). For electrical interlocking incorporated in the mechanical interlock, please consult your Regional Sales Office.LC2D115004: mechanical interlock with integral, pre-wired electrical interlocking.LC2DT20ppFor connection by screw clamp terminals or connectorsUtilisation category AC-1Non-inductive loadsMaximum rated operational current(θ y 60 °C)Instantaneous auxiliary contacts per contactorContactors supplied with coilWeightBasic reference, to be completed by adding the voltage code (1) (2)Fixing (3)AkgPB123820.eps2011LC2DT20pp0.7302511LC2DT25pp0.7303211LC2DT32pp0.8504011LC2DT40pp0.850125––LC2D80004pp3.200LC2D115004pp200––LC2D115004pp7.400For connection by lugs or bars2011LC2DT206pp0.7302511LC2DT256pp0.7303211LC2DT326pp0.8504011LC2DT406pp0.850For customer assemblyFor connection by screw clamp terminals or connectors6011LC1DT60App (4)–8011LC1DT80App (4)–For connection by lugs or bars6011LC1DT60A6pp (4)–8011LC1DT80A6pp (4)–Auxiliary contact blocks and add-on modules: see pages B8/36 to B8/42. Note: when assembling changeover contactor pairs, it is good practice to incorporate a 50 ms time delay. (1) See note (2) on next page.(2) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(3) LC2DT20 to LC2DT80: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing. LC2D80: clip-on mounting on 35 mm 5 rail NSYSDR or 75 mm 5 rail AM1DL or screw fixing. LC2D115: clip-on mounting on 2 x 35 mm 5 rails NSYSDR or screw fixing.(4) For these operational currents, order 2 identical contactors and a mechanical interlock LAD4CM (see page B8/43).Product referencesTeSys ControlDeca Changeover contactorsCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/103 and B8/104Schemes: pages B8/105 and B8/106Click HERE for access to online contactor selectorSELECT";i:621;s:2269:"B8/32ContactorsTeSys ControlDeca Changeover contactorsProduct referencesCharacteristics: pages B8/80 to B8/87Dimensions: pages B8/103 and B8/104Schemes: pages B8/105 and B8/1064-pole changeover contactor pairs for 20 to 80 A control in category AC-1Pre-assembled, for customer assemblyPre-wired power connections, for connection by spring terminals.Utilisation category AC-1Non-inductive loadsMaximum rated operational current(θ y 60 °C)Instantaneous auxiliary contacts per contactorContactors supplied with coilBasic reference, to be completed by adding the control voltage code (1)Fixing (2)A2011LC2DT203ppPower connection by EverLink®, BTR screw connectors (3) and control by spring terminals6011LC1DT60A3pp (4)8011LC1DT80A3pp (4)Separate componentsAuxiliary contact blocks and add-on modules: see pages B8/19 to B8/19. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office)a.c. supplyVolts244248110115220230240380400415440500LC2DT20...DT40, LC2DT60A...DT80A50/60 HzB7D7E7F7FE7M7P7U7Q7V7N7R7–LC2D80004...D11500450 HzB5D5E5F5FE5M5P5U5Q5V5N5R5S560 HzB6–E6F6–M6–U6Q6––R6–d.c. supplyVolts122436486072110125220250440LC2DT20...DT40, LC1DT60...DT80 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.7...1.25 UcJDBDCDEDNDSDFDGDMDUDRDLow consumptionVolts c 512202448110220250LC2DT20...DT40 (coils with integral suppression device fitted as standard, by bi-directional peak limiting diode)U 0.8...1.25 UcALJLZLBLELFLMLULFor other voltages between 5 and 690 V, see pages B8/19 to B8/19.(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) Clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/19).(4) For these operational currents, order 2 identical contactors and a mechanical interlock LAD4CM (see page B8/19).Example of necessary components for customer assembly: 2 x LC1DT80A3pp contactors + LAD4CM mechanical interlock ++Click HERE for access to online contactor selectorSELECT";i:622;s:2073:"B8/33ContactorsCharacteristics: pages B8/80 to B8/87Dimensions: page B8/103Schemes: pages B8/105 and B8/106Product referencesTeSys ControlDeca green Reversing contactorsDeca green contactors have a dark grey casing and a 3-character code voltage.PB121720.tif3-pole reversing contactors - Motors up to 37 kW / 400 V in category AC-3/ AC-3ePre-wired power connectionsStandard power ratings of 3-phase motors 50-60 Hz in category AC-3/ AC-3e(θ y 60 °C)Rated opera-tional current in AC-3/ AC-3e 440 Vup toInstan- taneous auxiliary contactspercontactorContactors supplied with coilPartial reference, to be completed by adding the control voltage code (1)WeightFixing (2)220 V 230 V380 V400 V415 V440 V500 V660 V 690 VkWkWkWkWkWkWAkgPB121721.tifWith mechanical interlock, without electrical interlocking, for connection by screw clamp terminals or Everlink BTR screw connectors (3) (4)2.24445.55.5911LC2D09ppp0.78335.55.55.57.57.51211LC2D12ppp0.79347.59910101811LC2D18ppp0.8035.511111115152511LC2D25ppp0.9137.515151518.518.53211LC2D32ppp0.923918.518.518.518.518.53811LC2D38ppp0.9331118.5222222304011LC2D40Appp (3)2.1541522253030335011LC2D50Appp (3)2.16418.530373737376511LC2D65Appp (3)2.1742237373737376611LC2D80Appp (3)2.174Auxiliary contact blocks and add-on modulesSee pages B8/36 to B8/42. Coil voltage codesAC/DC 24 V DC supplyVolts24 (DC only)24-6048-130100-250LC2D09...D32, LC2D40A ... D80AU 0.85...1.1 UcBNEEHEKUELC2D09...D38U 0.8...1.2 UcBNELC2D40A ...D80AU 0.8...1.2 UcBBE(1) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(2) LC2D09 to D80A: clip-on mounting on 35 mm 5 rail NSYSDR or screw fixing.(3) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(4) Electrical interlocking is recommended when 2 orders (direct and reverse) could appeared in the same time. LC2D09pppLC2D40ApppClick HERE for access to online contactor selectorSELECT";i:623;s:2909:"B8/34ContactorsTeSys ControlDeca Contactors for switching capacitors banksContactors for switching 3-phase capacitor banks (power factor correction)Special contactors LC1DpK are designed for switching 3-phase, single or multiple-step capacitor banks (up to 6 steps). Over 6 steps, it is recommanded to use chokes in order to limit the inrush current and thus improve the lifetime of the installation. The contactors are conform to standards IEC 60070 and 60831, UL and CSA.Contactor applications Specification Contactors fitted with a block of early make poles and damping resistors, limiting the value of the current on closing to 60 In max.This current limitation increases the life of all the components of the installation, in particular that of the fuses and capacitors.Operating conditionsShort-circuit protection must be provided by gI type fuses rated at 1.7...2 In. It will ensure the service continuity of the whole installation in case of a capacitor contactor end of lifeMaximum operational powerThe power values given in the selection table below are for the following operating conditions:Prospective peak current at switch-onLC1DpK200 InMaximum operating rateLC1DFK, DGK, DLK, DMK 240 operating cycles/hourLC1DPK, DTK, DWK240 operating cycles/hourElectrical durability at nominal loadAll contactor ratings400 V300 000 operating cycles690 V200 000 operating cycles Operational power at 50/60 Hz (1) θ y 60 °C (2)Instantaneous auxiliary contactsTightening torque on cable endBasic reference, to be completed by adding the voltage code (3) (4)Weight230 V400 V440 V690 V415 VkVARkVARkVARkVARN/ON/CN.mkg712.512.521121.7LC1DFKpp0.4309.516.716.728.5122.5LC1DGKpp0.45011202133122.5LC1DLKpp0.60014252742122.5LC1DMKpp0.63017303250125LC1DPKpp 1.30022404367125LC1DTKpp1.300356367104129LC1DWK12pp1.650Switching of multiple-step capacitor banks (with equal or different power ratings)The correct contactor for each step is selected from the above table, according to the power rating of the step to be switched.Example: 50 kVAR 3-step capacitor bank. Temperature: 50 °C and U = 400 V or 440 V.One 25 kVAR step: contactor LC1DMK, one 15 kVAR step: contactor LC1DGK, and one 10 kVAR step: contactor LC1DFK.(1) Operational power of the contactor according to the scheme on the page opposite.(2) The average temperature over a 24-hour period, in accordance with standards IEC 60070 and 60831 is 45 °C.(3) Standard control circuit voltages (the delivery time is variable, please consult your Regional Sales Office): Volts244811012022023024038040041544050/60 HzB7E7F7G7M7P7U7Q7V7N7R7(4) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.Product referencesDimensions, schemes:page B8/107LC1DGKpp, LC1DLKpp, LC1DMKppPB121722.epsLC1DWK12ppPB123777.epsClick HERE for access to online contactor selectorSELECT";i:624;s:168:"B8/35ContactorsDB439405.epsSee page opposite for mounting possibilities according to the contactor type(1)or(1) No left side mounting on Deca green contactors.";i:625;s:3190:"B8/36ContactorsInstantaneous auxiliary contact blocks for connection by screw clamp terminalsFor use in normal operating environmentsClip-on mountingNumber of contacts per blockCompositionReferenceFront1–––1–LADN10––––1LADN012–––11LADN11–––2–LADN20––––2LADN024–––22LADN22LADN22S (1)–––13LADN13–––4–LADN40––––4LADN04–––31LADN314 incl. 1 N/O & 1 N/C make before break–––22LADC22Side (contact blocks compatible with AC coil contactors only)2–––11LAD8N11–––2–LAD8N20––––2LAD8N02For terminal referencing conforming to EN 50012Front on 3P contactors and 4P contactors 20 to 80 A2–––11LADN11G4–––22LADN22GFront on 4P contactors125 to 200 A2–––11LADN11P4–––22LADN22PWith dust and damp protected contacts, for use in particularly harsh industrial environmentsFront2–2–––LA1DX2011–––LA1DX112––––LA1DX02–22––LA1DY20 (2)4–2–2–LA1DZ40–2–11LA1DZ31Instantaneous auxiliary contact blocks for connection by lugsThis type of connection is not possible for blocks with 1 contact or blocks with dust and damp protected contacts. For all other instantaneous auxiliary contact blocks, add the figure 6 to the end of the references selected above. Example: LADN11 becomes LADN116.Instantaneous auxiliary contact blocks for connection by spring terminalsThis type of connection is not possible for LAD8, LADN with 1 contact or blocks with dust and damp protected contacts. For all other contact blocks, add the figure 3 to the end of the references selected above. Example: LADN11 becomes LADN113.Maximum number of auxiliary contacts that can be fitted:ContactorsInstantaneous auxiliary contactsTime delayFront mountedTypeNumber of poles and sizeSide mountedFront mounted1 contact2 contacts4 contactsACAC/DC3PLC1D09...D381 on LH or 1 on RH side(3)and–1or 1or 1LC1D40A...D80A1 on LH or 1 on RH sideand–1or 1or 1LC1D80 and D95 (50/60 Hz)1 on each sideor2and 1or 1or 1LC1D80 and D95 (50 or 60 Hz)1 on each sideand2and 1or 1or 1LC1D115 and D1501 on LH sideand–1or 1or 14PLC1DT20...DT401 on LH sideand–1or 1or 1LC1DT60A and DT80A1 on LH or 1 on RH sideand–1or 1or 1LC1D40008, D65008 and D801 on each sideor1or 1or 1or 1LC1D1151 on each sideand1or 1or 1or 1DC3PLC1D09...D38––1or 1or 1LC1D40A...D80A––1or 1or 1LC1D80 and D95–1or 1or 1or 1LC1D115 and D1501 on LH sideand–1or 1or 14PLC1DT20...DT40––1or 1or 1LC1DT60A and DT80A––1or 1or 1LC1D40008, D65008 and D80–2and 1or 1or 1LC1D1151 on each side–and 1or 1or 1LC (4) (5)3PLC1D09...D38––1––4PLC1DT20...DT40––1––(1) With red front face - for safety chain indication. (2) Device fitted with 4 earth screen continuity terminals.(3) 1 on LH side for AC coils - 1 on RH side for AC/DC coils.(4) LC: low consumption.(5) LA1Dppp dust & damp proof auxiliary contact blocks not allowed.Product referencesTeSys ControlDeca Contactors - Auxilliary contact blocksLADN22PB121689.epsLAD8N11PB123773.epsLA1DXpp, LA1DZppPB123821.epsCharacteristics: pages B8/88 and B8/89Curves: page B8/90Dimensions: pages B8/94 and B8/95";i:626;s:2653:"B8/37ContactorsPB123803_R.epsDB439399.epsTime delay auxiliary contact blocks for connection by screw clamp terminalsMaximum number of auxiliary contact blocks that can be fitted per contactor, see page B8/36.Sealing cover to be ordered separately, see page B8/42.LADS2: with switching time of 40 ms ± 15 ms between opening of the N/C contact and closing of the N/O contact.LADTpClip-on mountingNumber of contactsTime delayReferenceTypeSetting rangeFront1 N/O + 1 N/COn-delay0.3...3 sLADT01...30 sLADT210...180 sLADT41...30 sLADS2Off-delay0.3...3 sLADR01...30 sLADR210...180 sLADR4PB123803_R.epsDB439400.epsTime delay auxiliary contact blocks for connection by lugsAdd the figure 6 to the end of the references selected above. Example: LADT0 becomes LADT06.Time delay auxiliary contact blocks for connection by spring terminalsAdd the figure 3 to the end of the references selected above. Example: LADT0 becomes LADT03.LADTp3Time delay auxiliary contact blocks for connection by Faston connectorsAdd the figure 9 to the end of the references selected above. Example: LADT0 becomes LADT09.PB123772_R.epsLAD6K10pDB439401.epsMechanical latch blocks (1)Clip-on mountingUnlatching controlFor use on contactorBasic reference, to be completed by adding the control voltage code (2) (3)FrontManual or electricLC1D09...D38 (a or c) (4)LC1DT20...DT40 (a or c)LAD6K10pLC1D40A...D80A (3 P a or c)LC1DT60A and DT80A(4 P a or c)LAD6K10pLC1D80...D150 (3 P a)LC1D80 and D150 (3 P c)LC1D80 (4 P a)LC1D80 and D115 (4 P a)LP1D80 and LC1D115 (4 P c)LA6DK20pLC1D40 and D65 (4 P a)LP1D40 and D65 (4 P c)LA6DK10p(1) The mechanical latch block must not be powered up at the same time as the contactor. The duration of the control signal for the mechanical latch block and the contactor should be: u 100 ms for a contactor operating on an a.c. supply, u 250 ms for a contactor operating on a d.c. supply. Maximum impulse duration for the LAD6K10p mechanical latch block: 10 seconds.(2) Standard control circuit voltages (for other voltages, please consult your Regional Sales Office): Volts 50/60 Hz, c2432/3642/4860/72100110/127220/240256/277380/415CodeBCEENKFMUQ(3) Please check the availability of your variant in the index page B8/55. The SEARCH function of your viewer can be used.(4) The DC, low consumption contactors ( coil code pL) are not compatible with the mechanical latch blocks LAD6K10p.Product referencesCharacteristics:pages B8/88 to B8/90Dimensions:pages B8/94 to B8/97Schemes: pages B8/101 to B8/102TeSys ControlDeca Contactors - Time delay auxilliary contact blocks";i:627;s:3409:"B8/38ContactorsPB121400.epsDF537787.epsRC circuits (Resistor-Capacitor)Effective protection for circuits highly sensitive to "high frequency" interference. For use only in cases where the voltage is virtually sinusoidal. i.e. less than 5 % total harmonic distortion. Voltage limited to 3 Uc max. and oscillating frequency limited to 400 Hz max. Slight increase in drop-out time (1.2 to 2 times the normal time).MountingFor use with contactor (1)ReferenceRatingTypeV aV cLAD4RCU LAD4ppClip-on side mounting (2) (3)D09...D38 (3P)DT20...DT4024...48 –LAD4RCE50...127–LAD4RCG110...250 –LAD4RCUPB123822.epsDB439402.epsClip-on front mounting (2) (3)D40A...D65A (3P)DT60A...DT80A (4P)24...48–LAD4RC3E50...127–LAD4RC3G110...240–LAD4RC3U380...415–LAD4RC3NScrew fixing (4)D80...D150 (3P)D40...D115 (4P)24...48–LA4DA2E50...127–LA4DA2G110...240–LA4DA2U380...415–LA4DA2NVaristors (peak limiting)Protection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks. Slight increase in drop-out time (1.1 to 1.5 times the normal time).Clip-on side mounting (2) (3)D09...D38 (3P)DT20...DT4024...48 –LAD4VE50...127–LAD4VG110...250–LAD4VUClip-on front mounting (2) (3)D40A...D65A (3P)DT60A...DT80A (4P)24...48 24...48LAD4V3E50...12750...127LAD4V3G110...250110...250LAD4V3UScrew fixing (4)D80...D115 (3P) D80...D115 (4P)24...48–LA4DE2E50...127–LA4DE2G110...250–LA4DE2UD80...D95 (3P)D80 (4P)–24...48LA4DE3E–110...250LA4DE3ULAD4RC3p, LAD4V3p,LAD4D3U, LAD4T3pPB121547.epsDF537789.epsLA4DC3UFlywheel diodesNo overvoltage or oscillating frequency. Increase in drop-out time (6 to 10 times the normal time). Polarised component.Clip-on side mounting (3) (5)D09...D38 (3P), DT20...DT40–5...600LAD4DDLClip-on front mounting (3)D40A...D65A (3P), DT60A...DT80A (4P)–24...250LAD4D3UScrew fixing (4)D80 and D95 (3P), D40...D80 (4P)–24...250LA4DC3UBidirectional peak limiting diodesProtection provided by limiting the transient voltage to 2 Uc max. Maximum reduction of transient voltage peaks.Clip-on side mounting (2) D09...D38 (3P)DT20...DT40 (4P) (6)24–LAD4TB–24LAD4TBDL72–LAD4TS–72LAD4TSDL–125LAD4TGDL–250LAD4TUDLClip-on front mounting (2)D40A...D65A (3P)DT60A...DT80A (4P) (6)12...2412...24LAD4T3B25...7225...72LAD4T3S73...12573...125LAD4T3G126...250126...250LAD4T3U251...440251...440LAD4T3RScrew fixing (4)–24LA4DB3B–72LA4DB3S(1) For satisfactory protection, a suppressor module must be fitted across the coil of each contactor except for Deca green (ppE coil), as surge protection is already embedded.(2) Clipping-on makes the electrical connection. The overall size of the contactor remains unchanged.(3) In order to install these accessories, the existing suppression device must first be removed.(4) Mounting at the top of the contactor on coil terminals A1 and A2.(5) Not compatible with low consumption contactors.(6) From D09 to D65A and from LC1DT20 to DT80A, d.c, low consumption are fitted with a built-in bidirectional peak limiting diode suppressor as standard. This bidirectional peak limiting diode is removable and can therefore be replaced by the user. (See reference above).DF537790.epsLAD4DDL or LAD4TpDLTeSys ControlDeca Contactors - Suppressor modulesProduct referencesPB121401.epsLAD4DDLCharacteristics: page B8/91";i:628;s:162:"B8/39Contactors(1)(1)See page opposite for mounting possibilities according to the contactor type.DB425486.eps(1) For Deca contactor with AC coil only.";i:629;s:2016:"B8/40ContactorsElectronic serial timer modules (1) b3-pole contactors LC1D09 to D38: mounted using adapter LAD4BB, to be ordered separately, see below. b3-pole contactors LC1D40A to D65A: mounted using adapter LAD4BB3, to be ordered separately, see below. b3-pole contactors LC1D80 to D150 and 4-pole contactors LC1D40 to D115: mounted directly across terminals A1 and A2 of the contactor.On-delay typeOperational voltage aTime delayReference24...250 V100...250 VLC1D09...D80A (3P)LC1D80...D150 (3P)0.1...2 sLA4DT0U1.5...30 sLA4DT2U25...500 sLA4DT4UInterface modules b3-pole contactors LC1D09 to D38: mounted using adapter LAD4BB, to be ordered separately, see below. b3-pole contactors LC1D40A to D80A: mounted using adapter LAD4BB3, to be ordered separately, see below.Relay interfaceOperational voltage aSupply voltage E1-E2 (c)Reference24...250 VLC1D09...D150 (3P)24 VLA4DFBStatic relay interfaceOperational voltage aSupply voltage E1-E2 (c)Reference24...250 V100...250 VLC1D09...D80A (3P)LC1D80...D115 (3P)24 VLA4DWBAdapter kit for low control signalFor use on contactorsCompositionReferenceLC1D40A...D80A (3P) (2) b1 LAD4BB3 coil wiring adapter b1 LA4DFB relay interface moduleLA4DBLWiring adapters for coil retrofit of 3 pole contactorsFor adapting existing wiring to a new productFor use on contactorsReferenceLC1D09...D38Without coil suppressionLAD4BB (3)With coil suppressiona 24...48 VLAD4BBVEa 50...127 VLAD4BBVGa 110...250 VLAD4BBVULC1D40A...80AWithout coil suppressionLAD4BB3(1) For 24 V operation, the contactor must be fitted with a 21 V coil (code Z). See pages B8/45 to B8/48.(2) The kit is compatible with a coil voltage of a 24 V to a 250 V (B7 to U7) and c 24 V to c 250 V (BD to UD).(3) LAD4BB can not be used with 4 poles contactors.Product referencesCharacteristics:page B8/92Dimensions:page B8/94Schemes: page B8/102TeSys ControlDeca Contactors - AccessoriesLA4DTppPB121548.epsLA4DFBPB121549.epsLA4DBLPB121550.epsLAD4BBVUPB121402.eps";i:630;s:2082:"B8/41ContactorsPB121360.epsAccessories for main pole and control connectionsDescriptionFor use with contactors LC1Sold in lots ofUnit referenceacConnectors for cable, size (1 connector)4-pole 10 mm2DT20, DT25DT20, DT251LAD92560LA9D32603-pole 25 mm2D09...D38D09...D381LA9D3260PB121363.epsLA9D11560pEverLink® terminal block3-poleD40A...D80AD40A...D80A1LAD96560Connectors for cables (2 connectors)3-pole 120 mm2D115, D150D115, D1501LA9D1156034-pole 120 mm2D115D1151LA9D115604PB121361.epsLA9D115503Connectors for lug type terminals (2 connectors)3-poleD1156, D1506D1156, D15061LA9D115503Protective coversfor connectors for lug type terminals3-poleD40A6...D80A6D40A6...D80A61LAD96570D1156, D1506D1156, D15061LA9D115703 (1)PB121362.eps4-poleD60A6...D80A6D60A6...D80A61LAD96580D1156, D1506D1156, D15061LA9D115704IP 20 covers for lug type terminals (for mounting with circuit breakers GV3 Ppp6 and GV3 Lpp6)3 polesD40A6...D80A6D40A6...D80A61LAD96575LAD96570Links for parallel connection of2 polesD09...D38D09...D3810LA9D2561PB121364.epsDT32, DT40 (4P)DT32, DT40 (4P)10LAD96061D40A...D80AD40A...D80A1LAD9P32D80, D95D80, D952LA9D809613 poles D09...D38D09...D3810LAD9P3 (2)LA9D11570pD40A...D80AD40A...D80A1LAD9P33PB121365.epsD80, D95D80, D951LA9D809624 polesDT20, DT25DT20, DT252LA9D1263D80D802LA9D80963LA9D80962Staggered coil connection–D8010LA9D09966PB121366.epsControl circuit take-off from main poleD80, D95D80, D9510LA9D8067D115, D150D115, D15010LA9D11567LA9D11567Spreaders for increasing the pole pitch to 45 mmD115, D150D115, D1503GV7AC03(1) For 3-pole contactors: 1 set of 6 covers, for 4-pole contactors: 1 set of 8 covers.(2) Separate connecting bar for connecting 2 poles in parallel.Product referencesTeSys ControlDeca Contactors - Accessories> Click on QR code to downloadControl Panel Technical Guide:Mounting and wiring accessories for TeSys K, Deca, F contactors. Star-delta, reverser, low-high speed control motor starters and changeover applications - Product references and details on all kits and wiring accessories.>> Ref. Document: CPTG011_EN ";i:631;s:2672:"B8/42ContactorsSets of contacts and arc chambersDescriptionFor contactorReferenceSets of contacts3-poleLC1D115LA5D1158031LC1D150LA5D1508034-poleLC1D115004LA5D115804Arc chambers3-poleLC1D115LA5D11550PB121367.epsPower connection accessoriesTerminal blockFor supply to one or more GV2G busbar setsGV1G09Set of 63 A busbars for parallelling of contactors2 contactors LC1D09...D18 or D25...D38GV2G2454 contactors LC1D09...D18 or D25...D38GV2G445Set of 115 A busbars for parallelling of contactors2 contactors LC1D40A...D80AGV3G2643 contactors LC1D40A...D80AGV3G364 (1)Set of S-shape busbarsFor circuit breakers GV3Ppp and GV3Lpp (3) and contactors LC1D40A...D73AGV3SGV2G245PB121368.epsPB121369.epsGV1G09GV3SPB123823.epsProtection accessoriesDescriptionUseSold in lots ofReferenceSealing coverFor LADT, LADR1LA9D901Safety cover preventing access to the moving contact carrierLC1D09...D80A and DT20...DT80A1LAD9ET1Red cover (for safety chain indication)1LAD9ET1SRed cover (for safety chain indication)1LAD9ET3SLC1D115 and D1501LAD9ET4Red cover (for safety chain indication)1LAD9ET4SLAD9ET1PB123804.epsLAD9ET1SMarking accessoriesDescriptionUseSold in lots ofUnit referenceSheet of 64 blank legends, self-adhesive, 8 x 33 mm (2)Contactors (except 4P) LC1D80...D115, LADN (4 contacts), LA6DK10LAD21Sheet of 112 blank legends, self-adhesive, 8 x 12 mm (2)LADN (2 contacts), LADT, LADR, LRD10LAD22Marker holder snap-in, 8 x 22 mm4-pole contactors, LC1D80...D115, LA6DK100LA9D92Marker holder snap-in, 8 x 18 mmLC1D09...D65A, LC1DT20...DT80A,LADN (4 contacts), LADT, LADR100LAD90Bag of 300 blank legends self-adhesive, 7 x 21 mmOn holder LA9D921LA9D93PB123824.epsLAD21...22PB123825.epsLAD90PB121374.epsMounting accessoriesRetrofit plate for screw fixingFor replacement of LC1D40 to D80 with LC1D40A to D80A1LAD7X3Mounting plateFor replacement of LC1F115 or F150 with LC1D115 or D1501LA9D730Size 4 Allen key, insulated, 1000 VFor use on contactors LC1D40A to LC1D1505LADALLEN4(1) With this set of busbars, any one contactor can be supplied directly by its EverLink® double cage power terminal block. The other two contactors are supplied by the busbar set. The 115 A limitation is therefore applied to these two contactors. Example: 1 LC1D65A supplied directly + 1 contactor LC1D65A and 1 contactor LC1D50A supplied via the busbar set = 115 A. This combination is compatible with busbar set GV3G364.(2) These legends are for sticking onto the safety cover of the contactors or add-on block, if fitted.(3) With 73 A current limit for GV3L73, GV3P73.LAD7X3Product referencesTeSys ControlDeca Contactors - Accessories";i:632;s:3561:"B8/43ContactorsPB121375.epsLAD9R1For 3-pole reversing contactors for motor controlContactors with screw clamp terminals or connectors. Horizontally mounted, assembled by customer.DescriptionFor contactors (1)(2 identical contactors)ReferenceKits for assembly of reversing contactorsKit comprising: ba mechanical interlock LAD9V2 with electrical interlocking LAD9V1 ba set of power connections LAD9V5 (parallel) and LAD9V6 (reversing).LC1D09 to D38LAD9R1VPB121376.epsLAD9R3Kit comprising: ba mechanical interlock LAD9V2 without electrical interlocking ba set of power connections LAD9V5 (parallel) and LAD9V6 (reversing).LC1D09 to D38LAD9R1 Kit comprising: ba mechanical interlock LAD4CM ba set of power connections LA9D65A69.LC1D40A to D80ALAD9R3Mechanical interlocks Mechanical interlock with integral electrical interlockingLC1D80 and D95 (a)LA9D4002LC1D80 and D95 (c)LA9D8002LC1D115 and D150LA9D11502Mechanical interlock without integral electrical interlockingLC1D09 to D38LAD9V2PB121377.epsLA9D8069LC1D40A to D80ALAD4CMLC1D80 and D95 (a)LA9D50978LC1D80 and D95 (c)LA9D80978Sets of power connectionsComprising: ba set of parallel bars ba set of reverser bars.LC1D09 to D38 with screw clamp terminals or connectorsLAD9V5 + LAD9V6LC1D09...D32 with spring terminal connectionsLAD9V12 + LAD9V13 (2)LC1D40A to D80ALA9D65A69LC1D80 and D95 (a)LA9D8069LC1D80 and D95 (c)LA9D8069LC1D115 and D150LA9D11569For star-delta starterDescriptionFor contactorsReferenceWithout timer LADS2Mounting kit comprising: b1 time delay contact block LADS2 (LC1D09...D95), bpower circuit connections (LC1D09...D95), bhardware required for fixing the contactors onto the mounting plate (LC1D80 & D95).LC1D09 to D38 (3)LAD91217LAD91218LC1D25 to D38 (4)LAD93217LAD93218LC1D40A to D80ALAD9SD3–LC1D50 to D80 (5)LA9D8017–LC1D80 & D95 (6)LA9D8018–Equipment mounting platesLC1D09 to D38LA9D12974LC1D40A to D80A–LC1D80LA9D80973(1) To order the 2 contactors: see pages B8/23 and B8/29.(2) To assemble a reversing contactor with spring terminal connections, the following components must be ordered: - 1 mechanical interlock LAD9V2, - 1 upstream power connection kit and 1 downstream power connection kit. Upstream power connection kit LAD9V10: installed in the Quickfit system with power connection module LAD341. (If module LAD341 is not used, replace LAD9V10 with LAD9V12). Downstream power connection kit LAD9V11: installed in the Quickfit system with outgoing terminal block LAD331. (If LAD331 is not used, replace LAD9V11 with LAD9V13).(3) For assembly of 3 contactors of the same physical size (depth).(4) For assembly of Main + Delta contactors LC1D25 to LC1D38 with Star contactor LC1D09 to LC1D18.(5) For assembly of Main + Delta contactors LC1D80 with Star contactor LC1D50 or D65(6) For assembly of 3 x LC1D80 or 3 x LC1D95 or with Main + Delta contactors LC1D95 with Star contactor LC1D80.Note : LA9D8017 is without mechnical interlock and LA9D8018 is with mechnical interlock.Product referencesTeSys ControlDeca Contactors - Assembly kitsDimensions: pages B8/103 and B8/104Schemes:pages B8/105 and B8/106PB123826.epsLAD91217PB121378.epsLAD91218> Click on QR code to downloadControl Panel Technical Guide:Mounting and wiring accessories for TeSys K, Deca, F contactors. Star-delta, reverser, low-high speed control motor starters and changeover applications - Product references and details on all kits and wiring accessories.>> Ref. Document: CPTG011_EN Discover in videoDiscover in video";i:633;s:2396:"B8/44ContactorsFor 4-pole changeover contactor pairs (3-phase distribution + neutral)Contactors with screw clamp terminals or connectors. Horizontally mounted, assembled by customer.DescriptionFor contactors (1)(2 identical contactors)ReferencePB121379.epsKits for assembly of changeover contactor pairsKit comprising: ba mechanical interlock LAD9V2 with electrical interlocking LAD9V1, ba set of power connections (changeover) LAD9V7.LC1DT20 to DT40 with screw clamps or connectorsLADT9R1VLADT9R1VKit comprising: ba mechanical interlock LAD9V2 without electrical interlocking, ba set of power connections (changeover) LAD9V7.LC1DT20 to DT40 with screw clamps or connectorsLADT9R1Mechanical interlocksWith integral electrical interlockingLC1D80004LA9D4002LP1D80004LA9D8002LC1D115004LA9D11502PB121381.epsWithout integral electrical interlocking LC1DT20 to DT40 with screw clamps or connectorsLAD9V2 (2)LC1DT203 to DT403 with spring terminalsLAD9V2 (2)LC1DT60A and DT80ALAD4CMLC1D80004LA9D50978LA9D50978LP1D80004LA9D80978Sets of power connectionsComprising a set of parallel barsLC1D80004LA9D8070PB121380.epsLP1D80004LA9D8070LC1D115004LA9D11570LC1D80004LA9D8070 (2)LP1D80004LA9D8070 (2)LA9D8070For 3-pole changeover contactor pairsContactors with screw clamp terminals or connectors. Horizontally mounted, assembled by customer.DescriptionFor contactors (1)(2 identical contactors)ReferenceKits for assembly of changeover contactor pairsPB121382.epsKit comprising: ba mechanical interlock LAD4CM ba set of parallel bars LA9D65A6LC1D40A...D80ALAD9R3SMechanical interlocksWithout integral electrical interlockingLC1D40A...D80ALAD4CMWith integral electrical interlockingLC1D115 and D150LA9D11502Sets of power connectionsLAD9R3SComprising a set of parallel barsLC1D40A...D80ALA9D65A6and D150LA9D11571(1) To order the 2 contactors: see pages B8/23 and B8/29.(2) Order 2 contact blocks LADNp1 to build the electrical interlock, see page B8/36.Product referencesTeSys ControlDeca Contactors - Assembly kitsDimensions: pages B8/103 and B8/104Schemes:pages B8/105 and B8/106> Click on QR code to downloadControl Panel Technical Guide:Mounting and wiring accessories for TeSys K, Deca, F contactors. Star-delta, reverser, low-high speed control motor starters and changeover applications - Product references and details on all kits and wiring accessories.>> Ref. Document: CPTG011_EN ";i:634;s:1345:"B8/45ContactorsProduct referencesa.c coils for a contactors LC1D09...D38 and LC1DT20...DT40SpecificationsAverage consumption at 20 °C: binrush (cos φ = 0.75) 70 VA, bsealed (cos φ = 0.3) 50 Hz: 7 VA, 60 Hz: 7.5 VA.Operating range (θ y 60 °C): 50 Hz: 0.8...1.1 Uc, 60 Hz: 0.85...1.1 Uc.PB121383.epsLXD1ppControl circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitReference (1)VΩH50/60 Hz121.330.05LXD1J7 245.370.22LXD1B73210.10.39LXD1C742170.67LXD1D74821.70.87LXD1E7110124.14.6LXD1F7115129.85LXD1FE7120150.65.4LXD1G7 (2)200410.715LXD1L7208430.416LXD1LE7 (2)220515.418LXD1M7 (3)230538.620LXD1P7240562.322LXD1U7277800.729LXD1W7 (2)380155155LXD1Q7 (4)400163360LXD1V7415169465LXD1N7440199373LXD1R7480239887LXD1T7 (2)500249995LXD1S75753294125LXD1SC76003810136LXD1X76604656165LXD1YC76905020180LXD1Y7(1) The last 2 digits in the reference represent the voltage code.(2) Coil for use only on 60 Hz.(3) Suitable for use on 230 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see pages B8/82 and B8/84).(4) Suitable for use on 400 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see pages B8/82 and B8/84).TeSys ControlDeca Contactors - Coils";i:635;s:1258:"B8/46Contactorsa.c coils for a contactors LC1D40A...D80A, LC1DT60A and LC1DT80ASpecificationsAverage consumption at 20 °C: binrush (cos φ = 0.75) 160 VA, bsealed (cos φ = 0.3) 50 Hz: 15 VA, 60 Hz: 15 VA.Operating range (θ y 60 °C): 50 Hz: 0.8...1.1 Uc, 60 Hz: 0.85...1.1 Uc.PB121384.epsLXD3ppControl circuit voltage UcAverage resistance at 20 °C ±10%Inductance of closed circuitReference (1)VΩH50/60 Hz241.980.12LXD3B7426.180.37LXD3D7487.970.48LXD3E711042.282.50LXD3F711548.762.74LXD3FE712037.632.07LXD3G7 (2)2081056.22LXD3LE7 (2)22018210LXD3M7 (3)23019210.9LXD3P724020211.9LXD3U738051229.9LXD3Q7 (4)40060733.1LXD3V741563535.6LXD3N744068240.1LXD3R7480 60733.1LXD3T7 (2)575123868.4LXD3SC7600130474.5LXD3X7(1) The last 2 digits in the reference represent the voltage code.(2) This coil can only be used on 60 Hz.(3) Suitable for use on 230 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see page B8/82 and B8/84).(4) Suitable for use on 400 V / 50 Hz. In this case, apply a coefficient of 0.6 to the mechanical durability of the contactor (see page B8/82 and B8/84).Product referencesTeSys ControlDeca Contactors - Coils";i:636;s:1819:"B8/47ContactorsProduct referencesa.c coils for 3 or 4-pole contactors LC1D40, D50, D65, D80, D95SpecificationsAverage consumption at 20 °C:b inrush (cos φ = 0.75) 50 Hz: 200 VA, 60 Hz: 220 VAb sealed (cos φ = 0.3) 50 Hz: 20 VA, 60 Hz: 22 VA.Operating range (θ y 55 °C): 0.85...1.1 Uc.PB121385.epsLX1D6ppControl circuit voltage UcAverage resistance at 20°C ±10 %Inductance of closed circuitReference (1)Average resistance at 20 °C ±10 %Inductance of closed circuitReference (1)VΩHΩH50 Hz60 Hz241.40.09LX1D6B51.050.06LX1D6B6 110311.9 LX1D6F5221.2115311.9 LX1D6FE5–––208–––864.3LX1D6L6220–––984.8LX1D6M6220/2301277.5LX1D6M5–––2401528.7LX1D6U51205.7LX1D6U6380–––30014LX1D6Q644051330LX1D6R539219480–––48023LX1D6T6SpecificationsAverage consumption at 20 °C: binrush (cos φ = 0.75) 50/60 Hz: 245 VA at 50 Hz bsealed (cos φ= 0.3) 50/60 Hz: 26 VA at 50 Hz.Operating range (θ y 55 °C): 0.85...1.1 Uc. 50/60 Hz24–––1.220.08LX1D6B748–––50.32LX1D6E7110–––261.7LX1D6F7120–––322LX1D6G7220/230 (2)–––1026.7LX1D6M7230–––1157.7LX1D6P7230/240 (3)–––1318.3LX1D6U7380/400 (4)–––31020LX1D6Q7400–––34923LX1D6V7415–––39024LX1D6N7440–––41027LX1D6R7(1) The last 2 digits in the reference represent the voltage code.(2) For use on 230 V / 50 Hz, apply a coefficient of 0.6 to the mechanical durability of the contactor, see page B8/82 and B8/84. This coil can be used on 240 V at 60 Hz.(3) This coil can be used on 220/240 V at 50 Hz and on 240 V only at 60 Hz.(4) For use on 400 V / 50 Hz, apply a coefficient of 0.6 to the mechanical durability of the contactor, see page B8/82 and B8/84.TeSys ControlDeca Contactors - Coils";i:637;s:1836:"B8/48ContactorsProduct referencesTeSys ControlDeca Contactors - Coilsa.c coils for 3 or 4-pole contactors LC1D115SpecificationsAverage consumption at 20 °C:b inrush (cos φ = 0.8) 50 or 60 Hz: 300 VAb sealed (cos φ = 0.3) 50 or 60 Hz: 22 VA.Operating range (θ y 55 °C): 0.85...1.1 Uc.PB121386.epsLX1D8ppControl circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitReference (1)Average resistance at 20 °C ±10 %Inductance of closed circuitReference (1)VΩHΩH50 Hz60 Hz24–––0.870.07LX1D8B6322.140.17LX1D8C5–––423.910.28LX1D8D5–––48–––3.910.28LX1D8E612732.752.44LX1D8FC5–––208–––67.925.06LX1D8L6220104.777.65LX1D8M5–––380338.5122.26LX1D8Q5243.0717.04LX1D8Q6440441.5630.34LX1D8R5338.5122.26LX1D8R6500566.6238.12LX1D8S5–––a.c coils for 3 or 4-pole contactors LC1D115, LC1D150SpecificationsAverage consumption at 20 °C: binrush: cos φ = 0.9 - 280 to 350 VA bsealed: cos φ = 0.9 - 2 to 18 VA.Operating range (θ y 55 °C): 0.8...1.15 Uc. Coils with integral suppression device fitted as standard, class B.Control circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitReference (1)Average resistance at 20 °C ±10 %Inductance of closed circuitReference (1)VΩHΩH50/60 Hz24–––1473.03LX1D8B732–––3018.28LX1D8C748–––106124.19LX1D8E7110–––4377109.69LX1D8F7115–––4377109.69LX1D8FE7120–––4377109.69LX1D8G7208–––10 895260.15LX1D8LE7220 –––9895210.72LX1D8M7230–––9895210.72LX1D8P7240 –––9895210.72LX1D8U7277–––21 988533.17LX1D8UE7380 –––21 011482.42LX1D8Q7400–––21 011482.42LX1D8V7415–––21 011482.42LX1D8N7440–––21 501507.47LX1D8R7480–––32 249938.41LX1D8T7(1) The last 2 digits in the reference represent the voltage code.";i:638;s:461:"B8/49Contactorsd.c. coils for 3-pole contactors LC1D80 or 4-pole contactors LP1D80SpecificationsAverage consumption: 22 W.Operating range: 0.85...1.1 Uc. Control circuit voltage UcAverage resistance at 20 °C ± 10%Inductance of closed circuitReference (1)WeightVΩHkg126.60.46LX4D7JD 0.68024271.89LX4D7BD0.680(1) The last 2 digits in the reference represent the voltage code.TeSys ControlDeca Contactors - CoilsProduct referencesPB121387.epsLX4D7JD";i:639;s:573:"B8/50Contactorsd.c. coils for contactors LC1D115, D150SpecificationsConsumption: inrush 270 to 365 W, sealed 2.4 to 5.1 W.Operating range: 0.75...1.2 Uc.Coils with integral suppression device fitted as standard, class B.Control circuit voltage UcAverage resistance at 20 °C ± 10 %Inductance of closed circuitReference (1)WeightVΩHkg241473.03LX4D8BD 0.30060167338.44LX4D8ND0.3002209895210.72LX4D8MD0.30025018 022345.40LX4D8UD0.300(1) The last 2 digits in the reference represent the voltage code.TeSys ControlDeca Contactors - CoilsProduct referencesLX4D8pD";i:640;s:1572:"B8/51ContactorsProduct referencesTeSys ControlModular ContactorsCharacteristics:pages B8/108 to B8/114Dimensions, schemes:pages B8/115 to B8/117Modular Contactors - 17.5 mm pitch for modular panelsNo. of polesNumber of 17.5 mm modulesCommercial reference50 Hz coil - different voltagesSold in lots of122448110220/240VVVVVMaximum current rating category AC-7a - 16 A1–1––GC1610E5–GC1610M5 g12111–GC1611B5–GC1611F5GC1611M5 g122–1–GC1620B5–GC1620F5 gGC1620M5 g12222–––GC1622F5 gGC1622M563–2––––GC1630M5 g64–2–––GC1640F5GC1640M5 g6Maximum current rating category AC-7a - 25 A–21–GC2502B5GC2502E5gGC2502M5 g12–42–GC2504B5GC2504E5gGC2504M5 g61–1–GC2510B5––GC2510M5 g12111––––GC2511M5 g122–1GC2520J5GC2520B5––GC2520M5 g12222–GC2522B5––GC2522M5 g63–2–––GC2530F5GC2530M5 g6312––––GC2531M564–2––GC2540E5GC2540F5 gGC2540M5 g6Maximum current rating category AC-7a - 40 A–22––––GC4002M5 g6–43––––GC4004M54112––––GC4011M5 g62–2–––GC4020F5 gGC4020M5 g6223––––GC4022M543–3––––GC4030M5 g44–3––––GC4040M5 g4Maximum current rating category AC-7a - 63 A–22––––GC6302M56–43–GC6304B5––GC6304M542–2––––GC6320M563–3––––GC6330M5 g44–3GC6340B5GC6340E5–GC6340M5 g4Maximum current rating category AC-7a - 100 A2–3––––GC10020M544–6–GC10040B5––GC10040M5 g2g for 60 Hz coil replace last figure 5 by 6.GC2520PB113075_12.epsGC4040PB113078_18.epsGC10020PB113079_24.eps";i:641;s:868:"B8/52ContactorsProduct referencesTeSys ControlModular "Dual tariff" contactorsModular "dual tariff" contactors - 17.5 mm pitch for modular panelsNo. of polesNumber of 17.5 mm modulesCommercial reference50 Hz coil - different voltagesSold in lots of122448110220/240VVVVVMaximum current rating category AC-7a - 16 A2–1–GY1620B5–GY1620M5124–2––––GY1640M56Maximum current rating category AC-7a - 25 A2–1––––GY2520M5 g124–2––––GY2540M56Maximum current rating category AC-7a - 40 A2–2––––GY4020M564–3––––GY4040M54Maximum current rating category AC-7a - 63 A2–2––––GY6320M564–3–GY6340B5––GY6340M54g for 60 Hz coil replace last figure 5 by 6.GY2520M5PB113083_13.epsGY6340M5PB113087_26.epsCharacteristics:pages B8/118 to B8/120Dimensions, schemes:pages B8/121 and B8/122Schemes:page B8/122";i:642;s:453:"B8/53ContactorsProduct referencesDB438291.epsGF1620B7Modular impulse relays - 17.5 mm pitch for modular panelsMaximum current rating category AC-1CompositionCoil voltagesSold in lots ofUnit referencea 50/60 HzcAVV162–12612GF1620J7241212GF1620B71104812GF1620F7230/24011012GF1620U71112612GF1611J7241212GF1611B7220–12GF1611M7230/24011012GF1611U7TeSys ControlModular Impulse relaysCharacteristics:pages B8/123 to B8/126Dimensions, schemes:page B8/127";i:643;s:715:"B8/54ContactorsProduct referencesPB113093_13.epsGAP23Instantaneous auxiliary contact blocks Number of contactsNumber of polesReference211–GAC0521–2–GAC0531––1GAC0511PB104483-40.epsGAC5AccessoriesDescriptionFor use on contactorNumber of modulesOperational voltage in VSold in lots ofUnit referenceCoil suppression blocks comprising 2 RC circuits–112...481GAP21 110...2401GAP23PB104486_34.epsA9A15922Ventilation 1/2 module clips onto 5 rail–1/2–10GAC5 Set of screw shields (10 top parts + 10 bottom parts)40 or 63 A2 contacts2–1A9A1592240 or 63 A 3 or 4 contacts3–1A9A15923PB104487_49.epsA9A15923TeSys ControlModular Contactors - AccessoriesDimensions, schemes:page B8/116Schemes:page B8/117";i:644;s:3518:"B8/55ContactorsTeSys ControlContactorsDPE09P7DPE12P7DPE1801P7DPE18P7DPE2501P7DPE25P7DPE32B7DPE32P7GAC0511GAC0521GAC0531GAC5GAP21GAP23GC10020M5GC10040M5GC1610M5GC1611B5GC1611F5GC1611M5GC1620B5GC1620D7GC1620F5GC1620M5GC1620M6GC1622F5GC1622M5GC1630M5GC1640F5GC1640M5GC2502B5GC2502E5GC2502M5GC2504B5GC2504M5GC2510B5GC2510M5GC2511M5GC2520B5GC2520F6GC2520J5GC2520M5GC2520M6GC2522B5GC2522M5GC2530F5GC2530M5GC2530M6GC2531M5GC2540E5GC2540M5GC2540M6GC4002M5GC4004M5GC4011M5GC4020F5GC4020F6GC4020M5GC4020M6GC4022M5GC4030M5GC4040M5GC4040M6GC6302M5GC6304B5GC6304M5GC6320M5GC6330M5GC6330M6GC6340B5GC6340M5GF1611B7GF1611M7GF1611U7GF1620B7GF1620F7GF1620U7GS2AH4120FGV1G09GV2G05GV2G245GV2G254GV2G272GV2G345GV2G354GV2G445GV2G454GV2G472GV2G554GV3G264GV3G364GV3SGY1620B5GY1620M5GY2520M5GY2520M6GY2540M5GY4020M5GY4040M5GY6320M5GY6340M5LA1DX02LA1DX11LA1DX20LA1DY20LA1DZ31LA1DZ40LA1KN02LA1KN023LA1KN02MLA1KN04LA1KN043LA1KN11LA1KN113LA1KN11MLA1KN13LA1KN133LA1KN20LA1KN203LA1KN207LA1KN22LA1KN223LA1KN223MLA1KN22MLA1KN31LA1KN313LA1KN316LA1KN317LA1KN31MLA1KN40LA1KN403LA1KN407LA1SK01LA1SK02LA1SK11LA1SK20LA2KT2ELA2KT2ULA4DA1ELA4DA1GLA4DA1ULA4DA2ELA4DA2GLA4DA2NLA4DA2ULA4DB3BLA4DB3SLA4DBLLA4DC1ULA4DC3ULA4DE1ELA4DE1GLA4DE1ULA4DE2ELA4DE2GLA4DE2ULA4DE3ELA4DE3ULA4DFBLA4DT0ULA4DT2ULA4DT4ULA4DWBLA4KA1ULA4KC1BLA4KC1ELA4KC2BLA4KE1BLA4KE1ELA4KE1FCLA4KE1UGLA4SKC1ULA4SKE1ELA4SKE1ULA5D11550LA5D1158031LA5D115804LA5D150803LA6DK10CLA6DK10JLA6DK10ULA6DK20BLA6DK20ELA6DK20FLA6DK20JLA6DK20MLA6DK20QLA7D902LA9D0921LA9D09976LA9D09980LA9D09981LA9D11502LA9D11517LA9D115503LA9D115603LA9D115604LA9D11567LA9D11569LA9D115691LA9D115692LA9D11570LA9D115703LA9D115704LA9D11571LA9D1263LA9D1269LA9D12974LA9D15017LA9D16906LA9D1860LA9D1869LA9D2561LA9D2569LA9D3260LA9D3269LA9D32974LA9D4002LA9D40961LA9D40963LA9D5017LA9D50978LA9D511LA9D6567LA9D6569LA9D65A6LA9D65A69LA9D730LA9D8002LA9D8017LA9D8018LA9D8067LA9D8069LA9D80691LA9D8070LA9D8079LA9D80961LA9D80962LA9D80963LA9D80973LA9D80978LA9D894LA9D898LA9D90LA9D901LA9D92LA9D93LA9D99LA9E01LA9E02LA9K0969LA9K105ILA9K105SLA9KNS35LAD21LAD22LAD4BBLAD4BB3LAD4BBVELAD4BBVGLAD4BBVULAD4CMLAD4D3ULAD4DDLLAD4RC3ELAD4RC3GLAD4RC3NLAD4RC3ULAD4RCELAD4RCGLAD4RCULAD4T3BLAD4T3GLAD4T3RLAD4T3SLAD4T3ULAD4TBLAD4TBDLLAD4TGDLLAD4TSLAD4TSDLLAD4TUDLLAD4V3ELAD4V3GLAD4V3ULAD4VELAD4VGLAD4VULAD6K10BLAD6K10ELAD6K10FLAD6K10JLAD6K10KLAD6K10MLAD7X3LAD8N02LAD8N026LAD8N11LAD8N116LAD8N11GLAD8N20LAD8N206LAD90LAD901LAD9011LAD903LAD904LAD91209LAD91217LAD91218LAD912GVLAD92560LAD93217LAD93218LAD96061LAD96560LAD96566LAD96570LAD96575LAD96580LAD9722LAD9723LAD9744LAD9BB18LAD9BB32LAD9DL3LAD9ET1LAD9ET1SLAD9ET2LAD9ET3SLAD9ET4LAD9ET4SLAD9P3LAD9P32LAD9P33LAD9R1LAD9R11LAD9R1VLAD9R3LAD9R3SLAD9SD3LAD9SD3SLAD9V1LAD9V10LAD9V11LAD9V12LAD9V13LAD9V14LAD9V15LAD9V16LAD9V17LAD9V2LAD9V5LAD9V6LAD9VP1LAD9VP2LAD9VP3LAD9VP4LADALLEN4LADC22LADC223LADC226LADN01LADN02LADN023LADN026LADN04LADN043LADN046LADN10LADN11LADN113LADN113GLADN113PLADN116LADN11GLADN11PLADN13LADN133LADN136LADN13GLADN13PLADN20LADN203LADN206LADN22LADN223LADN223GLADN226LADN22GLADN22PLADN22SLADN31LADN313LADN313GLADN316LADN31GLADN31PLADN40LADN403LADN403GLADN406LADN40GLADR0LADR03LADR06LADR2LADR23LADR26LADR4LADR43LADR46LADS2LADS23LADS26LADT0LADT03LADT06LADT2LADT23LADT26LADT4LADT46LADT9R1LADT9R1VLAZR90MLAZR90QLAZR91FLC1D066BDLC1D066F7LC1D066M7LC1D06P7Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:645;s:4216:"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 ControlContactorsProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:646;s:4195:"B8/57ContactorsTeSys ControlContactorsProduct 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 document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:647;s:4423:"B8/58ContactorsLC1D80004F5LC1D80004F7LC1D80004FE7LC1D80004G6LC1D80004G7LC1D80004M5LC1D80004M7LC1D80004N5LC1D80004N7LC1D80004P5LC1D80004P7LC1D80004Q7LC1D80004U5LC1D80004U7LC1D80004V7LC1D80008D7LC1D80008E7LC1D80008F7LC1D80008FE7LC1D80008G6LC1D80008G7LC1D80008M7LC1D80008P7LC1D80008Q7LC1D80008U7LC1D806B7LC1D806BDLC1D806F5LC1D806F7LC1D806FDLC1D806FWLC1D806G7LC1D806K7LC1D806L7LC1D806LE7LC1D806M7LC1D806P7LC1D806VDLC1D80A3B7LC1D80A3E7LC1D80A3P7LC1D80A6BBELC1D80A6BNELC1D80A6EHELC1D80A6KUELC1D80A6M7LC1D80A6P7LC1D80AB7LC1D80ABBELC1D80ABNELC1D80AE7LC1D80AEHELC1D80AF7LC1D80AFE7LC1D80AG7LC1D80AKUELC1D80AM7LC1D80AN7LC1D80AP7LC1D80AQ7LC1D80AR7LC1D80AU7LC1D80AV7LC1D80B5LC1D80B7LC1D80BDLC1D80BWLC1D80CWLC1D80D7LC1D80E5LC1D80E7LC1D80EDLC1D80F5LC1D80F7LC1D80FDLC1D80FE7LC1D80FWLC1D80G6LC1D80G7LC1D80G7MLC1D80GDLC1D80K7LC1D80L6LC1D80L7LC1D80M5LC1D80M7LC1D80MDLC1D80MWLC1D80N7LC1D80NDLC1D80P5LC1D80P7LC1D80Q5LC1D80Q7LC1D80R7LC1D80S5LC1D80SDLC1D80SWLC1D80T6LC1D80U5LC1D80U7LC1D80U7MLC1D80V7LC1D956BDLC1D956F7LC1D956K7LC1D956M7LC1D956P7LC1D95B5LC1D95B7LC1D95BDLC1D95BWLC1D95D7LC1D95E5LC1D95E7LC1D95EDLC1D95F5LC1D95F7LC1D95FDLC1D95FE7LC1D95G7LC1D95K7LC1D95M5LC1D95M7LC1D95MDLC1D95MWLC1D95N7LC1D95P5LC1D95P7LC1D95Q5LC1D95Q7LC1D95R7LC1D95S5LC1D95SDLC1D95U5LC1D95U7LC1D95U7CLC1D95V7LC1DFKB7LC1DFKF7LC1DFKM7LC1DFKP7LC1DFKU7LC1DFKV7LC1DGKF7LC1DGKM7LC1DGKP7LC1DGKU7LC1DLKM7LC1DLKP7LC1DLKQ7LC1DMK11F7CLC1DMKB7LC1DMKF7LC1DMKG7LC1DMKM7LC1DMKN7LC1DMKP7LC1DMKU7LC1DMKV7LC1DPK12Q7CLC1DPKB7CLC1DPKF7LC1DPKM7LC1DPKP7LC1DPKU7LC1DPKV7LC1DT203B7LC1DT203FLLC1DT206BDLC1DT206BLLC1DT206M7LC1DT20B7LC1DT20BDLC1DT20BLLC1DT20CDLC1DT20E7LC1DT20F7LC1DT20FDLC1DT20FE7LC1DT20G7LC1DT20GDLC1DT20M7LC1DT20MDLC1DT20MLLC1DT20N7LC1DT20NDLC1DT20P7LC1DT20U7LC1DT20UDLC1DT253BDLC1DT253BLLC1DT253E7LC1DT256BDLC1DT256BLLC1DT256FDLC1DT256M7LC1DT256P7LC1DT25B7LC1DT25BDLC1DT25BLLC1DT25CDLC1DT25E7LC1DT25EDLC1DT25F7LC1DT25FDLC1DT25G7LC1DT25GDLC1DT25JDLC1DT25LE7LC1DT25M7LC1DT25MDLC1DT25P7LC1DT25U7LC1DT323BDLC1DT326B7LC1DT326BDLC1DT326BLLC1DT326G7LC1DT326K7LC1DT326L7LC1DT326M7LC1DT32B7LC1DT32BDLC1DT32BLLC1DT32E7LC1DT32EDLC1DT32F7LC1DT32G7LC1DT32M7LC1DT32MDLC1DT32P7LC1DT32U7LC1DT403BLLC1DT403E7LC1DT406BDLC1DT406BLLC1DT406GDLC1DT406K7LC1DT406M7LC1DT40B7LC1DT40BDLC1DT40BLLC1DT40D7LC1DT40E7LC1DT40EDLC1DT40F7LC1DT40FDLC1DT40FE7LC1DT40G7LC1DT40GDLC1DT40JDLC1DT40JLLC1DT40LE7LC1DT40M7LC1DT40MDLC1DT40NDLC1DT40P7LC1DT40SDLC1DT40U7LC1DT40V7LC1DT60A3BDLC1DT60A3E7LC1DT60A3P7LC1DT60A6BBELC1DT60A6BNELC1DT60A6EDLC1DT60A6EHELC1DT60A6F7LC1DT60A6GDLC1DT60A6KUELC1DT60A6MDLC1DT60A6SDLC1DT60AB7LC1DT60ABBELC1DT60ABDLC1DT60ABNELC1DT60ACDLC1DT60AD7LC1DT60AE7LC1DT60AEHELC1DT60AF7LC1DT60AFDLC1DT60AFE7LC1DT60AG7LC1DT60AK7LC1DT60AKUELC1DT60AM7LC1DT60AMDLC1DT60ANDLC1DT60AP7LC1DT60AU7LC1DT60AV7LC1DT60AW7LC1DT80A3BDLC1DT80A3P7LC1DT80A6BBELC1DT80A6BDLC1DT80A6BNELC1DT80A6EDLC1DT80A6EHELC1DT80A6FDLC1DT80A6KUELC1DT80A6MDLC1DT80AB7LC1DT80ABBELC1DT80ABDLC1DT80ABNELC1DT80AC7LC1DT80ACDLC1DT80AE7LC1DT80AEHELC1DT80AF7LC1DT80AFDLC1DT80AFE7LC1DT80AG7LC1DT80AJDLC1DT80AKUELC1DT80ALE7LC1DT80AM7LC1DT80AN7LC1DT80ANDLC1DT80AP7LC1DT80AQ7LC1DT80AU7LC1DTKF7LC1DTKM7LC1DTKP7LC1DTKQ7CLC1DWK12F7LC1DWK12G7LC1DWK12M5LC1DWK12M7LC1DWK12N7LC1DWK12P5LC1DWK12P7LC1DWK12Q7LC1DWK12U7LC1DWK12V7LC1DWKB7CLC1K06013FE7LC1K06013P7LC1K06015B7LC1K06015F7LC1K06015M7LC1K06017P7LC1K0601B5LC1K0601B7LC1K0601D5LC1K0601D7LC1K0601E5LC1K0601E7LC1K0601F7LC1K0601F72LC1K0601G7LC1K0601M7LC1K0601N7LC1K0601P5LC1K0601P7LC1K0601P72LC1K0601Q7LC1K0601U7LC1K06103B7LC1K06103F7LC1K06103FE7LC1K06103P7LC1K06103P72LC1K06105B7LC1K06105F7LC1K06105M7LC1K06105P7LC1K06106K7LC1K06107P7LC1K0610B5LC1K0610B7LC1K0610B72LC1K0610D5LC1K0610D7LC1K0610E5LC1K0610E7LC1K0610F7LC1K0610F72LC1K0610FE7LC1K0610G7LC1K0610K7LC1K0610L7LC1K0610M7LC1K0610M72LC1K0610N7LC1K0610P5LC1K0610P7LC1K0610P72LC1K0610Q7LC1K0610T7LC1K0610U7LC1K0610V7LC1K090043E7LC1K090045E7LC1K09004B7LC1K09004B72LC1K09004E7LC1K09004F7LC1K09004FE7LC1K09004M7LC1K09004M72LC1K09004P7LC1K09004Q7LC1K09004U7LC1K090083E7LC1K090083P7LC1K090085E7LC1K090085F7LC1K090085P7LC1K090087P7LC1K090087S7LC1K09008B7LC1K09008D7LC1K09008E7LC1K09008F7LC1K09008G7LC1K09008K7LC1K09008M7LC1K09008M72LC1K09008N7LC1K09008P7LC1K09008S7TeSys ControlContactorsProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:648;s:4388:"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 ControlContactorsProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:649;s:3948:"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 ControlContactorsProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:650;s:931:"B8/61ContactorsTechnical Data for DesignersTeSys SK, K, SKGC, Deca, Modular ContactorsTeSys SK Contactors: > characteristics ..........B8/62 to B8/65 > dimensions ............................ B8/66TeSys SKGC Contactors: > characteristics ..........B8/67 to B8/70 > dimensions .............................B8/71TeSys K Contactors: > characteristics ..........B8/72 to B8/75 > dimensions ...............B8/76 to B8/79Deca green, Deca contactors: > characteristics ..........B8/80 to B8/93 > dimensions .............B8/94 to B8/107Modular Contactors: > characteristics ......B8/108 to B8/110 > dimensions ........B8/115 and B8/116Modular Dual tariff contactors: > characteristics ......B8/118 to B8/120 > dimensions ........B8/121 and B8/122Modular Impulse relay: > characteristics ......B8/123 to B8/126 > dimensions ...........................B8/127Standard IEC tests - Contactors conforming to UL/CSA .............B8/128Contents";i:651;s:964:"B8/62ContactorsTeSys ControlSK ContactorsEnvironmentRated insulation voltage (Ui)Conforming to 60947V690Conforming to standards IEC/EN 60947-4-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1Approvals cULus, EAC, UKCA, CB certificationDegree of protectionConforming to IEC 60529Protection against direct finger contact IP2xAmbient air temperature around the deviceStorage °C-50...+70Operation °C-20...+50Maximum operating altitudeWithout derating m2000Operating positionVertical axisHorizontal axisDF511520.epsWithout deratingWithout deratingCabling, screw clamp terminalsMinMaxSolid conductormm2 1 x 1.5 or 2 x 1.51 x 6 or 2 x 4Flexible cable without cable endmm2 1 x 0.5 or 2 x 0.351 x 6 or 2 x 2.5Flexible cable with cable endmm2 1 x 0.35 or 2 x 0.351 x 6 or 2 x 1.5Tightening torquePozidriv n° 1 headN.m 0.8Terminal referencing Conforming to standards En 50005CharacteristicsReferences:pages B8/2 and B8/3Curves:page B8/69Dimensions:page B8/70Schemes:page B8/70Ref.";i:652;s:2154:"B8/63ContactorsPole characteristicsConventional thermal current (Ith)For ambient temperature y 55 °CA12Rated operational frequencyHz50/60Frequency limits of the operational currentHzUp to 400Rated operational voltage (Ue) V690Rated making capacityI rms conforming to IEC 60947-1A66Rated breaking capacity (for Ue y 400 V)Conforming to IEC 60947-1A52Short time ratingIn free air for a time “t” from cold state (θ y 55 °C)A50Short-circuit protectiongl fuse U y 440 VA16Average impedance per poleAt Ith and 50 HzmΩ4Maximum rated operational currentFor a temperature y 55 °CAC-3 (1) (Ue y 400 V)A6AC-1A12Utilisation in category AC-1 resistive circuits, heating, lighting (Ue y 440 V)Increase in operational current by paralleling of polesA20Auxiliary contact characteristics of add-on blocksRated operational voltage (Ue)Up toV 690Rated insulation voltage (Ui)Conforming to IEC 60947, IEC 60947-1V690Conventional thermal current (Ith)For ambiant temperature y 55 °CA10Frequency of operational currentHzUp to 400Short-circuit protectionConforming to IEC 60947 and IEC 60947-1, gl fuseA10Operational power of contacts conforming to IEC 60947a.c. supply, category AC-15Electrical durability (valid up to 3600 operating cycles per hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the breaking current (cos φ 0.4).V2448110/127220/230380/4004401 million operating cyclesVA48962404408008803 million operating cyclesVA17348615828831710 million operating cyclesVA7143666120132Occasional making capacityVA100020505000100001400013000d.c. supply, category DC-13Electrical durability (valid up to 1200 operating cycles per hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V24481102204404401 million operating cyclesW120806052518803 million operating cyclesW553830282631710 million operating cyclesW1511987132Occasional making capacityW72060040030023013000(1) For LC1 contactors.TeSys ControlSK ContactorsCharacteristicsReferences:pages B8/2 and B8/3Curves:page B8/69Dimensions:page B8/70Schemes:page B8/70Ref.";i:653;s:864:"B8/64ContactorsTeSys ControlSK ContactorsControl circuit characteristicsTypeLC1SK06LP1SK06Rated control circuit voltage (Uc)Va 24...400c 12...72Control voltage limits (q y 50 °C)For operation0.85...1.1 Uc0.85...1.1 UcFor drop-outu 0.20 Ucu 0.10 UcAverage coil consumption at 20 °C and at UcInrush16 VA2.2 WSealed4.2 VA2.2 WHeat dissipationW1.42.2Operating time at 20 °C and at UcBetween coil energisation andopening of the N/C contactsms8...1610...18closing of the N/O contactsms 7...148...12Between coil de-energisation andopening of the N/O contactsms6...84...6closing of the N/C contacts ms8...106...8Maximum operating rateIn operating cycles per hour 12001200Mechanical durability at Uc In millions of operating cycles 50/60 Hz coil10–c coil–10 CharacteristicsReferences:pages B8/2 and B8/3Curves:page B8/69Dimensions:page B8/70Schemes:page B8/70Ref.";i:654;s:903:"B8/65ContactorsTeSys ControlSK ContactorsUse in category AC-3 (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running. The current broken (Ic) in category AC-3 is equal to the rated operational current (Ie) of the motor.812712.eps10897654321,51,210,80,90,70,60,50,40,3220/380/415 V23456789A2,5500 V234567A2,5220/230 VkW380/400 V1,11,52,234kW1,11,52,234415 V0,751,11,52,2kW0,55Current broken in Aonly up to 415 VMillions of operating cyclesUse in category AC-1 (Ue y 440 V)Control of resistive circuits (cos φ u 0.95). The current broken (Ic) in category AC-1 is equal to the current (Ie) normally drawn by the load.Millions of operating cyclesCurrent broken in A234567891015122030402,51087654321,510,80,70,60,50,40,30,20,150,1812711.eps Durability curvesReferences:pages B8/2 and B8/3Characteristics: pages B8/62 to B8/64Dimensions:page B8/70Schemes:page B8/70Ref.";i:655;s:701:"B8/66ContactorsTeSys ControlSK ContactorsDimensionsMini-contactorsLC1 and LP1SK06562755,584,553,5LA1 SK (1)LA4 SKDF522582.eps(1) Only on LC1SK06. MountingMini-contactorsLC1 and LP1SK06On mounting rail NSYSDR200BD or NSYSDR200 (7 35 mm)275655,5DF522583.eps Schemes2-pole mini-contactorsLC1 and LP1SK06A11/L1A2T1/2T2/43/L2812724.epsAdd-on power pole block1 pole + 1 “N/C” aux.LA1SK015/L3T3/621/NC22812728.epsInstantaneous auxiliary contacts2 “N/O”2 “N/C”1 “N/O” + 1 “N/C”LA1SK20LA1SK02LA1SK1133/NO344443/NO812725.eps31/NC324241/NC812726.eps33/NO344241/NC812729.epsDimensions, mounting and schemesReferences:pages B8/2 and B8/3Characteristics:pages B8/62 to B8/64Curves:page B8/65Ref.";i:656;s:904:"B8/67ContactorsTeSys ControlSKGC ContactorsEnvironmentRated insulation voltage (Ui)Conforming to IEC 60947V 690Conforming to standards IEC 60947, UL 60947-4-1, CSA C22.2 n° 60947-4-1Approvals cULus, UKCADegree of protectionConforming to IEC 60529 Protection against direct finger contactAmbient air temperature around the deviceStorage°C-50...+70Operation°C -20...+50Maximum operating altitudeWithout deratingm 2000Operating positionVertical axis Horizontal axisDF532749.epsDF532750.eps Without deratingWithout deratingCabling, connectorsMin.Max.Solid conductormm21 x 1.5 or 2 x 1.51 x 6 or 2 x 4Flexible cable without cable endmm21 x 0.5 or 2 x 0.351 x 6 or 2 x 2.5Flexible cable with cable endmm21 x 0.35 or 2 x 0.351 x 6 or 2 x 1.5Tightening torquePozidriv n° 1 headN.m0.8Terminal referencingConforming to standards EN 50005 CharacteristicsReferences:page B8/3 Dimensions, schemes:page B8/71Ref.";i:657;s:2163:"B8/68ContactorsPole characteristicsMini-contactor typeLC1SKGC2LC1SKGC3 and LC1SKGC4Conventional thermal current (Ith)For ambient temperature y 55 °CA 2020Rated operational frequencyHz 50/60Frequency limit of the operational currentHz up to 400Rated operational voltage (Ue)V 690Rated making capacityI rms conforming to IEC 60947A 5085Rated breaking capacity (for Ue y 400 V)Conforming to IEC 60947 (I rms)A 4068Permissible short time ratingIn free air for a time “t” from cold state (θ y 55 °C)A 4060Short-circuit protectiongl fuse U y 440 VA 2020Average impedance per poleAt Ith and 50 HzmΩ44Maximum rated operational currentFor temperature y 55 °CAC-3 (Ue y 400 V)A 59AC-1A 2020Use in category AC-1 resistive circuits, heating, lighting (Ue y 440 V)Increase in rated operational current by paralleling of 2 polesA3232Auxiliary contact characteristics of mini-contactorsRated operational voltage (Ue)Up toV 690Rated insulation voltage (Ui)Conforming to IEC 60947V 690Conventional thermal current (Ith)For ambient temperature y 55 °CA 10Frequency of the operational currentHz Up to 400Short-circuit protectionConforming to IEC 60947, gl fuseA 10Operational power of contacts conforming to IEC 60947a.c. supply, category AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).V2448110/127220/230380/4004401 million operating cyclesVA48962404408008803 million operating cyclesVA17348615828831710 million operating cyclesVA7143666120132Occasional making capacityVA100020505000100001400013000d.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V24481102204404401 million operating cyclesW120806052518803 million operating cyclesW553830282631710 million operating cyclesW1511987132Occasional making capacityW72060040030023013000TeSys ControlSKGC ContactorsCharacteristicsReferences:page B8/3 Dimensions, schemes:page B8/71Ref.";i:658;s:774:"B8/69ContactorsTeSys ControlSKGC ContactorsControl circuit characteristicsMini-contactor typeLC1SKGC2LC1SKGC3 and LC1SKGC4Rated control circuit voltage (Uc)V a 24...400Control voltage limits(θ y 55 °C)Operation0.85...1.1 UcFor drop-outu 0.20 UcAverage coil consumption at 20 °C and at UcInrushVA1623SealedVA 4.24.9Heat dissipationW 1.41.5Operating time at 20 °C and at UcBetween coil energisation andopening of the N/C contactsms8...16closing of the N/O contactsms7...14Between coil de-energisation andopening of the N/O contactsms6...8closing of the N/C contactsms 8...10Maximum operating rateIn operating cycles per hour1200Mechanical durability at Ucin millions of operating cycles50/60 Hz coil10CharacteristicsReferences:page B8/3 Dimensions, schemes:page B8/71Ref.";i:659;s:890:"B8/70ContactorsTeSys ControlSKGC ContactorsUse in category AC-3 (Ue y 440 V)Control of 3-phase asynchronous squirrel cage motors with breaking whilst running.The current broken (Ic) in category AC-3 is equal to the rated operational current of the motor.812732.eps1089765432211,51,210,80,90,70,60,50,40,3220/380/415 V23456789A2,5500 V234567A2,5220/230 VkW380/400 V1,11,52,234kW1,11,52,234415 V0,751,11,52,2kW0,55Current broken in AMillions of operating cycles1. LC1SKGC22. LC1SKGC3 and SKGC4- - - - - only up to 415 VUse in category AC-1 (Ue y 440 V)Control of resistive circuits (cos φ u 0.95). The current broken (Ic) in category AC-1 is equal to the current (Ie) normally drawn by the load.812731.eps234567891015122030402,51087654321,510,80,70,60,50,40,30,20,150,1Millions of operating cyclesCurrent broken in A Durability curvesReferences:page B8/3 Dimensions, schemes:page B8/71Ref.";i:660;s:730:"B8/71ContactorsTeSys ControlSKGC ContactorsDimensionsMountingMini-contactors LC1SKGC2On mounting rail NSYSDR200BD or NSYSDR200 (7 35 mm)3,5LA4 SK55,55627DF532769.eps275655,5DF532770.epsDimensionsMountingMini-contactors LC1SKGC3 and SKGC4On panelOn mounting rail NSYSDR200BD or NSYSDR200 (7 35 mm)4LA4 SK56455834-3548-50DF532771.eps455658DF532772.eps 2-pole mini-contactorsLC1SKGC2A11/L1A2T1/2T2/43/L2812745.eps3-pole mini-contactorsLC1SKGC310LC1SKGC301A113/NO141/L13/L25/L3A2T1/2T2/4T3/6812746.epsA121/NC221/L13/L25/L3A2T1/2T2/4T3/6812747.eps4-pole mini-contactorsLC1SKGC400A11/L13/L25/L3A2T1/2T2/4T3/67/L4T4/8812748.epsDimensions, mounting and schemesReferences:page B8/3 Characteristics:pages B8/67 to B8/69Curves:page B8/70Ref.";i:661;s:2213:"B8/72ContactorsTeSys ControlK Contactors and reversing contactorsEnvironment characteristicsConforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.4Product certificationsLCp and LPpK06 to K12 UL, CSA, CCC, EAC, UKCA, CB certification LCp and LPpK16UKCA, CB certification, CCC, EAOperating positionsVertical axis Horizontal axis90°90°DF511522.eps180°DF511523.eps90 ̊90 ̊DF564970.epsWithout deratingWithout derating Possible positions for LCpK only. Contactor pull-in voltage: 0.85 UcConnectionMin.Max.Max. to IEC 60947Screw clamp terminalsSolid conductormm21 x 1.52 x 41 x 4 + 1 x 2.5Flexible conductor without cable endmm21 x 0.752 x 42 x 2.5Flexible conductor with cable endmm21 x 0.341 x 1.5 + 1 x 2.51 x 1.5 + 1 x 2.5Spring terminalsSolid conductormm21 x 0.751 x 1.52 x 1.5Flexible conductor without cable endmm21 x 0.751 x 1.52 x 1.5Faston connectorsClipmm2 x 2.8 or 1 x 6.35Solder pins for printed circuit boardWith locating device between power and control circuits pins length 5 mmRecommended minimum width and thickness layer for power printed circuit board track : 4mm x 35 micronsTightening torqueof screw-clamp terminals onlyPhilips head n° 2 and Ø6N.m0.8...1.3Terminal referencingConforming to standards EN 50005 and EN 50012Up to 5 contacts, depending on modelRated insulation voltage(Ui)Conforming to IEC 60947-4-1V690Conforming to CSA 22-2 n° 60947-4-1, UL 60947-4-1V600Rated impulse withstand voltage (Uimp)kV8Degree of protectionConforming to IEC 60529Protection against direct finger contact IP2xAmbient air temperature around the deviceStorage°C-50...+80Operation°C-25...+50 in AC3, -25...+70 in AC1Maximum operating altitudeWithout deratingm2000Vibration resistance 5 ... 300 HzConforming to IEC/EN 60068-2-27Contactor open2 gnContactor closed4 gnFlame resistanceaccording to IEC 60695-2-10°C850Shock resistance (1/2 sine wave, 11 ms)Conforming to IEC/EN 60068-2-6Contactor openOn X axis: 6 gnOn Y and Z axes: 10 gnContactor closedOn X axis: 10 gnOn Y and Z axes: 15 gnCharacteristicsReferences: pages B8/4 to B8/11Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79Ref.";i:662;s:2183:"B8/73ContactorsPole characteristicsTypeLCp or LPp K06K09K12K16Conventional thermal current (Ith)For ambient temperature y 60 °CA20 (1)Rated operational frequencyHz50/60Frequency limits of the operational currentHzUp to 400Rated operational voltage (Ue)V690Rated making capacityI rms conforming to IEC 60947A110110144160Rated breaking capacityI rms conforming to IEC 60947220/230 VA110110––380/400 VA110110––415 VA110110––440 VA110110110110500 VA80808080660/690 VA70707070 Permissible short time ratingIn free air for a time “t” from cold state (θ y 50 °C)1 s A90901151155 s A858510510510 s A808010010030 s A606075751 minA454555553 minA40405050u 15 minA20202525 Short-circuit protectiongG fuse U y 440 V (aM fuse, see page B11/2)A25Average impedance per poleAt Ith and 50 HzmΩ3Use in category AC-1 resistive circuits, heating, lighting (Ue y 440 V)Maximum rated operational current for a temperature y 60 °CA20Maximum rated operational current for a temperature y 70 °CA16Rated operational current limits in relation to the on-load factor and operating frequencyOn-load factor90 %60 %30 %A300 operating cycles/hour131518A120 operating cycles/hour151819A30 operating cycles/hour192020 Increase in rated operational current by paralleling of polesApply the following coefficients to the above currents; these coefficients take into account an often unbalanced distribution of current between the poles2 poles in parallel: K = 1.603 poles in parallel: K = 2.254 poles in parallel: K = 2.80 Use in category AC-3/ AC-3e squirrel cage motorsOperational power according to the voltage. Voltage 50 or 60 Hz115 V single-ph.kW0.370.55––220 V single-ph.kW0.751.1––220/230 V 3-ph.kW1.52.234380/415 V 3-ph.kW2.245.57.5440/480 V 3-ph.kW345.5/4 (480)5.5/4 (480)500/600 V 3-ph.kW3444660/690 V 3-ph.kW3444 Maximum operating rate (in operating cycles/hour in relation to % of rated power)Op. cycles/h6009001200Power100 %75 %50 %(1) For LCpKpppp3 / LPpKpppp3 with spring terminal, Ith max = 16 A.References: pages B8/4 to B8/11Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79TeSys ControlK Contactors and reversing contactorsCharacteristicsRef.";i:663;s:1413:"B8/74ContactorsTeSys ControlK Contactors and reversing contactorsControl circuit characteristicsTypeLC1LC2LC7LC8LP1LP2LP4LP5Rated control circuit voltage (Uc)V a 12...690 (1)a 24...240 (1)c 12...250 (1)c 12...120Control voltage limits (y 50 °C) single voltage coilOperation0.8...1.15 Uc (2)0.85...1.1 Uc0.8...1.15 Uc0.7...1.30 Uc Drop-outu 0.20 Ucu 0.10 Ucu 0.10 Ucu 0.10 Uc Average consumption at 20 °C and at UcInrush30 VA 3 VA 3 W 1.8 W Sealed4.5 VA 3 VA 3 W 1.8 W Heat dissipationW1.3331.8Operating time at 20 °C and at UcBetween coil energisation and:- opening of the N/C contactsms5...1525...3525...3525...35- closing of the N/O contactsms10...2030...4030...4030...40Between coil de-energisation and:- opening of the N/O contactsms10...20301010...20- closing of the N/C contactsms15...25401515...25Maximum immunity to microbreaksms2222Maximum operating rateIn operating cycles per hour3600360036003600Mechanical durability at UcIn millions of operating cycles50/60 Hz coil105105–––– c coil––––105–– Wide range coil, Low consumption––––––305(1) For mains supplies with a high level of interference (voltage surge > 800 V), use a suppressor module LA4KE1FC (50...129 V) or LA4KE1UG (130...250 V), see page B8/14.(2) LC1K12, LC1K16... : 0.85...1.15 Uc.CharacteristicsReferences: pages B8/4 to B8/11Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79Ref.";i:664;s:2637:"B8/75ContactorsAuxiliary contact characteristics of contactors and instantaneous contact blocksNumber of auxiliary contactsOn LCpK or LPpK 3-pole1On LA1K2 or 4Rated operational voltage (Ue)Up toV690Rated insulation voltage (Ui)Conforming to IEC 60947V690Conforming to UL 60947-5-1, CSA C22.2 n° 60947-5-1 V600Conventional thermal current (Ith)For ambient temperature y 50 °CA10Frequency of the operational currentHzUp to 400Minimum switching capacityU minV17I minmA5Short-circuit protectionConforming to IEC 60947, gG fuseA10Rated making capacityConforming to IEC 60947I rmsA110Short-time ratingPermissible for1 s A80500 ms A90100 ms A110Insulation resistanceMΩ> 10Non-overlap distance LA1K: linked contacts conforming to INRS, BIA and CNA specificationsmm0.5 (see schemes pages B8/77 and B8/79)Power broken in VAOperational power of contacts conforming to IEC 60947a.c. supply, category AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).10 000500030002000100080060050040030020010080602448110220440690 V1203805004016 0008000600040002c2b412aDF564971.epsOperating cycles V 24 48110/ 127220/ 230380/ 400 440600/ 6901 million operating cyclesVA489624044080088012003 million operating cyclesVA17348615828831750010 million operating cyclesVA7143666120132200Occasional making capacityVA1000205050001000014000130009000d.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.Operating cycles V 24 48 110 220 440 6001 million operating cyclesW12080605251503 million operating cyclesW55383028262510 million operating cyclesW15119876Occasional making capacityW720600400300230200Power broken in W10007005003002001008060504030201086122448110220440600 V25020014010050202c2b2a34DF564972.eps1. Breaking limit of contacts valid for: b maximum of 50 operating cycles at 10 s intervals (power broken = making current x cos φ 0.7).2. Electrical durability of contacts for: b 1 million operating cycles (2a) b 3 million operating cycles (2b) b 10 million operating cycles (2c).3. Breaking limit of contacts valid for: b maximum of 20 operating cycles at 10 s intervals with current passing for 0.5 s per operating cycle.4. Thermal limit.References: pages B8/4 to B8/11Dimensions:pages B8/76 and B8/78Schemes:pages B8/77 and B8/79TeSys ControlK Contactors and reversing contactorsCharacteristics and durability curvesRef.";i:665;s:578:"B8/76ContactorsTeSys ControlK ContactorsContactorsLC1K, LC7K, LP1K, LP4KOn panelOn mounting rail NSYSDR200BD or NSYSDR200 (7 35 mm)5735LA1 K5850==3545==4xØ4DF565021.eps575845DF565023.epsDX1AP25110451205727DZ5 ME5DF565024.epsOn printed circuit board4951.54510xØ1.9A1A23.254.5588.6539.8===5.2DB432688.epsElectronic time delay contact blocksLA2KT383827810294.epsOn contactor57LA2 KT5838DF565026.epsSuppressor modulesLA4KpOn contactor LC1K or LP1K62622572258DB439803.epsDimensions and mountingReferences:pages B8/4 to B8/7Characteristics:pages B8/72 to B8/75Schemes:page B8/77Ref.";i:666;s:1450:"B8/77ContactorsTeSys ControlK Contactors3-pole contactors With integral suppression deviceLC7KLP4K3 P + N/OA1A21/L1T1/23/L2T2/45/L3T3/61314DB425641.eps3 P + N/C2221/NCA1A21/L1T1/23/L2T2/45/L3T3/6127356.epsA1A2810332.eps+A1–A2810348.eps4-pole contactors With integral suppression deviceLC7KLP4K4 PA1A21/L1T1/23/L2T2/45/L3T3/67/L4T4/8127357.eps2 P N/O + 2 P N/CR1R2A1A21234R3R4DB432554.epsA1A2810332.eps+A1–A2810348.epsInstantaneous auxiliary contacts LA1KLA1KN20, KN207, KN203LA1KN02, KN027, KN023LA1KN11, KN117, KN1132 N/O2 N/C1 N/O + 1 N/C53/NO5463/NO64127359.eps61/NC6251/NC52DB425060.eps61/NC6253/NO54DB425061.epsLA1KN40, KN407, KN403LA1KN31, KN317, KN313LA1KN22, KN227, KN223LA1KN13, KN137, KN133LA1KN04, KN047, KN0434 N/O3 N/O + 1 N/C2 N/O + 2 N/C1 N/O + 3 N/C4 N/C54647453/NO63/NO73/NO83/NO84127361.eps627453/NO5461/NC73/NO83/NO84DB425062.eps53/NO5461/NC6271/NC7283/NO84DB425063.eps5462728253/NO61/NC71/NC81/NCDB425064.eps51/NC5261/NC6271/NC7281/NC82DB425065.eps Terminal referencing conforming to standard EN 50012LA1KN02MLA1KN11MLA1KN31MLA1KN22M2 N/C1 N/O + 1 N/C3 N/O + 1 N/C2 N/O + 2 N/C31/NC3221/NC22127363.eps223421/NC33/NODB425066.eps33/NO3421/NC2243/NO4453/NO54DB425067.eps21/NC2243/NO4453/NO5431/NC32DB425068.epsElectronic time delay contact blocksSuppressor modulesLA2KTLA4KCLA4KE1 C/OA1A2181516810345.eps+–DB404433.epsDB404434.epsSchemesReferences:pages B8/4 to B8/7Characteristics:pages B8/72 to B8/75Dimensions:page B8/76Ref.";i:667;s:785:"B8/78ContactorsTeSys ControlK Reversing contactorsReversing contactorsLC2K, LC8K, LP2K, LP5KOn panelOn mounting rail NSYSDR200BD or NSYSDR200 (7 35 mm)5735LA1 K5850==90808xØ4==DF565038.eps575890DF565040.eps2 x DX1AP25On one asymmetrical mounting rail DZ5MB on 2 mounting plates DX1AP25.5727DZ5 ME590110120DF565041.epsOn printed circuit board for reversing contactors or 2 contactors mounted side by side.453.254.5588.6550.2===20xØ1.9A1A249458.65===51.5A1A25.2DB432689.epsElectronic time delay contact blocksLA2KTOn reversing contactors383827DF565044.eps57LA2 KT5838DF565043.epsSuppressor modulesLA4KpOn reversing contactors LC2K or LP2 K62622DB439804.eps572258DF565046.epsDimensions and mountingReferences:pages B8/8 to B8/11Characteristics:pages B8/72 to B8/75Schemes:page B8/79Ref.";i:668;s:1806:"B8/79ContactorsTeSys ControlK Reversing contactors3-pole reversing contactors With integral suppression deviceWith screw clamp connectionsLC8KLP5K3 P + N/O3 P + N/C13/NO14A1A21/L1T1/23/L2T2/45/L3T3/613/NO14A1A21/L1T1/23/L2T2/45/L3T3/6810331.eps21/NC22A1A21/L1T1/23/L2T2/45/L3T3/621/NC22A1A21/L1T1/23/L2T2/45/L3T3/6DB425071.epsA1A2810332.eps+A1–A2810348.epsWith Faston connectors or solder pins (printed circuit board)3 P + N/O3 P + N/C13/NO14A1A21/L1T1/23/L2T2/45/L3T3/613/NO14A1A21/L1T1/23/L2T2/45/L3T3/6810333.eps21/NC22A1A21/L1T1/23/L2T2/45/L3T3/621/NC22A1A21/L1T1/23/L2T2/45/L3T3/6DB425886.ai4-pole reversing contactorsIntegral suppression deviceWith screw clamp connectionsWith Faston connectors or solder pins (printed circuit board)LC8KLP5K4 P4 PA1A2123456A1A21234561/L11/L21/L32/L12/L22/L3L1L2L3781N782NN810335.epsA1A2123456A1A21234787856DF565047.epsA1A2810332.eps+A1–A2810348.epsInstantaneous auxiliary contacts LA1KTerminal referencing conforming to standard EN 50012LA1KN20, KN207, KN203LA1KN02, KN027, KN023LA1KN11, KN117, KN113LAKN02MLA1KN11M2 N/O 2 N/C 1 N/O + 1 N/C 2 N/C 1 N/O + 1 N/C53/NO5463/NO64DB425072.eps61/NC6251/NC52DB425073.eps61/NC6253/NO54DB425885.ai31/NC3221/NC22DB425074.eps223421/NC33/NODB425075.epsLA1KN40, KN407, KN403LA1KN31, KN317, KN313LA1KN22, KN227, KN223LA1KN13, KN137, KN133LA1KN04, KN047, KN0434 N/O 3 N/O + 1 N/C 2 N/O + 2 N/C 1 N/O + 3 N/C4 N/C54647453/NO63/NO73/NO83/NO84DB425077.eps627453/NO5461/NC73/NO83/NO84DB425078.eps53/NO5461/NC6271/NC7283/NO84DB425079.eps5462728253/NO61/NC71/NC81/NCDB425884.ai51/NC5261/NC6271/NC7281/NC82DB425080.epsElectronic time delay contact blocksSuppressor modulesLA2KTLA4KCLA4KE1 C/O A1A2181516810345.eps+–810346.eps810347.epsSchemesReferences:pages B8/8 to B8/11Characteristics:pages B8/72 to B8/75Dimensions:page B8/78Ref.";i:669;s:2602:"B8/80ContactorsEnvironmentContactor type LC1D09...D18DT20 and DT25D25...D38DT32 and DT40D40A...D80ADT60A and DT80AD80...D95 (1)D115 and D150Rated insulation voltage (Ui)Conforming to IEC 60947-4-1, overvoltage category III, degree of pollution: 3V6901000Conforming to UL, CSAV600Rated impulse withstand voltage (Uimp)Conforming to IEC 60947kV68Conforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.4Product certifications (1)UL, CSA, CCC, EAC, UKCA, CB certification, EU-RO-MR by DNV-GL UL, CSA, CCC, EAC, UKCA, CB certification, DNV-GL, RINA, BV, LRoSDegree of protection (2)(front face)Conforming to IEC 60529Power circuit connectionsProtection against direct finger contact IP20Coil connectionProtection against direct finger contact IP20Climatic withstandAccording to IACS E10 and IEC 60947-1 Annex Q category DAccording to IACS E10Ambient air temperature around the deviceStorage°C-60...+80Operation (3)°C-40...+60 Allowed with derating (3) (4)°C+60...+70 at Uc to 1.●● x UcMaximum operating altitude Without deratingm3000Operating positions (5)Without derating in the following positionsAC and DC coilsAC/DC and "BBE" coilsAC coilsAC/DC and "BBE" coilsDC coils DF510743.eps90 ° 90 ° 180 ° DF537812.eps180 ° DF537813.epsPositions that are not allowedFor c contactors LC1D09 to LC1D150.DF537814.epsDF537815.epsFlame resistanceConforming to IEC 60695-2-11°C850Shock resistance (6) 1/2 sine wave = 11 msConforming to IEC/EN 60068-2-27Contactor open10 gn8 gn10 gn8 gn6 gnContactor closed15 gn15 gn15 gn10 gn15 gnVibration resistance (6) 5...300 HzConforming to IEC/EN 60068-2-6Contactor open2 gnContactor closed4 gn4 gn4 gn3 gn4 gn(1) Contactor LC1D95 with d.c. coil is not UL/CSA certified.(2) Protection provided for the cabling c.s.a.'s indicated on the next page and for connection by cable. For lug type: add a protective cover.(3) As per IEC60947-4-1, operating time and drop out voltage given and tested for -5...+40 °C. (4) Refer to operational current in AC1 (page A5/58).(5) When mounting on a vertical rail, use a stop.(6) Without modifying the power contact states, in the most unfavourable direction (coil energised at Ue). In case of vibration, it is recommended to mount the devices separately by screws on metal plate.CharacteristicsTeSys ControlDeca green, Deca ContactorsReferences: pages B8/18 to B8/28Dimensions:pages B8/94 to B8/100Schemes:pages B8/101 and B8/102Ref.";i:670;s:15:"B8/81Contactors";i:671;s:4619:"B8/82ContactorsCharacteristicsReferences: pages B8/18 to B8/28Dimensions:pages B8/94 to B8/100Schemes:pages B8/101 and B8/102TeSys ControlDeca green, Deca ContactorsPole characteristics Deca, Deca green contactorsContactor typeLC1D09(3P)DT20D098D12(3P)DT25D128D18(3P)DT32D188D25(3P)DT40D258D32D38D40ADT60AD50AD65AD80ADT80AD80D95D115D150Rated operational current (Ie)(Ue y 440 V)In AC-3/ AC-3e, θ y 60 °CA9121825323840–506566–8095115150In AC-1, θ y 60 °CA25 (1)2025 (1)2532 (1)3240 (1)4050 (1)50606080808080125125200200Rated operational voltage (Ue)Up toV69069069069069069069069069069069069069069010001000Frequency limitsOf the operational currentHz25...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...400Conventional thermal current (Ith)θ y 60 °CA25 (1)2025 (1)2532 (1)3240 (1)405050606080808080125125200200Rated making capacity (440 V)Conforming to IEC 60947A2502503004505505508008009001000100010001100110012601660Rated breaking capacity (440 V)Conforming to IEC 60947A2502503004505505508008009001000100010001100110011001400Permissible short time ratingNo current flowing for preceding 15 minutes with θ y 40 °CFor 1 sA210210240380430430720720810900900900990110011001400For 10 sA1051051452402603103203204006406406406408009501200For 1 minA616184120138150165165208260260260320400550580For 10 minA303040506060727284110110110135135250250Fuse protectionagainst short-circuits (U y 690 V)Without thermal overload relay, gG fusetype 1A25405063 63638080100125125125200200250315type 2A2025354063 638080100125125125160160200250With thermal overload relayASee pages B11/4 and B11/5, for aM or gG fuse ratings corresponding to the associated thermal overload relaySee pages B11/4 and B11/5 for aM or gG fuse ratings corresponding to the associated thermal overload relayAverage impedance per poleAt Ith and 50 HzmΩ2.52.52.52221.51.61.51.51.51.60.80.80.60.6Power dissipation per pole for the above operational currentsAC-3/ AC-3eW0.200.360.81.25232.4–3.76.36.3–5.17.27.913.5AC-1W1.561.562.53.2555.45.89.69.69.610.212.512.52424Control circuit characteristics, a.c. supply Deca contactorsRated control circuit voltage (Uc)50/60 HzV12...69012...69012...69024...500Control voltage limits––0.85...1.1 Uc at 55 °C50 or 60 Hz coilsOperation–Drop-out–––0.3...0.6 Uc at 55 °C0.3...0.5 Uc at 55 °C50/60 Hz coilsOperation0.8...1.1 Uc on 50 Hz and 0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and 0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and0.85...1.1 Uc on 60 Hz at 55 °C0.8...1.15 Uc on 50/60 Hz at 55 °CDrop-out0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 55 °C0.3...0.5 Uc at 55 °CAverage consumption at 20 °C and at Uca 50 HzInrush50 Hz coilVA–––200300–Cos φ0.750.750.750.750.80.950/60 Hz coilVA7070160245280...350280...350Sealed50 Hz coilVA–––2022–Cos φ0.30.30.30.30.30.950/60 Hz coilVA7715262...182...18a 60 HzInrush60 Hz coilVA–––220300–Cos φ0.750.750.750.750.80.950/60 Hz coilVA7070140245280...350280...350Sealed60 Hz coilVA–––2222–Cos φ0.30.30.30.30.30.950/60 Hz coilVA7.57.513262...182...18Heat dissipation50/60 HzW2...32...34...56...103...83...4.5Operating time (2)Closing "C"ms12...2212...2212...2612...2612...2612...2612...2612...2620...3520...3520...5020...35Opening "O"ms4...194...194...194...194...194...194...194...196...206...206...20 (3)40...75Mechanical durabilityin millions of operating cycles50 or 60 Hz coil––––––––10108–50/60 Hz coil on 50 Hz15156666664488Maximum operating rateat ambient temperature y 60 °CIn operating cycles per hour36003600360036003600360036003600360036002400 (4)1200(1) Versions with spring terminal connections: 16 A for LC1D093 and LC1D123 (20 A possible with 2 x 2.5 mm2 in parallel), 25 A for LC1D183 to LC1D323 (32 A possible for LC1D183 connected with 2 x 4 mm2 cables in parallel; 40 A possible for LC1D253 and LC1D323 connected with 2 x 4 mm2 in parallel).(2) The closing time "C" is measured from the moment the coil supply is switched on to closure of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.(3) The opening time is 40...75 ms for LX1D8p7 coils and 6...20 ms for LX1D8p5 and LX1D8p6 coils.(4) 2400 for LX1D8p5 and LX1D8p6 coils and 1200 for LX1D8p7 coils (refer to page B8/48 for list of coil references).Ref.";i:672;s:4564:"B8/83ContactorsPole characteristics Deca, Deca green contactorsContactor typeLC1D09(3P)DT20D098D12(3P)DT25D128D18(3P)DT32D188D25(3P)DT40D258D32D38D40ADT60AD50AD65AD80ADT80AD80D95D115D150Rated operational current (Ie)(Ue y 440 V)In AC-3/ AC-3e, θ y 60 °CA9121825323840–506566–8095115150In AC-1, θ y 60 °CA25 (1)2025 (1)2532 (1)3240 (1)4050 (1)50606080808080125125200200Rated operational voltage (Ue)Up toV69069069069069069069069069069069069069069010001000Frequency limitsOf the operational currentHz25...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...40025...400Conventional thermal current (Ith)θ y 60 °CA25 (1)2025 (1)2532 (1)3240 (1)405050606080808080125125200200Rated making capacity (440 V)Conforming to IEC 60947A2502503004505505508008009001000100010001100110012601660Rated breaking capacity (440 V)Conforming to IEC 60947A2502503004505505508008009001000100010001100110011001400Permissible short time ratingNo current flowing for preceding 15 minutes with θ y 40 °CFor 1 sA210210240380430430720720810900900900990110011001400For 10 sA1051051452402603103203204006406406406408009501200For 1 minA616184120138150165165208260260260320400550580For 10 minA303040506060727284110110110135135250250Fuse protectionagainst short-circuits (U y 690 V)Without thermal overload relay, gG fusetype 1A25405063 63638080100125125125200200250315type 2A2025354063 638080100125125125160160200250With thermal overload relayASee pages B11/4 and B11/5, for aM or gG fuse ratings corresponding to the associated thermal overload relaySee pages B11/4 and B11/5 for aM or gG fuse ratings corresponding to the associated thermal overload relayAverage impedance per poleAt Ith and 50 HzmΩ2.52.52.52221.51.61.51.51.51.60.80.80.60.6Power dissipation per pole for the above operational currentsAC-3/ AC-3eW0.200.360.81.25232.4–3.76.36.3–5.17.27.913.5AC-1W1.561.562.53.2555.45.89.69.69.610.212.512.52424Control circuit characteristics, a.c. supply Deca contactorsRated control circuit voltage (Uc)50/60 HzV12...69012...69012...69024...500Control voltage limits––0.85...1.1 Uc at 55 °C50 or 60 Hz coilsOperation–Drop-out–––0.3...0.6 Uc at 55 °C0.3...0.5 Uc at 55 °C50/60 Hz coilsOperation0.8...1.1 Uc on 50 Hz and 0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and 0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and0.85...1.1 Uc on 60 Hz at 60 °C0.8...1.1 Uc on 50 Hz and0.85...1.1 Uc on 60 Hz at 55 °C0.8...1.15 Uc on 50/60 Hz at 55 °CDrop-out0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 60 °C0.3...0.6 Uc at 55 °C0.3...0.5 Uc at 55 °CAverage consumption at 20 °C and at Uca 50 HzInrush50 Hz coilVA–––200300–Cos φ0.750.750.750.750.80.950/60 Hz coilVA7070160245280...350280...350Sealed50 Hz coilVA–––2022–Cos φ0.30.30.30.30.30.950/60 Hz coilVA7715262...182...18a 60 HzInrush60 Hz coilVA–––220300–Cos φ0.750.750.750.750.80.950/60 Hz coilVA7070140245280...350280...350Sealed60 Hz coilVA–––2222–Cos φ0.30.30.30.30.30.950/60 Hz coilVA7.57.513262...182...18Heat dissipation50/60 HzW2...32...34...56...103...83...4.5Operating time (2)Closing "C"ms12...2212...2212...2612...2612...2612...2612...2612...2620...3520...3520...5020...35Opening "O"ms4...194...194...194...194...194...194...194...196...206...206...20 (3)40...75Mechanical durabilityin millions of operating cycles50 or 60 Hz coil––––––––10108–50/60 Hz coil on 50 Hz15156666664488Maximum operating rateat ambient temperature y 60 °CIn operating cycles per hour36003600360036003600360036003600360036002400 (4)1200(1) Versions with spring terminal connections: 16 A for LC1D093 and LC1D123 (20 A possible with 2 x 2.5 mm2 in parallel), 25 A for LC1D183 to LC1D323 (32 A possible for LC1D183 connected with 2 x 4 mm2 cables in parallel; 40 A possible for LC1D253 and LC1D323 connected with 2 x 4 mm2 in parallel).(2) The closing time "C" is measured from the moment the coil supply is switched on to closure of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.(3) The opening time is 40...75 ms for LX1D8p7 coils and 6...20 ms for LX1D8p5 and LX1D8p6 coils.(4) 2400 for LX1D8p5 and LX1D8p6 coils and 1200 for LX1D8p7 coils (refer to page B8/48 for list of coil references).References: pages B8/18 to B8/28Dimensions:pages B8/94 to B8/100Schemes:pages B8/101 and B8/102Ref.";i:673;s:2510:"B8/84Contactorsd.c. control circuit characteristics Deca contactorsContactor typeLC1D09...D38LC1DT20...DT40 LC1D40A...D80ALC1DT60A and DT80ALC1 or LP1D80LC1D95LC1D115 andLC1D150Rated control circuit voltage (Uc)cV12...44012...44024...440Rated insulation voltageConforming to IEC 60947-1V690Conforming to UL, CSAV600Control voltage limitsOperationStandard coil0.7...1.25 Uc at 60 °C0.75...1.25 Ucat 60 °C0.85...1.1 Ucat 55 °C0.75...1.2 Ucat 55 °CWide range coil––0.75...1.2 Uc at 55 °C–Drop-out0.1...0.25 Uc at 60 °C0.1...0.3 Uc at 60 °C 0.1...0.3 Uc at 55 °C 0.15...0.4 Ucat 55 °CAverage consumptionat 20 °C and at UccInrushW5.41922270...365SealedW5.47.4222.4...5.1Operating time (1)average at UcClosing "C"ms63 ±15 %50 ±15%95...13020...35Opening“O”ms20 ±20 %20 ±20%20...3540...75Note: The arcing time depends on the circuit switched by the poles. For all normal 3-phase applications, the arcing time is less than 10 ms. The load is isolated from the supply after a time equal to the sum of the opening time and the arcing time.Time constant (L/R)ms28347525Mechanical durability at UcIn millions of operating cycles3010108Maximum operating rateat ambient temperature y 60 °CIn operating cycles per hour3600360036001200Low consumption control circuit characteristics Deca contactorsRated insulation voltageConforming to IEC 60947-1V690–Conforming to UL, CSAV600.–Maximum voltageOf the control circuit on cV250–Average consumptiond.c. at 20 °C and at UcWide range coil (0.8...1.25 Uc)InrushW2.4–SealedW2.4–Operating time (1) at Uc and at 20 °CClosing "C"ms77 ±15 %–Opening“O”ms25 ±20 %–Voltage limits (θ y 60 °C) of the control circuitOperation0.8 to 1.25 Uc–Drop-out0.1...0.3 Uc–Time constant (L/R)ms40–Mechanical durabilityIn millions of operating cycles30–Maximum operating rateat ambient temperature y 60 °CIn operating cycles per hour3600–(1) The operating times depend on the type of contactor electromagnet and its control mode. The closing time "C" is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.CharacteristicsTeSys ControlDeca ContactorsReferences:pages B8/22 to B8/28Dimensions:pages B8/94 to B8/97Schemes:pages B8/101 and B8/102Ref.";i:674;s:1611:"B8/85ContactorsCharacteristicsTeSys ControlDeca green Contactors Wide band Deca green contactors AC/DC coil circuit characteristicsRated control circuit voltage (Uc)VAC/DC 24...250OperationV0.85 Uc mini...1.1 Uc maxi at 60 °C in AC or DC (BNE coil: 0.8 Uc mini at 24 VDC, 0.85 Uc mini in AC).Drop-outV0.1 Uc maxi (e.g. 100 to 250 V = 25 V at 60 °C)Contactor typeLC1D09...D38LC1D40A...D80A, LC1DT60A, LC1DT80ACoil codeBNEEHEKUEBBEBNEEHEKUERated control circuit voltage (Uc)24-6048-130100-25024 DC24-6048-130100-250AC supply at 20°CConsumption inrushVA152525-152318Consumption sealed VA0.91.31.6-11.41.8Consumption sealedmA28159-35179.5Heat dissipationW0.60.81.1-0.80.91.3DC supply at 20°CConsumption inrushW14241811161914Consumption sealedmA231372030157.7Heat dissipationW0.60.81.10.50.70.91.2Max operating time (2)Closing "C"ms50 ±5 ms60 ±5 msOpening "O"ms20...90 ms20...80 msEMC immunityMeets IEC 60947-4-1 standard, table 12EMC emissionIEC 60947-4-1 §9.4.3Environment A (1)Maximum operating rate at ambient temperature y 60°Ccycle/h3600Mechanical durability at Uc In millions of operating cycles156(1) Use of this product in EMC environment B may require mitigation measures to avoid unwanted disturbance.(2) The closing time "C" is measured from the moment the coil supply is switched on to closure of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separates.References: pages B8/18 to B8/21Dimensions:pages B8/98 to B8/100Schemes:pages B8/101 and B8/102Ref.";i:675;s:3282:"B8/86ContactorsPower circuit connectionsScrew clamp terminal connections Deca, Deca green contactorsContactor typeLC1D09 and D12 DT20 and DT25D18(3P)D25 (3P)D32D38D18 and D25 (4P)DT32 and DT40 D40A to D80A DT60A and DT80A (1)D80 and D95D115 and D150TighteningScrew clamp terminalsConnector2 inputsScrew clamp terminalsConnector1 inputConnector2 inputsFlexible cablewithout cable end1 conductormm21...41.5...62.5...102.5...101...354...5010...1202 conductorsmm21...41.5...62.5...102.5...101...25and 1...354...2510...120 + 10...50Flexible cablewith cable end1 conductormm21...41...61...102.5...101...354...5010...1202 conductorsmm21...2.51...41.5...62.5...101...25and 1...354...1610...120 + 10...50Solid cablewithout cable end1 conductormm21...41.5...61.5...102.5...161...354...5010...1202 conductorsmm21...41.5...62.5...102.5...161...25and 1...356...2510...120 + 10...50ScrewdriverPhilips / PozidrivN° 2N° 2N° 2N° 2–––Flat screwdriver ØØ6Ø6Ø6Ø6–Ø6...Ø8–Hexagonal key––––444Tightening torqueN.m1.71.72.51.85: y 25 mm28: 35 mm212 12Spring terminal connections (2) Deca contactorsFlexible cablewithout cable end1 conductormm22.5 (4: DT25)444–10––2 conductorsmm22.5 (except DT25)444––––Connection by bars or lugs Deca contactorsBar c.s.a.––––––3 x 165 x 25Lug external Ømm881010816.51725Ø of screwmmM3.5M3.5M4M4M3.5M6 M6M8ScrewdriverPhilips / PozidrivN° 2N° 2N° 2N° 2N° 2–––Flat screwdriver ØØ6Ø6Ø6Ø6Ø6–Ø8–Key for hexagonal headed screw–––––101013Tightening torqueN.m1.71.72.52.51.86912Control circuit connectionsConnection by cable (tightening via screw clamps) Deca, Deca green contactorsFlexible cable without cable end1 conductormm21...41...41...41...41...41...41...41...2.52 conductorsmm21...41...41...41...41...41...41...41...2.5Flexible cable with cable end1 conductormm21...41...41...41...41...41...41...2.51...2.52 conductorsmm21...2.51...2.51...2.51...2.51...2.51...2.51...2.51...2.5Solid cable without cable end1 conductormm21...41...41...41...41...41...41...41...2.52 conductorsmm21...41...41...41...41...41...41...41...2.5ScrewdriverPhilips / PozidrivN° 2N° 2N° 2N° 2N° 2N° 2N° 2N° 2Flat screwdriver ØØ6Ø6Ø6Ø6Ø6Ø6Ø6Ø6Tightening torqueN.m1.71.71.71.71.71.71.21.2Spring terminal connections (2) Deca contactorsFlexible cable without cable end1 conductormm22.52.52.52.5–2.50.75...2.5––2 conductorsmm22.52.52.52.5–2.50.75...2.5––Connection by bars or lugs Deca contactorsLug external Ømm88888888Ø of screwmmM3.5M3.5M3.5M3.5M3.5M3.5M3.5M3.5ScrewdriverPhilips / PozidrivN° 2N° 2N° 2N° 2N° 2N° 2N° 2N° 2Flat screwdriver ØØ6Ø6Ø6Ø6Ø6Ø6Ø6Ø6Tightening torqueN.m1.71.71.71.71.71.71.21.2(1) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(2) If cable ends are used, choose the next size down (example: for 2.5 mm2, use 1.5 mm2) and square crimp the cable ends using a special tool.CharacteristicsTeSys ControlDeca green, Deca ContactorsReferences: pages B8/18 to B8/28Dimensions:pages B8/94 to B8/100Schemes:pages B8/101 and B8/102Ref.";i:676;s:2233:"B8/87ContactorsCharacteristics of auxiliary contacts incorporated in the contactorMechanically linked contactsConforming to IEC 60947-5-1Each contactor has 2 N/O and N/C contacts mechanically linked on the same movable contact holderMirror contactConforming to IEC 60947-4-1The N/C contact on each contactor represents the state of the power contacts and can be connected to a PREVENTA safety moduleRated operational voltage (Ue)Up toV690Rated insulation voltage (Ui)Conforming to IEC 60947-1V690Conforming to UL, CSAV600Conventional thermal current (Ith)For ambient temperature y 60 °CA10Frequency of the operational currentHz25...400Minimum switching capacity λ = 10–8U minV17I minmA5Short-circuit protectionConforming to IEC 60947-5-1gG fuse: 10 ARated making capacityConforming to IEC 60947-5-1, I rmsAa: 140, c: 250Short-time ratingPermissible for1 sA100500 msA120100 msA140Insulation resistanceMΩ> 10Non-overlap timeGuaranteed between N/C and N/O contactsms1.5 (on energisation and on de-energisation)Tightening torquePozidriv / Philips head n° 2 and Ø6N.m1.7 0,10,2 0,3 0,50,4 0,60,81234568100,10,20,30,40,60,812346810Millions of oprating cyclesCurrent broken in ADF537816.epsOperational power of contacts conforming to IEC 60947-5-1a.c. supply, categories AC-14 and AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).Operating cyclesV 24 48 115230 400 440 6001 millionVA 60120280560960105014403 millionVA16328016028030042010 millionVA4820407080100AC-150,10,20,30,50,40,60,81234568100,10,20,30,40,60,812346810440 V48 V250 V125 V24 VCurrent broken in AMillions of oprating cyclesDF537817.epsd.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.Operating cyclesV24481252504401 millionW96767676443 millionW48383832–10 millionW141212––DC-13CharacteristicsTeSys ControlDeca green, Deca ContactorsReferences: pages B8/18 to B8/28Dimensions:pages B8/94 to B8/100Schemes:pages B8/101 and B8/102Ref.";i:677;s:2081:"B8/88ContactorsEnvironmentContact block type (not dust/damp protected)LADN or LADCLADT and LADSLADRLAD8Conforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSA, CCC, EAC, UKCA, CB certification Degree of protectionConforming to IEC 60529Protection against direct finger contact IP 2XAmbient air temperature around the deviceStorage°C-60...+80Operation°C-5...+60Maximum operating altitudeWithout deratingm3000Connection by cablePhillips n° 2 and Ø6 mm Flexible or solid cable with or without cable endmm2Min: 1 x 1; max: 2 x 2.5Tightening torqueN.m1.7Spring terminal connectionsFlexible or solid cable without cable endmm2Max: 2 x 2.5Instantaneous and time delay contact characteristicsNumber of contacts1, 2 or 4222Rated operational voltage (Ue)Up toV690Rated insulation voltage (Ui)Conforming to IEC 60947-5-1V690Conforming to UL, CSAV600Conventional thermal current (Ith)For ambient temperature y 60 °CA10Frequency of the operational currentHz25...400Minimum switching capacityU minV17I minmA5Short-circuit protectionConforming to IEC 60947-5-1 gG fuseA10Rated making capacityConforming to IEC 60947-5-1I rmsAa: 140; c: 250Short-time ratingPermissible for1 sA100500 msA120100 msA140Insulation resistanceMΩ> 10Non-overlap timeGuaranteed between N/C and N/O contactsms1.5 (on energisation and on de-energisation)Overlap timeGuaranteed between N/C and N/O contacts on LADC22ms1.5–––Time delay(LADT, R and S contact blocks)Accuracy only valid for setting range indicated on the front faceAmbient air temperature for operation°C–-40...+70-40...+70–Repeat accuracy–±2 % ±2 % –Drift up to 0.5 million operating cycles–+15 % +15 % –Drift depending on ambient air temperature–0.25 % per °C0.25 % per °C–Mechanical durabilityIn millions of operating cycles305530Operational power of contactsSee page B8/90CharacteristicsReferences: page B8/36Dimensions: pages B8/94 and B8/95Schemes: pages B8/101 and B8/102TeSys ControlDeca green, Deca Contactors - Auxiliary contact blocksRef.";i:678;s:1703:"B8/89ContactorsEnvironmentContact block type (dust/damp protected)LA1DXLA1DZ (4 contacts: 2 protected + 2 non protected)LA1DYProtectedProtectedNon protectedProtectedConforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSA, CCC, EAC, UKCA, CB certification Degree of protectionConforming to IEC 60529Protection against direct finger contact IP 2XAmbient air temperature Storage and operation°C-25...+70CablingPhillips n° 2 and Ø6 mmFlexible or solid conductor with or without cable endmm2Min: 1 x 1; max: 2 x 2.5Tightening torqueN.m1.7Number of contacts2222Contact characteristicsRated operational voltage(Ue)Up toVac125125690125Vdc303030Rated insulation voltage (Ui)Conforming to IEC 60947-5-1V250250690250Conforming to UL, CSAV––600–Conventional thermal current (Ith)For ambient temperature y 40 °CA––10–Maximum operational current(Ie)mA100100–100Frequency of the operational currentHz––25...400–Minimum switching capacityU minV55175I minmA1151Short-circuit protectionConforming to IEC 609475-1gG fuseA––10–Rated making capacityConforming to IEC 609475-1I rmsA––a:140; c: 250–Short-time ratingPermissible for1 sA––100–500 msA––120–100 msA––140–Insulation resistanceMΩ> 10> 10> 10> 10Mechanical durabilityIn millions of operating cycles55305Materials and technologyused for dust and damp protected contactsGold alloy - Single break Gold alloy - Single break –Gold alloy - Single break with crossed barsReferences: page B8/36Dimensions: pages B8/94 and B8/95Schemes: pages B8/101 and B8/102CharacteristicsTeSys ControlDeca green, Deca Contactors - Auxiliary contact blocksRef.";i:679;s:1243:"B8/90ContactorsRated operational power of not dust/damp protected contacts (conforming to IEC 60947-5-1)a.c. supply, categories AC-14 and AC-15Electrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).Operating cyclesV24481152304004406001 millionVA 60120280560960105014403 millionVA 16328016028030042010 millionVA 48204070801000,10,20,30,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,77123546810Current broken in AMillions of operating cyclesDF510631.epsd.c. supply, category DC-13Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.Operating cyclesV24481252504401 millionW 96767676443 millionW 48383832–10 millionW 141212––0,10,20,30,40,50,60,70,80,9123456789100,10,20,30,40,60,50,80,77123546810440 V48 V250 V125 V24 VCurrent broken in AMillions of operating cyclesDF510632.epsDurability curvesReferences: page B8/36Dimensions: pages B8/94 and B8/95Schemes: pages B8/101 and B8/102TeSys ControlDeca green, Deca Contactors - Auxiliary contact blocksRef.";i:680;s:1745:"B8/91ContactorsEnvironmentConforming to standardsIEC/EN 60947-5-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSADegree of protectionConforming to IEC 60529Protection against direct finger contact IP 2XAmbient air temperature around the deviceStorage °C-40...+80Operation°C-25...+55Permissible for operation at Uc°C-25...+70Suppressor modules Deca contactorsModule typeLA4DA, LAD4RC,LAD4RC3LA4DB, LAD4T,LAD4T3LA4DC, LAD4D3LA4DE, LAD4V,LAD4V3Type of protectionRC circuitBidirectional peak limiting diodeDiodeVaristorRated control circuit voltage (Uc)Va 24...415a or c 24...440c 12...250a or c 24...250Maximum peak voltage3 Uc 2 UcUc2 UcNatural RC frequency24/48 VHz400–––50/127 VHz200–––110/240 VHz100–––380/415 VHz150–––Mechanical latch blocks (1) Deca, Deca green contactorsMechanical latch block typeLAD6K10LA6DK20For use on contactorLC1D09...D80ADT20...DT80ALC1D80...D150LP1D80 and LC1D115Product certificationsUL, CSAUL, CSARated insulation voltageConforming to IEC 60947-5-1V690690Rated control circuit voltagea 50/60 Hz and cV24...41524...415Power requiredFor unlatchingaVA2525cW3030Maximum operating rateIn operating cycles/hour12001200On-load factor10 %10 %Mechanical durability at UcIn millions of operating cycles0.50.5(1) Unlatching can be manually operated or electrically controlled (pulsed). The LA6DK or LAD6K latch coil and the LC1D operating coil must not be energised simultaneously. The duration of the LA6DK or LAD6K and LC1D control signals must be u 100 ms.References: pages B8/37 and B8/38Dimensions: pages B8/94 and B8/95Schemes: page B8/102TeSys ControlDeca green, Deca Contactors - Coil Suppressors, mechanical latchesCharacteristicsRef.";i:681;s:1615:"B8/92ContactorsEnvironment Deca, Deca green contactorsModule typeLA4DT (On-delay)Conforming to standardsIEC 60255-5Product certificationsUL, CSADegree of protection Conforming to IEC 60529Protection against direct finger contact IP 2XAmbient air temperature around the deviceStorage°C-40...+80Operation°C-25...+55For operation at Uc°C-25...+70Rated insulation voltage (Ui)Conforming to IEC 60947-1 V250CablingPhillips n° 2 and Ø6 mmFlexible or solid conductor with or without cable endmm2Min: 1 x 1; max: 2 x 2.5Tightening torqueN.m1.7Control circuit characteristicsBuilt-in protectionOf the inputBy varistorContactor coil suppressionBy varistorRated control circuit voltage (Uc)Va or c: 24...250Permissible variation0.8...1.1 UcType of controlBy mechanical contact onlyTiming characteristicsTiming rangess0.1...2; 1.5...30; 25...500Repeat accuracy0...40 °C±3 % (10 ms minimum)Reset timeDuring time delay periodms150After time delay periodms50Immunity to microbreaksDuring time delay periodms10After time delay periodms2Minimum control pulse durationms–Time delay signallingBy LEDIlluminates during time delay periodSwitching characteristics (solid state type)Maximum power dissipatedW2Leakage currentmA< 5Residual voltageV3.3Overvoltage protection3 kV; 0.5 jouleElectrical durabilityIn millions of operating cycles30Function diagramElectronic on-delay timer LA4DT0101tU supply (A1-A2)Time delay outputContactor coilRed LED810389.epsCharacteristicsTeSys ControlDeca green, Deca Contactors - Electronic serial timerReferences: page B8/40Dimensions: pages B8/94 and B8/95Schemes: pages B8/101 and B8/102Ref.";i:682;s:2374:"B8/93ContactorsEnvironment Deca, Deca green contactorsConforming to standardsIEC 60255-5Product certificationsUL, CSADegree of protectionConforming to IEC 60529Protection against direct finger contact IP 2XAmbient air temperature around the deviceStorage°C-40...+80Operation°C-25...+55Permissible for operation at Uc°C-25...+70Other characteristicsModule typeLA4DFB for Deca contactorsWith relayLA4DWB for Deca, Deca green contactorsSolid stateConventional thermal current (Ith)For ambient temperature y 50 °CA8Rated insulation voltageConforming to IEC 60947-5-1V250Rated operational voltageConforming to IEC 60947-5-1V250Indication of input stateBy integral LED which illuminates when the contactor coil is energisedInput signalsControl voltage (E1-E2)Vc 24c 24Permissible variationV17...305...30Current consumption at 20 °CmA258.5 for 5 V15 for 24 VState “0” guaranteed forUV< 2.4< 2.4ImA< 2< 2State “1” guaranteed forUV175Built-in protectionAgainst reversed polarityBy diodeBy diodeOf the inputBy diodeBy diodeElectrical durability at 220 A/240 VIn millions of operating cycles1020Maximum immunity to microbreaksms41Power dissipatedAt 20 °CW0.60.4Direct mounting on contactorWith coila 24...250 VLC1D80...D150–a 100...250 V–LC1D80...D115a 380...415 V––Mounting with cabling adapter LAD4BBWith coila 24...250 VLC1D09...D38, LC1DT20...DT40LC1D09...D38, LC1DT20...DT40a 380...415 V––Mounting withcabling adapter LAD4BB3With coila 24...250 VLC1D40A...D80ALC1D40A...D80Aa 380...415 VLC1D40A...D80ALC1D40A...D80ATotal operating time at Uc (of the contactor)The operating times depend on the type of contactor electromagnet and its control mode. The closing time "C" is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.LC1D09...D38, LC1DT20...DT40LC1D40A...D80ALC1D80 and D95LC1D115LC1D150With LA4DFB"C"ms20...3028...3428...4328...5828...43“O”ms16...2420...2418...3218...3252...87CablingPhillips n° 2 and Ø6 mmFlexible or solid cable with or without cable endmm2Min: 1 x 1; max: 2 x 2.5Tightening torqueN.m1.7References: page B8/40Dimensions: pages B8/94 and B8/95Schemes: pages B8/101 and B8/102TeSys ControlDeca green, Deca Contactors - Interface modulesCharacteristicsRef.";i:683;s:2477:"B8/94ContactorsLC1D09...D18 (3-pole)LC1D25...D38 (3-pole), LC1DT20...DT40 (4-pole)(LAD 8)(LAD 8) (1)bc10c1c2c34512,512,5b144LA4DF510934.eps(LAD 8)b4512,5(LAD 8) (1)12,5b144LA4c10c1c2c3Minimum electrical clearanceDF565145.epsLC1D09...D18D093... D123D099... D129D25... D38D183... D323D098, D128,DT20 and DT25 DT203 and DT253DT32 and DT40D188, D258, DT323 and DT403bwithout add-on blocks7799808599859991105b1with LAD4BB9410795,59810798–––with LA4Dp2110 (1)123 (1)111.5 (1)114 (1)123 (1)114–––with LA4DF, DT119 (1)132 (1)120.5 (1)123 (1)132 (1)129–––with LA4DW, DL126 (1)139 (1)127.5 (1)130 (1)139 (1)190–––cwithout cover or add-on blocks848484909090909797with cover, without add-on blocks868686929292929999c1with LADN or C (2 or 4 contacts)117117117123123123123131131c2with LAD6K10129129129135135135135143143c3with LADT, R, S137137137143143143143151151with LADT, R, S and sealing cover141141141147147147147155155(1) Including LAD4BB.LC1D40A...D80A (3-pole), LC1DT60A...DT80A (4-pole)LC1D80 and D95 (3-pole), LC1D80004 and D80008 (4-pole), D40008 and D65008 (4-pole) LAD 4BB3117122a(LAD 8N)(LAD 8N)12,5c1c2c3LA4 DpBLA4 DpBLAD 4BB3b112c12,5Min. electrical clearanceDF569184.eps12,5(LAD 8)(LAD 8)127b1a12,54432LA4c12c1c2c3Minimum electrical clearanceDF565147.epsLC1D40A...D80ADT60A...DT80AD40008D80D95, D65008D80004D80008a55708585859696b1with LA4Dp2––135135135135135with LA4DB3 or LAD4BB3136––135–––with LA4DF, DT157–142142142142142with LA4DM, DW, DL166–150150150150150cwithout cover or add-on blocks118118125125125125140with cover, without add-on blocks120120–130130––c1with LADN (1 contact)––139150150150150with LADN or C (2 or 4 contacts)150150147158158158158c2with LAD6K10 or LA6DK163163159170170170170c3with LADT, R, S171171167178178178178with LADT, R, S and sealing cover175175171182182182182LC1D115 and D150 (3-pole), LC1D115004 (4-pole)LC1D115, D150D115004D1150046158cac1c2c3b1LAD 8LA410Min. electrical clearanceDF569186.epsa120150155b1with LA4DA2174174174with LA4DF, DT185185185with LA4DM, DL188188188with LA4DW188188188cwithout cover or add-on blocks132132115with cover, without add-on blocks136 ––c1with LADN or C (2 or 4 contacts)150150150c2with LA6DK20155155155c3with LADT, R, S168168168with LADT, R, S and sealing cover172172172Minimum electrical clearanceTeSys ControlDeca Contactors - a.c. coilDimensionsReferences:pages B8/22 to B8/28Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:684;s:1841:"B8/95ContactorsLC1D09...D18 (3-pole)LC1D25...D38 (3-pole)bc10c1c2c345Minimum electrical clearanceDF565149.epscb10c1c2c345Minimum electrical clearanceDF565150.epsLC1D09...D18D093...D123D099...D129D25...D38D183...D323b7799808599cwithout cover or add-on blocks9393939999with cover, without add-on blocks959595101101c1with LADN or C (2 or 4 contacts)126126126132132c2with LAD6K10138138138144144c3with LADT, R, S146146146152152with LADT, R, S and sealing cover150150150156156LC1DT20...DT40 (4-pole)cb10c1c2c345Minimum electrical clearanceDF565151.epsLC1DT20 and DT25 D098 and D128DT203 and DT253 D0983 and D1283DT32 and DT40 D188...D258DT323 and DT403 D1883 and D2583b859991105cwith cover102102107107c1with LADN or C (2 or 4 contacts)123123131131c2with LAD6K10135135143143c3with LADT, R, S143143151151with LADT, R, S and sealing cover147147155155LC1D40A...D80A (3-pole), LC1DT60A...DT80A (4-pole)LC1D80 and D95 (3-pole), LP1D80004, LP1D80008 (4-pole), LP1D40008 and D65008 (4-pole)LAD 4BB3117122a(LAD 8N)(LAD 8N)12,5c1c2c3LA4 DpBLA4 DpBLAD 4BB3b112c12,5DF569184.epsac12c1c2c3127Min. electrical clearanceDF510661.epsLC1D40A... D80ALC1DT60A...DT80ALP1D40008and D65008LC1D80 and D95LP1D80004LP1D80008a557285859696b1with LAD4BB3136136––––with LA4DF, DT157157––––cwithout cover or add-on blocks118118182181181196with cover, without add-on blocks120120–186––c1with LADN (1 contact)––196204204204with LADN or C (2 or 4 contacts)150150202210210210c2with LAD6K10 or LA6DK20163163213221221221c3with LADT, R, S171171221229229229with LADT, R, S and sealing cover175175225233233233LC1D115ppp and LC1D150ppp with c coil: see page B8/94.Min. electrical clearanceTeSys ControlDeca Contactors - d.c. / low consumption coilDimensionsReferences:pages B8/22 to B8/28Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:685;s:1629:"B8/96ContactorsTeSys ControlDeca ContactorsMountingLC1D09...D38, DT20...DT40LC1D40A...D80A, LC1DT60A and DT80A, LC1D80 and D95,LC1D40008 and D65008On mounting rail NSYSDR200BD, NSYSDR200BD or NSYSDR200 (width 35 mm)c=b =c=b=810610.epsOn mounting rail AM1DL201 (width 75 mm) (2)On mounting rail NSSDPRpp or NSYSDR200 (width 35 mm)==cbDF511013.epsControl circuit: a.c.Control circuit: a.c.LC1D09...D18D25...D38DT20 and DT25DT32 and DT40LC1D40A...D80ADT60A...DT80AD80and D95D40008and D65008b778585100b122127127c(NSYSDR200BD or NSYSDR200BD) (1)889494109c–147143c(NSYSDR200) (1)96102102117c(AM1DL201) (1)–137133c(NSSDPRpp or NSYSDR200 (1)128137133Control circuit: d.c.Control circuit: d.c.LC1D09...D18D25...D38DT20 and DT25DT32 and DT40LC1D40A...D80ADT60A...DT80AD80and D95D40008and D65008b778594109c–205200c(NSYSDR200BD or NSYSDR200BD) (1)97103103118c(AM1DL201) (1)–195190c(NSYSDR200) (1)105110111126c(NSSDPRpp or NSYSDR200) (1)128–190(1) With safety cover.(2) Except for LC1D40A...D80A, LC1DT60A and DT80A.LC1D80 and D95, LP1D80On 2 mounting rails DZ5MB on 120 mm centres11012040c15DZ5 ME5DF565154.epsControl circuit: a.c.LC1D80 and D95cwith cover130Control circuit: d.c. (3)LC1D80 and D95cwith cover186LP1D80c181(3) Leave a 9 mm gap between 2 contactors if left on for more than 4 hours.LC1D115, D150On 2 mounting rails DZ5MB on 120 mm centres 100==158c810611.epsControl circuit: a.c. or d.c.LC1D115 and D150D1156 and D1506c(NSYSDR200BD or NSYSDR200BD)134.5117.5c(NSYSDR200 or EDppp)142.5125.5References:pages B8/22 to B8/28Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:686;s:1717:"B8/97ContactorsLC1D09...D38 and LC1DT20...DT40On 2 mounting rails DZ5MBc15HH1DZ5 ME8GDF510718.epsControl circuit:a.c.d.c.LC1D09...D18D25...D38D09...D18D25...D38cwith cover869295101G35353535H60607070H1707070704-pole contactorsLC1DT20 and DT25DT32 and DT40DT20 and DT25DT32 and DT40c92100101109G35353535H60607070H170707070LC1D09...D38 and LC1DT20...DT40LC1D40A...D80A, LC1DT60A...DT80AOn pre-slotted mounting plate AM1 PA, PB, PCHAF1 EA4GcDF510439.epsOn pre-slotted mounting plate AM1 PA, PB, PC and panel mounted12837,5AF1 EA4c3xØ4,512837,5DB402218R.epsControl circuit:a.cd.c&Control circuit:a.cd.c.LC1D09...D18D25...D38D09...D18D25...D38LC1D40A...D80A , DT60A...DT80AD40A...65A , DT60A...DT80Acwith cover869295101G35353535cwith cover120120H60/7060/707070LC1DT20 and DT25DT32 and DT40DT20 and DT25DT32 and DT40cwith cover8093118132G35353535H60607070LC1D09...D38, LC1DT20...DT40LC1D80 and D95, LC1D40008 and D65008, LP1D80Panel mountedOn pre-slotted mounting plate AM1 PA, PB, PC and panel mountedAF1 EA640110c4085==100/110==3xØ6,5==DB439345.ai60/70==35==2xM4cDB425756.eps(1)(1) for DC coil: 70 mm only.Control circuit:a.cd.cControl circuit:a.cd.c.LC1D09...D18D25...D38D09...D18D25...D38LC1D80 and D95, D80 and D95cwith cover869295101D40008 and D65008D40008 and D650084-pole contactorscwith cover130186LC1DT20 and DT25DT32 and DT40DT20 and DT25DT32 and DT40LP1––D80 cwith cover90989098cwithout cover––181LC1D115, D150Panel mounted130==158cG==DF565389.epsLC1D115D1156D150D1506c132115132115G (3-pole)96/11096/11096/11096/110G (4-pole)130/144130/144––TeSys ControlDeca ContactorsMountingReferences:pages B8/22 to B8/28Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:687;s:1109:"B8/98ContactorsLC1D09...D18 (3-pole), with AC/DC compatible coilLC1D25...D38 (3-pole), with AC/DC compatible coil(LAD 8)bc10c1c2c34512,5DF510934R.epsb4512,5(LAD 8) c10c1c2c3Minimum electrical clearanceDF565145R.epsLC1D09...D18D25...D38bwithout add-on blocks7785cwithout cover or add-on blocks8490with cover, without add-on blocks8692c1with LADN or C (2 or 4 contacts)117123c2with LAD6K10129135c3with LADT, R, S137143with LADT, R, S and sealing cover141147LC1D40A...D80A (3-pole), LC1DT60A...DT80A (4-pole), with AC/DC compatible coil LAD 4BB3117122a(LAD 8N)(LAD 8N)12,5c1c2c3LA4 DpBLA4 DpBLAD 4BB3b112c12,5Min. electrical clearanceDF569184.epsLC1D40A...D80ADT60A...DT80Aa5570b1LAD4BB3136–with LAD4DWB166–cwithout cover or add-on blocks118118with cover, without add-on blocks120120c1with LADN (1 contact)––with LADN or C (2 or 4 contacts)150150c2with LAD6K10163163c3with LADT, R, S171171with LADT, R, S and sealing cover175175Minimum electrical clearanceDimensionsTeSys ControlDeca green ContactorsReferences:pages B8/18 to B8/21Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:688;s:644:"B8/99ContactorsMountingLC1D09...D38 (3-pole), with AC/DC compatible coilLC1D40A...D80A (3-pole), LC1DT60A and DT80A (4-pole), with AC/DC compatible coilOn mounting rail NSYSDR200BD, NSYSDR200BD or NSYSDR200 (width 35 mm)c=b =c=b=810610.epsOn mounting rail AM1DL201 (width 75 mm) (2)On mounting rail NSSDPRpp or NSYSDR200 (width 35 mm)==cbDF511013.epsLC1D09...D18D25...D38LC1D40A...D80ADT60A...DT80Ab7785b122c(NSYSDR200BD or NSYSDR200BD) 8894c–c(NSYSDR200) 96102c(AM1DL201)–c(NSSDPRpp or NSYSDR200)128TeSys ControlDeca green ContactorsReferences:pages B8/18 to B8/21Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:689;s:850:"B8/100ContactorsMountingLC1D09...D38 (3-pole), with AC/DC compatible coilOn 2 mounting rails DZ5MBc15HH1DZ5 ME8GDF510718.epsLC1D09...D18D25...D38cwith cover8692G3535H6060H17070LC1D09...D38 (3-pole), with AC/DC compatible coilLC1D40A...D80A (3-pole), LC1DT60A...DT80A (4-pole), with AC/DC compatible coilOn pre-slotted mounting plate AM1PA, PB, PCHAF1 EA4GcDF510439.epsOn pre-slotted mounting plate AM1PA, PB, PC and panel mounted12837,5AF1 EA4c3xØ6,512837,5DB402218.epsLC1D09...D18D25...D38LC1D40A...D80A , DT60A...DT80Acwith cover8692G3535cwith cover120H60/7060/70LC1D09...D38 (3-pole), with AC/DC compatible coilPanel mounted502xM4==60/70==35==35==2xØ4,52xM4cDF565155.epsLC1D09...D18D25...D38cwith cover8692TeSys ControlDeca green Contactors References:pages B8/18 to B8/21Characteristics: pages B8/80 to B8/87Schemes:pages B8/101 and B8/102Ref.";i:690;s:1923:"B8/101ContactorsSchemesContactorsDeca, Deca green 3-pole contactors (References: pages B8/22 to B8/25)LC1D09 to D150A1A213/NO141/L12/T13/L25/L32221/NC4/T26/T3127266.epsDeca 4-pole contactors (References: pages B8/26 and B8/27)LC1DT20 to DT80ALC1D115004LC1D098 to D258LC1 and LP1D40008 to D80008127267.epsA1A21/L12/T13/L24/T25/L36/T37/L48/T4127268.epsA1A212R1R2R3R43413/NO142221/NC127269.epsA1A2R1R2R3R41234127270.epsFront mounting add-on contact blocksInstantaneous auxiliary contacts for Deca, Deca green contactors (References: page B8/36)1 N/O LADN10 (1)1 N/C LADN01 (1)1 N/O + 1 N/C LADN112 N/O LADN204443/NO(94)(93)DF510935.eps4241/NC(91)(92)810623.eps53/NO546261/NC127271.eps63/NO6453/NO54127307.eps2 N/C LADN022 N/O + 2 N/C LADN221 N/O + 3 N/C LADN134 N/O LADN4061/NC6251/NC52DB425060.eps7271/NC6261/NC83/NO8453/NO54127273.eps7271/NC6261/NC53/NO548281/NC127274.eps83/NO8473/NO7463/NO6453/NO54127275.eps4 N/C LADN042 N/O + 2 N/C including 1 N/O + 1 N/C make before break LADC223 N/O + 1 N/C LADN3151/NC5261/NC6271/NC7281/NC82DB425065.eps53/NO5461/NC6287/NO8875/NC76DB425053.eps6261/NC83/NO8473/NO7453/NO54127308.epsInstantaneous auxiliary contacts conforming to standard EN 50012 for Deca, Deca green contactors (References: page B8/36) 1 N/O + 1 N/C LADN11G1 N/O + 1 N/C LADN11P2 N/O + 2 N/C LADN22G2 N/O + 2 N/C LADN22P3231/NC43/NO44127309.eps2221/NC13/NO14127310.eps3231/NC4241/NC63/NO6453/NO54127311.eps3231/NC2221/NC43/NO4413/NO14127312.eps3 N/O + 1 N/C LADN31G3 N/O + 1 N/C LADN31P1 N/O + 3 N/C LADN13G1 N/O + 3 N/C LADN13P3231/NC43/NO4463/NO6453/NO54127313.eps2221/NC33/NO3413/NO1443/NO44127314.eps4241/NC3231/NC5251/NC63/NO64127315.eps3231/NC2221/NC13/NO144241/NC127316.eps(1) Items in brackets refer to blocks mounted on right-hand side of contactor.TeSys ControlDeca green, Deca Contactors References: pages B8/22 to B8/40Characteristics: pages B8/80 to B8/93Dimensions: pages B8/94 to B8/100Ref.";i:691;s:1651:"B8/102ContactorsReferences: pages B8/36 to B8/40Characteristics: pages B8/88 to B8/92Dimensions: pages B8/94 and B8/95, B8/98Front mounting add-on contact blocks for Deca, Deca green contactorsDust and damp protected instantaneous auxiliary contacts (References: page B8/36)2 N/O (24-50 V) LA1DX202 N/C (24-50 V) LA1DX022 N/O (5-24V) with 2 cable screen terminalsLA1DY202 N/O protected (24-50 V) 2 N/O standard LA1DZ402 N/O protected (24-50 V) + 1 N/O + 1 N/C standard LA1DZ31DF510649.epsDF510650.epsDF510651.eps53/NO5483/NO8463/NO6473/NO74810646.eps6261/NC53/NO5483/NO8473/NO74810644.epsTime delay auxiliary contacts (References: page B8/37)On-delay 1 N/O + 1 N/C LADTOff-delay 1 N/O + 1 N/C LADROn-delay 1 N/C + 1 N/O break before make LADS55/NC5667/NO68810647.eps6665/NC57/NO58810650.eps810648.eps67/NO6855/NC56Mechanical latch blocks for Deca, Deca green contactors (References: page B8/37)LAD6K10 and LA6DK20A1A2E1E2810639.epsSide mounting add-on contact blocks for Deca, Deca green contactorsInstantaneous auxiliary contacts (References: page B8/36) 1 N/O + 1 N/C LAD8N11 (1)2 N/O LAD8N20 (1)2 N/C LAD8N02 (1)162161/NC(171)(172)153/NO154(183)(184)810651.eps153/NO154(184)(183)163/NO164(174)(173)810652.eps262261/NC(281)(282)251/NC252(271)(272)DB425757.eps(1) Items in brackets refer to blocks mounted on right-hand side of contactor.Electronic serial timer modules for Deca, Deca green contactorsOn-delay LA4DTpUDF510646.epsInterface modulesRelay output for Deca contactorsSolid state for Deca, Deca green contactorsLA4DFBLA4DWBDF510647.epsDF510648.epsReferences: page B8/85.SchemesTeSys ControlDeca green, Deca Contactors Ref.";i:692;s:967:"B8/103ContactorsDimensionsTeSys ControlDeca green, Deca Reversing and changeover contactors LC2D09 to D38 Deca, Deca green contactorsLC2DT20 to DT40 Deca contactors2 x LC1D09 to D382 x LC1DT20 to DT402xM4Ga==60/70==cbe1e2DF568948.eps2xM4Ga==60/70==cbe2DB432690.epsLC2 or 2 x LC1abc (1)e1e2GLC2 or 2 x LC1abcGe2D09 to D18 AC, AC/DC90778641.580DT20 and DT25 AC9085928020D093 to D123 AC909986––80DT32 and DT40 AC9091998022D09 to D18 DC90779541.580DT20 and DT25 DC90851028020D093 to D123 DC909995––80DT32 and DT40 DC90911098022D25 to D38 AC, AC/DC9085929580c, e: including cabling.D183 to D383 AC909992––80D25 to D32 DC90851019580D183 to D383 DC9099101––80e1 and e2: including cabling.(1) With safety cover, without add-on block.LC2D40A to D80A for Deca, Deca green contactors2 x LC1D40A to D80ADF568945.eps1221281201196418,718,726,537,537,56xM4References: pages B8/29 to B8/32Characteristics: pages B8/80 to B8/87Schemes:pages B8/105 to B8/106Ref.";i:693;s:695:"B8/104ContactorsLC2D80 and D952 x LC1D80 and D95 a2 x LC1D80 and D95 ccbe1e2G1==6xØ6,540a==G40100/110813DF568950.epscbe1e2G1==6xØ6,540a==G40100/110813DF568951.epsLC2 or 2 x LC1abce1e2GG12 x LC1abce1e2GG1D80 and D95 a18212715813–5696D80 and D9518212721513205696D80004 a207127158–2071111c, e1 and e2: including cabling.c, e1 and e2: including cabling.LC2D115 and D1502 x LC1D115 and D150158e1e2cGa==130==DF568952.epsLC2 or 2 x LC1ace1e2GD115 and D1502661485618242/256D115004334148–60310/324c, e1 and e2: including cabling.DimensionsTeSys ControlDeca Reversing and changeover contactors References: pages B8/29 to B8/32Characteristics: pages B8/80 to B8/87Schemes:pages B8/105 to B8/106Ref.";i:694;s:849:"B8/105ContactorsSchemesTeSys ControlDeca green, Deca Reversing and changeover contactors Reversing contactors for motor controlLC2D09...D80A Deca, Deca green contactors LC2D80...D150 Deca contactorLAD9R1V D, Deca green contactorsHorizontally mountedWith integral electrical interlocking14A1A2123456L1L2L3123456UVW13/NO1413/NOA1A22221/NC2221/NCDB425633.eps14A1A2123456L1L2L3123456UVW13/NO1413/NOA1A22221/NC2221/NCDB425634.epsChangeover contactor pairs Deca contactorsLC2DT20...DT40LADT9R1VHorizontally mountedWith integral electrical interlockingA1A21234561/L11/L21/L3123478L1L2N56L3781N2/L12/L22/L32N1413/NO2221/NC1413/NOA1A22221/NCDB425635.eps1234561/L11/L21/L3123478L1L2N56L3781N2/L12/L22/L32N14A1A213/NO1413/NOA1A22221/NC2221/NCDB425636.epsReferences: pages B8/29 to B8/32Characteristics: pages B8/80 to B8/87Dimensions:pages B8/103 to B8/104Ref.";i:695;s:975:"B8/106ContactorsElectrical interlocking of Deca, Deca green reversing contactors fitted with:Mechanical interlock with integral electrical contactsMechanical interlock without integral electrical contactsLA9D4002, LA9D8002 and LA9D11502LAD9V2, LAD4CM, LA9D50978 and LA9D8097801020102A1A2A2A1A2A2– KM2– KM1DF568956.epsA1A2– KM1– KM2A1A2– KM2– KM1DF568957.epsLow speed - High speed cabling kit, screw clamp terminals for LC1D09... D38 contactors (Deca, Deca green)Low speed - High speed cabling kit, spring terminals for LC1D09... D38 contactors (Deca)14A1A21234561234L1L2L3123456UVW13/NO1413/NOA1A2A1A22221/NC2221/NC14132221PVGVR1R2R3R4LAD9PVGVDB425631.eps14A1A21234561234L1L2L3123456UVW13/NO1413/NOA1A2A1A22221/NC2221/NCPVGVR1R2R3R4LAD3PVGVU1V1W1U2V2W2LAD3PVGV1014132221DB425632.epsSchemesTeSys ControlDeca green, Deca Reversing and changeover contactors References: pages B8/29 to B8/32Characteristics: pages B8/80 to B8/87Dimensions:pages B8/103 to B8/104Ref.";i:696;s:377:"B8/107ContactorsTeSys ControlDeca Contactors for 3-phase capacitor bank switchingDimensionsLC1DFKLC1DGK, DLK, DMK1151217745DB419182.eps1251277745DB419181.epsLC1DPK, DTKLC1DWK16615611355DB419183.eps85180154127DB419184.epsSchemeLC1DpK21NC13NO2231NC32141/L13/L25/L32/T14/T26/T3A1A2- R- RDB402403.epsR = Pre-wired resistor connections.Dimensions and schemeReferences:page B8/34Ref.";i:697;s:1631:"B8/108ContactorsCharacteristicsTeSys ControlModular ContactorsPB113076_13.epsModular contactors are designed for use in modular panels and enclosures. These contactors feature:b Easy installation:v quick clip-on fixing and locking onto 35 mm omega railv easy connection by means of ready-to-tighten, captive, pozidrive screw terminals.b Compact size:All units have a common depth of 60 mm and width in modules of 17.5 mm (width of one module: 17.5 mm).b User safety:v use of materials conforming to strictest fire safety standardsv live parts protected against direct finger contactv completely safe operationv state indication on front panel.StandardsThis range of modular contactors has been designed taking into account the requirements of international standard IEC 61095.This standard is specific to “Electromagnetic contactors for domestic and similar use”.It has very strict requirements, meeting the expectations of users, with regard to the safety of equipment and persons in “premises and areas accessible to the public”.Conformity with this standard makes it possible to obtain the following quality labels without the need for additional tests: NF-USE, VDE, CEBEC, etc.ApplicationsModular contactors are designed for switching all single-phase, 3-phase or 4-phase loads up to 100 A.Power switchingThese contactors have multiple applications in industrial, agricultural and commercial premises, hospitals and the home, i.e. wherever switching of a specific supply is required: b lightingb heatingb ventilationb motorised shutters or gates.GC25References:page B8/51Dimensions, schemes:pages B8/115 to B8/117Ref.";i:698;s:2393:"B8/109ContactorsCharacteristicsEnvironmentContactor typeGC16GC25GC40GC63GC100Rated insulation voltage (Ui)Conforming to IEC 61095V500Conforming to VDE 0110V500Rated impulse withstand voltage (Uimp)kV4 in enclosureConforming to standardsIEC 61095 and IEC 60947-5-1 for auxiliary contactsDegree of protectionConforming to IEC 60529Protection against direct finger contact (IP 20 open, IP 40 in enclosure)Ambient air temperature around the deviceStorage°C-40...+70Operation°C-5...+50 (0.85...1.1 Uc)Maximum operating altitudeWithout deratingm3000Operating positionsWithout derating±30° in relation to normal vertical mounting planeShock resistance 1/2 sine wave = 10 msConforming to IEC/EN 60068-2-27Contactor open10 gnContactor closed15 gnVibration resistance 5...300 HzConforming to IEC/EN 60068-2-6Contactor open2 gnContactor closed3 gnFlame resistanceConforming to IEC 61095Pole characteristicsNumber of poles2, 3 or 4Rated operational current (Ie) (Ue y 440 V)In AC-7a (heating)A16254063100In AC-7b (motor control)A58.51525–Contactor rating40 °CA1625406310050 °CA142236578760 °C (1)A1320325080Rated operational voltage (Ue)Up toV250 two-pole contactors, 415 three and four-pole contactorsFrequency limitsOf the operating currentHz400Conventional thermal current (lth)θ y 50 °CA16254063100Rated breaking and making capacityConforming to IEC 61095 (AC-7b) I rms 400 V 3-phaseA4068120200–Permissible short time rating no current flowing for preceding 15 minutes with q y 40 °CFor 10 sA128200320504800For 30 sA4062100157250Short-circuit protection by fuse or circuit breaker U y 440 Vgl fuseA16254063100Circuit breaker I2t (at 3 kA rms prospective)230 VA2s5000100001600018000–400 VA2s9000140001750020000–Electrical durability in operating cyclesAC-7a, AC-7b10000010000010000010000030000Average impedance per poleAt lth and 50 HzmΩ2.52.5221Power dissipated per poleFor the above operational currentsW0.651.63.2810Maximum cabling c.s.a.Flexible cable without cable end1 conductormm2662525352 conductorsmm2441616–Flexible cable with cable end1 conductormm2661616352 conductorsmm21.51.544–Solid cable without cable end1 conductormm2662525352 conductorsmm2446610Tightening torquePower circuit connectionsN.m0.80.83.53.53.5(1) Ventilation 1/2 module must be fitted.TeSys ControlModular ContactorsReferences:page B8/51Dimensions, schemes:pages B8/115 to B8/117Ref.";i:699;s:1395:"B8/110ContactorsControl circuit characteristicsContactor typeGC16, GC25 single or 2-poleGC16, GC25 3 or 4-pole GC40, GC63 2-poleGC40, GC63 3 or 4-pole GC100 2-poleGC100 4-poleRated control circuit voltage (Uc)50 or 60 HzV12...240 V, for other voltages, please consult your Regional Sales OfficeControl voltage limits (θ y 50 °C)50 Hz coilsOperational0.85...1.1 UcDrop-out0.2...0.75 UcAverage coil consumption at 20 °C and at Uca 50 HzInrushVA153453106SealedVA3.84.66.513Maximum heat dissipation50/60 HzW1.31.62.14.2Operating timeClosing “C”ms10...30 Opening “O”ms10...25 Mechanical durabilityIn operating cycles106Maximum operating rate at ambient temperature y 50 °CIn operating cycles per hour300Maximum cabling c.s.a.Flexible cable without cable end1 or 2 conductorsmm22.5Flexible cable with cable end1 conductormm22.52 conductorsmm21.5Solid cable without cable end1 or 2 conductorsmm21.5Tightening torqueN.m0.8Instantaneous auxiliary contact characteristicsRated operational voltage (Ue)Up toV250Rated insulation voltage (Ui)Conforming to IEC 60947-5V500Conforming to VDE 0110V500Conventional thermal current (Ith)For ambient θ y 50 °CA5Mechanical durabilityOperating cycles106Maximum cabling c.s.a.Flexible or solid conductormm22.5Tightening torqueN.m0.8References:page B8/51Dimensions, schemes:pages B8/115 to B8/117CharacteristicsTeSys ControlModular ContactorsRef.";i:700;s:1963:"B8/111ContactorsCharacteristics in lighting applicationsTeSys ControlModular ContactorsReferences:page B8/51Dimensions, schemes:pages B8/115 to B8/117Lighting (Maximum number of lamps depending on the power of each unit) Introduction of installations according to type of supply bSingle-phase circuit, 230 V230VL1N811982.eps b3-phase circuit, 230 VL3L1L2230V230V230V811983.epsThe maximum number of lamps which can be operated per phase is equal to the number of lamps in the “single phase 230 V” table divided by 3. b3-phase circuit, 400 V (with neutral)230VL3N230VL1L2230V811984.epsThe maximum number of lamps which can be operated per phase is equal to the total number of lamps in the “single-phase 230 V” table.Contactor rating for a single-phase 230 V circuit (single-pole)Fluorescent lamps with starterSingle fittingNon correctedWith parallel correctionContactor ratingP (W)2040508011020405880110–IB (A)0.390.430.700.801.20.190.290.460.570.79–C (μF)–––––557716–Maximum number of lamps22201310715151010516 A302817151020201515725 A7060353020404030301440 A10090564832606043432063 ATwin fittingNon correctedWith series correctionContactor ratingP (W)2 x 182 x 362 x 582 x 802 x 1402 x 182 x 362 x 582 x 802 x 140–IB (A)0.440.821.341.642.20.260.480.780.961.3–C (μF)–––––3.54.57918–Maximum number of lamps20117543017109616 A30161086462516131025 A5026161310804327221640 A75422521161236742342563 AHigh pressure mercury vapour lampsNon correctedWith parallel correctionContactor ratingP (W)508012525040070050801252504007001000–IB (A)0.60.81.152.153.255.40.350.500.71.52.445.7–C (μF)––––––781018254060–Maximum number of lamps151084211099432–16 A201510642151310642125 A34272010642825201185340 A5340281510643383017127563 AIB: value of current drawn by each lamp at its rated voltage.C: unit capacitance for each lamp.IB and C correspond to values normally quoted by lamp manufacturersRef.";i:701;s:1709:"B8/112ContactorsContactor rating for a single-phase 230 V circuit (single-pole) (continued)Low pressure sodium vapour lampsNon correctedWith parallel correctionContactor ratingP (W)1835559013518018355590135180–IB (A)0.351.41.42.13.13.10.350.60.60.90.90.9–C (μF)––––––52020264540–Maximum number of lamps1845322143321116 A3499644215542225 A57141496640101084540 A912424191010601515116763 AHigh pressure sodium vapour lampsNon correctedWith parallel correctionContactor ratingP (W)701502504001000701502504001000–IB (A)11.834.410.30.60.71.52.56–C (μF)–––––12203245100–Maximum number of lamps8421–6622116 A1274319934225 A2013852181868440 A321811832525912663 AMetal iodine or halogen vapour lampsNon correctedWith parallel correctionContactor ratingP (W)35701502504001000397015025040010002000–IB (A)0.30.511.52.560.30.511.52.565.5–C (μF)––––––6122032458560–Maximum number of lamps27168531126432–116 A4024128521896431225 A6842201484311610753340 A1066432211355025151074563 AIncandescent and halogen lampsContactor ratingP (W)60751001502003005001000–IB (A)0.260.320.440.650.871.32.174.4–Maximum number of lamps302519121074216 A4538281814106325 A85705035261810640 A1251007350372515863 AHalogen lamps used with transformerContactor ratingP (W)6080105150–IB (A)0.260.350.450.65–Maximum of lamps986416 A14129625 A2723181340 A4035271963 AIB: value of current drawn by each lamp at its rated voltage.C: unit capacitance for each lamp.IB and C correspond to values normally quoted by lamp manufacturers References:page B8/51Dimensions, schemes:pages B8/115 to B8/117Characteristics in lighting applicationsTeSys ControlModular ContactorsRef.";i:702;s:886:"B8/113ContactorsCharacteristics in heating applicationsHeating (AC-7a)Single-phase, 2-pole switchingU811985.eps3-phase switchingUUU811986.epsHeating by resistive elements or by infra-red radiators, convectors or radiators, heating ducts, industrial furnaces. The current peak between the hot and cold states must not exceed 2 to 3 In at the moment of switch-on.Contactor selection according to power and required electrical lifeElectrical durability (in operating cycles)Maximum power (kW)Contactor rating100 x 103150 x 103200 x 103500 x 103106Single-phase switching 230 V (2-pole)3.532.210.816 A5.44.63.51.61.225 A8.67.45.62.61.940 A13.611.68.84363 A21.618.4146.44.8100 A3-phase switching 400 V (3-pole)1096.53.22.216 A16141053.525 A2622177.5640 A413526.512963 A64.855.24219.214.4100 ATeSys ControlModular ContactorsReferences:page B8/51Dimensions, schemes:pages B8/115 to B8/117Ref.";i:703;s:444:"B8/114ContactorsCharacteristics in motor control applicationsMotor control (AC-7b)Single-phase circuit, 230 VUVML1L2811987.eps3-phase circuit, 400 VUWMVL1L2L3811988.epsContactor selection according to maximum power in kW230 V single-phase capacitor motor (2-pole)400 V 3-phase motorContactor rating (Ith)0.552.216 A 1.1425 A 2.27.540 A 41163 A References:page B8/51Dimensions, schemes:pages B8/115 to B8/117TeSys ControlModular ContactorsRef.";i:704;s:547:"B8/115ContactorsDimensionsDimensionsContactorsCommon side viewGC1610, 1611, 1620 GC2502, 2510, 2511, 2520GC1622, 1640 GC2504, 2522, 2530, 25401 module2 modules23.55.52.5496881451836DB417023.epsCommon side viewGC4002, 4011, 4020 GC6302, 6311, 6320GC4004, 4022, 4030, 4040 GC6304, 6322, 6330, 63402 modules3 modules543623.55.52.549688545DB417024.epsCommon side viewGC10020GC100403 modules6 modules5410823.55.52.549688545DB417025.epsTeSys ControlModular ContactorsReferences:page B8/51Characteristics:pages B8/108 to B8/114Schemes:page B8/117Ref.";i:705;s:884:"B8/116ContactorsDimensions and mountingDimensionsAuxiliary contactsCoil suppression blocks GAC0511, 0531 and 0521GAP21 and 238123.55.54968459DB417026.eps18814554460DB417027.epsClip-on ventilation 1/2 moduleGAC58656744DF533726.epsMountingSetting-up precautionsThe contactor controls must be bounce free. If not, connect a coil suppression block 1 (GAP21 or 23) across the coil terminals y 250 V. When several contactors which operate at the same time are mounted side by side, a GAC 5 ventilation 1/2 module 2 must be fitted every 2 contactors.12DB417050.epsIt is advisable to mount electronic units at the bottom of the modular panel and to separate them from electromechanical units by a space 3 equal to one module, or by 2 ventilation 1/2 modules (GAC 5).3DB417051.epsTeSys ControlModular ContactorsReferences:page B8/51Characteristics:pages B8/108 to B8/114Schemes:page B8/117Ref.";i:706;s:521:"B8/117ContactorsSchemesTeSys ControlModular ContactorsReferences:page B8/51Characteristics:pages B8/108 to B8/114Dimensions:pages B8/115 and B8/116SchemesContactorsGCpp10GCpp20GCpp30GCpp40A1A212DF533729.epsA1A23412DF533730.epsA1A2341256DF533731.epsA1A234125678DF533732.epsGCpp11GCpp22GCpp02GCpp04R1R2A1A212DF533733.epsA1A21234R1R2R3R4DF533734.epsR1R2A1A2R3R4DF533735.epsA1A2R1R2R7R8R3R4R5R6DF533736.epsAuxiliary contactsGAC0521GAC0531GAC05112221/NC13/NO14DF533737.eps2423/NO13/NO14DF533738.eps14/NO13/NO12DF533739.epsRef.";i:707;s:2679:"B8/118ContactorsCharacteristicsPB113083_13.epsModular "dual tariff" contactors are designed for use in modular panels and enclosures.These contactors feature:b Easy installation:v quick clip-on fixing and locking onto 35 mm omega railv easy connection by means of ready-to-tighten captive, pozidrive screw terminals.b Compact sizeAll units have a common depth of 60 mm and width in modules of 17.5 mm (width of one module: 17.5 mm).b User safety:v use of materials conforming to strictest fire safety standardsv live parts protected against direct finger contactv completely safe operationv state indication on front panel."Dual tariff" contactors are designed for use with Electricity Supply Authority dual tariffs.They have a 4-position selector switch on the front panel:GY25"Stop" (O)For switching off the load, e.g. for prolonged periods of absence."Off peak"Automatic start (A)The contactor switches automatically during "off peak" hours as set by the Supply Authority remote control and thus supplies the load, (washing machine, dishwasher, convector heater, water heater) during this period, at an economy rate to the user."Peak time"Manual start (I)In this position, the contactor supplies the load to cater for additional requirements for hot water, heating, etc., but at the standard rate. The contactor returns automatically to the "off-peak" position at the start of the "off-peak" period."Peak time"Manual override with lock Facility for setting the contactor to continuous manual operation, ignoring the automation system and the Supply Authority control; setting and locking is achieved by means of a tool, with manual return to the "AUTO" position.StandardsThis range of modular contactors has been designed taking into account the requirements of international standard IEC 61095.This standard is specific to "Electromagnetic contactors for domestic and similar use".It has very strict requirements, meeting the expectations of users, with regard to the safety of equipment and persons in "premises and areas accessible to the public".Conformity with this standard makes it possible to obtain the following quality labels without the need for additional tests: NF-USE, VDE, CEBEC, etc."Dual tariff" modular contactors are designed for switching all single-phase, 3-phase or 4-phase loads up to 63 A.Modular contactors have multiple applications in industrial, agricultural and commercial premises, hospitals and the home, i.e. wherever switching of a specific supply is required: b lighting,b heating, ventilation,b motorised shutters or gates.TeSys ControlModular "Dual tariff" contactorsReferences:page B8/52Dimensions and schemes:pages B8/121 and B8/122Ref.";i:708;s:2377:"B8/119ContactorsCharacteristicsEnvironmentTypeGY16GY25GY40GY63Rated insulation voltage (Ui)Conforming to IEC 61095V500Conforming to VDE 0110V500Rated impulse withstand voltage (Uimp)kV4 in enclosureConforming to standardsIEC 61095 and IEC 60947-5-1 for auxiliary contactsProduct certificationsNF-USE, VDE, CEBEC, ÖVEDegree of protectionConforming to IEC 60529Protection against direct finger contact IP 20 open, IP 40 in enclosureAmbient air temperature around the deviceStorage°C-40...+70Operation°C-5...+50 (0.85...1.1 Uc)Maximum operating altitudeWithout deratingm3000Operating positionsWithout derating±30° in relation to normal vertical mounting planeShock resistance 1/2 sine wave = 11 msConforming to IEC/EN 60068-2-27Contactor open10 gnContactor closed15 gnVibration resistance 5...300 HzConforming to IEC/EN 60068-2-6Contactor open2 gnContactor closed3 gnFlame resistanceConforming to IEC 61095Pole characteristicsNumber of poles2, 3 or 4Rated operational current (Ie) (Ue y 440 V)In AC-7a (heating)A16254063In AC-7b (motor control)A58.51525Contactor rating40 °C1625406350 °C1422365760 °C (1)13203250Rated operational voltage (Ue)Up toV250 - 2-pole contactors, 415 - 3 and 4-pole contactorsFrequency limitsOf the operating currentHz400Conventional thermal current (lth)θ y 50 °CA16254063Rated breaking and making capacityConforming to IEC 61095 (AC-7b) I rms 400 V 3-phaseA4068120200Short time rating with no current flow for the previous previous 15 minutes with θ y 40 °CFor 10 sA128200320504For 30 sA4062100157Short-circuit protection by fuse or circuit breaker U y 440 Vgl fuseA16254063Circuit breaker I2t (at 3 kA rms prospective)230VA2s5000100001600018000400VA2s9000140001750020000Electrical durability in operating cycles AC-7a, AC-7b100000100000100000100000 Average impedance per poleAt lth and 50 HzmΩ2.52.522Power dissipated per poleFor the above operational currentsW0.651.63.28Maximum cabling c.s.a.Flexible cable without cable end1 conductormm26625252 conductorsmm2441616Flexible cable with cable end1 conductormm26616162 conductorsmm21.51.544Solid cable without cable end1 conductormm26625252 conductorsmm24466Tightening torquePower circuit connectionsN.m0.80.83.53.5(1) Ventilation 1/2 module must be fitted.TeSys ControlModular "Dual tariff" contactorsReferences:page B8/52Dimensions and schemes:pages B8/121 and B8/122Ref.";i:709;s:1355:"B8/120ContactorsControl circuit characteristicsTypeGY16, GY25 single or 2-poleGY16, GY25 3 or 4-poleGY40, GY63 3 or 4-poleGY40, GY63 2-poleRated control circuit voltage (Uc)50 or 60 HzV12...240 V, for other voltages, please consult your Regional Sales OfficeControl voltage limits (θ y 50 °C)50 Hz coilsOperational0.85...1.1 UcDrop-out0.2...0.75 UcAverage consumption at 20 °C and at Uca 50 HzInrushVA153453SealedVA3.84.66.5Heat dissipation50/60 HzW1.31.62.1Operating timeClosing "C"ms10 ... 30Opening "O"ms10 ... 25Mechanical durabilityIn operating cycles106Maximum operating rate at ambient temperature y 50 °CIn operating cycles per hour300Maximum cabling c.s.a.Flexible cable without cable end1 or 2 conductorsmm22.5Flexible cable with cable end1 conductormm22.5 2 conductorsmm21.5Solid cable without cable end1 or 2 conductorsmm21.5Tightening torqueN.m0.8Instantaneous auxiliary contact characteristicsRated operational voltage (Ue)Up toV250Rated insulation voltage (Ui)Conforming to IEC 60947-5V500 Conforming to VDE 0110V500Conventional thermal current (Ith)For ambient θ y 50 °CA5Mechanical durabilityIn operating cycles106Maximum cabling c.s.a.Flexible or solid conductormm2 2.5Tightening torqueN.m 0.8References:page B8/52Dimensions and schemes:pages B8/121 and B8/122CharacteristicsTeSys ControlModular "Dual tariff" contactorsRef.";i:710;s:552:"B8/121ContactorsDimensionsDimensions"Dual tariff" contactorsCommon side viewGY1620 GY2520GY2530, 25401 module2 modules23.55.54968732.581451836DB417046.epsCommon side viewGY4020 GY6320GY4030, 4040 GY6330, 63402 modules3 modules7323.55.52.5496885453654DB417047.epsAuxiliary contactsCoil suppression blockGAC0511, 0531 and 0521GAP21 and 238123.55.54968459DB417048.eps81451854460DB417049.epsClip-on ventilation 1/2 moduleGAC58656744DF533726.epsTeSys ControlModular “Dual tariff” contactorsReferences:page B8/52Characteristics:pages B8/118 to B8/120Ref.";i:711;s:916:"B8/122ContactorsMounting and schemesTeSys ControlModular “Dual tariff” contactorsReferences:page B8/52Characteristics:pages B8/118 to B8/120MountingSetting-up precautionsThe contactor controls must be bounce free. If not, connect a coil suppression block 1 (GAP 21 or 23) across the coil terminals y 250 V. When several contactors which operate at the same time are mounted side by side, a GAC5 ventilation 1/2 module 2 must be fitted every 2 contactors.12DB417052.epsIt is advisable to mount electronic units at the bottom of the modular panel and to separate them from electromechanical units by a space equal to one module 3 or by 2 ventilation 1/2 modules GAC5.3DB417053.epsSchemesContactorsGYpp20GYpp30GYpp40GYpp11A1A23412812037.epsA1A2341256812038.epsA1A234125678812039.epsR1R2A1A212812040.epsAuxiliary contactsGAC0521GAC0531GAC05112221/NC13/NO14812041.eps2423/NO13/NO14812042.eps14/NO13/NO12812046.epsRef.";i:712;s:1382:"B8/123ContactorsPF526284R.epsModular impulse relays are designed for use in modular enclosures.They feature:b Easy installation:v quick clip-on fixing and locking onto 35 mm omega railv easy connection by means of ready-to-tighten captive, pozidrive screw terminals.b Compact sizeUnits have a common depth of 60 mm and width of 18 mm.b User safety:v live parts protected against direct finger contactv completely safe operationv state indication on front panel.StandardsThis range of modular impulse relays has been designed taking into account the requirements of international standard IEC 60669-2.This standard is specific to “Impulse relays”.Conformity with this standard makes it possible to obtain the following quality labels without the need for additional tests: NF-USE, VDE, CEBEC, etc.FunctionsModular impulse relays are designed for opening and closing of circuits which are remotely controlled by impulses. The position is mechanically maintained.These impulse relays are used in lighting circuits when there are more than two switching points.Power switchingModular impulse relays have multiple applications in industrial, agricultural and commercial premises, hospitals and the home, i.e. wherever switching of a specific lighting supply is required.GF1611M7TeSys ControlModular Impulse relayCharacteristicsReferences:page B8/53Dimensions, schemes:page B8/127Ref.";i:713;s:1787:"B8/124ContactorsCharacteristicsEnvironmentRated insulation voltage (Ui)Conforming to IEC 60947-1-5V400Conforming to VDE 0110V400Rated impulse withstand voltage (Uimp)kV4 in enclosureConforming to standardsIEC 60669-1 and 60669-2Product certificationsNF-USE, CEBEC, ASE, KEMA, N, S, D, FI, VDEDegree of protectionConforming to IEC 60529Protection against direct finger contact IP 20 open, IP 40 in enclosureAmbient air temperature around the deviceStorage°C-40...+80Operation°C-20...+50Maximum operating altitudeWithout deratingm2000Operating positionsWithout derating±90° in relation to normal vertical mounting planeShock resistance 1/2 sine wave = 10 msConforming to IEC/EN 60068-2-27Impulse relay openPlease consult your Regional Sales OfficeImpulse relay closedPlease consult your Regional Sales OfficeVibration resistance 5...300 HzConforming to IEC/EN 60068-2-6Impulse relay open4 gnImpulse relay closed4 gnPole characteristicsNumber of poles1 or 2Rated operational current (Ie)(Ue y 250 V)In AC-7a (heating)A16Rated operational voltageV250Conventional thermal current (lth)θ y 50 °CA16Permissible short time rating no current flowing for preceding 15 minutes with θ y 40 °CFor 1 sA320For 10 sA96For 30 sA48Short-circuit protection by fuse or circuit breakergl fuseA16Circuit breaker I2t (at 3 kA rms prospective)A2s5000Average impedance per poleAt lth and 50 HzmΩ4Power dissipated per poleW1Maximum cabling c.s.a.Min.Max.Flexible cable without cable end1 conductormm20.562 conductorsmm20.54Flexible cable with cable end1 conductormm20.562 conductorsmm20.54Solid cable without cable end1 conductormm20.562 conductorsmm20.54Tightening torquePower circuit connectionsN.m0.8TeSys ControlModular Impulse relayReferences:page B8/53Dimensions, schemes:page B8/127Ref.";i:714;s:877:"B8/125ContactorsControl circuit characteristicsRated control circuit voltage (Uc)V12...240 V, for other voltages, please consult your Regional Sales OfficeControl voltage limits (θ < 50 °C)Operating threshold, dual frequency 50/60 HzV0.85...1.1 UcAverage consumption at 20 °C and at UcInrush at 50 HzVA19Operating timeClosing “C”ms70Opening “O”ms70Minimum impulse timems70Mechanical durability106 operating cyclesElectrical durabilityAC-21200000 operating cyclesAC-22100000 operating cyclesMaximum operating rateOperating cycles per hour900Maximum cabling c.s.a.Flexible cable without cable end1 or 2 conductorsmm22.5Flexible cable with cable end1 conductormm22.52 conductorsmm21.5Solid cable without cable end1 or 2 conductorsmm21.5Tightening torqueN.m0.8References:page B8/53Dimensions, schemes:page B8/127CharacteristicsTeSys ControlModular Impulse relayRef.";i:715;s:864:"B8/126ContactorsLighting circuitsFluorescent lamps with starterSingle fittingNon correctedWith parallel correctionPower in W183658183658Number of lamps703521502516Twin fittingWith series correctionPower in W2 x 182 x 362 x 58Number of lamps562817Incandescent lamps: filament lampsPower in W406075100200Number of lamps402520168Incandescent lamps: halogen lampsPower in W30050010001500Number of lamps5311Incandescent lamps: very low voltage halogen lampsPower in W205075100Number of lamps7028194Low pressure sodium vapour lampsNon correctedPower in W5590135180Number of lamps2415107High pressure sodium vapour lampsNon correctedPower in W2504001000Number of lamps531Heating circuitsSingle-phase 230 V, 2-polePower in kW3.6 TeSys ControlModular Impulse relayCharacteristics in lighting and heating applicationsReferences:page B8/53Dimensions, schemes:page B8/127Ref.";i:716;s:279:"B8/127ContactorsDimensions and schemesDimensionsGF1610, GF1611, GF1620186460445,58145DF534007.epsSchemesGF1610GF1611GF1620A1A212DF534008.epsR1R2A1A212DF534009.epsA1A23412DF534010.epsTeSys ControlModular Impulse relayReferences:page B8/53Characteristics:pages B8/123 to B8/126Ref.";i:717;s:2840:"B8/128ContactorsTeSys ControlContactors Contactor characteristics are established following tests and utilization categories whose are conforming IEC 60947-4-1 and 5-1 standards.ContactorsElectrical durability: making and breaking conditionsOccasional duty: making and breaking conditionsa.c. supplyTypical applicationsUtilisation categoryMakingBreakingMakingBreakingIUcos φIUcos φIUcos φIUcos φResistors, non inductive or slightly inductive loadsAC-1IeUe 0.95IeUe 0.951.5 Ie1.05 Ue0.81.5 Ie1.05 Ue0.8MotorsSlip ring motors: starting, breaking.AC-22.5 IeUe0.652.5 IeUe0.654 Ie1.05 Ue0.654 Ie1.05 Ue0.65Squirrel cage motors: starting, breaking whilst motor running.AC-3 Ie y (1)6 IeUe0.651 Ie0.17 Ue0.6510 Ie1.05 Ue0.458 Ie1.05 Ue0.45Ie > (2)6 IeUe0.351 Ie0.17 Ue0.3510 Ie1.05 Ue0.358 Ie1.05 Ue0.35Squirrel cage motors: starting, breaking whilst motor running.AC-3eIe y (1)6 leUe0.651 le0.17Ue0.6513 le1.05 Ue0.45 (4)8.5 le1.05 Ue0.45 (4)Ie > (2)6 leUe0.351 le0.17Ue0.3513 le1.05 Ue0.35 (5)8.5 le1.05 Ue0.35 (5)Squirrel cage motors: starting, reversing, inchingAC-4Ie y (1)6 IeUe0.656 IeUe0.6512 Ie1.05 Ue0.4510 Ie1.05 Ue0.45Ie > (2)6 IeUe0.356 IeUe0.3512 Ie1.05 Ue0.3510 Ie1.05 Ue0.35d.c. supply.c. supplyTypicalapplicationsUtilisation categoryMakingBreakingMakingBreakingIUL/R (ms)IUL/R (ms)IUL/R (ms)IUL/R (ms)Resistors, non inductive or slightly inductive loadsDC-1IeUe 1IeUe 11.5 Ie1.05 Ue11.5 Ie1.05 Ue1Shunt wound motors: starting, reversing, inchingDC-32.5 IeUe22.5 IeUe24 Ie1.05 Ue2.54 Ie1.05 Ue2.5Series wound motors: starting, reversing, inchingDC-52.5 IeUe7.52.5 IeUe7.54 Ie1.05 Ue154 Ie1.05 Ue15Control relays and auxiliary contactsElectrical durability: making and breaking conditionsOccasional duty: making and breaking conditionsa.c. supplyTypical applicationsUtilisation categoryMakingBreakingMakingBreakingIUcos φIUcos φIUcos φIUcos φElectromagnetsy 72 VAAC-14------6 Ie1.1 Ue0.76 Ie1.1 Ue0.7 > 72 VAAC-1510 IeUe0.7IeUe0.410 Ie1.1 Ue0.310 Ie1.1 Ue0.3d.c. supplyTypical applicationsUtilisation categoryMakingBreakingMakingBreakingIUL/R (ms)IUL/R (ms)IUL/R (ms)IUL/R (ms)ElectromagnetsDC-13IeUe 6 P (3)IeUe6 P (3)1.1 Ie1.1 Ue6 P (3)1.1 Ie1.1 Ue6 P (3)(1) Ie y 17 A for electrical durability, Ie y 100 A for occasional duty.(2) Ie > 17 A for electrical durability, Ie > 100 A for occasional duty.(3) The value 6 P (in watts) is based on practical observations and is considered to represent the majority of d.c. magnetic loads up to the maximum limit of P = 50 W i.e. 6 P = 300 ms = L/R. Above this, the loads are made up of smaller loads in parallel. The value 300 ms is therefore a maximum limit whatever the value of current drawn.(4) Ie y 100A(5) Ie > 100ATest conditions according to IEC utilization categories";i:718;s:2706:"B8/129ContactorsStarters for the North American marketIn recent years, the North American market has started to harmonise UL, CSA and ANCE standards, as well as the industrial installation codes provided by national regulations (NEC for the United States, CEC for Canada and MEC for Mexico). (1) Major improvements, carried out by the Canena (2) are aimed at harmonising product requirements based on IEC (3) standards.However, the North American codes use specific terminology for defining the functions of a starter. These functions can be fulfilled by standard IEC products, accompanied by appropriate certifications.Combination StartersCombination Starters are the most common type of packaged motor starter. They are called "Combination" because of their structure and their combined functions. The figure opposite shows the four combined functions that constitute a complete motor starter circuit, defined as a “Motor branch circuit” by the NEC (US National Electric Code) in article 430. Standard UL508 currently gives different types of combination starter that meet the requirements of a "Motor branch circuit". Type E, called “self-protected combination starter”, covers all these functions and can be controlled manually (thermal-magnetic circuit breaker) or remotely (starter-controller). Type E starters withstand faults within their declared nominal rating without sustaining damage, after which they can be put back into service. In addition, they can withstand more severe short-circuit and durability performance tests without welding or excessive wear of the contact tips.Type F, called “Combination motor starter”, consists of a type E manual starter (thermal-magnetic circuit breaker) combined with a contactor.These starters are evaluated by means of basic short-circuit tests, but are not considered as “self-protected”.For this combination, the type E starter must be marked “Combination Motor Controller when used with ...”, followed by the reference of the load side contactor. TeSys ControlContactors1 Motor Disconnect (Disconnect switch)2 Motor Branch Circuit Protection (Short-circuit protection)3 Motor Controller (Contactor)4 Motor Overload Protection (Thermal overload relay)1234MDF537742.eps(1) UL: Underwriters Laboratories, CSA: Canadian Standards Association, ACNE: Association of Standardization and Certification, NEC: National Electric Code, CEC: Canadian Electrical Code, MEC: Mexican Electrical Code. (2) Canena: Council for Harmonization of Electrotechnical Standardization of North America.(3) IEC: International Electrotechnical Commission.North American market - UL CSA classification of motor starter applications";i:719;s:4119:"B8/130ContactorsControl panelsTo help users properly coordinate their motor control equipment with their distribution system in the event of a fault, article 409 of the 2005 NEC requires panel builders to list the short-circuit withstand rating of their motor control panels. According to standard UL508A, manufacturers must use the short-circuit withstand value of the lowest rated device as the nominal withstand rating of the panel, unless the devices have been tested together for a higher coordinated rating. The minimum “short-circuit current rating” (SCCR), on motor control components for horsepower ratings of 50 hp or below is 5000 A. Using a type E or type F combination starter eliminates the coordination problems of using individual components for the “motor branch circuit protection”, “motor controller” and “motor overload protection” functions. The panel builder uses the declared short-circuit current rating for the combination starter. This value is generally higher than 5000 A. This makes it easier to list the short-circuit current ratings and to check the compatibility of a UL508A motor control panel within a given distribution system.TeSys ControlContactorsNorth American market - UL CSA classification of motor starter applications Group protectionArticle 430.53 of the NEC allows a single short-circuit protection device to be used for more than one motor circuit if the components used are marked and listed for such use. Components suitable for use in group protection, known as “motor group installations”, can be marked in one of the following two ways:Case n° 1The contactor and the motor overload relay are both listed as suitable for group installation. An inverse time circuit breaker can be used as the short-circuit protection device if it is also listed as suitable for group installation. The panel builder must therefore make sure that the short-circuit protection device selected (fuses or inverse time circuit breaker) does not exceed the value allowed by article 430.40 for the smallest overload relay used in the circuit. Once these conditions have been met, the panel builder can reduce the size of the conductor connecting the short-circuit protection device to the individual motor contactor/overload relay, to one third of the size of the upstream circuit conductor supplying the protection device. The panel builder must limit the length of the motor starter conductor (connecting the short-circuit protection device to the motor contactor/overload relay) to a maximum of 7.6 m (25 feet).Case n° 2The motor contactor and overload relay are listed as suitable for “tap conductor protection” in group installations. This category allows the panel designer to reduce the size of the conductor connecting the short-circuit protection device to the individual motor contactor/overload relay, to one tenth of the size of the upstream circuit conductor supplying the protection device. The designer must limit the length of this conductor to a maximum of 3.05 m (10 feet). In both cases, the supply circuits must not be less than 125 % of the connected motor FLA (Full Load Amps) rating. For panel builders, using type F combination starters in group installations simplifies group motor considerations. Each starter is a fully coordinated motor branch circuit. The panel builder follows the same NEC requirements for sizing the supply conductors as those required for single motor branch circuits. The size of the supply conductors can be reduced in accordance with the specifications of article 430.28. This allows the same flexibility in conductor sizing as that offered in article 430.53 (D), without a requirement to check the short-circuit protection rating marked on the components and the overload relay limit. A UL508A panel does not need a short-circuit protection device when each motor starter installed is a type F. The upstream short-circuit protection device supplying the starter protects the panel. The panel builder only has to consider the panel/enclosure disconnect requirements specified by the NEC or local codes.";i:720;s:641:"B9/1High power contactorsTeSys Control Giga High power contactors IntroductionB9/4TeSys Giga High power contactors Type of productRangePagesTeSys Giga High power contactors Advanced version - 3 and 4-poles3-pole from 115 to 800 A – AC-33-pole and 4-pole from 250 to 1050 A – AC-1B9/10TeSys Giga High power contactors Standard version - 3 and 4-poles3-pole from 115 to 800 A – AC-33-pole and 4-pole from 250 to 1050 A – AC-1 B9/12Auxiliary modules, Accessories, Retrofit kits for TeSys Giga High power contactors B9/14Spare partsfor TeSys Giga High power contactors B9/20Technical Data for Designers B9/23TeSysControlChapter B9 ";i:721;s:2093:"B9/2High power contactorsOn-line tools to configure your motor startersEcoStruxureTM Motor Control ConfiguratorScan or click on the QR codeBuild your starter configurationp Build your motor starter configuration with different solutionsp Complete offer base suited for different countries.Enhanced customer’s journeyp Easy selection, replacing complex paper catalogsp Covert into Bill of Materials (BoM) by adding the products to the cart.Answers to customer needsp Option to save and re-work your configurationsp Direct access to products documentation in one placep Possibility with unique configurations ID and share. Product Selector for TeSys GigaScan or click on the QR codeOffer selectionp Easy selection of TeSys Giga Contactor or Overload Relaysp Intuitive tool to configure the devices to suit your needsp Helps to select the right devices for your application.Configure your motor starter componentsp Options to select auxiliaries and accessoriesp Configure reversers and changeover contactors with easep Get the extensive bill of material, export it in standard format (PDF, XLS), or drop it into the product cartp Access to technical information and documentations for every item.EcoStruxure Motor Management DesignScan or click on the QR codeElectrical design calculations for high-power motorsEasily perform basic calculations related to transformer size, short-circuit current and voltage drop, comparing direct-on-line, star-delta, soft-starter, and variable speed drive. Verify starting feasibility from mechanical standpoint and ensure power quality objectives are met, for power factor or harmonic levels. Check energy saving potential of using a variable speed drive for centrifugal pumps and fans.Offer selection and reportSelect among latest compatible offers to build a complete motor management solution: circuit breakers, contactors, MCC panels, drives, protection relays, power factor capacitors, active filters, power quality monitoring and services. Get a summary report with calculations and recommended offers.";i:722;s:789:"B9/3High power contactorsTeSys Giga High power contactors Offer typeA: Advanced versionN: Standard version LC1G185 4EHENContactorTeSys Giga seriesContactor rating115: 115 A150: 150 A185: 185 A225: 225 A265: 265 A330: 330 A 400: 400 A500: 500 A630: 630 A800: 800 APolesBlank: 3-pole 4: 4-poleProduct references – coding principleExample:LC1G400LSEA TeSys Giga Contactor Advanced version 400 A, 3-pole, 200...500 V AC/DC coil, with PLC control.LC1G1854EHEN TeSys Giga Contactor Standard version 185 A, 4-pole, 48...130 V AC/DC coil, without PLC control.(1) 24...48 V AC/DC control voltage option is available for LC1G115...LC1G500 ratings.Control voltage (AC/DC)Advanced version (A)BEE: 24...48 V (1)EHE : 48...130 VLSE: 200...500 VStandard version (N)EHE: 48...130 VKUE: 100...250 V";i:723;s:1688:"B9/4High power contactorsIntroductionTeSys ControlGiga High power contactors Over more than 4 decades, the TeSys F range of contactors has built a high reputation for performance, reliability, and quality. The TeSys F range set the industrial standard for high power contactors with an installed base of millions of products. TeSys F contactors were the first choice of many OEMs, control panel builders and industrial users. But industry requirements have evolved to demand process performance monitoring through data networks and online expert services.TeSys Giga is Schneider Electric's new range of contactors that answer these evolving needs. TeSys Giga High power contactors support the evolution of processes and offer new services to reduce non-production time to a minimum. Replacing TeSys F Contactors, TeSys Giga High power contactors address a wide range of demanding applications with built-in advanced features and functionalities. TeSys Giga High power contactors are designed to work with components and accessories with advanced performance. The characteristics of robustness and longevity are maintained, both in the connectors and in the switching. Continuous local and remote monitoring of contact wear optimizes predictive maintenance by allowing you to replace contacts only when necessary, facilitated by diagnostic visual indicator.Every customer will benefit from the innovative design and feature, including the compact size,wideband electronic coils, embedded auxiliary contact blocks, ergonomic design, or flexibility inconnections.TeSys Giga A new Generation series with digital innovationFuturistic ready...Quality and Performance as high priority";i:724;s:1049:"B9/5High power contactorsIntroductionTeSys ControlGiga High power contactors p TeSys Giga High power contactors provide robust control solutions for AC-3/AC-3e applications up to 800 A and AC-1 applications up to 1050 A.p TeSys Giga High power contactors can be part of a direct-on-line motor starter, reversing motor starter or a star-delta motor starter and power switching application.p TeSys Giga High power contactors provide contact wear diagnostic and wideband AC/DC control.p Suitable for type 2 coordination as per IEC60947-4-1. TeSys Giga High power contactors ' unique design meets the common requirements of demanding high power applications:p Conform to multi standards to suit global needsp Long life expectancy in harsh environmentsp Suitable for high efficiency motorsp Very good resistance to vibrationsp High uptime thanks to predictive maintenancep Optimized installation and maintainability.ApplicationsRight choice for a wide range of demanding applicationsAC-3/AC-3e utilization categoryAC-1 utilization category";i:725;s:1154:"B9/6High power contactorsTeSys ControlGiga High power contactors IntroductionOn/Off switch for PLC inputInterlock location, with knock-out coverPush-in type control terminals enabling quick wiring and assemblyDiagnosis LED for contact wear & voltage abnormalityBuilt-in 1 NO + 1 NC auxiliary contact blockMechanical indicator for contactor open and closed statusUnique QR code providing quick access to complete product dataHigher flexibilityTeSys Giga High power contactors can be mounted in different orientation without derating, providing high flexibility of your panel design.Control wiring, auxiliary contacts and control module are accessible from the front.Contact wear diagnostic and predictive maintenanceContact wear is monitored by a dedicated module and shown in the front panel through LED, therefore the, predictive maintenance can be planned for replacing the complete set of switching modules, thus avoiding break-down maintenance. Switching modules (1) can be replaced quickly and easily thanks to their Plug and Play design.Intelligent design for greater advantages(1) Refer to page B9/21 for details on switching modules.";i:726;s:2445:"B9/7High power contactorsTeSys ControlGiga High power contactors DescriptionAdvanced contactor controlp The electronic control module provides wideband AC/DC coil control voltage, from 24 V to 500 V, allowing quick adaptation of existing industrial processes as well as new projects.p The low power consumption of the coils could lead to significant savings on automation equipment. It's now possible to use interface relays with a lower rating, resulting in lower heat emission in the panel.p The low power consumption of the coils also takes up less space in the panel and simplifies the diagrams by connecting these coils directly to the output cards of the PLCs. Simplified wiringp The pole pitch of the power terminals allows direct mounting and connection to TeSys Giga Electronic Overload Relays. Standardization of panel mounting and assembly reduces costs and assembly time.p Push-in connection for control terminals provides flexibility, ease of connections, and reduced assembly and installation time.Enhanced durabilityp Durability is a top priority. TeSys Giga High power contactors are designed to offer uncompromising robustness and maintenance accessibility to site technicians. The duration of production down-time is reduced, resulting in improved profitability on your investment.Advanced diagnostic featuresp On-board diagnostics is a new feature in our latest generation of high power contactors. Counting the number of operations as well as monitoring duration of use and pole condition provides numerous benefits for the customer and improves reliability and maintenance planning.Compact sizep Compact size provides easy access to power connections for connecting cables and busbars.Easy maintenancep The poles are designed as replaceable switching modules, so the performance of a used contactor can be fully restored. The modular design allows a quick and long-lasting replacement.p Coils are accessible from the front and maintained with very low down times.Advanced (*A) versionStandard (*N) version112351234415676789 10 1 Power connection (cable memory kit provided with Advanced version contactor)2 A1-A2 coil terminal3 Contact wear diagnosis LED4 1 NO + 1 NC auxiliary contact5 QR code6 Label holder7 Status indicator8 PLC control terminal9 PLC control ON/OFF switch10 Connector for Remote Wear Diagnostic (RWD) module Key features*: contactor references finishing by A or by N.";i:727;s:1757:"B9/8High power contactorsTeSys ControlGiga High power contactors IntroductionA comprehensive range of TeSys Giga High power contactors that are available in 'Advanced' and 'Standard' versions, in 3 sizes, covering several ratings.A common range of auxiliary contacts and accessories, enabling high flexibility and simplicity.Power & controlp 3 or 4 power polesp 115 to 800 A (AC-3)p 250 to 1050 A (AC-1)p Embedded 1 NO + 1 NC auxiliary contactsp Push-in type terminals for coils & controlRemote controlp 24-48 V, 48-130 V, 200-500 V AC/DC coilsp Low consumption coilsp Wide voltage range coils (direct coil control)p Digital control input (PLC output digital coil control)p Embedded surge suppressorDiagnostic p Embedded wear diagnosticp Embedded control voltages diagnosticp Self diagnosis functionp Local alarm signaling (LED)p Remote wear diagnostic signaling kit (accessory)Mountingp 'Cable memory' adapter enables maintenance without removing power cables and busbar connections.Standards and Certificationsp Multiple standardsp International certificationsPower & controlp 3 or 4 power polesp 115 to 800 A (AC-3)p 250 to 1050 A (AC-1)p Embedded 1 NO + 1 NC auxiliary contactsp Push-in type terminals for coils & controlRemote controlp 48-130 V, 100-250 V AC/DC coilsp Wide voltage range coils (direct coil control)p Embedded surge-suppressorDiagnosticp Embedded wear diagnosticp Embedded control voltages diagnosticp Self diagnosis functionp Local alarm signaling (LED)Certificationsp Multiple standardsp International certifications115...225 A265...500 A265...500 A630...800 A630...800 ATeSys Giga High power contactors – Standard versionTeSys Giga High power contactors – Advanced version115...225 A";i:728;s:1003:"B9/9High power contactors1 Cable memory kit LA9G3102, is always supplied along with Advanced version, and it’s an optional accessory for Standard version.2 Mechanical interlock LA9G970, can be installed on either side of the contactor.3 Auxiliary contact module LAG8N113P (1 NO + 1 NC) supplied with LC1G contactor.4 Auxiliary contact modules LAG8N113P/ LAG8N203P, can be installed on the contactor lateral faces (1)5 Auxiliary contact modules LAG8N113 / LAG8N203, can be installed on either side as 2nd set of contacts.6 Remote Wear Diagnostic (RWD) Module LA9GRD01/ LA9GRD10, can be installed and used only in Advanced version.7 IP 20 terminal shroud LA9G3701.8 Phase separators LA9G3801, please refer to pages B9/14 to B9/18 for complete details of available accessories.LC1G115Control217853645DB438441.aiNote: a maximum of 2 auxiliary contact modules can be mounted on each side of the contactor. (1) Does not increase the contactor dimensions when fitted on both sides.";i:729;s:2748:"B9/10High power contactorsProduct references TeSys ControlGiga High power contactors – Advanced – 3-pole and 4-pole TeSys Giga 3-pole Advanced contactors – For motor control (115 to 800 A) Motor ratings (kW) θ ≤ 60 °CMotor ratings (HP)ReferenceIECUL- 3phaseAdvanced version contactorsAC-3AC-3e (1)AC-4AC/DC coil voltage3-pole230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V200/208 V230/240 V460/480 V575/600 VkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkW24-48 V48-130 V200-500 V305555757575-305555757575-305555656575-304075100LC1G115BEEALC1G115EHEALC1G115LSEA3775759090907537757590909075377575809090754050100125LC1G150BEEALC1G150EHEALC1G150LSEA5590901101101107555909011011011075559090100110110755060125150LC1G185BEEALC1G185EHEALC1G185LSEA5511011013213216013255110110132132160132551101101291321321106075150150LC1G225BEEALC1G225EHEALC1G225LSEA75132132160160200160751321321601602001607513213215016016016075100200200LC1G265BEEALC1G265EHEALC1G265LSEA901601602002002201859016016018520022018590160160185200220185100125250300LC1G330BEEALC1G330EHEALC1G330LSEA110200200250250315220110200200250250315220110200200220250315220125150300400LC1G400BEEALC1G400EHEALC1G400LSEA160250250315355355335147250250280315355335150250250295295355280150200400450LC1G500BEEALC1G500EHEALC1G500LSEA200335375400400500450180315335355375500450180315335355375450355250300600700-LC1G630EHEALC1G630LSEA250450450450500560450200335355375425560450200375355375400475400300350700800-LC1G800EHEALC1G800LSEATeSys Giga 3-pole and 4-pole Advanced contactors for load control only (non motor) – (250 to 1050 A)Maximum current (A)(θ y 40 °C) General purpose continuous current (A)ReferenceAdvanced version contactorsAC/DC coil voltage3-pole4-poleIECUL24...48 V48...130 V200...500 V24...48 V48...130 V200...500 VAC-1250210LC1G115BEEALC1G115EHEALC1G115LSEALC1G1154BEEALC1G1154EHEALC1G1154LSEA275230LC1G150BEEALC1G150EHEALC1G150LSEALC1G1504BEEALC1G1504EHEALC1G1504LSEA305250LC1G185BEEALC1G185EHEALC1G185LSEALC1G1854BEEALC1G1854EHEALC1G1854LSEA330290LC1G225BEEALC1G225EHEALC1G225LSEALC1G2254BEEALC1G2254EHEALC1G2254LSEA385340LC1G265BEEALC1G265EHEALC1G265LSEALC1G2654BEEALC1G2654EHEALC1G2654LSEA440390LC1G330BEEALC1G330EHEALC1G330LSEALC1G3304BEEALC1G3304EHEALC1G3304LSEA550490LC1G400BEEALC1G400EHEALC1G400LSEALC1G4004BEEALC1G4004EHEALC1G4004LSEA700630LC1G500BEEALC1G500EHEALC1G500LSEALC1G5004BEEALC1G5004EHEALC1G5004LSEA1050850-LC1G630EHEALC1G630LSEA-LC1G6304EHEALC1G6304LSEA1050900-LC1G800EHEALC1G800LSEA-LC1G8004EHEALC1G8004LSEA(1) Switching of IE3/IE4 high efficiency squirrel-cage motors.Coordination tables:pages A5/7 to A5/42Characteristics:pages B9/25 to B9/29Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.";i:730;s:1661:"B9/11High power contactorsProduct references TeSys ControlGiga High power contactors – Advanced – 3-pole and 4-pole TeSys Giga 3-pole Advanced contactors – For motor control (115 to 800 A) Motor ratings (kW) θ ≤ 60 °CMotor ratings (HP)ReferenceIECUL- 3phaseAdvanced version contactorsAC-3AC-3e (1)AC-4AC/DC coil voltage3-pole230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V200/208 V230/240 V460/480 V575/600 VkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkW24-48 V48-130 V200-500 V305555757575-305555757575-305555656575-304075100LC1G115BEEALC1G115EHEALC1G115LSEA3775759090907537757590909075377575809090754050100125LC1G150BEEALC1G150EHEALC1G150LSEA5590901101101107555909011011011075559090100110110755060125150LC1G185BEEALC1G185EHEALC1G185LSEA5511011013213216013255110110132132160132551101101291321321106075150150LC1G225BEEALC1G225EHEALC1G225LSEA75132132160160200160751321321601602001607513213215016016016075100200200LC1G265BEEALC1G265EHEALC1G265LSEA901601602002002201859016016018520022018590160160185200220185100125250300LC1G330BEEALC1G330EHEALC1G330LSEA110200200250250315220110200200250250315220110200200220250315220125150300400LC1G400BEEALC1G400EHEALC1G400LSEA160250250315355355335147250250280315355335150250250295295355280150200400450LC1G500BEEALC1G500EHEALC1G500LSEA200335375400400500450180315335355375500450180315335355375450355250300600700-LC1G630EHEALC1G630LSEA250450450450500560450200335355375425560450200375355375400475400300350700800-LC1G800EHEALC1G800LSEACoordination tables:pages A5/7 to A5/42Characteristics:pages B9/25 to B9/28Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.";i:731;s:2450:"B9/12High power contactorsProduct references TeSys ControlGiga High power contactors – Standard – 3-pole and 4-pole TeSys Giga 3-pole Standard contactors – For motor control – (115 to 800 A) Motor ratings (kW) θ ≤ 60 °CMotor ratings (HP)ReferenceIECUL- 3phaseStandard version contactorsAC-3AC-3e (1)AC-4AC/DC coil voltage3-pole230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V200/208 V230/240 V460/480 V575/600 VkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWk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eSys Giga 3-pole and 4-pole Standard contactors for load control only (non motor) – (250 to 1050 A)Maximum current (A)(θ y 40 °C) General purpose continuous current (A)ReferenceStandard version contactorsAC/DC coil voltage3-pole4-poleIECUL48...130 V100...250 V48...130 V100...250 VAC-1250210LC1G115EHENLC1G115KUENLC1G1154EHENLC1G1154KUEN275230LC1G150EHENLC1G150KUENLC1G1504EHENLC1G1504KUEN305250LC1G185EHENLC1G185KUENLC1G1854EHENLC1G1854KUEN330290LC1G225EHENLC1G225KUENLC1G2254EHENLC1G2254KUEN385340LC1G265EHENLC1G265KUENLC1G2654EHENLC1G2654KUEN440390LC1G330EHENLC1G330KUENLC1G3304EHENLC1G3304KUEN550490LC1G400EHENLC1G400KUENLC1G4004EHENLC1G4004KUEN700630LC1G500EHENLC1G500KUENLC1G5004EHENLC1G5004KUEN1050850LC1G630EHENLC1G630KUENLC1G6304EHENLC1G6304KUEN1050900LC1G800EHENLC1G800KUENLC1G8004EHENLC1G8004KUEN(1) Switching of IE3/IE4 high efficiency squirrel-cage motors.Coordination tables:pages A5/7 to A5/42Characteristics:pages B9/25 to B9/29Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.";i:732;s:2460:"B9/13High power contactorsTeSys Giga 3-pole Standard contactors – For motor control – (115 to 800 A) Motor ratings (kW) θ ≤ 60 °CMotor ratings (HP)ReferenceIECUL- 3phaseStandard version contactorsAC-3AC-3e (1)AC-4AC/DC coil voltage3-pole230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V230 V400 V415 V440 V500 V690 V1000 V200/208 V230/240 V460/480 V575/600 VkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWkWk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eSys Giga 3-pole and 4-pole Standard contactors for load control only (non motor) – (250 to 1050 A)Maximum current (A)(θ y 40 °C) General purpose continuous current (A)ReferenceStandard version contactorsAC/DC coil voltage3-pole4-poleIECUL48...130 V100...250 V48...130 V100...250 VAC-1250210LC1G115EHENLC1G115KUENLC1G1154EHENLC1G1154KUEN275230LC1G150EHENLC1G150KUENLC1G1504EHENLC1G1504KUEN305250LC1G185EHENLC1G185KUENLC1G1854EHENLC1G1854KUEN330290LC1G225EHENLC1G225KUENLC1G2254EHENLC1G2254KUEN385340LC1G265EHENLC1G265KUENLC1G2654EHENLC1G2654KUEN440390LC1G330EHENLC1G330KUENLC1G3304EHENLC1G3304KUEN550490LC1G400EHENLC1G400KUENLC1G4004EHENLC1G4004KUEN700630LC1G500EHENLC1G500KUENLC1G5004EHENLC1G5004KUEN1050850LC1G630EHENLC1G630KUENLC1G6304EHENLC1G6304KUEN1050900LC1G800EHENLC1G800KUENLC1G8004EHENLC1G8004KUEN(1) Switching of IE3/IE4 high efficiency squirrel-cage motors.Product references TeSys ControlGiga High power contactors – Standard – 3-pole and 4-pole Coordination tables:pages A5/7 to A5/42Characteristics:pages B9/25 to B9/27 and B9/29Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.";i:733;s:2511:"B9/14High power contactorsTeSys ControlGiga High power contactors – Auxiliary contact modulesProduct referencesPB121650.epsLAG8N113Auxiliary contact modules Auxiliary contacts give an indication of the contactor status.They can be used for remote visual signaling, alarming, electricallocking, relay activation, etc...Each contactor is equipped with 1 NO + 1 NC auxiliary contact block as standard. bMechanically linked mirror contactsThe NC contact of the auxiliary contact block is mirror contact in conformity to IEC 60947-4-1 and it is mechanically linked to reliably represent the state of the main power contacts and wherever auxiliary contact state reliability is essential. The main power contacts and the NC of the auxiliary contact can't be closed at the same time.Types of connections: bPush-in type.Wide contactor compatibilityTeSys Giga auxiliary contact module is compatible with the whole range of TeSys Giga High power contactors .Each TeSys Giga Contactor can be equipped with up to 4 auxiliary contact modules.Electrical characteristicsCharacteristicsRated thermal current (A)10Minimum load1 mA at 17 V DCContact reliabilityFailure rate <10-8DB438480.aiSide mounting – maximum 2 per sideLC1G115ControlConnector characteristicsPush-in connection - Dual inputMin/max c.s.a. Flexible cable per input 1 conductor with cable endmm2 0.75...2.52 conductors with Dual Sleevemm2 0.75...2.5Stripping lengthmm2 10Solid cableper input 1 conductormm2 0.75...2.5Stripping lengthmm12Auxiliary contact modulesDescriptionTerminal typePositionType of contactsSold in lots ofReferenceAuxiliary contact modulePush-in1st left or right1 NO + 1 NC1LAG8N113P (1)2 NO1LAG8N203P2nd left or right1 NO + 1 NC1LAG8N1132 NO1LAG8N203(1) Always supplied with TeSys Giga LC1G contactors, fitted to the right side lateral face.0,10,30,50,812358100,10,30,50,81235810Ue = 24...400 V Ue = 500 V Millions of operating cyclesCurrent broken in ADB439339.epsOperational power of contacts conforming to IEC 60947-5-1 - Electrical durability category AC-15Operating cyclesV 24 48 115230 400 5001 millionVA 601202805608005002 millionVA24481152304002503 millionVA163280160280150AC-1500.50.5111.51.5222.52.5333.53.54 4.50440V250V125V48V24VCurrent broken in AMillions of operating cyclesDF537817-R.epscategory DC-13Operating cyclesV24481252504400.5 millionW100100105110881 millionW48725454552 millionW24363838393 millionW1624252533DC-13Coordination tables:pages A5/7 to A5/42Diagrams:page B9/34COORD.";i:734;s:2810:"B9/15High power contactorsTeSys ControlGiga High power contactors – Power wiring accessoriesProduct referencesStraight terminal extensionsDescriptionSuitable forCompatible with contactorsQuantitySet ofReferenceStraight terminal extension 3PLC1G115...LC1G2253LA9G3601LC1G265...LC1G5003LA9G3602LC1G630...LC1G8003LA9G36034PLC1G115...LC1G2254LA9G4601LC1G265...LC1G5004LA9G4602LC1G630...LC1G8004LA9G4603Right angled terminal extensionsDescriptionSuitable forCompatible with contactorsQuantitySet ofReferenceRight angled side terminal extension 3PLC1G115...LC1G2253LA9G3661LC1G265...LC1G5003LA9G3662LC1G630...LC1G8003LA9G3663Right angled large terminal extension3PLC1G115...LC1G2253LA9G3671LC1G265...LC1G5003LA9G3672LC1G630...LC1G8003LA9G3673Right angled rear terminal extension3PLC1G115...LC1G2253LA9G3681LC1G265...LC1G5003LA9G3682LC1G630...LC1G8003LA9G3683Edgewise terminal extensionsDescriptionSuitable forCompatible with contactorsQuantitySet ofReferenceEdgewise terminal extension 3PLC1G115...LC1G2253LA9G3631LC1G265...LC1G5003LA9G3632LC1G630...LC1G8003LA9G36334PLC1G115...LC1G2254LA9G4631LC1G265...LC1G5004LA9G4632LC1G630...LC1G8004LA9G4633PB121576.epsLA9G3601PB121620.epsLA9G3682PB121577.epsLA9G3631PB121735.epsLA9G3111PB121730.epsLA9G3101Power terminals‘Cable Memory’ connection blocksCables or busbars can be connected to the contactor by means of the optional cable memory connection blocks. When the contactor is removed for maintenance, the cables or busbars remain connected to these connection blocks, making reinstallation faster and easier.Cable memory (1)DescriptionCompatible with contactorsQuantityReferenceSet of‘Cable memory’ for 3-pole contactors – for holding cables in placeLC1G115...LC1G2252LA9G3101LC1G265...LC1G5002LA9G3102LC1G630...LC1G8002LA9G3103'Cable memory’ for 4-pole contactors – for holding cables in placeLC1G115...LC1G2252LA9G4101LC1G265...LC1G5002LA9G4102LC1G630...LC1G8002LA9G4103(1) 'Cable memory' connection blocks are always supplied with Advanced contactor version.Flexible terminal extensionsFlexible connecting bars to connect TeSys Giga High power contactors with MCCBs mounted in the same plane and orientation. These bars can be used along with Advanced or Standard version contactors. They help to get a quick and easy connection between contactor and MCCB with saving in installation time.‘Flexible terminal extensions’ for MCCBs DescriptionCompatible with contactorsTo connect with NSX/NS MCCBsQuantitySet ofReferenceFlexible terminal extensions3-poleLC1G115...LC1G225NSX100...NSX2503LA9G3111LC1G265...LC1G500NSX400...NSX6303LA9G3112LC1G630...LC1G800NS800...NS12503LA9G3113Flexible terminal extensions4-poleLC1G115...LC1G225NSX100...NSX2504LA9G4111LC1G265...LC1G500NSX400...NSX6304LA9G4112LC1G630...LC1G800NS800...NS12504LA9G4113";i:735;s:1351:"B9/16High power contactorsTeSys ControlGiga High power contactors – Power wiring accessoriesProduct referencesPower terminalsSpreader kits DescriptionSuitable forCompatible with contactorsIncrease of Pole pitchQuantitySet ofReferenceSpreader kits 3PLC1G115...LC1G22535 to 45 mm3LA9G3611LC1G265...LC1G50045 to 70 mm3LA9G36124PLC1G115...LC1G22535 to 45 mm4LA9G4611LC1G265...LC1G50045 to 70 mm4LA9G4612Terminal extensions for larger power connectionsDescriptionSuitable forCompatible with contactorsPower connection sizeQuantitySet ofReferenceTerminal connections3PLC1G400...LC1G50050 mm width3LA9G3613LC1G630...LC1G80080 mm width3LA9G36144PLC1G400...LC1G50050 mm width4LA9G4613LC1G630...LC1G80080 mm width4LA9G4614Spreader kits suitable for box type connectorsDescriptionSuitable forCompatible with contactorsIncrease of Pole pitchSuitable for box connectorsQuantitySet ofReferenceSpreader kits for box connectors3PLC1G115...LC1G22535 to 45 mmDZ2 FJ1/FH1 & AL4003LA9G3711LC1G265...LC1G50045 to 70 mmDZ2 FJ1/FK1 & AL400/AL6003LA9G3712LC1G630...LC1G80070 to 80 mmDZ2 FL1/FK1 & Type S/AL6003LA9G37144PLC1G115...LC1G22535 to 45 mmDZ2 FJ1/FH1 & AL4004LA9G4711LC1G265...LC1G50045 to 70 mmDZ2 FJ1/FK1 & AL400/AL6004LA9G4712LC1G630...LC1G80070 to 80 mmDZ2 FL1/FK1 & Type S/AL6004LA9G4714PB121648.epsLA9G3613PB121578.epsLA9G3611PB121651.epsLA9G4711";i:736;s:2983:"B9/17High power contactorsTeSys ControlGiga High power contactors – Power wiring accessories Product referencesPower terminal accessoriesPhase separatorsDescriptionSuitable forCompatible with contactorsQuantitySet ofReferencePhase separators (1) 3PLC1G115...LC1G8002LA9G38014PLC1G115...LC1G8003LA9G48013P – with 50/80 mm spreadersLC1G400...LC1G8002LA9G3803 (2)4P – with 50/80 mm spreadersLC1G400...LC1G8003LA9G4803 (3)Terminal shroudsDescriptionCompatible with contactorsQuantitySet ofReference3P4PIP 20 Terminal shrouds (1)LC1G115...LC1G2251LA9G3701LA9G4701LC1G265...LC1G5001LA9G3702LA9G4702LC1G630...LC1G8001LA9G3703LA9G4703IP20 Lug cover for connection kits (4)Lug covers are used along with IP 20 terminal shrouds and star-delta, reverser and changeover connection kit assemblies to improve insulation of the coupling bars and achieve IP 20 for the complete assembly.IP20 Lug cover for connection kitsDescriptionSuitable forCompatible with contactorsQuantitySet ofReferenceIP 20 Lug cover 3PLC1G115...LC1G800 (4)6LA9G37074PLC1G115...LC1G800 (4)8LA9G4707Lugs for cable setDescriptionCompatible with contactorsCable section ReferenceSet of 3 for 3PSet of 4 for 4PLugs for cableLC1G115...LC1G225120 mm²LV429252LV429256LC1G115...LC1G225150 mm²LV429253LV429257LC1G115...LC1G225185 mm²LV429254LV429258LC1G265...LC1G500240 mm²LV432500LV432501LC1G265...LC1G500300 mm²LV432502LV432503Star-Delta (Wye-Delta) connection kits (5)DescriptionSuitable forfor Line (KM2) and Delta (KM3) contactor+ Star contactor (KM1)ReferenceConnection kit: bars for Line-Delta-Star contactor assembly3PLC1G115...LC1G225LC1G115...LC1G225LA9GQQ330LC1G265...LC1G500LC1G115...LC1G225LA9GSQ330LC1G265...LC1G500LC1G265...LC1G500LA9GSS330LC1G630...LC1G800LC1G265...LC1G500LA9GTS330LC1G630...LC1G800LC1G630...LC1G800LA9GTT330with cable memory kit3PLC1G265...LC1G500LC1G115...LC1G225LA9GSQ331LC1G630...LC1G800LC1G265...LC1G500LA9GTS331Star (Wye) connection kits (5)DescriptionSuitable forStar contactor (KM1)ReferenceConnection kit for star contactor3PLC1G115...LC1G225LA9GQW601LC1G265...LC1G500LA9GSW601LC1G630...LC1G800LA9GTW601Note: RE17RMMWS timer to be used for Star-Delta starter application.(1) Either phase separators or terminal shrouds can only be mounted. Phase separators or terminal shrouds are mandatory for operational voltage, Ue ≥ 690 V.(2) To be used with LA9G3613 and LA9G3614.(3) To be used with LA9G4613 and LA9G4614.(4) LC1G630 & LC1G800 contactors need 2 pcs. of IP20 covers per pole. So 2 x LA9G3707 or 2 x LA9G4707 need to be ordered for these contactor assemblies. Please contact your technical support for more details.(5) UL listed.(6) Maximum 3 auxiliary contacts can be installed between 2 contactors with mechanical interlock kit.PB121603.epsLA9G4803PB121666.epsLA9G4701PB121621.epsLA9G4707PB121586.epsLV429252PB121605.epsLA9GQQ330U2V2W2U1V1W1KM2KM3KM1L1135246246246246135135135L2L3DB439328.aiU2V2W2U1V1W1KM2KM3KM1L1135246246246246135135135L2L3PB123974.ai";i:737;s:1617:"B9/18High power contactorsTeSys ControlGiga High power contactors – Power wiring accessories Product referencesPB121622.epsLA9G3760Reverser connection kitsDescriptionSuitable forCompatible with contactorsReferenceConnection kit: bars for reverser contactor assembly3PLC1G115...LC1G225LA9G3760LC1G265...LC1G500LA9G3761LC1G630...LC1G800LA9G37621135246135246WVUL3L2L1KM2KM1Reverser.aiPB121606.epsLA9G3750Changeover connection kitsDescriptionSuitable forCompatible with contactorsReferenceConnection kit: bars for changeover contactor assembly3PLC1G115...LC1G225LA9G3750LC1G265...LC1G500LA9G3751LC1G630...LC1G800LA9G37524PLC1G115...LC1G225LA9G4750LC1G265...LC1G500LA9G4751LC1G630...LC1G800LA9G47521135246135246L3L2L1KM2KM1Changeover-3P.ai1N1135724681135246872NL3L2L1NKM2KM1Changeover-4P.aiModular timer relay for star-delta starters b8 A, 1 CO, multifunction with spring terminals, 12...240 V AC/DC b17.5 mm width same size as a 1-pole circuit breaker bCovers 0.1 s to 100 h timing bTransparent cover to protect settings from being tampered bMulti functional gives flexibility in maintenanceModular timer relay for star-delta startersDescriptionSuitable forCompatible with contactorsReferenceHarmony, Modular timing relay3PLC1G115...LC1G800 RE17RMMWSPB138899.epsRE17RMMWSMechanical interlockDescriptionSuitable forCompatible with contactorsReferenceContactor 1Contactor 2Mechanical interlock between contactors (6)3P and 4PLC1G115...225LC1G115...225 LA9G970LC1G265...500LC1G265...500LA9G970LC1G265...500LC1G115...225LA9G9713PLC1G630...800LC1G265...500LA9G972LC1G630...800LC1G630...800LA9G973PB123963.epsLA9G970";i:738;s:1091:"B9/19High power contactorsTeSys ControlGiga High power contactors – Mounting accessories Product referencesRetrofit bases bSuitable for 3 pole contactors bRetrofit bases to replace similar ratings of TeSys F contactors with TeSys Giga High power contactors bEnables quick and simple replacement in the existing installation b3 references to cover ranges from LC1F115 to F800PB121741.epsLA9GRFB1TeSys Giga retrofit bases are designed for integrating new TeSys Giga High power contactors into installations using TeSys F contactors. The retrofit bases help reduce replacement and reinstallation time when you upgrade your system with the new range of contactors. The bases come in two frame sizes.Retrofit basesDescriptionReferenceAccessory used to replaceTeSys F contactorsLC1F115-225 replaced by LC1G115-225LA9GRFB1LC1F265-500 replaced by LC1G265-500LA9GRFB2LC1F630-800 replaced by LC1G630-800LA9GRFB3LA9GRFB2PB121742.epsLA9GRFB3PB121743.eps35331C8LC1G115ControlRemoveTeSys F contactorInstallRetrofit baseMount TeSys Giga Contactor on Retrofit base1 2 3 Dimensions/mounting:page B9/33";i:739;s:2207:"B9/20High power contactorsTeSys ControlGiga High power contactors – Spare parts Product referencesControl module Wide band electronic control24 V...500 V 50/60 Hz or DC control inputAdvanced and standard versionsAccessible from the front for easy and quick replacementThe control module is needed for the operation of the contactor.It performs the following functions: bproper functioning of contactor based on the input control voltage bmonitoring and diagnostics of the pole condition bgeneration of signaling commands.The range of control modules is organized: bper contactor size and for each rating, bper control voltage range.Each module has connectors for connecting: bthe coil control A1, A2 circuit & PLC output control (advanced version) bpole status and diagnostic signaling circuits.PB121644.epsLX1G3QLSEAControl modules DescriptionFor contactorsReferences per voltage range (V AC/DC)24 - 4848 - 130 200 - 500Control modules forAdvanced contactors3-poleLC1G115...LC1G225LX1G3QBEEALX1G3QEHEALX1G3QLSEALC1G265...LC1G330LX1G3RBEEALX1G3REHEALX1G3RLSEALC1G400...LC1G500LX1G3SBEEALX1G3SEHEALX1G3SLSEALC1G630...LC1G800-LX1G3TEHEALX1G3TLSEA4-poleLC1G115...LC1G225LX1G4QBEEALX1G4QEHEALX1G4QLSEALC1G265...LC1G330LX1G4RBEEALX1G4REHEALX1G4RLSEALC1G400...LC1G500LX1G4SBEEALX1G4SEHEALX1G4SLSEALC1G630...LC1G800-LX1G4TEHEALX1G4TLSEA48 - 130100 - 250Control modules forStandard contactors3-poleLC1G115...LC1G225LX1G3QEHENLX1G3QKUENLC1G265...LC1G330LX1G3REHENLX1G3RKUENLC1G400...LC1G500LX1G3SEHENLX1G3SKUENLC1G630...LC1G800LX1G3TEHENLX1G3TKUEN4-poleLC1G115...LC1G225LX1G4QEHENLX1G4QKUENLC1G265...LC1G330LX1G4REHENLX1G4RKUENLC1G400...LC1G500LX1G4SEHENLX1G4SKUENLC1G630...LC1G800LX1G4TEHENLX1G4TKUENConnector for control moduleDescriptionReferencePush-in terminal connector for control moduleLA9G81Remote wear diagnostic (RWD) moduleDescriptionReferenceRemote wear diagnostic module for TeSys Giga Contactor - 1 NOLA9GRD10 (1)Remote wear diagnostic module for TeSys Giga Contactor - 1 NCLA9GRD01 (1)(1) Remote Wear Diagnostic (RWD) Module, can be installed and used only on Advanced version.Control module replacement on a 3-pole contactor PB121744.epsLA9G81_ISO.epsLA9G81LA9GRDK_ISO.epsLA9GRD10";i:740;s:955:"B9/21High power contactorsTeSys ControlGiga High power contactors – Spare parts Product referencesReplaceable switching modules bInnovative contact switching modules for TeSys Giga High power contactors bReplace worn-out poles with a new switching module in minutes, without having to disassemble the whole product bNo special tools are needed for the replacement.TeSys Giga - Switching modules for TeSys Giga High power contactors , Advanced and Standard versionsDescriptionFor contactorsQuantitySet ofReference3 or 4 switching module kits3-poleLC1G115...LC1G2253LA9G3QALC1G265...LC1G3303LA9G3RALC1G400...LC1G5003LA9G3SALC1G630...LC1G8003LA9G3TA4-poleLC1G115...LC1G2254LA9G4QALC1G265...LC1G3304LA9G4RALC1G400...LC1G5004LA9G4SALC1G630...LC1G8004LA9G4TANote: In the event of replacement, replace all switching modules. After replacement, change the position of RESET button on the control module from A to B or B to A.PB121588.epsSwitching module kits";i:741;s:2730:"B9/22High power contactorsLA9G3101LA9G3102LA9G3103LA9G3111LA9G3112LA9G3113LA9G3601LA9G3602LA9G3603LA9G3611LA9G3612LA9G3613LA9G3614LA9G3631LA9G3632LA9G3633LA9G3650LA9G3651LA9G3652LA9G3653LA9G3661LA9G3662LA9G3663LA9G3671LA9G3672LA9G3673LA9G3681LA9G3682LA9G3683LA9G3701LA9G3702LA9G3703LA9G3704LA9G3705LA9G3706LA9G3707LA9G3711LA9G3712LA9G3714LA9G3750LA9G3751LA9G3752LA9G3760LA9G3761LA9G3762LA9G3801LA9G3803LA9G3QALA9G3RALA9G3SALA9G3TALA9G4101LA9G4102LA9G4103LA9G4111LA9G4112LA9G4113LA9G4601LA9G4602LA9G4603LA9G4611LA9G4612LA9G4613LA9G4614LA9G4631LA9G4632LA9G4633LA9G4701LA9G4702LA9G4703LA9G4707LA9G4711LA9G4712LA9G4714LA9G4750LA9G4751LA9G4752LA9G4801LA9G4803LA9G4QALA9G4RALA9G4SALA9G4TALA9G81LA9G82LA9G970LA9G971LA9G972LA9G973LA9GQQ330LA9GRD01LA9GRD10LA9GRFB1LA9GRFB2LA9GRFB3LA9GSQ330LA9GSQ331LA9GSS330LA9GTS330LA9GTS331LA9GTT330LAG8N113LAG8N113PLAG8N203LAG8N203PLC1G1154BEEALC1G1154EHEALC1G1154EHENLC1G1154KUENLC1G1154LSEALC1G115BEEALC1G115EHEALC1G115EHENLC1G115KUENLC1G115LSEALC1G1504BEEALC1G1504EHEALC1G1504EHENLC1G1504KUENLC1G1504LSEALC1G150BEEALC1G150EHEALC1G150EHENLC1G150KUENLC1G150LSEALC1G1854BEEALC1G1854EHEALC1G1854EHENLC1G1854KUENLC1G1854LSEALC1G185BEEALC1G185EHEALC1G185EHENLC1G185KUENLC1G185LSEALC1G2254BEEALC1G2254EHEALC1G2254EHENLC1G2254KUENLC1G2254LSEALC1G225BEEALC1G225EHEALC1G225EHENLC1G225KUENLC1G225LSEALC1G2654BEEALC1G2654EHEALC1G2654EHENLC1G2654KUENLC1G2654LSEALC1G265BEEALC1G265EHEALC1G265EHENLC1G265KUENLC1G265LSEALC1G3304BEEALC1G3304EHEALC1G3304EHENLC1G3304KUENLC1G3304LSEALC1G330BEEALC1G330EHEALC1G330EHENLC1G330KUENLC1G330LSEALC1G4004BEEALC1G4004EHEALC1G4004EHENLC1G4004KUENLC1G4004LSEALC1G400BEEALC1G400EHEALC1G400EHENLC1G400KUENLC1G400LSEALC1G5004BEEALC1G5004EHEALC1G5004EHENLC1G5004KUENLC1G5004LSEALC1G500BEEALC1G500EHEALC1G500EHENLC1G500KUENLC1G500LSEALC1G6304EHEALC1G6304EHENLC1G6304KUENLC1G6304LSEALC1G630EHEALC1G630EHENLC1G630KUENLC1G630LSEALC1G8004EHEALC1G8004EHENLC1G8004KUENLC1G8004LSEALC1G800EHEALC1G800EHENLC1G800KUENLC1G800LSEALV429252LV429253LV429254LV429256LV429257LV429258LV432500LV432501LV432502LV432503LX1G3QBEEALX1G3QEHEALX1G3QEHENLX1G3QKUENLX1G3QLSEALX1G3RBEEALX1G3REHEALX1G3REHENLX1G3RKUENLX1G3RLSEALX1G3SBEEALX1G3SEHEALX1G3SEHENLX1G3SKUENLX1G3SLSEALX1G3TEHEALX1G3TEHENLX1G3TKUENLX1G3TLSEALX1G4QBEEALX1G4QEHEALX1G4QEHENLX1G4QKUENLX1G4QLSEALX1G4RBEEALX1G4REHEALX1G4REHENLX1G4RKUENLX1G4RLSEALX1G4SBEEALX1G4SEHEALX1G4SEHENLX1G4SKUENLX1G4SLSEALX1G4TEHEALX1G4TEHENLX1G4TKUENLX1G4TLSEAProduct referencesTeSys ControlGiga High power contactors This document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:742;s:340:"B9/23High power contactorsTechnical Data for DesignersTeSys Control - GigaContentsTeSys Giga High power contactors: > Characteristics .....................................B9/25 to B9/29 > Dimensions ..........................................B9/30 to B9/33 > Diagrams ...........................................................B9/34 ";i:743;s:26:"B9/24High power contactors";i:744;s:1827:"B9/25High power contactorsCharacteristicsTeSys ControlGiga High power contactors EnvironmentContactor typeLC1G115... 225LC1G265... 500LC1G630... 800Rated insulation voltage (Ui)Conforming to IEC 60947-4-1. Over-voltage category III,degree of pollution: 3V100010001000Rated impulse withstand voltage (Uimp)Coil not connected to the power circuitkV888Conforming to standardsIEC/EN 60947-4-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, JIS C 8201-4-1, GB/T 14048.4, IEC 60721-3-3 3C3Product certificationsCB scheme, CCC, cULus, UKCA, EAC, EU-RO-MR by DNVElectromagnetic compatibilityIEC 60947-4-1ImmunityFollowing IEC 60947-4-1 Table 16EmissionEnvironment A according to IEC 60947-4-1Immunity to radiated electromagnetic interference20V/m according to IEC/EN 61000-4-3Voltage sag immunity (in complete product as well)Conforming to SEMI-F47Degree of protectionConforming to IEC 60529 / VDE 0106 IP2x with terminal shrouds LA9G37●●/ LA9G47●●Climatic withstandAccording to IACS E10Ambient air temperature around the deviceStorage°C-60...+80Operation°C-25...+60Permissible at Uc°C-40...+70Net weightStandard3Pkg3.67.514.24Pkg4.48.218Advanced3Pkg4.18.217.34Pkg5.18.722Maximum operating altitudeWithout deratingm3000Operating positionsWithout derating DF510765.eps90°90°180° 30° 30° DF510764.eps With derating (1)DF537814.eps DF537815.epsShock resistance 1/2 sine wave = 11 msConforming to IEC 60068-2-7Contactor open10 gn10 gn10 gnContactor closed15 gn15 gn15 gnVibration resistance 5...300 HzConforming to IEC 60068-2-6Contactor open2 gn2 gn2 gnContactor closed4 gn4 gn4 gn(1) For derating details, please contact technical support.Coordination tables:pages A5/7 to A5/42References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.Ref.";i:745;s:2046:"B9/26High power contactorsCharacteristicsTeSys ControlGiga High power contactors Pole characteristicsContactor typeLC1G115LC1G150LC1G185LC1G225Number of poles3 or 43 or 43 or 43 or 4Rated operational current (le)Ue y 440 V3PIn AC-3 / AC-3e, q y 60 °CA115 / 115150 / 145185 / 177225 / 209Ue y 1000 V3P & 4PIn AC-1, q y 40 °CA250275305330Rated operational voltage (Ue)Up toV1000 (1)100010001000Rated frequency (f) (2)Hz50 / 6050 / 6050 / 6050 / 60Frequency operating limits With derating (3)Hz16 2/3 ...40016 2/3 ...40016 2/3 ...40016 2/3 ...400Conventional thermal currentq y 40 °CA250275305330Rated making capacityI rms conforming to IEC 60947-4-1AMaking current: 10 x I in AC-3 or 12 x I in AC-4 Making current: 13 x I in AC-3eRated breaking capacityI rms conforming to IEC 60947-4-1AMaking and breaking current: 8 x I in AC-3 or 10 x I in AC-4Making and breaking current: 8.5 x I in AC-3eMaximum permissible current No current flowing for previous 60 minutes, at q y 40 °CFor 10 sA1100120015001800For 30 sA6407009201000For 1 minA520600740850For 3 minA400450500560For 10 minA320350400440Short-circuit protection by fuses Fuses for motor: type aM - Ue y 440 VA125160200250 Fuses for motor: type aM - Ue y 690 VA125 160160200Fuses for general application: type gG - Ue y 690 VA315315315400Average impedance per poleAt lth and 50 HzmW0.180.180.170.15Power dissipation per pole for the above operational currentsAC-3 / AC-3eW3568AC-1W10102020ConnectionMaximum c.s.a.BarNumber of bars2222Barmm25 x 625 x 625 x 625 x 6Cable with lugmm2185185185185Cable with connectormm2185185185185Bolt diametermmØ8.5Ø8.5Ø8.5Ø8.5Tightening torquePower circuit connectionsN.m18181818(1) Ue y 1000 V for AC-1 / Ue y 690 V for AC-3 / AC-3e / AC-4.(2) Please consult your technical support team for application with frequencies other than 50/60 Hz.(3) For derating details, please contact technical support.Coordination tables:pages A5/7 to A5/42References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.Ref.";i:746;s:1099:"B9/27High power contactorsCharacteristicsTeSys ControlGiga High power contactors Pole characteristicsLC1G265LC1G330LC1G400LC1G500LC1G630LC1G8003 or 43 or 43 or 43 or 43 or 43 or 4265 / 255330 / 294400 / 391500 / 437630 / 555800 / 5873854405507001050105010001000100010001000100050 / 6050 / 6050 / 6050 / 6050 / 6050 / 6016 2/3...40016 2/3...40016 2/3...40016 2/3...40016 2/3...40016 2/3...40038544055070010501050Making current: 10 x I in AC-3 or 12 x I in AC-4Making current: 13 x I in AC-3eMaking and breaking current: 8 x I in AC-3 or 10 x I in AC-4Making and breaking current: 8.5 x I in AC-3e2200265036004000505055001230180024002800440046009501300170022003400360062090012001500220026004807501000120016001700315 400500500630800 250250315400500630400500630800125012500.1440.1440.10.080.0650.065111616202642203030407070Maximum c.s.a.22222232 x 1032 x 1032 x 1032 x 1052 x 2052 x 202402 x 1502 x 1852 x 240--240-----Ø10.6Ø10.6Ø10.6Ø10.6Ø13Ø13353535355858Coordination tables:pages A5/7 to A5/42References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.Ref.COORD.Ref.";i:747;s:1859:"B9/28High power contactorsCharacteristicsTeSys Giga High power contactors - Advanced version - Control circuit characteristics with AC/DC coilsContactor typeLC1G115...225LC1G265...330LC1G400...500LC1G630...800Rated control circuit voltage (Uc)V24...48 AC/DC, 48...130 AC/DC, 200...500 AC/DC (1)Control voltage limits (q y 60 °C)AC input (50/60 Hz)/DC inputOperation0.8 Uc Min...1.1 Uc Max Drop-out0.1 Uc Max...0.45 Uc MinInputs compatibilityPLC digital output 24 V DC Type 3 IEC61131-2Off-stateV DC0...5On-stateV DC11...30Average consumption at 20 °C and at Uc(3 and 4-pole contactors)24...48 V AC/DC coil (BEE) Inrush50/60 Hz coilVA290540490 -DCW220380350 -Sealed50/60 Hz coilVA1017.917.9 -DCW5.76.46 -48...130 V AC/DC coil (EHE) Inrush50/60 Hz coilVA260430450560DCW190360360440Sealed50/60 Hz coilVA8.911.711.712DCW598.38.8200...500 V AC/DC coil (LSE)Inrush50/60 Hz coilVA295530535670DCW215300300390Sealed50/60 Hz coilVA1316.115.417DCW898.611Heat dissipationW4...55...65...65...6Operating timeClosing "C"ms40...7040...7040...7040...70Opening "O"ms15...5015...5015...5015...50Mechanical durability at UcIn millions of operating cycles (max)8885Maximum operating rate at ambient temperature y 60 °CIn operating cycles per hourAC-1300300300300AC-3600600600600AC-41501506060Coil control and PLC input connection (Push-in type)Min/max c.s.a. Flexible cable 1 conductor with cable endmm2 0.25...2.50.25...2.50.25...2.50.25...2.52 conductors with Dual Sleevemm2 0.5...10.5...10.5...10.5...1Solid cable1 conductormm2 0.2...2.50.2...2.50.2...2.50.2...2.5Stripping lengthmm12121212(1) 24...48 V AC/DC control voltage option is available for LC1G115...LC1G500 ratings.TeSys ControlGiga High power contactors Coordination tables:pages A5/7 to A5/42References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.Ref.";i:748;s:1580:"B9/29High power contactorsCharacteristicsTeSys ControlGiga High power contactors TeSys Giga High power contactors - Standard version control circuit characteristics with AC/DC coilsContactor typeLC1G115...225LC1G265...330LC1G400...500LC1G630...800 Rated control circuit voltage (Uc)V48...130 AC/DC, 100...250 AC/DCControl voltage limits (q y 60 °C)AC input (50/60 Hz)/DC inputOperation0.8 Uc Min...1.1 Uc Max (1)Drop-out0.1 Uc Max...0.45 Uc MinAverage consumption at 20 °C and at Uc(3 and 4-pole contactors)48...130 V AC/DC coil (EHE)Inrush50/60 Hz coilVA640780965990DCW445695760790Sealed50/60 Hz coilVA18.717.617.618.7DCW7.87.87.89.5100...250 V AC/DC coil (KUE)Inrush50/60 Hz coilVA540700750800DCW380645660680Sealed50/60 Hz coilVA12.41515.515DCW7.89.19.39.5Heat dissipationW5...66...76...76...7Operating timeClosing "C"ms40...7040...7040...7040...70Opening "O"ms15...5015...5015...5015...50Mechanical durability at UcIn millions of operating cycles (max)8885Maximum operating rate at ambient temperature y 60 °CIn operating cycles per hourAC-1300300300300AC-3600600600600AC-41501506060Coil control connection (Push-in type)Min/max c.s.a. Flexible cable 1 conductor with cable endmm2 0.25...2.50.25...2.50.25...2.50.25...2.52 conductors with Dual Sleevemm2 0.5...10.5...10.5...10.5...1Solid cable1 conductormm2 0.2...2.50.2...2.50.2...2.50.2...2.5Stripping lengthmm12121212(1) 0.7 Uc Min for 110 V DC input (with KUE coil). Coordination tables:pages A5/7 to A5/42References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Diagrams:page B9/34COORD.Ref.";i:749;s:1438:"B9/30High power contactorsDimensionsTeSys ControlGiga High power contactors Advanced LC1G115...225 TeSys Giga High power contactors 3-pole4-poleØMbSGaa’QQPPX2LL1cHbJX1X1DB439608.aiMbØSGGaa’QQPPPX2cHbJX1X1LL1DB439609.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1PQSØ107.7254.7192.935166225.7144.163.966.93518.9188.5abcGJMHLL1PQSØ142.7254.7192.935166225.7144.163.966.93518.9188.5X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mmX2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm. a’ = a + 20 mm with additional auxiliary contact blocks on both sides (externally).Standard LC1G115...225 TeSys Giga High power contactors 3-pole4-polecHbX1JX1ØMbQQ PPSGaa’X2LL1DB439610.aicHbJX1X1MbØSGaa’QQPPPX2LL1DB439611.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1PQSØ107.7193192.935166164.1139.466.969.93518.9188.5abcGJMHLL1PQSØ142.7193192.935166164.1139.466.969.93518.9188.5X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mmX2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm.a’ = a + 20 mm with additional auxiliary contact blocks on both sides (externally).References:pages B9/10 to B9/21Characteristics:pages B9/25 to B9/29Diagrams:page B9/34Ref.";i:750;s:1509:"B9/31High power contactorsDimensionsTeSys ControlGiga High power contactors Advanced LC1G265...500 TeSys Giga High power contactors 3-pole4-poleØMbSGaa’QQPPX2LL1cHbJX1X1DB439608.aiMbØSGGaa’QQPPPX2cHbJX1X1LL1DB439609.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1PQSØ140290225.545187261.6166.772.878.845253010.6abcGJMHLL1PQSØ185290225.545187261.6166.772.878.845253010.6X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mm. X2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm. a’ = a + 20 mm with additional auxiliary contact blocks on both sides (externally).Standard LC1G265...500 TeSys Giga High power contactors 3-pole4-polecHbX1JX1ØMbQQ PPSGaa’X2LL1DB439610.aicHbJX1X1MbØSGaa’QQPPPX2LL1DB439611.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1140225225.545187197161.878.8LC1G265-330: 81.8 LC1G400: 82.8 LC1G500: 83.8PQSØ45253010.6abcGJMHLL1185225225.545187197161.878.8LC1G265-330: 81.8 LC1G400: 82.8 LC1G500: 83.8PQSØ45253010.6 X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mm.X2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm.a’ = a + 20 mm with additional auxiliary contact blocks on both sides (externally).References:pages B9/10 to B9/21Characteristics:pages B9/25 to B9/29Diagrams:page B9/34Ref.";i:751;s:1239:"B9/32High power contactorsDimensionsTeSys ControlGiga High power contactors Advanced LC1G630...800 TeSys Giga High power contactors 3-pole4-polecHbJX1X1X2ØMbSGaQQPPLL1DB439612.aicHbJX1X1X2ØMbSGaQQPPPLL1DB439613.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1PQSØ210.6388.5265.670242348.5192.1991077035.34813abcGJMHLL1PQSØ280.6388.5265.670242348.5192.1991077035.34813X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mm. X2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm. Standard LC1G630...800 TeSys Giga High power contactors 3-pole4-polecHbJX1X1X2ØMbSGaQQPPLL1DB439625.aiX2ØMbSGaQQPPPcHbJX1X1LL1DB439626.aiAll dimensions are in mm.All dimensions are in mm.abcGJMHLL1PQSØ210.6284265.670242244187.41071137035.34813abcGJMHLL1PQSØ280.6284265.670242244187.41071137035.34813X1 (mm) = Minimum electrical clearance.LC1G115...800, up to 1000 V: 40 mm.X2 (mm) = Minimum electrical clearance according to operating voltage inside metallic cabinets / adjacent installation of contactors.LC1G115...800: 5 mm.References:pages B9/10 to B9/21Characteristics:pages B9/25 to B9/29Diagrams:page B9/34Ref.";i:752;s:446:"B9/33High power contactorsDimensions/mountingTeSys ControlRetrofit base plates to replace TeSys F contactorsDimensionsLA9GRBF1LA9GRBF2LA9GRBF3For replacement of F115-225For replacement of F265-500For replacement of F630 and F800166TeSys FLC1F115-22535DB438635.ai18745TeSys FLC1F265-330LC1F400-500TeSys FTeSys FLC1F400-500DB439336.ai24270TeSys FLC1F630-800LC1F630-800TeSys FDB439335.epsNote: All dimensions are in mm.References:page B9/19Ref.";i:753;s:1372:"B9/34High power contactorsDiagramsTeSys ControlGiga High power contactors TeSys Giga High power contactors Advanced version - ON/OFF control by PLC Advanced version - ON/OFF control by PLC in safety application4/T224 V =0 V =ONON/OFFcontrolPLC outputOFFPLC InputX3X2X1A1A26/T38/T414221/L13/L25/L37/L413/NO21/NC2/T1=/~=/~24 V DC inputs for control by PLC static outputsX1: ON/OFF controlX2: 0 VX3: STOP controlDB438410.ai4/T224 V =0 V =ONON/OFFcontrolPLC outputE-STOPPush buttonOFFPLC InputX3X2X1A1A26/T38/T414221/L13/L25/L37/L413/NO21/NC2/T1=/~=/~24 V DC inputs for control by PLC static outputsX1: ON/OFF controlX2: 0 VX3: STOP controlDB439343.ai Advanced version - Control by switch4/T2=/~ONOFFX3X2X1A1A26/T38/T414221/L13/L25/L37/L413/NO21/NC2/T1=/~PLC InputSwitch or relayDB438411.ai Standard version4/T2=/~A1A26/T38/T414221/L13/L25/L37/L413/NO21/NC2/T1=/~DB438412.aiAdd-on blocksInstantaneous auxiliary contacts1 N/O + 1 N/C2 N/O 1 N/O + 1 N/C2 N/OLAG8N113P mirror contactsLAG8N203PLAG8N113 mirror contactsLAG8N20313/NO1421/NC22(43)(44)(31)(32)DB438468.eps13/NO1423/NO24(33)(34)(43)(44)DB438469.eps53/NO5461/NC62(83)(84)(71)(72)DB438470.eps53/NO5463/NO64(73)(74)(83)(84)DB438471.eps(1) Terminal numbers in brackets refer to blocks when mounted upside down, on left-hand side of contactor.References:pages B9/10 to B9/21Dimensions:pages B9/30 to B9/32Ref.";i:754;s:770:"B10/1High power contactorsTeSys Control F High power contactors TeSys F, FG, CR1F, V ContactorsType of productRangePagesTeSys F Contactors for AC-3 applications780 and 1000 AB10/2TeSys F Contactors for AC-1 applicationsFrom 1200 A to 2600 AB10/3TeSys FG Shockproof contactors(to be discontinued)From 150 to 630 A - AC-3B10/4TeSys CR1F Magnetic latching contactorsFrom 150 to 630 A - AC-3B10/5TeSys F Auxiliary contact blocks, accessories, spare parts, delayed opening devicesB10/6TeSys F CoilsB10/11Accessories, coils for shockproof and magnetic latching contactorsTeSys FG (to be discontinued), TeSys CR1FB10/15TeSys V Vacuum contactors – 1500 VFrom 160 to 610 A - AC-3 From 160 to 630 A - AC-1B10/22Technical Data for Designers B10/25TeSysTeSysControlChapter B10 ";i:755;s:1128:"B10/2High power contactorsProduct references PB112306.epsLC1F780PB123973.pngLC1F10003-pole contactors - Motors 780 to 1000 A / 440 V Category AC-3 - a.c. or d.c. coilsStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Rated opera- tional current in AC-3Basic reference, to be completed by adding the voltage code (1)WeightScrew fixing, cabling220 V230 V380 V400 V 415 V 440 V 500 V660 V690 V 1000 V440 V up tokWkWkWkWkWkWkWAkg220400425425450475450780LC1F780pp39.500315560630670– – – 1000LC1F1000pp31.000Note: auxiliary contact blocks, modules and accessories: see pages B10/6 to B10/15.(1) Please check the availability of your variant in the index page B10/24. The SEARCH function of your viewer can be used.Volts a2448110115120208220230240380400415440LC1F78040...400 Hz (coil LX1)––F7FE7F7L7M7P7U7Q7V7N7R7LC1F100040...400 Hz (coil LX1F)––F7–G7–M7P7U7Q7V7N7R7Volts c2448110125220230250400440LC1F780, LC1F1000(coil LX4F)––FDGDMD–UD–RDTeSys ControlF High power contactors Characteristics:pages B10/26 to B10/31Dimensions:pages B10/32 to B10/35Schemes:pages B10/36 and B10/37";i:756;s:1383:"B10/3High power contactorsPB107573.epsLC1F1250PB107575.epsLC1F1700...2100PB114811.epsLC1F26003 or 4-pole contactors - Loads 1200 to 2600 A / 440 V Category AC-1 - a.c. or d.c. coilsMaximum current in AC-1 (q y 40 °C)Number of polesBasic reference, to be completed by adding the voltage code (1)WeightScrew fixing, cablingAkg12003LC1SF1200KUE13.40012603LC1F1250pp19.00014003LC1F1400pp29.00016003LC1F780pp39.5004LC1F7804pp48.00017003LC1F1700pp30.0002100 (2)3LC1F2100pp31.0002600 (3)3LC1F2600pp36.000Note: auxiliary contact blocks, modules and accessories: see pages B10/6 to B10/15.(1) Please check the availability of your variant in the index page B10/24. The SEARCH function of your viewer can be used. (2) With set of right-angled connectors LA9F2100 (see page B10/9).(3) With set of right-angled connectors LA9F2600 (see page B10/9).Product referencesTeSys ControlF High power contactorsCharacteristics:pages B10/26 to B10/31Dimensions:pages B10/32 to B10/35Schemes:pages B10/36 and B10/37Volts a2448110115120208220230240380400415440LC1F1250 40...400 Hz (coil LX1)_E7F7FE7G7L7M7P7U7Q7V7N7R7LC1F1400, F1700, F2100,F2600 40...400 Hz (coil LX1F)__F7_G7_M7P7U7Q7V7N7R7Volts c2448110125220230250400440LC1F1250 (coil LX4F)_EDFDGDMD_UD_RDLC1F1400, F1700, F2100, F2600 (coil LX4F)__FDGDMD_UD_RDVolts a / c100...250LC1SF1200, LC1F1250, F2600 (coil LXE + ECM LA4EM) KUE";i:757;s:1478:"B10/4High power contactorsImportant notice: LC1FG range is planned for discontinuation without replacement. Before ordering, please consult your regional sales office for availability.3-pole shockproof contactors - Motors 150 to 630 A / 440 V AC-3, loads 250 to 1000 A / 440 V / AC-1 - a.c. coilStandard power ratings of 3-phase motors 50-60 Hz in category AC-3Rated operational current in cat. AC-3, 440 V/AC-1 up toBasic reference, to be completed by adding the voltage code (1)WeightScrew fixing, cabling (2)220 V230 V380 V400 V415 V440 V500 V660 V690 V1000 VkWkWkWkWkWkWkWAkg407580809010065150/250LC1FG150pp3.4305590100100110110100185/275LC1FG185pp4.65075132140140160160147265/350LC1FG265pp7.440110200220250257280185400/500LC1FG400pp9.100147250280295355335335500/700LC1FG500pp11.350200335375400400450450630/1000LC1FG630pp18.600Note: these contactors have instantaneous auxiliary contact blocks with 2 N/O contacts, 1 N/C contact and one coil maintaining contact.(1) Please check the availability of your variant in the index page B10/24. The SEARCH function of your viewer can be used. (2) Power terminals can, if required, be protected against direct finger contact by the addition of shrouds, to be ordered separately. Product referencesTeSys ControlFG High power shockproof contactors (to be discontinued)Characteristics:pages B10/38 to B10/51Dimensions, schemes:pages B10/54 and B10/55LC1FG150PB123832.epsLC1FG185PB123833.epsLC1FG265PB123834.eps";i:758;s:1104:"B10/5High power contactors3, 4 pole - Motors 150 to 630 A / 440 V / AC-3, loads 250 to 1000 A / 440 V AC-1 - a.c. or d.c. coilsMaximum thermal current in category AC-140 °CRated operational current in category AC-3 (440 V max) Number of polesInstantaneous auxiliary contactsBasic reference, to be completed by adding the voltage code (1)WeightPB108372.epsCR1F1854AAkg2501503––CR1F150pp3.5004––CR1F1504pp3.8002751853––CR1F185pp4.6004––CR1F1854pp5.4003502653––CR1F265pp7.4004––CR1F2654pp8.5005004003––CR1F400pp9.1004––CR1F4004pp10.200PB108370.epsCR1F5007005003––CR1F500pp11.3004––CR1F5004pp12.90010006303––CR1F630pp18.6004––CR1F6304pp21.500Note: accessories, replacement parts and spare coils, see pages B10/19 to B10/21.(1) Standard control circuit voltages: see page B10/20. Please check the availability of your variant in the index page B10/24. The SEARCH function of your viewer can be used. TeSys ControlCR1F High power magnetic latching contactorsProduct referencesCharacteristics:pages B10/56 to B10/65Dimensions:pages B10/66 to B10/69";i:759;s:114:"B10/6High power contactorsLC1 FLAD N10, N01LAD NLAD N, LAD CLA4 EM250ppLA1 DX, DY, DZLAD T, LAD SLAD RDB439378.eps";i:760;s:1805:"B10/7High power contactorsProduct references Instantaneous auxiliary contact blocksFor use in normal operating environmentsNumber of contactsMaximum number of blocks per contactorCompositionReferenceClip-on mounting11––1–LADN10–––1LADN0122––11LADN11––2–LADN20–––2LADN0242––22LADN22––13LADN13––4–LADN40–––4LADN04––31LADN31––22 (1)LADC22With terminal referencing conforming to EN 5001222––11LADN11P––11LADN11G42––22LADN22P––22LADN22GInstantaneous auxiliary contact blocks for connection by lugsThis type of connection is not possible for blocks with 1 contact or blocks with dust and damp protected contacts. For all other instantaneous auxiliary contact blocks, add the figure 6 to the end of the references selected above. Example: LADN11 becomes LADN116.Instantaneous auxiliary contact blocks with dust and damp protected contactsRecommended for use in particularly harsh industrial environmentsNumber of contacts Maximum number of blocks per contactorCompositionReferenceClip-on mounting222–––LA1DX2022 (2)––LA1DY20422–2–LA1DZ402–11LA1DZ31Time delay auxiliary contact blocksNumber of contactsMaximum number of blocks per contactorTime delayReferenceClip-on mountingTypeRange s1 N/O+1 N/C2On-delay0.3 (3)LADT01...30LADT210...180LADT41...30 (4)LADS2Off-delay0.3 (3 )LADR01...30LADR210...180LADR4(1) Including 1 N/O + 1 N/C make before break.(2) Device fitted with 4 earth screen continuity terminals.(3) With extended scale from 0.1 to 0.6 s.(4) With switching time of 40 ms ±15 ms between opening of the N/C contact and closing of the N/O contact.TeSys ControlF High power contactors - Auxiliary contact blocksIntroduction:page B10/6Schemes:page B10/37i";i:761;s:1685:"B10/8High power contactorsProduct referencesPB111612.epsPB123967.tifLA9D09981 LA4FpppSuppressor blocks (1)RC circuits (resistor-capacitor) bEffective protection for circuits highly sensitive to "high frequency" interference. For use only in cases where the voltage is virtually sinusoidal, i.e. less than 5 % total harmonic distortion. bVoltage limited to 3 Uc max. and oscillating frequency limited to 400 Hz max. bSlight increase in drop-out time (1.1 to 1.3 times the normal time).MountingUcReferenceClip-on mounting on all ratings and all a.c. coils.a24...48 VLA4FRCE50...110 VLA4FRCF127...240 VLA4FRCP265...415 VLA4FRCVSuppressor block bracketLA9D09981Varistors (peak limiting)b Protection provided by limiting the transient voltage to 2 Uc max.b Maximum reduction of transient voltage peaks.Clip-on mounting on all ratings and all coils.a or c24...48 VLA4FVE50...110 VLA4FVF127...240 VLA4FVP265...415 VLA4FVVDiodesb No overvoltage or oscillating frequencies.b Increase in drop-out time (3 to 4 times the normal time).b Polarised component.Clip-on mounting on all ratings and all d.c. coils.c24...48 VLA4FDE55...110 VLA4FDF280...440 VLA4FDVBidirectional peak limiting diodes (transil)b Protection provided by limiting the transient voltage to between 2 and 2.5 times Uc max.b Maximum reduction of transient voltage peaks.Clip-on mounting on all ratings and all coils. a or c24...48 VLA4FTE50...110 VLA4FTF127...240 VLA4FTP265...415 VLA4FTV(1) Order 2 x LA4Fppp for F780, F1000, F1400, F1700, F2100 & F2600 contactors and connect one suppressor block accross each coil. TeSys ControlF High power contactors - Suppressor blocks and accessoriesDimensions:page B10/34 ";i:762;s:434:"B10/9High power contactorsPB107578.epsLA9F2100 (set of 6)Right-angled connectors For contactors or thermal overload relaysFor use withWith connector platesSet of 6 connectorsContactorsSet referenceWeightWidthTypekgLC1F1000, F1400, F1700, F210060 mmRearLA9F21009.550LC1F2600100 mmRearLA9F26004.380TeSys ControlF High power contactors - Connection accessoriesProduct referencesDimensions:page B10/34 LA9F2600 (set of 6)PB114813.eps";i:763;s:1200:"B10/10High power contactorsProduct referencesPB121430.epsPhase separatorsFor use on 3-pole contactorsNo. of barriers per setSet referenceLC1F1400, F1700 F2100 and F26004LA9F801LA9F801Electronic Control Module (ECM) (1)PB123968.tifFor use on 3 and 4-pole contactorsWith coil referenceECM referenceLC1SF1200LXEFK250LA4EM250FKLC1F1250LXEFL250LA4EM250FLLC1F2600LXEFL2502LA4EM250FL2(1) ECM enables wider coil operating voltage for the F range of contactors.Note: Refer to page number B10/31 for detailed technical information.LA4EM250FKSets of contactsPer pole: 2 fixed contacts, 1 moving contact , 2 deflectors, 1 back-plate, clamping screws and washers.For contactorTypeReplacement forReferenceWeight kg3-poleLC1F7801 poleLA5F780801 (1)4.7003 polesLA5F78080313.2004-poleLC1F78041 poleLA5F780801 (1)4.7004 polesLA5F78080417.300(1) Comprising 2 identical items per pole.TeSys ControlF High power contactors - Accessories> Click on QR code to downloadControl Panel Technical Guide:Description and product reference of all mounting kits and wiring accessories for D, K, F - Star Delta, reverser, low-high speed control motor starters and changeover applications.>> Ref. Document: CPTG011_EN ";i:764;s:1743:"B10/11High power contactorsProduct referencesTeSys ControlF High power contactors - CoilsLXEFK250PB121426.epsCoils for a.c./ d.c. wide band control voltageOperates on AC or DC voltage inputs. Low sealed consumption. High tolerance to inrush voltage drops.Control circuit voltage UcAverage resistance at 20 °C ±10 %Voltage codeReferenceInrushSealedVWWFor contactor LC1SF1200100...25088KUELXEFK250SpecificationsAverage consumption at 20 °C; 50 Hz/ 60 Hz; cos ɸ = 0.5-0.6: binrush: 550 VA max bsealed: 8 VA max.Heat dissipation: 5.5 W max.Operating time at Uc: closing = 40...80 ms, opening = 6...54 ms. Operating cycles/hour (θ y 55 °C): 1200.Embedded PLC input according IEC 61131-2 type 2: bOff state: 0...5 V DC bOn state: 11...30 V DC.Control circuit voltage UcAverage resistance at 20 °C ±10 %Voltage codeReferenceInrushSealedVWWFor contactor LC1F1250100...2504.784.78KUELXEFL250SpecificationsAverage consumption at 20 °C; 50 Hz/ 60 Hz; cos ɸ = 0.5-0.6: binrush: 680 VA max bsealed: 10 VA max.Heat dissipation: 5.5 W max.Operating time at Uc: closing = 40...80 ms, opening = 6...54 ms.Operating cycles/hour (θ y 55 °C): 1200.Embedded PLC input according IEC 61131-2 type 2: bOff state: 0...5 V DC bOn state: 11...30 V DC.Control circuit voltage UcAverage resistance at 20 °C ±10 %Voltage codeReferenceInrushSealedVWWFor contactor LC1F2600100...2502.272.27KUELXEFL2502SpecificationsAverage consumption at 20 °C; 50 Hz/ 60 Hz; cos ɸ = 0.5-0.6: binrush: 2400 VA max bsealed: 24.5 VA max.Heat dissipation: 5.5 W max.Operating time at Uc: closing = 54...88 ms, opening = 20...28 ms.Operating cycles/hour (θ y 55 °C): 600.Embedded PLC input according IEC 61131-2 type 2: bOff state: 0...5 V DC bOn state: 11...30 V DC.";i:765;s:1307:"B10/12High power contactorsProduct referencesCoils for a.c., 40...400 Hz control voltageLow sealed consumption. Operate on networks with harmonic numbers y 7.Control circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitVoltage codeReferenceWeightInrushSealedVWWHkgFor contactor LC1SF120022035.59154.55M7LX1FK2201.15023035.59154.55P7LX1FK2201.150SpecificationsAverage consumption at 20 °C for 50 or 60 Hz, cos φ = 0.9: binrush: 1050...1150 VA, bsealed: 16...20 VA.Operating cycles/hour (q y 55 °C): y 2400.Heat dissipation: 18 W.Operating time at Uc: closing = 40...75 ms, opening = 100...170 ms. For contactor LC1F1250110/1206.451651.85F7LX1FL1101.5001156.451651.85FE7LX1FL1101.500200/20820.56052.65L7LX1FL2001.50022025.57303.35M7LX1FL2201.50023025.57303.35P7LX1FL2201.50024025.57303.35U7LX1FL2201.500265/277319004.1W7LX1FL2601.50038078236010.5Q7LX1FL3801.50040078236010.5V7LX1FL3801.50041596296013N7LX1FL4151.50044096296013R7LX1FL4151.500SpecificationsAverage consumption at 20 °C for 50 or 60 Hz, cos φ = 0.9: binrush: 1500...1730 VA, bsealed: 20...25 VA.Operating cycles/hour (q y 55 °C): 1200.Heat dissipation: 20 W.Operating time at Uc: closing = 40...80 ms, opening = 100...200 ms.TeSys ControlF High power contactors - CoilsLX1FKpppPB121423.epsLX1FLpppPB121424.eps";i:766;s:2712:"B10/13High power contactorsCoils for a.c., 40...400 Hz control voltageLow sealed consumption. Operate on networks with harmonic numbers y 7.Control circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitVoltage codeReferenceWeightInrushSealedVWWHkgFor contactor LC1F780110/1204.95 (2)230 (2)0.21F7LX1FX110 (1)3.0001154.95 (2)230 (2)0.21FE7LX1FX110 (1)3.00022019.5 (2)920 (2)0.82M7LX1FX220 (1)3.00023019.5 (2)920 (2)0.82P7LX1FX220 (1)3.00024019.5 (2)920 (2)0.82U7LX1FX220 (1)3.000265/27729.8 (2)1330 (2)1.25W7LX1FX280 (1)3.000415/48074.3 (2)3340 (2)2.8N7LX1FX415 (1)3.00044074.3 (2)3340 (2)2.8R7LX1FX415 (1)3.000SpecificationsAverage consumption at 20 °C for 50 or 60 Hz, cos φ = 0.9: binrush: 1900...2300 VA, sealed: 44...55 VA.Operating cycles/hour (q y 55 °C): 600.Heat dissipation: 2 x 22 W.Operating time at Uc: closing = 40...80 ms, opening = 130...230 ms. Control circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitVoltage codeReferenceWeightInrushSealedVWW HkgFor contactor LC1F10001104.71898.40.63F7LX1FK055 (3)1.150For contactors LC1F1400, LC1F1700 and LC1F21001205.921060.72G7LX1FK070 (3)1.150For contactors LC1F1000, LC1F1400, LC1F1700 and LC1F21002209.552601.25M7LX1FK110 (3)1.1502309.552601.25P7LX1FK110 (3)1.15027716.54202.25W7LX1FK140 (3)1.15041535.59154.55N7LX1FK220 (3)1.15044035.59154.55R7LX1FK220 (3)1.15050044.511605.75S7LX1FK240 (3)1.150SpecificationsAverage consumption at 20 °C for 50 or 60 Hz, cos φ = 0.9: binrush: 1600...2400 VA, sealed: 29...37 VA.Operating cycles/hour (q y 55 °C): 600.Heat dissipation: 2 x 18 W.Operating time at Uc: closing = 40...75 ms, opening = 100...170 ms.Control circuit voltage UcAverage resistance at 20 °C ±10 %Inductance of closed circuitVoltage codeReferenceWeightInrushSealedVWW HkgFor contactors LC1F26001102.05410.18F7LX1FL065 (3)1.1501202.05410.18G7LX1FL065 (3)1.1502206.451650.76M7LX1FL110 (3)1.1502306.451650.76P7LX1FL110 (3)1.15027710.23171.45W7LX1FL140 (3)1.15038020.56052.65Q7LX1FL200 (3)1.15040020.56052.65V7LX1FL200 (3)1.15041525.57303.35N7LX1FL220 (3)1.15044025.57303.35R7LX1FL220 (3)1.15050030.89014.13S7LX1FL260 (3)1.150SpecificationsAverage consumption at 20 °C for 50 or 60 Hz, cos φ = 0.9: binrush: 2200...2700 VA, sealed: 37.4...50.6 VA.Operating cycles/hour (q y 55 °C): 600.Heat dissipation: 2 x 25 W.Operating time at Uc: closing = 40...80 ms, opening = 100...200 ms.Product referencesTeSys ControlF High power contactors - CoilsLX1FKpppPB121422.epsLX1FLpppPB121421.epsLX1FXpppPB112321.eps(1) Reference of set of 2 identical coils, to be connected in series.(2) Value for the 2 coils in series.(3) Order 2 coils and connect them in series.";i:767;s:2887:"B10/14High power contactorsCoils for d.c. control voltageLow sealed consumption.Control circuit voltageUcAverage resistance at 20 °C ±10 %Inductance of closed circuitVoltage codeReferenceWeightInrushSealedVWWHkgFor contactor LC1SF120011011.52450280FDLX4FK1101.0802204481501080MDLX4FK2201.080For contactor LC1F1250 (1)For contactors LC1F115 and LC1F150100...380 cFor contactor LC1SF1200100...250 a8––KUELXEFK2501.100110 and 220 cFor contactor LC1F1250100...250 a4.78––KUELXEFL2501.100100...380 cFor contactor LC1F12501108.11680180FDLX4FL1101.450220315160650MDLX4FL2201.450For contactor LC1F7801106.1 (3)280 (3)0.26FDLX4FX110 (2)3.0001257.7 (3)410 (3)0.33GDLX4FX125 (2)3.00025029.8 (3)1330 (3)1.25UDLX4FX250 (2)3.00044092 (3)4180 (3)3.5RDLX4FX440 (2)3.000For contactors LC1F1000, LC1F1400, LC1F1700 and LC1F21001253.73916122GDLX4FK065 (4)1.08022011.52450280MDLX4FK110 (4)1.0804404481501080RDLX4FK220 (4)1.080For contactor LC1F26001102.0548164FDLX4FL055 (4)1.0801252.5360380GDLX4FL065 (4)1.08022011.52450280MDLX4FL110 (4)1.080250152930400UDLX4FL125 (4)1.0804404481501080RDLX4FL220 (4)1.080(1) LXE coil to be used along with suitable Electronic Control Module (ECM) Ref. LA4EM●●●●●. For details, please refer to page B10/10.(2) Reference of set of 2 identical coils, to be connected in series.(3) Value for the 2 coils in series.(4) Order 2 coils and connect them in series.LX4FKpppPB112328_40.epsProduct referencesTeSys ControlF High power contactors - CoilsLX4FK specificationsAverage consumption: binrush: 990...1220 W, bsealed: 4.54...8 W.Operating cycles/hour (q y 55 °C): 2400.Operating time at Uc: closing = 50...60 ms, opening = 45...60 ms.LXE specificationsAverage consumption: b inrush 50/60 Hz: 280...730 VA rms DC: 270...680 W, b sealed: 50/60 Hz: 4.5...10 VA rms DC: 2.5..5.5 W.Heat Dissipation: 2.5..5.5 WOperating cycles/hour (θ y 55 °C): < 2400.Operating time at Uc: closing = 40...80 ms, opening = 6...54 ms.Embedded PLC input according IEC 61131-2 type 2: bOff state: 0...5 V DC bOn state: 11...30 V DC. LX4FL specificationsAverage consumption: binrush: 1420...1920 W, bsealed: 6.5...12.5 W.Operating cycles/hour (q y 55 °C): 1200.Operating time at Uc: closing = 60...70 ms, opening = 40...50 ms.LX4FX specificationsAverage consumption: binrush: 1960...2420 W bsealed: 42...52 W.Operating cycles/hour (q y 55 °C): 600.Operating time at Uc: closing = 70...80 ms, opening = 100...130 ms.LX4FK specifications with LC1F1000,1400,1700, 2100Average consumption: binrush: 2000...2200 W, bsealed: 8...10 W.Operating cycles/hour (q y 55 °C): 600.Operating time at Uc: closing = 50...60 ms, opening = 45...60 ms.LX4FL specifications with LC1F2600Average consumption: binrush: 2130...2880 W bsealed: 13...25 W.Operating cycles/hour (q y 55 °C): 600.Operating time at Uc: closing = 60...70 ms, opening = 40...50 ms.";i:768;s:1103:"B10/15High power contactorsTeSys ControlFG High power shockproof contactors - Contact blocksAuxiliary contact blocks for LC1FG 3-pole shockproof contactorsInstantaneous auxiliary contact blocksFor use in normal operating environmentsNumber of contactsMax. number of blocks per contactorCompositionReferenceClip-on mounting1 1––1–LADN10(1)–––1LADN01(1)41––22LADN22(1)––4–LADN40(1)–––4LADN04(1)––31LADN31(1)Time delay auxiliary contact blocksNumber of contactsMax. number of blocks per contactorTime delayReference Clip-on mountingTypeRanges1 N/O+1 N/C1On-delay0...3 (2)LADT01...30LADT2(1)10...180LADT41...30 (3)LADS2Off-delay0...3 (2)LADR01...30LADR2(1)10...180LADR4(1) Device approved by the DCN (French naval shipyard department) and authorised for on-board use.(2) With extended scale from 0.1 to 0.6 s.(3) With switching time of 40 ms ±15 ms between opening of the N/C contact and closing of the N/O contact.Characteristics:pages B10/52 and B10/53Schemes:page B10/55LADNppPB121689.epsLADTpPB123803.epsProduct references";i:769;s:1352:"B10/16High power contactorsAccessories for contactors CR1FPB121695.epsDescriptionNumber of contacts or shroudsFor use onReferenceInstantaneous auxiliary contacts(1)CR1FLADNpp, LADXpp, LADYpp, LADZpp (1)Time delay auxiliary contacts(1)CR1FLADTp,LADSp,LADRp (1)Contact blocks with protected terminals for 3-pole contactors (for mounting on contactors with closed arc chamber)Set of 2 blocksCR1F150 and CR1F185LA9F103 LADNPower terminal protection shroudsSet of 6 shrouds for 3-pole contactorsCR1F150 and CR1F185LA9F702CR1F265 to CR1F500LA9F703PB111617.epsCR1F630 LA9F704Set of 8 shrouds for 4-pole contactorsCR1F1504 and CR1F1854LA9F707CR1F2654 to CR1F5004LA9F708LA9F103CR1F6304LA9F709PB111592.epsLA9F70pDescriptionApplicationReferenceMechanical interlock and power connectionsFor assembly of reversing contactors and changeover contactor pairsSee pages B10/17 and B10/18(1) For maximum number per contactor and complete reference, see page B10/7.TeSys ControlF Magnetic latching High power contactors - AccessoriesDimensions:pages B10/66 to B10/69Product references> Click on QR code to downloadControl Panel Technical Guide:Description and product reference of all mounting kits and wiring accessories for D, K, F - Star Delta, reverser, low-high speed control motor starters and changeover applications.>> Ref. Document: CPTG011_EN ";i:770;s:1374:"B10/17High power contactorsReversing and changeover assemblies with CR1F magnetic latching contactorsHorizontally mountedMechanical interlocksSets of power connectionsReversers assembled using 2 contactors of identical rating, type: CR1F150 CR1F185 CR1F265 CR1F400 CR1F500 CR1F630 LA9Fp970Reversing contactors LA9Fp9763 or 4-pole changeover contactor pairs LA9Fp977 or LA9Fp982 501598_1.epsA1E1A2A1A2E1123456123456L1L2L3UVWDF510478.epsA1E1A2A1A2E11234563456781N1/L31/L2L212L1781/L12/L12/L22/L32NL3NDF510477.epsPB111615.epsPB111616.epsVertically mountedMechanical interlocksReversers assembled using 2 contactors of identical rating, type: CR1F150 CR1F185 CR1F265 CR1F400 CR1F500 CR1F630LA9FF4F LA9FG4GAssembly ALA9FH4H LA9FJ4J LA9FL4LAssembly C501603_1.eps501604_1.epsReversers assembled using 2 contactors of different ratings, type: CR1F150 CR1F185 CR1F265 CR1F400 CR1F500 CR1F630LA9FH4F LA9FJ4F LA9FH4G LA9FJ4G LA9FL4GAssembly BLA9FJ4HLA9FK4HLA9FL4HLA9FK4JLA9FL4JAssembly C 501607_1.eps501605_1.epsReversers assembled using 3 contactors of identical or different ratingsLA9Fp4p4p Warning: the contactor ratings must be in decreasing size from top to bottom.501608_1.epsF150F185F265F400F500F630F150 F185 F265 F400 F500 F630F185F265F400F150F500F630CR1 F500CR1 F265CR1 F185ABCDF565952.epsTeSys ControlF High power contactors - Assembling componentsProduct references";i:771;s:2767:"B10/18High power contactorsReversing and changeover assemblies with CR1F magnetic latching contactors.Reversers assembled using 2 contactors of identical ratingContactor typeSet of power connectionsMechanical interlock3-pole ReferenceWeight kgKit referenceWeight kgFor assembly of 3-pole reversing contactors for motor control (1)Horizontally mountedCR1F150LA9FF9760.600LA9FF9700.060CR1F185LA9FG9760.780LA9FG9700.060CR1F265LA9FH9761.500LA9FJ9700.140CR1F400LA9FJ9762.100LA9FJ9700.140CR1F500LA9FK9762.350LA9FJ9700.140CR1F630LA9FL9763.800LA9FL9700.150Vertically mountedCR1F150(2)–LA9FF4F0.345CR1F185(2)–LA9FG4G0.350CR1F265(2)–LA9FH4H1.060CR1F400(2)–LA9FJ4J1.200CR1F630(2)–LA9FL4L1.220For assembly of 4-pole changeover contactor pairsHorizontally mountedCR1F2654LA9FH9821.200LA9FJ9700.140CR1F4004LA9FJ9821.800LA9FJ9700.140CR1F5004LA9FK9822.300LA9FJ9700.140Vertically mountedCR1F1504(2)–LA9FF4F0.345CR1F1854(2)–LA9FG4G0.350CR1F2654(2)–LA9FH4H1.060CR1F4004(2)–LA9FJ4J1.200CR1F6304(2)–LA9FL4L1.220Reversers assembled using 2 contactors of different ratingsContactor typeMechanical interlockAt bottomAt topKit referenceWeight kgFor assembly of 3 or 4-pole changeover contactor pairsVertically mounted (3)CR1F150 or F1504CR1F265 or F2654LA9FH4F0.870CR1F400 or F4004LA9FJ4F0.930CR1F185 or F1854CR1F265 or F2654LA9FH4G0.860CR1F400 or F4004LA9FJ4G0.940CR1F630 or F6304LA9FL4G0.950CR1F265 or F2654CR1F400 or F4004LA9FJ4H1.130CR1F500 or F5004LA9FK4H1.130CR1F630 or F6304LA9FL4H1.140CR1F400 or F4004CR1F500 or F5004LA9FK4J1.200CR1F630 or F6304LA9FL4J1.210For assembly of 3 or 4-pole reversing contactors (4)(1) A 3-pole reversing contactor for motor control can be converted into a 3-pole changeover contactor pair by removing the upper connecting links.(2) All power connections are to be made by the customer.(3) With identical or different number of poles. Power connections to be made by the customer.(4) Closing of one of the 3 contactors prevents closing of the other 2 contactors.(5) Complete the reference by replacing the first dot with the code for the upper contactor, the second dot with the code for the middle contactor and the third dot with the code for the bottom contactor.Using 3 contactors (vertically mounted) of identical or different ratingsMechanical interlockKit reference (5)The contactor ratings must be in decreasing size from top to bottom.LA9Fp4p4pContactorsCR1F150CR1F185CR1F265CR1F400CR1F500CR1F630CodeFGHJKLExample: mechanical interlock for reversing contactor made up of 3 different contactors: CR1F500 top, CR1F265 middle and CR1F185 bottom: LA9FK4H4G.TeSys ControlF High power contactors - Assembling componentsProduct referencesIllustrations: page B10/17Dimensions: pages B10/66 to B10/69";i:772;s:669:"B10/19High power contactorsReferencesPB121414.epsDescriptionFor contactorReferenceWeightkgComplete sets of contacts for 3 or 4 poles (1)3-poleCR1F150LA5FF4310.270 CR1F185LA5FG4310.350 CR1F265LA5FH4310.660 CR1F400LA5F4008030.660 LA5FG431CR1F500LA5F5008030.660 CR1F630LA5F6308030.660 4-poleCR1F1504LA5FF4410.360 CR1F1854LA5FG4410.465 CR1F2654LA5FH4410.880 CR1F4004LA5F4008040.465 CR1F5004LA5F5008040.465 CR1F6304LA5F6308040.465 (1) Set containing the following (per pole): 2 fixed contacts, 1 moving contact , 2 deflectors, 1 back-plate, clamping screws and washers.Product referencesTeSys ControlF Magnetic latching High power contactors - Spare parts";i:773;s:1131:"B10/20High power contactorsStandard coils for a.c. or d.c. control voltageUsual voltagesResistance of winding at q = 20 °CReferenceVoltage codeWeight50...400 Hz or c50 Hz, 60 HzLatchingUnlatchingVVWWkgFor contactors CR1F15048–1.98230.8LX0FF005E70.440127–11.611788LX0FF007G70.440–415139.5016 717LX0FF011N70.440For contactors CR1F18548–1.42220LX0FG005E70.560208–21.303169LX0FG020L70.560–415102.3014 305LX0FG011N70.560For contactors CR1F26548–1.34183.4LX0FH005E70.780127–8.561325LX0FH007G70.780208–20.202654LX0FH020L70.780–380/40078.3911 803LX0FH010Q70.780–415102.915 006LX0FH011N70.780For contactors CR1F400208–24.402643LX0FJ020L71.120–380/40094.809380LX0FJ010Q71.120–415121.1011 763LX0FJ011N71.120For contactors CR1F50048–1.57166LX0FK005E71.220127–9.561159LX0FK007G71.220208–23.602981LX0FK020L71.220–415112.0613 256LX0FK011N71.220For contactors CR1F63048–0.87204LX0FL005E71.460127–6.451830LX0FL007G71.460208–20.202961LX0FL020L71.460–41577.9713 003LX0FL011N71.460TeSys ControlF Magnetic latching High power contactors - CoilsProduct references9.0PB121413.epsLXF0FH007PB121412.epsLX0FK007";i:774;s:1302:"B10/21High power contactorsSpecial coils for a.c. or d.c. control voltageCoils with two windings with common point, allowing the use of two separate power sources for latching and unlatching. PB121483.eps LX0FGpppCoil voltages at 50 Hz, 60 Hz, 400 Hz or cResistance of winding at q = 20 °CReferenceVoltage codeWeightLatchingUnlatchingLatchingUnlatchingVVWWkgFor contactors CR1F1502202429.539.5LX0FF224MB7 0.440 For contactors CR1F1852202426.519LX0FG224MB70.560 For contactors CR1F265220242629.5LX0FH224MB70.780 For contactors CR1F400220243023LX0FJ224MB71.120 For contactors CR1F500220242926LX0FK224MB71.220 For contactors CR1F630220242641LX0FL224MB71.460 Coils with low inrush consumption for d.c. control voltageUsual voltages cResistance of winding at q = 20 °CReferenceVoltage codeWeightLatchingUnlatchingVWWkgFor contactors CR1F150484.56140.56LX0FF055EZ70.44022089.853342.51LX0FF058MZ70.440For contactors CR1F185485.19106.54LX0FG055EZ70.57012732.75732.64LX0FG057GZ70.570For contactors CR1F26511025364.61LX0FH056FZ70.80022097.891344.46LX0FH058MZ70.800For contactors CR1F40012731.86221.20LX0FJ057GZ71.15022098.19648.79LX0FJ058MZ71.150For contactors CR1F630483.9459.17LX0FL055EZ71.50011019.36365.33LX0FL056FZ71.500TeSys ControlF Magnetic latching High power contactors - CoilsProduct references";i:775;s:1152:"B10/22High power contactorsVacuum contactors - Motors 160 to 610 A / 400 V - a.c. coilsStandard power ratings 50/60 Hz in category AC-3Rated operational current Ie Instan-taneous auxiliary contactsControl circuit voltage(50/60 Hz)Basic reference (1)Weight230 V400 V525 V690 V1000 VAC-3400 Vup to AC-1kWkWkWkWkWAAkg4575110150200160160 2 1(1)LC1V160pp3.800 90160220280400320320 1 1(1)LC1V320pp10.500 160300400560800610630 1 1(1)LC1V610pp13.000 Reversing vacuum contactorsThe reversing contactor range comprises :b for 160 A rating, a kit with set of power connections allowing assembly of the starterb for 320 and 610 A ratings, a complete starter, ready for use.(1) Basic reference; add code indicating control circuit voltage.Standard control circuit voltages: Volts 50/60 Hz110...120220...240380...415440...480550...600ItemFE7P7V7R7X7Please check the availability of your variant in the index page B10/24. The SEARCH function of your viewer can be used.TeSys ControlV High power vacuum contactorsProduct referencesLC1V320PB121411.epsCharacteristics:pages B10/70 and B10/71Dimensions:pages B10/72 and B10/73Schemes:pages B10/72 to B10/75";i:776;s:914:"B10/23High power contactorsInstantaneous auxiliary contact blocks (1)Number of contactsMaximum number of blocks per contactorAuxiliary contactsReference2411LA1VN112–LA1VN2011LA1VN11X (2)50/60 Hz coilsRated voltageVoltage codeReferenceVFor contactors LC1V160380...415V7LX1V160V7440...480R7LX1V160R7550...600X7LX1V160X7For contactors LC1V320440...480R7LX1V320R7For contactors LC1V610220...240P7LX1V610P7380...415V7LX1V610V7440...480R7LX1V610R7(1) LC1V160: auxiliary contact blocks mounted at the top of the contactor, with no change to the overall dimensions. LC1V320 or LC1V610: 2 auxiliary contact blocks mounted on the RH and LH side of the contactor, with no change to the overall dimensions.(2) For LC1V160: 1 N/C contact for the coil + 1 N/O contact. LA1VN11PB121408.epsLX1V320ppPB121409.epsTeSys ControlV High power contactors - Contact blocks and a.c. coilsProduct references";i:777;s:2302:"B10/24High power contactorsTeSys Control F High power contactorsCR1F150F7CR1F150M7CR1F150U7CR1F185F7CR1F185G7CR1F185M7CR1F185Q7CR1F185U7CR1F2654F7CR1F265F7CR1F265G7CR1F265GD31S003CR1F265M7CR1F265U7CR1F4004MZ7CR1F400F7CR1F400FZ7CR1F400M7CR1F400Q7CR1F500F7CR1F500GD31S003CR1F500M7CR1F500Q7CR1F630F7CR1F630M7CR1F630MZ7DR5TE4SDR5TE4UDR5TF4VDZ2FF1DZ2FF6DZ2FG1DZ2FG6DZ2FJ1DZ2FJ6DZ2FK1DZ2FK6DZ2FL1DZ2FL2DZ2FL3DZ2FL6DZ2FR1DZ2FX1DZ2FX6LA1VN11LA1VN11XLA1VN20LA4EM250FKLA4EM250FL2LA4FDELA4FDFLA4FRCELA4FRCFLA4FRCPLA4FRCVLA4FTELA4FTFLA4FTPLA4FVELA4FVFLA4FVPLA4FVVLA5D11550LA5F400802LA5F400803LA5F400804LA5F500803LA5F500804LA5F630803LA5F630804LA5F780801LA5F780803LA5F780804LA5F800803LA5FF431LA5FF441LA5FG431LA5FG441LA5FH431LA5FH441LA5FJ431LA5FK431LA5FL431LA9D11517LA9D115604LA9D115692LA9D11570LA9D115704LA9D730LA9F103LA9F2100LA9F2600LA9F701LA9F702LA9F703LA9F704LA9F705LA9F706LA9F707LA9F708LA9F709LA9F801LA9F980LA9FF4FLA9FF601LA9FF970LA9FF976LA9FF981LA9FG4F4FLA9FG4GLA9FG601LA9FG610LA9FG970LA9FG976LA9FG979LA9FG980LA9FH4FLA9FH4GLA9FH4HLA9FH4H4FLA9FH4H4HLA9FH601LA9FH602LA9FH610LA9FH976LA9FH982LA9FJ4GLA9FJ4HLA9FJ4JLA9FJ4J4JLA9FJ610LA9FJ970LA9FJ974LA9FJ976LA9FJ980LA9FJ982LA9FK4HLA9FK4JLA9FK4KLA9FK4K4KLA9FK976LA9FK982LA9FL4GLA9FL4HLA9FL4JLA9FL4LLA9FL970LA9FL976LA9FL980LA9FX990MLA9FX991FLA9FX991QLC1D115004L6LC1F1250LC1F1250F7LC1F1250KUELC1F1250M7LC1F1250MDLC1F1250P7LC1F1250YLC1F1400LC1F1400MDLC1F1400P7LC1F1700LC1F1700F7LC1F1700M7LC1F1700MDLC1F1700P7LC1F2100LC1F2100F7LC1F2100LDLC1F2100LDBRLC1F2100M7LC1F2100MDLC1F2100P7LC1F2100V7LC1F2600LC1F2600KUELC1F2600MDLC1F2600P7LC1F780LC1F7804LC1F7804F7LC1F7804M7LC1F7804MDLC1F7804P7LC1F780F7LC1F780FE7LC1F780G7LC1F780M7LC1F780P7LC1F780Q7LC1FG265R7LC1FG500N7LC1SF1200KUELC1SF1200M7LC1SF1200P7LC1V160FE7LC1V160P7LC1V160P7SCLC1V320FE7LC1V320P7LC1V610FE7LC1V610P7LX1D8FE7LX1D8L7LX1D8N7LX1D8R7LX1D8V7LX1FK220LX1FL110LX1FL200LX1FL220LX1FL2206LX1FL260LX1FL380LX1FL415LX1FX110LX1FX220LX1FX415LX1V610P7LX4D8MDLX4FK110LX4FK220LX4FL110LX4FL125LX4FL220LX4FX110LXEFF250LXEFG250LXEFH250LXEFJ250LXEFK250LXEFL250LXEFL2502Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:778;s:653:"B10/25High power contactorsTechnical Data for DesignersF High power contactorsContentsF contactors: > characteristics .......... B10/26 to B10/31 > dimensions ............... B10/32 to B10/35 > schemes .................B10/36 and B10/37FG shockproof contactors: > characteristics ...........B10/38 to B10/53 > dimensions and schemes ..........B10/54 and B10/55CR1F magnetic latching contactors: > characteristics ...........B10/56 to B10/65 > dimensions ................B10/66 to B10/69V vacuum contactors: > characteristics ....... B10/70 and B10/71 > dimensions ............ B10/72 and B10/73 > schemes ....................B10/72 to B10/75 ";i:779;s:2074:"B10/26High power contactorsEnvironmentContactor typeLC1F780Rated insulation voltage (Ui)Conforming to IEC 60947-4-1. Overvoltage category III,degree of pollution: 3V1000Rated impulse withstand voltage (Uimp)Coil not connected to the power circuitkV8Conforming to standardsIEC 60947-4-1, GB/T14048.4, UL 60947-4-1, CAN/CSA-C22.2 No. 60947-4-1, IACS E10, JIS C 8201-4-1Product certificationsCB scheme, UL, CSA, CQC, EAC, ABS, BV , DNV , LRoS, RINA, CE marking, UKCA marking, CCC markDegree of protectionConforming to IEC 60529IP 20 front face with shrouds LA9FClimatic withstandAccording to IACS E10Ambient air temperature around the deviceStorage°C-60...+80Operation°C-5...+55Permissible at Uc °C-40...+70Maximum operating altitudeWithout deratingm3000Operating positionsWithout derating(not to be used for LC1F780, F1000, F1400, F1700, F2100 and F2600)813073.eps813075.eps813074.epsDB423061.eps With derating813076.eps813077.epsApply the following derating coefficients: 0.75 on the pull-in voltage, 0.9 on the drop-out voltage and 0.8 on the operational current in AC-1.Apply the following derating coefficients: 1.15 on the pull-in voltage, 1.1 on the drop-out voltage and 0.8 on the operational current in AC-1.In either case: neither the making and breaking capacities nor the electrical and mechanical durabilities can be assured.Not to be used813078.epsShock resistance (1) 1/2 sine wave = 11 msConforming to IEC/EN 60068-2-27Contactor open5 gnContactor closed (2)15 gnVibration resistance (1) 5...300 HzConforming to IEC/EN 60068-2-6Contactor open2.5 gnContactor closed5.5 gn(1) In the least favourable direction, without change of contact state (coil at Uc). Where higher resistance to mechanical shock is required, select shock-proof contactors. Please consult your Regional Sales Office.(2) 12 gn for F780-F1250 contactors when used with Electronic control module (LA4EM) & LXE coils.CharacteristicsTeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Dimensions:pages B10/32 and B10/33Schemes:pages B10/36 and B10/37Ref.";i:780;s:1071:"B10/27High power contactorsLC1F1000LC1SF1200LC1F1250LC1F1400LC1F1700LC1F2100LC1F260010001000100010001000100010008888888IEC 60947-4-1, GB/T14048.4, UL 60947-4-1, CAN/CSA-C22.2 No. 60947-4-1, JIS C 8201-4-1IEC 60947-4-1, GB/T14048.4IEC 60947-4-1, GB/T14048.4, UL 60947-4-1, CAN/CSA-C22.2 No. 60947-4-1, JIS C 8201-4-1CB scheme, UL, CSA, CQC, CE marking, UKCA marking, CCC markCB scheme, CQC, CE marking, UKCA marking, CCC markCB scheme, UL, CSA, CQC, CE marking, UKCA marking, CCC mark – ––-60...+80-5...+40-5...+60-5...+40-40...+60-40...+70-40...+603000(not to be used for LC1F780, F1000, F1400, F1700, F2100 and F2600)813073.eps813075.eps813074.epsDB423061.epsNot to be usedPossible positions with derating (see corresponding paragraph on left, same line)Not to be used813078.eps6 gn 6 gn 6 gn 6 gn 6 gn6 gn6 gn15 gn 15 gn 15 gn 15 gn 15 gn15 gn15 gn2 gn 2 gn 2 gn 2 gn 2 gn2 gn2 gn4 gn 4 gn (3) 4 gn 4 gn 4 gn 4 gn 4 gn (3) Vibration resistance 5...30 Hz, when used with Electronic Control Module (ECM).CharacteristicsTeSys ControlF High power contactors";i:781;s:2885:"B10/28High power contactorsPole characteristicsContactor typeLC1F780LC1F1000LC1SF1200LC1F1250LC1F1400LC1F1700LC1F2100LC1F2600Number of poles3 or 43333333Rated operational current (le) (Ue y 440 V)In AC-3, q y 55 °CA7801000------In AC-1, q y 40 °CA1600125012001260140017002100 (2)2600 (4)Rated operational voltage (Ue)Up toV1000440690690100010001000 (5)1000Frequency limitsOf the operational current (1)Hz162/3...200162/3...200162/3...200162/3...200 162/3...200 162/3...200162/3...200162/3...200Conventional thermal currentq y 40 °CA1600125012001260140017002100 (2)2600 (4)Rated making capacityI rms conforming to IEC 60947-4-1AMaking current: 10 x I in AC-3 or 12 x I in AC-410 x I in AC-3Making current: 1.5 x I in AC-1Rated breaking capacityI rms conforming to IEC 60947-4-1AMaking and breaking current: 8 x I in AC-3 or 10 x I in AC-48 x I in AC-3Making and breaking current: 1.5 x I in AC-1Maximum permissible current No current flowing for previous 60 minutes, at q y 40 °CFor 10 sA625010000800080008000100001000012000For 30 sA56007500520052006000750075009000For 1 minA46005500400040004500550055007000For 3 minA30004200300030004000420042006000For 10 minA22003000200020002600300030004000Short-circuit protection by fuses U y 440 VMotor circuit (type aM)A8001000––––––With thermal overload relay (type gG)A10001000––––––gG fusesA2 x 800 (3)1000140014002 x 800 (3)2 x 800 (3)2 x 1000 (3)2 x 1250 (3)Average impedance per poleAt lth and 50 HzmW0.100.120.100.120.100.100.100.10Power dissipation per pole for the above operational currentsAC-3W60100––––––AC-1W250120120120150200200250ConnectionBarNumber of bars23222343Barmm100 x 5100 x 550x8100 x 5100 x 5100 x 5100 x 5100 x 10Cable with lugmm2––––––––Cable with connectormm2––––––––Bolt diametermm2 x Ø124 x Ø12 (Ø11.5 with set of right-angled connectors LA9F2100)3 x Ø123 x Ø12 4 x Ø12 (Ø11.5 with set of right-angled connectors LA9F2100)4 x Ø12 (Ø11.5 with set of right-angled connectors LA9F2600)Tightening torquePower circuit connectionsN.m5858 (35 with set of right-angled connectors LA9F2100)585858 (35 with set of right-angled connectors LA9F2100)58 (35 with set of right-angled connectors LA9F2600)(1) Sine wave without interference. Above these values, contactors can be used only for AC-1 application.(2) With set of right-angled connectors LA9F2100 (see page B10/9).(3) Paralleling of poles must be carried out only in accordance with the fuse manufacturer’s recommendations.(4) θ y 60 °C with set of right-angled connectors LA9F2600 (see page B10/9).(5) Ue =1000 V, with set of right angled connectors LA9F2100 (see page B10/9). CharacteristicsTeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Dimensions:pages B10/32 and B10/33Schemes:pages B10/36 and B10/37Ref.";i:782;s:2288:"B10/29High power contactorsa.c. control circuit characteristics with LX1 coilContactor typeLC1 F780 (1)LC1 F1000 (1)LC1 SF1200LC1 F1250LC1 F1400 (1)LC1 F1700LC1 F2100 (1)LC1 F2600 (1)Rated control circuit voltage (Uc)V110...500110...500220...230110...600110...500110...500110...500110...500Control voltage limits (q y 55 °C)40...400 Hz coilsOperation0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 UcDrop-out0.2...0.4 Uc0.3...0.5 Uc0.25...0.5 Uc0.25...0.5 Uc0.3...0.5 Uc0.3...0.5 Uc0.3...0.5 Uc0.3...0.5 UcAverage consumption at 20 °C and at UcInrush40...400 Hz coilVA1900...23001600...24001050...11501500...17301600...24001600...24001600...24002200...2700Cos φ0.90.90.90.90.90.90.90.9Sealed40...400 Hz coilVA44...5529...3716...2020...2529...3729...3729...3737.4...50.6Cos φ0.90.90.90.90.90.90.90.9Heat dissipationW2 x 222 x 1818202 x 182 x 182 x 182 x 25Operating time (2)Closing "C"ms40...8040...7540...7540...8040...7540...7540...7540...80Opening "O"ms130...230100...170100...170100...200100...170100...170100...170100...200Mechanical durability at UcIn millions of operating cycles50.51010.50.50.50.5Maximum operating rate at ambient temperature y 55 °CIn operating cycles per hour60060024001200600600600600ConnectionMin/max c.s.a.Flexible cable without cable end1 or 2 conductorsmm21/41/41/41/41/41/41/41/4Flexible cable with cable end1 conductormm21/41/41/41/41/41/41/41/42 conductorsmm21/2.51/2.51/2.51/2.51/2.51/2.51/2.51/2.5Solid cable without cable end1 or 2 conductorsmm21/41/41/41/41/41/41/41/4Tightening torqueN.m1.21.21.21.21.21.21.21.2Mechanical latchingMechanical latch blocks LA6DK must not be fitted on LC1F contactors. For similar type of operation, use magnetic latching contactors CR1F. See pages B10/16 to B10/21.(1) Equipped with 2 coils.(2) The closing time “C” is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time “O” is measured from the moment the coil supply is switched off to the moment the main poles separate.CharacteristicsTeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Dimensions:pages B10/32 and B10/33Schemes:pages B10/36 and B10/37Ref.";i:783;s:2601:"B10/30High power contactorsCharacteristicsd.c. control circuit characteristics with LX4 coilContactor typeLC1 F780LC1 F1000LC1 SF1200 (1)LC1 F1250LC1 F1400LC1 F1700LC1 F2100LC1F 2600Rated control circuit voltage (Uc)cControl voltage limits (q y 55 °C)OperationDrop-outAverage consumption at 20 °C and at UccInrushSealedAverage operating time at Uc (2)Closing "C"Opening "O"Mechanical durability at UcIn millions of operating cyclesMaximum operating rate at ambient temperature y 55 °CIn operating cycles per hourCablingFlexible cable without cable end1 conductor2 conductorsFlexible cable with cable end1 conductor2 conductorsSolid cable without cable end1 conductor2 conductorsTightening torqueMechanical latchingV110...440110...44048...44048...250110...440110...440110...440110...4400.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.2...0.4 Uc0.2...0.35 Uc0.2...0.35 Uc0.2...0.35 Uc0.2...0.35 Uc0.2...0.35 Uc0.2...0.35 Uc0.2...0.35 UcW1960...24202000...2200990...12201420...19202000...22002000...22002000...22002130...2880W42...528...104.54...86.5...12.58...108...108...1013...25ms70...8050...6050...6060...7050...6050...6050...6060...70ms100...13045...6045...6040...5045...6045...6045...6040...50Note: the arcing time depends on the circuit switched by the poles. For all normal 3-phase applications. the arcing time is less than 10 ms. The load is isolated from the supply after a time equal to the sum of the opening time and the arcing time.50.5110.50.50.50.560060012001200600600600600Min/max c.s.a.mm21/41/41/41/41/41/41/41/4mm21/41/41/41/41/41/41/41/4mm21/41/41/41/41/41/41/41/4mm21/2.51/2.51/2.51/2.51/2.51/2.51/2.51/2.5mm21/41/41/41/41/41/41/41/4mm21/41/41/41/41/41/41/41/4N.m1.21.21.21.21.21.21.21.2Mechanical latch blocks LA6DK must not be fitted on LC1F contactors.For similar type of operation, use magnetic latching contactors CR1F.See pages B10/16 to B10/21.(1) LC1SF1200KUE, LC1SF1200MD are available.(2) The operating times depend on the type of contactor electromagnet and its control mode. The closing time “C” is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time “O” is measured from the moment the coil supply is switched off to the moment the main poles separate.TeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Dimensions:pages B10/32 and B10/33Schemes:pages B10/36 and B10/37Ref.";i:784;s:1937:"B10/31High power contactorsCharacteristicsTeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Dimensions:pages B10/32 and B10/33Schemes:pages B10/36 and B10/37a.c. or d.c. control circuit characteristics with LXE coil (1)Contactor typeLC1SF1200 (3)LC1F1250 (4)LC1F2600 (5)ECM (2) referenceLA4EM250FKLA4EM250FLLA4EM250FL2Coil referenceLXEFK250LXEFL250LXEFL2502Rated control circuit voltage (Uc)50/60 HzV100...250cV100...380100...250Control voltage limits (< 55 °C) 50/60 HzOperationV85...275Drop-outV< 60< 65cOperationV85...41885...275Drop-outV< 45< 51Average consumption at 20 °C and at UcInrush50/60 HzVA rms360...550460...7301100...2300Cos φ0.5...0.6cW410...500500...6801300...2400Sealed50/60 HzVA5.0...8.07...1021.1...24.5Cos φ0.5...0.6c2.7...5.04.0...5.514...18Embedded PLC (6) input according IEC 61131-2 type 2Off stateV DC0...5On state11...30Heat dissipation W2.2...5.516...20Operating timeClosing “C”ms40...8054...88Opening “O”ms6...5420...28Mechanical durability at UcIn millions of operating cycles10.5Maximum operating rate at ambient temperature y 55 °CIn operating cycles per hour1200600Connection (7)Flexible cable without cable end1 conductor0.2/2.5Flexible cable with cable end1 conductor0.25/2.5 Solid cable without cable end1 conductor0.2/2.5Tightening torqueN.m0.6(1) LXE coil shall be always used along with Electronic Control Module (ECM) LA4EM250●●.(2) Electronic Control Module enables wider coil operating voltage for the F range of contactors. ECM LA4EM250●● shall be always used along with suitable type of LXE●●250 coils.(3) LC1SF1200KUE is supplied with LA4EM250FK & LXEFK250.(4) LC1F1250KUE is supplied with LA4EM250FL & LXEFL250.(5) LC1F2600KUE is supplied with LA4EM250FL2 & LXEFL2502.(6) PLC control connectors shall be provided by customer (Type MC 1.5/2-ST-3.81).(7) Connection input is made to Electronic control module (ECM).Ref.";i:785;s:923:"B10/32High power contactorsLC1F780191183 (1)191160160183 (1)6012xM12x4526==34840022263P=702, 4P=862X1X1=280=434165255 DF568681.epsX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.Voltage200...500 V690...1000 V(1) Minimum distance required for coil removal.X1 (mm)3035Fixing centres of LC1F7804Fixing centres of LC1F78010224090190240185127127DB402357.eps13224090240185127127DB402358.epsLC1SF120062233717129264312150 (1)5018xM12x50143232338X1X128DB425905R.epsG1G39.523.5120====180DB425906.eps(1) Minimum distance required for coil removal.X1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.Voltage200...500 Vy 690 VX1 (mm)2030G (2) GminGmaxG1 (2) GminGmax8066120170156210(2) Factory setting.DimensionsTeSys ControlF High power contactorsReferences:pages B10/2 and B10/3Characteristics:pages B10/26 to B10/30Schemes:page B10/37Ref.";i:786;s:1141:"B10/33High power contactorsTeSys ControlF High power contactorsDimensionsLC1F125089309808060264312181 (1)502818xM12x50153.5338255280X1X1DB402351R.epsDB402352.eps(1) Minimum distance required for coil removal.X1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.Voltage200...500 V690...1000 VX1 (mm)2030LC1F1000, LC1F1400, LC1F1700 and LC1F210024xØ14===210=332137,314238,63434129,7129,7438LC1 F1400/1700 : 84,9LC1 F1000/2100 : 91298200 (1)200 (1)X1X1DB439344.eps190240505049,51854xØ10x15DB419751.eps(1) Minimum distance required for coil removal.X1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.Voltage200...500 V690...1000 VX1 (mm)90100LC1F2600141,58250,8=206,5=382X1X124xØ13.5==5430144144519100324200 (1)200 (1)DB402359+.eps(1) Minimum distance required for coil removal.19024050501854xØ10x1575 ± 1DB439312.epsX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.Voltage200...500 V690...1000 VX1 (mm)90100References:pages B10/2 and B10/3Characteristics:pages B10/26 to B10/30Schemes:page B10/37Ref.";i:787;s:427:"B10/34High power contactorsTeSys ControlF High power contactors - AccessoriesRight-angled connectors LA9F2100 (set of 6) for rear connectionRight-angled connectors LA9F2600 (set of 6) for rear connection==161253413604734Ø11.525253825Ø11.520DB402136.eps==DB419866.epsElectronic Control Module for LXEpp250 coils / LXEpp2502 coilsLA4EM250pp / LA4EM250pp273.343.9100.6DB425904.epsDimensionsReferences:pages B10/8 and B10/9Ref.";i:788;s:712:"B10/35High power contactorsTeSys ControlF High power contactorsMountingLC1F780On 2 notched rails AM1ECpppc25(2)120AM1 EC200AF1 CD081 + AF1 VC820AM1 EC200AF1 CD061+AF1 VA618AF1 CD061AF1 VA618M6LA9 F100AF1 CD101+AF1 VC10AF1 CD081+AF1 VC820M6AM1 EC20011035180G==GAF1 VA618M6G1G2G3(3)DB439477.epsLC1F780c (1)3P2554P255G (M6)3P–4P–G1 (∅ 8.5)3P–4P–G2 (∅ 10.5)3PSee page B10/324PSee page B10/32(1) See X1 (minimum electrical clearance) page B10/32.(2) AF1CDppp and AF1VAppp.(3) This AM1EC200 upright is required when G2 or G3 is greater than 700 mm (please consult your Regional Sales Office).References:pages B10/2 and B10/3Characteristics:pages B10/26 to B10/30Schemes:page B10/37Ref.";i:789;s:1206:"B10/36High power contactorsTeSys ControlF High power contactorsSchemesContactors3 and 4-pole contactorsLC1F1250 (coil LX1F a)LC1F1250 (coil LX4F c)LC1F780 a or cLC1F1000 LC1F1400 a or c , LC1F1700 a or cLC1F2100 a or c , LC1F2600 a or cA203041/L1T1/23/L2T2/45/L3T3/67/L4T4/8A1DF568694.epsA2A11/L1T1/23/L2T2/45/L3T3/67/L4T4/8DF568695.eps1/L1T1/23/L2T2/45/L3T3/67/L4T4/8A2A1DF568696.eps1/L1T1/23/L2T2/45/L3T3/6A2A1DF511516.epsCoilsStandard a coilsLX1FKppp/ LX1FLpppLX1FXRectifier supplied and fixed on the contactorA2A1A2A103DF568719.epsA2A1A2A1+–DF568721.epsStandard c coilsLX4FK, FL, FX (1)A2A1A2A1DF568722.eps(1) 2 coils in series.Specific wiring diagrams for CR1F contactorsInternal latching/unlatching diagramControl diagramsØ A1Ø E1Ø A2Ø A1Ø E1Ø A2UnlatchingwindingLatchingwindingDB436337.epsStartPushbutton controlSwitch controlStopSart/StopDB436336.epsWarning: terminal A2 is common to both windings in all cases.Contactors CR1F with thermal overload relayL11352F1KM1461335246UVMWL2 L3DB403766.eps13141314S19714S2A1E1A2KM 1KM1:1KM1:5KM 19596F19813DB436335.epsReferences:pages B10/2 and B10/3Characteristics:pages B10/26 to B10/30Dimensions:pages B10/32 and B10/33Ref.";i:790;s:1785:"B10/37High power contactorsAdd-on blocksInstantaneous auxiliary contacts1 N/O LADN10 (1)1 N/C LADN01 (1)1 N/O + 1 N/C LADN112 N/O LADN202 N/C LADN022 N/O + 2 N/C LADN2243/NO44(94)(93)DF568697.eps(92)(91)4241/NCDB425081.eps6261/NC53/NO54DB425082.eps 53/NO5463/NO64DB425083.eps 6261/NC51/NC52DB425084.eps 7271/NC6251/NC53/NO5483/NO84DB425085.eps 1 N/O + 3 N/C LADN134 N/O LADN404 N/C LADN042 N/O + 2 N/C (2) LADC223 N/O + 1 N/C LADN317271/NC6261/NC53/NO548281/NCDB425312.eps 53/NO5463/NO6473/NO7483/NO84DB425086.eps 7271/NC6261/NC8281/NC5251/NCDB425087.eps 7675/NC6261/NC53/NO5487/NO88DB425088.eps 6261/NC53/NO548483/NO73/NO74DB425089.eps (1) Items in brackets: See “D contactors”.(2) 1 N/O + 1 N/C make before break.Instantaneous auxiliary contacts with terminal referencing conforming to standard EN 50012 (References: pages B10/6 and B10/7) 1 N/O + 1 N/C1 N/O + 1 N/C2 N/O + 2 N/C2 N/O + 2 N/C LADN11PLADN11GLADN22PLADN22G2221/NC13/NO14DB425775.eps 3231/NC43/NO44DB425090.eps 2221/NC3231/NC13/NO1443/NO44DB425091.eps 3231/NC4241/NC63/NO6453/NO54DB425092.eps Dust and damp protected instantaneous auxiliary contacts2 N/O (24-50 V)2 N/O (5-24 V) with 2 earth terminals for screened cables2 N/O protected (24-50 V) + 2 N/O standard2 N/O protected (24-50 V) + 1 N/O + 1 N/C standardLA1DX20LA1DY20LA1DZ40LA1DZ3153/NO5463/NO64DF568712.eps53/NO5463/NO64DF568713.eps53/NO5483/NO8463/NO6473/NO74DF568714.eps6261/NC53/NO5483/NO8473/NO74DF568715.epsTime delay auxiliary contactsOn-delay 1 N/O +1 N/C LADTpOff-delay 1 N/O + 1 N/C LAD RpOn-delay 1 N/C + 1 N/O break before make LAD Sp55/N5667/NO68DF568716.eps6665/NC57/NO58DF568717.eps55/NC67/NO68DF568718.epsReferences:pages B10/2 and B10/3Characteristics:pages B10/26 to B10/30TeSys ControlF High power contactorsSchemesRef.";i:791;s:1291:"B10/38High power contactorsCharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Shockproof contactor specificityIn an environment subject to severe mechanical shocks, unwanted closing of a contactor's poles and the serious consequences of this, is not permissible.Shockproof contactors LC1FG150 to FG630 are equipped with an auxiliary electromechanical device which ensures that the contactor is mechanically locked in the “open” position when it’s main electromagnet is not energised.If the contactor is subjected to mechanical impact, from back to front or from front to back, accidental closing of the poles is then impossible.In addition, accidental opening of the poles (when the contactor is in the “on” position), is virtually impossible due to the significant pull-in force characteristic of these contactors. Applications bMarine: on-board equipment, windlasses, capstans, winches, etc... bMilitary equipment: land, sea, launching silos. bHeavy mechanical handling systems: travelling cranes, cranes, gantries. bConveying and handling: lifts, hoists, conveyors. bEquipment for power stations. bDistribution boards.References:page B10/4Dimensions, schemes:pages B10/54 and B10/55LC1FG150PB123835.epsLC1FG265PB123836.epsRef.";i:792;s:1124:"B10/39High power contactorsDescription of shockproof deviceShockproof contactors LC1FGppp are equipped with: ba lever 1 that is rotated by the core of the contactor’s electromagnet. ban auxiliary electromagnet (EV) for the locking function. ban RC circuit (Resistor-Capacitor) to limit overvoltage.0,3...0,6KM121EVDirection of impactON KM1OFF KM1BACKFRONTDF537257.epsOperation bIn the ‘off’ position (contactor open and not energised) the core 2 of the electromagnet (EV) locks the lever 1 and therefore the contactor. bThe coils (KM1) and (EV) are energised simultaneously, the core 2 releases the lever 1 and allows the contactor to close. bDe-energisation of the locking electromagnet (EV) is achieved by an auxiliary contact within the contactor. The core 2 rests freely in lever 1. bOn de-energisation of coil KM1, the moving contact drops out. Core 2, under spring pressure, once again locks lever 1. – KM1A1A22221C2C1– KM1aaEVDF537258.eps References:page B10/4Dimensions, schemes:pages B10/54 and B10/55CharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Ref.";i:793;s:1629:"B10/40High power contactorsUse in category AC-3 (Ue y 440 V)Operational current and power (q y 55 °C)ContactorsLC1FG150LC1FG185LC1FG265LC1FG400LC1FG500LC1FG630Operational currentA150185265400500630Operational powerStandard power ratings of motors)220/230 VkW405575110147200hp5475100150200270380/400 VkW7590132200250335hp100185180270340450415 VkW80100140220280375hp110136180300380500440 VkW80100140250295400hp110136190340400545500 VkW90110160257355400hp125150220350480545660/690 VkW100110160280335450hp1361502203804506001000 VkW65100147185335450hp85136200250450610Maximum operating rate (operating cycles/hour) (1)On-load factorOperational powerLC1FG150LC1FG185LC1FG265LC1FG400LC1FG500LC1FG630y 85 %P750750750500500500y 85 %0.5 P200020002000120012001200y 25 %P120012001200120012001200(1) Depending on the operational power and the on-load factor (q y 55 °C).Electrical durability in utilisation category AC-3 (Ue y 440 V)204070305060801002003004005006008000,40,60,81246810LC1 FG150LC1 FG265LC1 FG185LC1 FG4001000LC1 FG500LC1 FG630Millions of operating cyclesCurrent broken in AmperesDF537320.epsControl of 3-phase asynchronous squirrel cage motors with breaking whilst running.The current broken (Ie) in category AC-3 is equal to the rated operational current of the motor.Example:Asynchronous motor with P = 55 kW - Ue = 380 V - Ie = 105 A4 million operating cycles required.The above selection curves show the contactor rating needed: LC1FG265.Characteristics - Durability (AC)TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:794;s:1613:"B10/41High power contactorsUse in category AC-1 (Ue y 440 V)ContactorsLC1FG150LC1FG185LC1FG265LC1FG400LC1FG500LC1FG630ConnectionCableC.s.a.mm2120150240–––BarNumber–––222C.s.a.mm–––30 x 540 x 560 x 5Maximum operating rate in operating cycles/hour600600600600600600Operational current AC-1y 40 °CA2502703505007001000y 55 °CA220240300430580850y 70 °C (1)A170180250340500700(1) Only for operation with coil supplied at Uc.Increase in operational current by parallel connection of polesDF537322.epsDF537323.epsApply the following multiplying factors to the current values given above. The factors take into account the often unbalanced current distribution between the 2 poles: b2 poles in parallel: K = 1.6 b3 poles in parallel: K = 2.25 b4 poles in parallel: K = 2.8.Recommended connection scheme to equalise the currents in each pole (see opposite).Electrical durability in utilisation category AC-1 (Ue y 440 V)Millions of operating cyclesCurrent broken in Amperes204070305060801002003004002703505006008000,40,20,10,60,81246810LC1 FG150LC1 FG265LC1 FG185LC1 FG40010002000LC1 FG500LC1 FG630DF537321.epsExample:Control of resistive circuits (cos φ u 0.95).The current broken (Ic) in category AC-1 is equal to the current (Ie) normally drawn by the load.Ue = 220 V - Ic = Ie = 300 A - q = 40 °C.1 million operating cycles required.The above selection curves show the contactor rating needed: LC1FG400.References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Characteristics - Durability (AC)TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Ref.";i:795;s:2066:"B10/42High power contactorsCharacteristics - Durability (AC)TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Thermal limits in utilisation categories AC-2/AC-4ContactorsLC1 FG150LC1 FG185LC1 FG265LC1 FG400LC1 FG500LC1 FG630Thermal limit zoneOperating cycles/hour (1) and on-load factorMaximum current broken according to the duty requirements (thermal limit, ambient temperature y 55 °C)AFrom 150 and 15 % to 300 and 10 %31038056078011001400BFrom 150 and 20 % to 600 and 10 %2803505007009501250CFrom 150 and 30 % to 1200 and 10 %240300400600750950DFrom 150 and 55 % to 2400 and 10 %190240320450600720EFrom 150 and 85 % to 3600 and 10 %145170230350500660(1) Do not exceed the maximum limit for the mechanical operating cycles.Counter current braking (plugging)The current varies from the maximum plug-braking current to the rated motor current.The current made must be compatible with the making and breaking capacities of the contactor.In most cases, breaking occurs at a current value close to the locked rotor current and contactor selection can therefore be made using the criteria for utilisation categories AC-2 and AC-4.Electrical durability in utilisation categories AC-2/AC-4 (Ue y 440 V)Millions of operating cyclesCurrent broken in Amperes200400300500600800100020003000500070000,040,020,010,060,080,10,20,40,60,81LC1 FG150LC1 FG265LC1 FG185LC1 FG4009000100LC1 FG500LC1 FG630DF537324.epsExample: Contactor selectionOperating cycles/hourOn-load factor as %DF537325.epsFor an on-load factor of 10 % at 400 operating cycles per hour, the curve on the left indicates zone B. If the current broken is 600 A, the above table leads to selection of an LC1FG400 contactor. Referring to the electrical durability curves, it can be seen that the contactor will be able to perform 350 000 operating cycles. Where a higher value of electrical durability is required, 1 million operating cycles for example, an LC1FG630 contactor would be recommended.References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:796;s:3036:"B10/43High power contactorsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Switching 3-phase capacitorsCapacitors, together with the circuits to which they are connected, form oscillatory circuits which can, at the moment of switch-on, give rise to high transient currents (> 180 In) at high frequencies (1 to 15 kHz).The contactors are used for direct switching. The values of peak current at switch-on must not exceed the values indicated below.An inductor or an early break resistor may be inserted in each of the three phases supplying the capacitors to reduce the peak current, if necessary. This must be done when switching multiple step capacitor banks.Inductance values are determined according to the selected operating temperature: please refer to our “Motor starter solutions - Control and protection components” catalogue. In addition, in accordance with standards IEC 60070, NF C 54 100, VDE 0560, the switching contactor must be able to withstand a continuous current of 1.43 times the rated current of the capacitor bank step being switched. The rated operational powers given in table the below take this overload into account. Short-circuit protection is normally provided by g1 fuses rated at 1.3 to 1.6 In.Maximum operational power of contactorsMaximum operating rate: 120 operating cycles/hour.Electrical durability at maximum load: 100 000 operations.With choke inductors connected, where necessary.Operational power at 50/60 HzMaximum peak currentContactor to be usedq y 40 °Cq y 55 °C220 V240 V400 V440 V600 V660 V220 V240 V400 V440 V600 V660 VkvarkvarkvarkvarkvarkvarA601001354085903200LC1FG15070125160501001003500LC1FG18590160225751251255000LC1FG2651252203001001602008000LC1FG40018030040012522030010 000LC1FG50025040060019035050012 000LC1FG630Switching the primaries of 3-phase transformers (LV/LV)When a transformer is switched on, there is generally an initial current surge which can reach 20 to 40 times the rated current for the power ratings shown below.This current reaches its peak value almost instantaneously and then decreases in a largely exponential manner, quickly dropping back down to its steady state value.Contactor selectionOperating rate less than 120 operating cycles/hour.Maximum operational voltages: 690/1000 V 50/60 Hz (2).The value of the peak magnetising current must be lower than the values indicated below.Maximum ambient temperature: 55 °C.ContactorLC1FG150LC1FG185LC1FG265LC1FG400LC1FG500LC1FG630Maximum permissible current peak at switch-onA170028003500550068009000Maximum operational power (1) 220 VkVA25405075100140380 VkVA507590130170225415/440 VkVA5580100140190250500 VkVA6595110170225280660 VkVA801201402002703151000 VkVA100150200250375470(1) Maximum operational power corresponding to a current peak at switch-on of 30 In.(2) Refer to page B10/48 and B10/49 for details on operational voltage.Characteristics - Capacitive, inductive load switchingReferences:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:797;s:1408:"B10/44High power contactorsCharacteristics (DC)TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Use in category DC-1 (resistive loads; time constant L/R y 1 ms)Rated operational current IeOperational voltage (Ue)Number of poles to be wired in seriesContactorsLC1 FG150LC1 FG185LC1 FG265LC1 FG400LC1 FG500LC1 FG630VAAAAAA24116022030040060085021602203004006008503160220300400600850416022030040060085048/7511602203004006008502160220300400600850316022030040060085041602203004006008501251––––––2130170300400550850313017030040060085041301703004006008502251––––––210015025035045070031301703004006008504130170300400600850300310015025035045070041301703004006008504604100150250350450700Use in category DC-2 to DC-5 (inductive loads; time constant L/R y 15 ms)Rated operational current IeOperational voltage (Ue)Number of poles to be wired in seriesContactorsLC1 FG150LC1 FG185LC1 FG265LC1 FG400LC1 FG500LC1 FG630VAAAAAA24114018028035055085021401802803505508503140180280350550850414018028035055085048/7511401802803505508502140180280350550850314018028035055085041401802803505508501251––––––2100140250350550850312016028035055085041201602803505508502251––––––280100200280450700310014025035055085041201602803505508503003801002002804507004120160280350550850460480100200280450700References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:798;s:1706:"B10/45High power contactorsElectrical durabilityUtilisation categories DC-1 to DC-5Millions of operating cyclesCurrent broken in Amperes138202461030405060801001402000,080,020,010,60,81246810LC1 FG150LC1 FG265LC1 FG185LC1 FG400300400600LC1 FG500LC1 FG6300,10,040,060,20,4DF537326.epsDetermining the electrical durabilityThe electrical durability can be read directly from the curve above, having previously calculated the power broken Pc. The following table gives, for each utilisation category, the value of Pc according to the operational current Ie and the operational voltage Ue.Utilisation categoriesPc (Power broken)DC-1Non-inductive loadsPc = Ue x IeDC-2Shunt motors, breaking whilst runningPc = 0.1 Ue x IeDC-3Shunt motors, reversingPc = Ue x 2.5 IeDC-4Series wound motors, breaking whilst runningPc = 0.3 Ue x IeDC-5Series wound motors, reversingPc = Ue x 2.5 IeCounter current braking (plugging)Pc = 1.5 Ue x 1.5 IeExample:Series wound motor, breaking whilst motor running, category DC-4.P = 50 kW, Ue = 200 V, Ie = 250 A.Select contactor LC1FG265 with 3 poles in series.The power broken is: Pc = 0.3 Ue x Ie = 0.3 x 200 x 250 = 15 kW.The electrical durability read from the curve is 8 million operating cycles.Maximum operating rateThe following operating rate used at Ie must not be exceeded: 120 operating cycles/hour.Use of poles in parallelThe electrical durability is equal to the number of operating cycles performed by a pole, multiplied by the number of poles in parallel, multiplied by a coefficient of 0.70.Characteristics - Durability (DC)TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:799;s:1640:"B10/46High power contactorsCharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)EnvironmentContactor typeLC1FG150LC1FG185Rated insulation voltage (Ui)Conforming to IEC 60947-4-1V1000Rated impulsewithstand voltage (Uimp)Coil not connected to the power circuitkV8Conforming to standardsIEC/EN 60947-4-1Product certificationsN.A.T.O.Degree of protectionConforming to IEC 60529IP 20 front face with shrouds LA9FAmbient air temperaturearound the deviceStorage°C-60...+80Operation°C-5...+55Permissible at Uc (1)°C-40...+70Maximum operating altitudeWithout deratingm3000Operating positionsWithout deratingDB423061.epsDF537261.epsDF537262.epsDF537263.epsWith derating (3)Fixing A DF537264.epsFixing B DF537265.epsNot to be usedDF537266.epsShock resistance (2)Conforming to IEC/EN 60068-2-2712 g, 50 ms on the three axes: X, Y, Z15 g, 11 ms on the three axes: X, Y, Z(1) In these conditions, it is recommended that coils LX9F be used for contactor sizes FG150 to FG265.(2) In the least favourable direction, without change of contact state (coil at Uc).(3) Horizontal fixing: - the operational current AC-1 is equivalent to 80 % of the value indicated in the catalogue - breaking and making capacities not guaranteed - mechanical and electrical durabilities not guaranteed.Derating of pull-in and drop-out voltageContactors LC1FG150FG185FG265FG400FG500FG630Fixing A Pull-in75 %75 %75 %80 %80 %80 %Drop-out105 %105 %105 %110 %110 %110 %Fixing BPull-in115 %115 %115 %120 %120 %120 %Drop-out90 %90 %90 %95 %95 %95 % References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:800;s:408:"B10/47High power contactorsLC1FG265LC1FG400LC1FG500LC1FG63010008IEC/EN 60947-4-1N.A.T.O.IP 20 front face with shrouds LA9F-60...+80-5...+55-40...+703000DB423061.epsDF537261.epsDF537262.epsDF537263.epsA DF537264.epsB DF537265.epsDF537266.eps12 g, 50 ms on the three axes: X, Y, Z15 g, 11 ms on the three axes: X, Y, ZCharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)";i:801;s:1502:"B10/48High power contactorsCharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Pole characteristicsContactor typeLC1FG150LC1FG185Number of poles33Rated operational current (Ie)(Ue y 440 V)In AC-3, θ y 55 °Cq y 70 °CA150/150185/180In AC-1, θ y 55 °Cq y 70 °CA220/170240/180Rated operational voltage (Ue)Up toV690690Frequency limitsOf the operational current (1)Hz25 to 20025 to 200Conventional thermal currentθ y 40°C250275Rated making capacityI rms conforming to IEC 60947-4-1AMaking current: 10 x I in AC-3Rated breaking capacityI rms conforming to IEC 60947-4-1AMaking and breaking current: 8 x I in cat. AC-3Permissible short time ratingNo current flowing for preceding 60 minutes with θ y 40 °CFor 1.5 or 10 sA12001500For 30 sA700920For 1 mnA600740For 3 mnA450500For 10 mnA350400Fuse protectionagainst short-circuits(U y 440 V)Motor circuit (type aM)A160200With thermal overload relay (type gG)A200315gG fusesA250315Average impedance per poleAt Ith and 50 HzmW0.350.33Power dissipation per pole for the above operational currentsAC-3W812AC-1W2225CablingMinimum c.s.a.BarNo. of bars22Barmm25 x 325 x 3Cable with lugmm2120150Cable with connectormm2120150Bolt diametermmØ8Ø8Tightening torquePower circuit connectionsN.m1818(1) Sine wave without interference. Above these values, please consult your Regional Sales Office.(2) Ue y 690 V in AC-3; Ue y 1000 V in AC-1.References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:802;s:587:"B10/49High power contactorsLC1FG265LC1FG400LC1FG500LC1FG6303333265/250400/340500/500630/630300/250430/340580/500850/7001000 (2)10001000 (2) 100025 to 20025 to 20025 to 20025 to 2003505007001000Making current: 10 x I in AC-3Making and breaking current: 8 x I in AC-32200360042005050123024003200440095017002400340062012001500220048010001200160031540050063050063080080040050080010000.30.260.180.1221424548376588120222232 x 430 x 540 x 560 x 52402 x 1502 x 240–240–––Ø10Ø10Ø10Ø1235353558CharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)";i:803;s:1692:"B10/50High power contactorsCharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)a.c. control circuit characteristics with LX1 coilContactor typeLC1FG150LC1FG185Rated control circuit voltage (Uc)50 or 60 HzV48...440Control voltage limits (θ y 55 °C)40...400 Hz coilsOperation0.85...1.1 UcDrop-out0.20...0.55 UcAverage consumption at 20 °C and at Uc a 50 HzInrush40...400 Hz coilVA690...855950...1180Cos φ0.90.9Sealed40...400 Hz coilVA6.6...8.18.9...10.9Cos φ0.90.9Heat dissipationW5.9...7.28...9.8Operating time (1)Closing "C"ms3535Opening "O"ms130130Mechanical durability at UcIn millions of operating cycles1010Maximum operating rateat ambient temperature y 55 °CIn operating cycles per hour24002400CablingMin/max c.s.a.Flexible cable without cable end1 or 2 conductorsmm21/41/4Flexible cable with cable end1 conductor mm21/41/42 conductorsmm21/2.51/2.5Solid cable without cable end1 or 2 conductorsmm21/41/4Tightening torqueN.m1.21.2Characteristics of the locking electromagnet (shockproof device)Contactor typeLC1FG150LC1FG185Control circuit voltage 40...400 HzV48...44048...440Inrush consumptionVA100100Maximum energisation time at Ucms2020Maximum operating rateIn operating cycles per hour24002400Mechanical durability at UcIn millions of operating cycles1 x 1061 x 106(1) The closing time "C" is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.References:page B10/4Dimensions, schemes:pages B10/54 and B10/55Ref.";i:804;s:630:"B10/51High power contactorsLC1FG265LC1FG400LC1FG500LC1FG63048...440110...440110...440110...4400.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.35...0.55 Uc0.3...0.5 Uc0.3...0.5 Uc0.25...0.5 Uc6501075110016500.90.90.90.9101518220.90.90.90.9814182040...6540...7540...7540...80100...170100...170100...170100...2001010101024002400240012001/41/41/41/41/41/41/41/41/2.51/2.51/2.51/2.51/41/41/41/41.21.21.21.2LC1FG265LC1FG400LC1FG500LC1FG63048...440110...440110...440110...4401001001001002020202024002400240012001 x 1061 x 1061 x 1061 x 106CharacteristicsTeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)";i:805;s:667:"B10/52High power contactorsEnvironmentContact block typeLADNLADT and LADSLADRConforming to standardsIEC 60947-5-1, EN 60947-5-1Product certificationsUL, CSADegree of protectionConforming to IEC 60529Protection against direct finger contact IP2XAmbient air temperature around the deviceStorage°C-60...+80Operation°C-5...+60Permissible for operation at Uc°C-40...+70Maximum operating altitudeWithout deratingm3000CablingPhillips n° 2 and Ø6 mm. Flexible or solid cable with or without cable endmm2Min: 1 x 1; max: 2 x 2.5 CharacteristicsTeSys ControlContact blocks for FG contactors (to be discontinued)References:page B10/15Dimensions and schemes:page B10/55Ref.";i:806;s:1584:"B10/53High power contactorsInstantaneous and time delay contact characteristicsContact block typeLADNLADT and LADSLADRNumber of contacts1 or 422Rated operational voltage (Ue)Up toV660Rated insulation voltage (Ui)Conforming to IEC 60947-5-1V690Conforming to UL, CSAV600Conventional thermal current (Ith)For ambient temperature y 60 °CA10Frequency of the operational currentHz25...400Minimum switching capacityU minV17I minmA5Short-circuit protectionConforming to IEC 60947-5-1 and VDE 0660. gG fuseA10Rated making capacityConforming to IEC 60947-5-1, I rmsAa 140; c 250Short-time ratingPermissible for1 sA100500 msA120100 msA140Insulation resistanceMW> 10Non-overlap timeGuaranteed between N/C and N/O contactsms1.5 (on energisation and on de-energisation)Time delay(LADT, R and S contact blocks)Accuracy only valid for setting range indicated on the front faceAmbient air temperature for operation°C–-40...+70-40...+70Repeat accuracy–±2 %±2 %Drift up to 0.5 million operating cycles–+15 %+15 %Drift depending on ambient air temperature–0.25 % per °C0.25 % per °CMechanical durabilityIn millions of operating cycles3055Rated operational power of contacts Conforming to IEC 60947-5-1V2448110/127220/230380/4004406001 million operating cyclesVA1503004004805005005003 million operating cyclesVA8017025029032032032010 million operating cyclesVA306590120130130130Occasional making capacityVA12002600700013 00015 00013 0009000 References:page B10/15Dimensions and schemes:page B10/55CharacteristicsTeSys ControlContact blocks for FG contactors (to be discontinued) Ref.";i:807;s:1266:"B10/54High power contactorsDimensionsDimensionsLC1FG150, FG185 and FG265JJ1b1==G1GZ==YLc =b=b2X1X1S1QaPPQ1fMSFG150 M8x25F1G85 M8x25FG265 M10x35(1)DF537282.epsX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.LC1200...500 V600...1000 VFG1501015FG1851015FG2651015(1) Power terminal protection shroud (see page B10/10).LC1abb1b2cfGG1JJ1LMPQQ1SS1YZFG15018117013730118013110680106120116150402657.520344413.5FG185183.517413730519013011180106120122.5154402959.520344413.5FG265217.520314537522214714296106120150178483966.52544.53821.5f = minimum distance required for coil removal.LC1FG400 and FG500GG123,5J120==180==Lc=b=b220956X1X1Q1aPQPfM44,5S6xM10x35(1)DF537283.epsX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.LC1200...500 V600...1000 VFG4001520FG5001520(1) Power terminal protection shroud (see page B10/10).LC1abb2cfG suppliedG min.G max.G1 suppliedG1 min.G1 max.JLMPQQ1SFG400237206375234146806610222315619219.516018148757425FG500257238400247150806612022315621039.518120855787730f = minimum distance required for coil removal. References:page B10/4Characteristics:pages B10/38 to B10/53TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Ref.";i:808;s:1240:"B10/55High power contactorsDimensions and schemesDimensionsLC1FG63089321808079264180 (2)64406xM12x45155=304=197255280X146472X1(1)DF537284.eps180==68,528260,5DF537285.epsX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.LC1200...500 V690...1000 VFG6302030(1) Power terminal protection shroud (see page B10/10).(2) Minimum distance required for coil removal.SchemesContactors LC1-FG150 to FG630A203041/L1T1/23/L2T2/45/L3T3/6A12221/NC3231/NC13/NO1443/NO44C1C2aaUn y 240 Vd 50-60 Hz maxDF537286.epsAdd-on blocksInstantaneous auxiliary contacts1 N/O LADN101 N/C LADN012 N/O + 2 N/C LADN224 N/O LADN404 N/C LADN043 N/O + 1 N/C LADN3143/NO44(94)(93)DF537287.eps(92)(91)4241/NCDF537288.eps7271/NC6251/NC53/NO5483/NO84DF537289.eps53/NO5463/NO6473/NO7483/NO84DF537290.eps7271/NC6261/NC8281/NC5251/NCDF537291.eps6261/NC53/NO548483/NO73/NO74DF537292.epsTime delay auxiliary contactsOn-delay 1 N/O + 1 N/C LADTpOff-delay 1 N/O + 1 N/C LADRp55/N5667/NO68DF537293.eps6665/NC57/NO58DF537294.epsCoils aLX1FH, FJ, FK and FLA2A1A2A103DF537295.epsReferences:pages B10/4, B10/16 and B10/17Characteristics:pages B10/38 to B10/53TeSys ControlFG Shockproof high power 3-pole contactors (to be discontinued)Ref.";i:809;s:2274:"B10/56High power contactorsCharacteristicsMagnetic latching contactorsMagnetic latching contactors of both block and bar mounted types are fitted with a special electromagnet which enables them to remain in the “On” position when the coil is no longer energised. ApplicationsThe special properties of magnetic latching contactors make them suitable for a large number of applications. Propertiesb Retention of the sequence memory in automatic control equipment in the event of loss of control voltage.b Energy saving, since the source of supply to the coil does not need to supply current when the contactor is latched in the closed state.b Change of state from “Closed” to “Open” by current signal through the coil.b Unaffected by mains interference.b Utilisation of contactors beyond their breaking capacity, as operations are performed off-load.b Contactors are silent in the latched position.Applicationsb Refineries, power stations, excitation circuits.b Contactors remaining in the closed state for long periods. Examples: refineries, power supplies, low voltage distribution.b Selective opening control.b No unwanted opening and closing of the main power poles.b Current carrying at voltages up to 1000 Volts.Operation of the electromagnetCR1F block contactorsCR1F magnetic latching contactors are fitted with a double coil with 3 terminals comprising a latching winding and an unlatching winding. The 2 windings have a common point which can necessitate special wiring precautions when the latching supply is separate from the unlatching supply.The power supplies may be a.c. or d.c. For d.c. operation, the polarities indicated must be complied with.Operating precautions:b the 2 windings must not be supplied simultaneouslyb a winding must not be supplied continuouslyb supply to the coils must be via pulsed contacts.Manual opening:if the control voltage is not present, the contactor can be unlatched manually.Latching is obtained by direct supply of the coil in one direction of current flow.Unlatching is obtained by a reverse current, adjusted by resistors. TeSys ControlCR1F Magnetic latching high power contactors (to be discontinued)References: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69CR1F500PB108370.epsRef.";i:810;s:3328:"B10/57High power contactorsCharacteristics - Squirrel cage motorCR1F selection - Squirrel cage motor Direct On Line starterContinuous or intermittent duty up to 30 operating cycles/hourMotor (1)3-pole contactor3-pole differentialthermal overload relay3 fusesType220 V230 V380 V400 V415 V440 V(2)ReferenceSetting rangeaMBS-88PInPInPInPInReferenceRatingkWHPAkWHPAkWHPAkWHPAAAA253585–––––––––CR1F150LR9F536760...10010012530 3340 45103 11351 5570 7598 10555 –75 –100 –59 80 97 CR1F150LR9F536990...150100160– –– –– –59 6380 85112 11759 6380 85105 11563 –85 –109 –CR1F150LR9F536990...15012516037 4050 54126 13475 –100 –138 –75 –100 –135 –75 80100 110125 131CR1F150LR9F536990...1501602004560150801101478011013890125146CR1F185LR9F536990...15016020051 5570 75170 18290 –125 –170 –90 100125 136165 182100 –136 –162 –CR1F185LR9F5371132...22020025059 6380 85195 203100 110138 150188 205110 –150 –200 –110 129150 175178 209CR1F265LR9F5371132...22025031575 –100 –240 –129 132175 180242 245129 132175 180230 240132 –180 –215 –CR1F265LR9F7375200...330250315––––––140190250140190227CR1F265LR9F7375200...33031540080 – –110 – –260 – –140 147 150190 200 205260 273 280147 150 160200 205 220260 270 280147 150 160200 205 220236 246 256CR1F400LR9F7375200...33031540090 –125 –295 –160 –220 –300 ––––180 185245 250289 295CR1F400LR9F7375200...330315400100 110136 150325 356180 185245 250333 342180 185245 250320 325200 220270 300321 353CR1F400LR9F7379300...500400500–––200270370200 220270 300340 385250 –340 –401 –CR1F400LR9F7379300...500400500129175420220300408–––257350412CR1F500LR9F7379300...500500630132 140180 190425 450250 –340 –460 –250 257340 350425 450280 –380 –450 –CR1F500LR9F7381380...630500630147200472––––––295400473CR1F500LR9F7381380...630500630–––257 –350 –475 –280 295380 400475 500300 –410 –481 –CR1F630LR9F7381380...630500630150 160205 220483 520280 295380 400510 546300 315410 430510 535315 335430 450505 518CR1F630LR9F7381380...630630800180 185245 250578 595300 315410 430565 584335 355450 480550 580355 375480 500549 575CR1F630LR9F7381380...630630800200270626335450620375500610400454611CR1F630LR9F7381380...6308001000220g700355 375 400 –g g g635 670 710 –400 425 445 450g g g g650 690 730 740425 445 450 475g g g g650 680 690 730CR1BL33500...8008001000250g800425g760475g780500g780CR1BM33500...8008001000257 280 295 300 315g g g g g826 900 948 980 990445 450 475 500 530g g g g g790 800 850 900 950500 530 560 600g g g g820 870 920 978530 560 600 630g g g g825 870 920 965CR1BM33630...100010001250(1) The ratings are for standard 220/230 V, 380/400 V, 415 or 440 V motors. The overload relays should preferably be set to the motor full-load current shown on the motor rating plate. For other power ratings, select the overload relay with the appropriate range; the associated contactor and fuses must have ratings equal to or immediately greater than In.(2) Reference to be completed, see page B10/47.g There are no standard power ratings for these motors.TeSys ControlCR1F Magnetic latching high power contactorsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:811;s:1217:"B10/58High power contactorsCharacteristics - ACRated operational current in AC-3 (q y 55 °C)Contactor sizeCR1F 150CR1 F185CR1F 265CR1F 400CR1 F500CR1F 630CR1 BLCR1 BMCR1 BPCR1 BR440 V A150185265400500630750100015001800500 V A13517524538550054075090012001500660/690 V A13014023036543547070080090011001000 V A477395135270330400400500600Rated operational power (standard motor power ratings)220...240 VkW 405575110147200220280425500HP 5475100150200270300380580680380...400 VkW 7590132200250335400500750900HP 10018518027034045054568010001220415 VkW 80100140220280375425530800900HP 11013618030038050058072011001220440 VkW 80100140250295400450560800900HP 11013619034040054561076011001220500 VkW 90110160257355400500600750900HP 12515022035048054568081010001220660/690 VkW 100110160280335450560670750900HP –––––610760910100012201000 VkW 65100147185335450530530670750HP –136200250–6107207209101000Maximum operating rate in operating cycles/hour, at rated operational power with an on-load factor = 85 %: 750 for CR1F150 to F265, 500 for CR1F400 to F630 and 120 for CR1 B.TeSys ControlCR1F Magnetic latching high power contactorsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:812;s:1010:"B10/59High power contactorsCharacteristics - Durability (AC)Use in category AC-3 (Ue y 440 V) (1) (q y 55 °C)The current (Ic) in AC-3 is equal to the rated operational current (Ie) drawn by the motor. AC-3AC-2AC–42030405060708090100150200300400500600800100015002000300040006000800010 0000,0080,0010,0020,0040,0060,0080,010,020,040,060,080,10,20,40,60,81CR1 F150CR1 F185CR1 F265CR1 F400CR1 F500CR1 F630CR1 BL, BMCR1 BPCR1 BR Millions of operating cyclesCurrent broken in ADF565949.epsTeSys ControlCR1F Magnetic latching high power contactors Example:Asynchronous motor with P = 50 kW, Ue = 380 V, Ie = 100 A, Ic = Ie = 100 A, or asynchronous motor with P = 55 kW, Ue = 415 V, Ie = 100 A, Ic = Ie = 100 A. 600000 operating cycles required.The above selection curves show the contactor rating needed, CR1F185.(1) For 660 V, multiply the number of operating cycles by 0.8.Current breaking limitsIn categoriesReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:813;s:1519:"B10/60High power contactorsCharacteristics - Durability (AC)Maximum operational current (on-load factor u 0.95)Maximum operating rate: 120 operating cycles/hourContactor sizeCR1 F150CR1 F185CR1 F265CR1 F400CR1 F500CR1 F630CR1 BLCR1 BMCR1 BPCR1 BRCable c.s.a. mm2120150185–––––––Number of bars –––2222234Bar c.s.a. mm–––30 x 540 x 560 x 550 x 580 x 5100 x 5100 x 5Operational current in category AC-1 at ambient temperaturey 40 °CA2502753505007001000800125020002750y 55 °CA250275300430580850700110017502400y 70 °CA17018025034050070060090015002000Increase in operational current by parallel connection of polesApply the following coefficients to the above currents; these coefficients take into account an often unbalanced distribution of current between the poles:b 2 poles in parallel: K = 1.6b 3 poles in parallel: K = 2.25b 4 poles in parallel: K = 2.8. Electrical durability (Ue y 440 V) (1)0,018060100250275400350500600700800100012502000275040000,020,040,060,080,10,20,40,60,81CR1 F150CR1 F185CR1 F265CR1 F400CR1 F500CR1 F630CR1 BL, BMCR1 BPCR1 BR Millions of operating cyclesCurrent broken in ADF565951.epsExample:Ue = 220 V - Ie = 200 A - q = 40 °C - Ic = Ie = 200 A600000 operating cycles required.The above selection curves show the contactor rating needed, CR1F400.(1) For 660 V, multiply the number of operating cycles by 0.8.TeSys ControlCR1F Magnetic latching high power contactorsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:814;s:1934:"B10/61High power contactorsCharacteristics - Inductive load switching3-phase transformer primaries switchingOperating conditionsMaximum ambient temperature: 55 °C.Maximum operational voltage: 1000 V, 50...60 Hz.When a transformer is switched on, there is generally an initial current surge which reaches its peak value almost instantaneously and then decreases in a largely exponential manner to quickly reach its steady state value.The value of this current depends on:b the characteristics of the magnetic circuit and of the windings (cross sectional area of the core, rated inductance, number of turns, size of the windings, ...)b the performance of the magnetic laminations used (residual induction and saturation inductance),b the magnetic state of the circuit and the instantaneous value of the a.c. mains voltage at the moment of switch-on.The peak current at the moment of switch-on can reach 20 to 40 times the rated current for the various kVA power ratings in the tables below. This value is independent of the “no-load” or “on-load” state of the transformer.The peak magnetising current of the transformer must be lower than the values given in the tables below.TeSys ControlCR1F Magnetic latching high power contactorsContactor selectionMaximum operating rate: 120 operating cycles/hourContactor sizeCR1 F150CR1 F185CR1 F265CR1 F400CR1 F500CR1 F630CR1 BLCR1 BMCR1 BPCR1 BRMaximum permissible current peak at switch-onA17002800350055006800900018 00018 00024 00030 000Maximum operational power (1)220...230 V kVA25405075100140230230300380380...400 V kVA507590130170225400400530660415...440 V kVA5580100140190250450450560700500 V kVA6595110170225280480480600750660 V kVA801201402002703156006008009501000 V kVA10015020025037547070070010001200(1) Maximum operational power corresponding to a current peak at switch-on of 30 In.References: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:815;s:1933:"B10/62High power contactorsEnvironmentContactor typeCR1F150CR1F185CR1F265Rated insulation voltage (Ui)Conforming to IEC 60947-4-1V100010001000Rated impulse withstand voltage (Uimp)Coil not connected to the power circuitkV8Conforming to standardsIEC/EN 60947-1, IEC/EN 60947-4-1, JIS C8201-4-1, UL 60947-4-1, CSA C22.2 No. 60947-4-1Product certificationsCB scheme, UL, CSA, EAC, CE marking, UKCA markingAmbient air temperature around the deviceStorage°C-60...+80For operation at Uc°C-15...+70Maximum operating altitudeWithout deratingm3000Operating positionsWithout derating±5 ° in relation to normal vertical mounting planePole characteristicsNumber of poles 3 or 43 or 43 or 4Rated operational current (Ie) (Ue y 440 V)In AC-3, q y 40 °CA150185265In AC-1, q y 40 °CA250275350In AC-4, q y 40 °CA138170245Rated operational voltage (Ue)Up to V100010001000Frequency limits (sine wave)Of the opeational currentHz25...20025...20025...200Rated making capacityI rms A170021002940Rated breaking capacityI rms220...440 VA150018002450500 VA120016002200660/690 VA1100120017001000 VA450600800Permissible short time rating from cold state, with no current flowing for previous 60 minutes at q y 40 °CFor 1 sA120015002200For 5 sA120015002200For 10 sA120015002200For 30 sA7009201230For 1 minA600740950For 3 minA450500620For 10 minA350400480Short-circuit protection by fuses q y 440 VMotor circuit AC-3 (type aM)A160200315AC-1 circuit (type gG, BS 88) A250315400Average impedance per poleAt lth and 50 Hz mW0.450.360.32Power dissipated per pole for the above operational currentsAC-3W61222AC-1 W182639ConnectionNumber of conductors111Cable with lugsmm2120150240Cable with connectormm2120150240Number of bars222Bar c.s.a.mm25 x 325 x 332 x 4Bolt diameterØ8Ø8Ø10Tightening torqueN.m181835TeSys ControlCR1F Magnetic latching high power contactorsCharacteristicsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:816;s:1489:"B10/63High power contactorsCR1F400CR1F500CR1F630CR1BLCR1BMCR1BPCR1BR1000 1000100010001000100010008IEC/EN 60947-1, IEC/EN 60947-4-1, JIS C8201-4-1, UL 60947-4-1, CSA C22.2 No. 60947-4-1CB scheme, UL, CSA, EAC, CE marking, UKCA marking-60...+80-60...+80-15...+70 -15...+603000 3000±5 ° in relation to normal vertical mounting plane ±5 ° in relation to normal vertical mounting plane3 or 4 3 or 43 or 41, 2, 3 or 41, 2, 3 or 41, 2, 3 or 41, 2, 3 or 44005006307501000150018005007001000800125020002750370460560700800125015001000 10001000100010001000100025...200 25...20025...20050...6050...6050...6050...604500 5000674010 00010 00015 00018 00040005000630010 00010 00015 00018 0003500450054009000900012 00015 00030003560460080008000900011 00012002500320040004000500060003600420050509600960012 00015 0003600420050509600960012 00015 00036004200505070008000960012 00024003200440048005200640080001700240034003500380052006300120015002200210024003600440010001200160012001800280036004005006308001200800 x 2 (1)1000 x 2 (1)500 800100080012001000 x 2 (1)1200 x 2 (1)0.28 0.180.120.180.180.130.094545488818029036070 8812011528052068022–––––150240––––––––––––222223430 x 540 x 560 x 550 x 580 x 5100 x 5100 x 10Ø10Ø10Ø124 x Ø84 x Ø104 x Ø104 x Ø1035355821353535(1) Paralleling of poles must be carried out only in accordance with the fuse manufacturer’s recommendations.TeSys ControlCR1F Magnetic latching high power contactorsCharacteristics";i:817;s:2547:"B10/64High power contactorsa.c. and d.c. control circuit characteristicsContactor typeCR1F150CR1F185CR1F265Rated control circuit voltage (Uc)a 50 or 60 HzV48...415a 400 HzV48...220cV48...220c low consumptionV48...220Control voltage limits a and cLatching0.85...1.1 UcUnlatching0.85...1.1 UcMaximum operating rate at ambient temperature y 40 °CIn operating cycles per hour120Mechanical durabilityIn millions of operating cycles1Average consumptionLatching1-poleVA–––50/60 Hz2-poleVA–––3-poleVA1100160016504-poleVA10016001650Unlatching1-poleVA–––2-poleVA–––3-poleVA7.3894-poleVA7.389400 Hz and cLatching1-poleVA–––2-poleVA–––3-poleVA1260175018004-poleVA126017501800Unlatching1-poleVA–––2-poleVA–––3-poleVA1011124-poleVA101112c low consumptionLatching3/4-poleW500500500Unlatching3/4-poleW152040Average operating time at Uc (1)Latchingms35...4035...4045...50Unlatchingms50...10050...10050...100(1) The closing time is measured from the moment the closing coil is energised to initial contact of the main poles. The opening time is measured from the moment the opening coil is energised to the moment the main poles separate.Note: the arcing time depends on the circuit switched by the main poles. For 3-phase applications the arcing time is usually less than 10 ms. The load is isolated from the supply after a time equal to the sum of the opening time and the arcing time.Auxiliary contact characteristicsType of contacts LADN for contactors CR1FConventional thermal current A10Rated insulation voltage (Ui)Conforming to IEC 60947-5-1V690ConnectionFlexible or solid conductor with or without cable endmm21 x 1 min; 2 x 2.5 maxOperational power of contacts LADN for contactors CR1Fa.c. supplyd.c. supplyElectrical durability (valid for up to 3600 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V48115230400600V481252504401 million operating cyclesVA1202805609601440W90756861Occasional making capacityVA2600700013 00015 0009000W700400260220TeSys ControlCR1F Magnetic latching high power contactorsCharacteristicsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:818;s:2169:"B10/65High power contactorsCR1F400CR1F500CR1F630CR1BLCR1BMCR1BPCR1BR48...415110...50048...220110...50048...220110...50048...220–0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc0.85...1.1 Uc120 12011–––650650650650–––110011001100110014501650210016501650165016501450165021001850185018501850–––110110110110–––125125125125129.58165165165165129.58175175175175–––600600600600–––100010001000100016001800230015001500150015001600180023001700170017001700–––100100100100–––115115115115161311150150150150161311160160160160500550620––––706045––––40...7540...8040...80100...150100...150100...150100...15050...10050...10050...10020...4020...4020...4020...40(1) The closing time is measured from the moment the closing coil is energised to initial contact of the main poles. The opening time is measured from the moment the opening coil is energised to the moment the main poles separate.Note: the arcing time depends on the circuit switched by the main poles. For 3-phase applications the arcing time is usually less than 10 ms. The load is isolated from the supply after a time equal to the sum of the opening time and the arcing time.LADN for contactors CR1F ZC4GM for contactors CR1B10 20690 6601 x 1 min; 2 x 2.5 max 2 min; 4 maxOperational power of contacts ZC4GM for contactors CR1 Ba.c. supplyd.c. supplyElectrical durability (valid for up to 2400 operating cycles/hour) on an inductive load such as the coil of an electromagnet: making current (cos φ 0.7) = 10 times the power broken (cos φ 0.4).Electrical durability (valid for up to 1200 operating cycles/hour) on an inductive load such as the coil of an electromagnet, without economy resistor, the time constant increasing with the load.V110 127220380415 440500V1101204405001 million operating cyclesVA20004000400040003500W250250230200Occasional making capacityVA1400023000350004500035000W1600800400360TeSys ControlCR1F Magnetic latching high power contactorsCharacteristicsReferences: pages B10/5, B10/16 to B10/21Dimensions: pages B10/66 to B10/69Ref.";i:819;s:1876:"B10/66High power contactorsCR1F150 to F500Common side viewCR1F150, F185, F265CR1F400, F500JJ1b1==G1GZ==Y3xØ6,5Lc (1)=b=b2X1X1S1QaPPQ1fMSF150 M8x25F185 M8x25F265 M10x35DF565953.epsQ1aPQPfM44,5S6xM10x35GG123,5J120==180==8xØ8,5501379_1.epsCR1F150F185F265CR1F400F5003P4P3P4P3P4P3P4P3P4Pa163.5201.5168.5208.5201.5244.5a213261233288b170170174174203203G min.66666666b1137137137137145145b206206238238b2301301305305370370b2375375400400c171171181181213213c219219232232f131131130130147147f146146150150G106143111151142190G supplied808080140G1808080809696G max.102150120175J106106106106106106G1 supplied170170170230J1120120120120120120G1 min.156156156156L107107113.5113.5141141G1 max.192240210265M150150154154178178J12603227P404040404848L145145146146Q262629293934M181181208208Q157.555.559.559.566.566.5P48485555S202020202525Q43434747S1272734343838Q174747777Y444438.530.530.521.5S25253030Z13.513.513.513.515.515.5f = minimum distance required for coil removal.f = minimum distance required for coil removal.X1: Minimum electrical clearance according to operational voltage and breaking capacity.X1: Minimum electrical clearance according to operational voltage and breaking capacity.Voltage in V200...500660...1000Voltage in V200...500660...1000CR1F1501015CR1F4001520CR1F1851015CR1F5001520CR1F2651015(1) Power terminal protection shroud (see page B10/10).CR1F630155=304=(1)197255280X146472X1Q18080Q264181 (2)64406xM12x45aDF565954.eps180==J1G60,54xØ10,5CR1F6303P4Pa309389G supplied180240G min.100150G max.195275J16181Q6060Q18989X1: Min. electrical clearance according to operational voltage and breaking capacity.Voltage in VX1200...50020690...100030(1) Power terminal protection shroud.(2) Minimum distance required for coil removal.TeSys ControlCR1F Magnetic latching high power contactorsDimensionsReferences: pages B10/5, B10/16 to B10/21Characteristics: pages B10/56 to B10/65Ref.";i:820;s:1255:"B10/67High power contactorsCR1F150...F265Panel mountedOn pre-slotted mounting plate AM1PA, PB, PC On rails DZ5MB on 120 mm centres 3xØ6,5cJG=J1= 110==(1)DF565955.epscAF1 EA6110GDF565956.epsDZ5 MF5cG11012015DF510481.epsCR1F150F185F265CR1F150F185F265CR1F150F185F265c3P171181213c3P171181213c3P1711812134P1711812134P1711812134P171181213G3P808096G3P808096G3P8080964P8080964P8080964P808096J3P26.52944.54P454968.5J13P5759.561.54P75.579.585.5(1) Power terminal protection shroud (see page B10/10).CR1F150...F650On 2 notched uprights AM1ECpppc25(1)120(2)Ø10,5AM1 EC200AF1 CD081 + AF1 VC820AM1 EC200AF1 CD061+AF1 VA618AF1 CD061AF1 VA618M6LA9 F100AF1 CD101+AF1 VC10AF1 CD081+AF1 VC820Ø8,5M6AM1 EC20011035180G==GAF1 VA618M6G1G2G3DF565958.epsCR1F150F185F265F400F500F630c3P1711812132132262504P171181213213226250G (M6)3P808096–––4P808096–––G1 (Ø8,5)3P–––8080–4P–––80140–G2 (Ø10,5)3P–––––1804P–––––240(1) AF1CDppp or AF1VAppp.(2) This AM1EC200 upright is required when G2 or G3 is greater than 700 mm (please consult your Regional Sales Office).MountingReferences: pages B10/5, B10/16 to B10/21Characteristics: pages B10/56 to B10/65TeSys ControlCR1F Magnetic latching high power contactorsRef.";i:821;s:834:"B10/68High power contactorsReversing contactors 2 x CR1F150...F265Reversing contactors 2 x CR1F400...F630Horizontally mounted110/120===G1J13xØ6,5==G1=J1J3xØ6,5abP1501385_1.epsGG1J3120 (2)==180==8xØ8,5 (1)bGJ1J1J2JG1J38xØ8,5 (1)P1aDF565959.eps2 x CR1F150F185F2652 x CR1F400F500F630a3P345357425a3P4464856364P4224375214P542595796b3P170174203b3P2062383044P1701742034P206238304G13P808096G3P80801804P8080964P80140240J3P7178109G13P170170–4P1111181574P170230–J13P5759.561.5J3P1571561394P75.579.585.54P157156139P13P7178100J13P64.584.568.54P71781004P112.579.568.5J23P6766–4P6766–J33P19.539.5–4P67.534.5–P13P1071121374P107112137(1) Except F630: 4 x Ø 10.5.(2) Except F630: 180.TeSys ControlCR1F Magnetic latching reversing contactorsMountingReferences: pages B10/5, B10/16 to B10/21Characteristics: pages B10/56 to B10/65Ref.";i:822;s:2382:"B10/69High power contactorsReversing contactorsVertically mounted with mechanical interlock LA9Fppp. 2 contactors CR1F of identical or different ratings (CR1F150...F630), see page B10/49.Assembly A Assembly B Assembly CF330F265H1120}F400F500F630180}F330F265120}F400F500F630180}J1G3(2)(6)G2G4J212,59==(4)(6)G1G512,5H(1)(5)(1)(5)==F330F265180H1120}F400F500F630180}G1G512,5J1G3(2)80J4(3)==(6)(4)H(1)(1)9(5)J2120120H180J4J2J1G3(2)==(3)==(3)80J3H(1)(1)DF565960.eps(1) Mechanical interlock shaft.(2) For assembly of contactors of different ratings only.(3) 3 x Ø6.5 mm for CR1F150...F265.(4) 3 x Ø6.5 mm for CR1F265.(5) Mechanical interlock guide bracket.(6) 4 x Ø8.5 mm for CR1F400, F500 or 4 x Ø10.5 mm.Assembly typeABCLA9FF4FG4FG4GH4FJ4FK4FL4FH4GJ4GK4GL4GH4HJ4HK4HL4HJ4JK4JL4JK4KL4KL4LG13P–––9680801809680801809680801808080180801801804P–––96801402409680140240968014024080140240140240240G23P–––––––––––9696969680808080801804P–––––––––––96969696808080140140240G33P03021454535194242330232314009 (7)09 (7)04P04027262617232222130009 (7)009 (7)09 (7)0G43P–––––––––––606060608383838383744P–––––––––––83838383838383838374G53P–––6083837460838374608383748383748374744P–––838383748383837483838374838374837474Hmin.200210220240250270310250250270310250260280330260280325300345380max.310300310380380380380380380380380380380380380380380380380380380H1min.8090100110801001401209011015013011013017060100140120160200max.190180190250210210210250220220220260230230220200200195200195200J13P133134134149.5137157241149.5137157241149.5137157241371572411572442414P145146146164.5185212321164.5185212321164.5185212321185212321212321321J23P133133134183133183133134134134134142.5149.5149.5149.51371371371571572414P145145146145145145145146146146146164.5164.5164.5164.5185185185212212312J33P48.55353––––––––––––––––––4P677373––––––––––––––––––J43P48.5545348.548.548.548.553535353––––––––––4P6769736767676773737373––––––––––(7) In this case, G4 is greater than G5.TeSys ControlCR1F Magnetic latching reversing contactorsMountingReferences: pages B10/5, B10/16 to B10/21Characteristics: pages B10/56 to B10/65Ref.";i:823;s:2312:"B10/70High power contactorsSelectionContactor sizeLC1V160LC1V320LC1V610For utilisation category AC-3Maximum operational current in AC-3A160320610Rated operational power P (standard power ratings of motors)230 VkW4590160400 VkW75160300525 VkW110220400690 VkW1502805601000 VkW2004008001500 VkW280600930For 3-phase motors conforming to CSA standardsRated operational power P (standard power ratings of 3-phase CSA motors)200 Vhp50100150240 Vhp60125200380 Vhp100200300480 Vhp125250400600 Vhp150300500800 Vhp2004007001000 Vhp25050010001500 Vhp4008001300For switching 3-phase capacitorsRated operational power P240 VkVAR4794176480 VkVAR95190356600 VkVAR1002004001500 VkVAR2505001000For switching the primaries of 3-phase transformers (LV/LV)Rated operational power P208 VkVA204181240 VkVA234794480 VkVA4794188600 VkVA59117234Environment characteristicsContactor typeLC1V160LC1V320LC1V610Shock resistance(1/2 sine wave = 11 ms) Conforming to IEC/EN 60068-2-27Contacts closed10 gn10 gn10 gnContacts open10 gn10 gn10 gnVibration resistance Conforming to IEC/EN 60068-2-6 10...500 Hz 2 gn 2 gn 2 gn Operating altitude Above sea level Maximum m 3600 3600 3600Below sea levelMinimumm250045004500 Ambient air temperature around the device Storage °C -40...+80 -40...+80 -40...+80Operation 0.8... 1.1 Uc°C-5...+55-5...+55-5...+55Permissible for operation at Uc°C-10...+75-10...+75-10...+75 Degree of protection Conforming to IEC 60529 IP 00 IP 00 IP 00 Operating position Any Any Any Cabling Cable c.s.a. mm2 70 185 2 x 185Key for hex. screwsmmAllen 42020Tightening torqueN.m143939Control circuit characteristicsRated insulation voltage (Ui)To earthV200020002000 Consumption Inrush VA 300 600 1700SealedVA302028 Permissible control circuit voltage 0.8...1.1 Uc 0.8...1.1 Uc 0.8...1.1 Uc Closing time (1) ms 18...22 24...32 24...32 Opening time (1) ms 95...115 95...115 95...115(1) The closing time "C" is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time "O" is measured from the moment the coil supply is switched off to the moment the main poles separate.TeSys ControlV Vacuum high power contactorsCharacteristicsReferences: page B10/22Dimensions:pages B10/72 and B10/73Schemes:pages B10/72 to B10/75Ref.";i:824;s:1607:"B10/71High power contactorsMain pole characteristicsContactor typeLC1V160LC1V320LC1V610 Rated insulation voltage (Ui) V 1500 1500 1500 Rated impulse withstand voltage (Uimp) kV 8 8 8 Conforming to standards EN 60947-4-1 - IEC 60947-4-1 Conventional rated thermal current (Ith) A 160 320 630 Rated operational current (Ie) q y 40 °C AC-1 A 160 320 630q y 55 °C AC-3A160320610q y 55 °C AC-4A130270540 Electrical durability in millions of operating cycles (400 V at I max) AC-1 1.2 1 1AC-31.61.51.5AC-40.180.150.12 Mechanical durability In millions of operating cycles 5 2.5 2 Maximum operating rate in operating cycles per hour Mechanical 1200 1200 1200AC-1900900900AC-3900900900AC-4450450450 Maximum making capacity (lrms) Ue = 1500 V To IEC 60947 A 1900 3800 7300 Maximum breaking capacity (lrms) Ue = 1500 V To IEC 60947 A 1600 3200 6100 Maximum permissible current For 1 s A 2400 4500 9000For 2 sA200037507580For 10 sA160032006100For 30 sA96019203600 Short-circuit protection at Ie in cat. AC-3 max. aM fuse A 160 400 630Auxiliary contact characteristics Rated insulation voltage (Ui) V 690 Conventional rated thermal current (Ith) A 10 Rated operational current (Ie) AC-15, 230 V A 0.78AC-15, 400 VA0.45AC-15, 500 VA0.35DC-13, 24 VA1.1DC-13, 110 VA0.24DC-13, 220 VA0.12 Cabling Cable c.s.a. mm2 2.5 Short-circuit protection gG fuse A 10 Operating time (1) (at 100 % of Uc) "C" ms ±5"O"ms±5(1) Operating time in relation to the main contacts.TeSys ControlV Vacuum high power contactorsCharacteristicsReferences: page B10/22Dimensions:pages B10/72 and B10/73Schemes:pages B10/72 to B10/75Ref.";i:825;s:666:"B10/72High power contactorsDimensions, mountingLC1V16015136,512336,516824482448Ø7Ø71529500311.epsLC1V3203515913015613363,520163,5222371853876170702xØ82xØ8,5x192039,51913,548152xØ8,5502xØ10,5500312.epsLC1V610951781271722xØ8,5x192032229,5152xØ8,5682016835632832,56868500313.epsSchemesLC1V160LC1V320, V610Auxiliary contact blocksLA1VN11 1 N/O & 1 N/CLA1VN20 2 N/OLA1VN11X 1 N/O142213/NO21/NC500316.eps344433/NO43/NO500318.eps0403/NONCcoil500521.epsTeSys ControlV Vacuum high power contactorsDimensions, mounting, schemes1/L12/T1A103/NO13/NOA204143/L24/T25/L36/T321/NC22500314.eps1/L12/T1A113/NOA2143/L24/T25/L36/T321/NC22500315.epsReferences: page B10/22Ref.";i:826;s:337:"B10/73High power contactorsDimensions, mountingLC2V3204184462216863161071086348616964154356==4635592416354104DF536047.epsLC2V6104116432105117356==463696911255916519911268T1T2T3L2L1L368616562322.epsTeSys ControlV Vacuum high power reversing contactorsDimensions, mountingReferences: page B10/22Characteristics: pages B10/70 and B10/71Ref.";i:827;s:399:"B10/74High power contactorsSchemesLC2V320135246135246UVW KM11/L13/L25/L3A1A2 KM2A1A26789- KM1- KM1- KM2A1A2345- KM2- KM1- KM2- KM2- KM1A2A1– F1(1)StartStartStop562324.eps(1) Dotted line indicates wiring to be installed by the customer. SchemesTeSys ControlV Vacuum high power reversing contactorsReferences: page B10/22Characteristics: pages B10/70 and B10/71Dimensions:pages B10/72 and B10/73Ref.";i:828;s:409:"B10/75High power contactorsSchemesLC2V610135246135246UVW KM1A1A2 KM2A1A26789- KM1- KM1- KM1- KM1- KM2A1A2345- KM2- KM2- KM2- KM1A2A1– F1(1)- KM21/L13/L25/L3StartStartStop562325.eps(1) Dotted line indicates wiring to be installed by the customer. References: page B10/22Characteristics: pages B10/70 and B10/71Dimensions:pages B10/72 and B10/73SchemesTeSys ControlV Vacuum high power reversing contactorsRef.";i:829;s:27:"B10/76High power contactors";i:830;s:1391:"B11/1Overload relaysThermal overload relays - For use with TeSys K contactorsType of productRangePagesAdjustable thermal overload relaysFor motorsTeSys LRKFrom 0.16 to 16 AB11/2Adjustable thermal overload relaysFor unbalanced loadsTeSys LRKFrom 0.8 to 16 AB11/3Thermal overload relays Class 10 A - For use with TeSys Deca contactorsTeSys Deca adjustable thermal overload relaysFor motorsFrom 0.16 to 140 AB11/4TeSys Deca adjustable thermal overload relaysFor unbalanced loadsFrom 0.16 to 140 AB11/4Thermal overload relays Class 20 - For use with TeSys Deca contactorsTeSys Deca adjustable thermal overload relaysFor motors From 0.63 to 80 AB11/6TeSys Deca adjustable thermal overload relaysFor unbalanced loads From 0.63 to 32 AB11/6Electronic thermal overload relays - For use with TeSys Deca contactorsTeSys Deca adjustable electronic overload relay, Multi-class, multi-scaleFrom 0.1 to 150 AB11/10Electronic overload relays - For use with TeSys Giga contactorsTeSys LR9G electronic overload relays To protect against overload, phase imbalance, phase loss and ground faultFrom 28 to 630 AB11/11Electronic over current relays - For machine protectionPredefined or adjustable starting times,Manual reset From 1.5 to 34 AB11/15Automatic, electric or manual resetFrom 0.5 to 50 AB11/15Chapter B11 Technical Data for Designers B11/17TeSys ProtectLRK, Deca, Giga Overload relaysTeSysTeSysProtect";i:831;s:1618:"B11/2Overload relays3-pole thermal overload relays for TeSys K contactorsThese overload relays are designed for the protection of motors. They are compensated and phase failure sensitive. Resetting can either be manual or automatic.Direct mounting: under the contactor for versions with screw clamp terminals only; pre-wired terminals, see pages B11/24 and B11/26.Separate mounting: using terminal block LA7K0064 (see below).On the front face of the overload relay:b selection of reset mode: Manual (marked H) or Automatic (marked A),b red pushbutton: Trip Test function,b blue pushbutton: Stop and manual Reset,b yellow trip flag indicator: overload relay tripped.Protection by magnetic circuit breaker GV2LE, see pages coordination tables chapter A6.Class 10 A (the standard specifies a tripping time of between 2 and 10 seconds at 7.2 In)Relay setting rangeFuses to be used with selected relayMaximum ratingTypeReferenceaMgGBS88AAAA0.11...0.160.250.5–LR2K03010.16...0.230.250.5–LR2K03020.23...0.360.51–LR2K03030.36...0.5411.6–LR2K03040.54...0.812–LR2K03050.8...1.2246LR2K03061.2...1.8266LR2K03071.8...2.64810LR2K03082.6...3.741016LR2K03103.7...5.561616LR2K03125.5...882020LR2K03148...11.5102520LR2K031610...14163225LR2K032112...16204032LR2K0322TeSys ProtectLRK Thermal overload relaysProduct referencesPB123793.tifLR2K0307Characteristics:pages B11/24 and B11/25Dimensions:page B11/26Schemes:page B11/26Overload relays for unbalanced loadsClass 10 A: to order, replace the prefix LR2 by LR7 in the references selected from above (only applicable to overload relays LR2K0305 to LR2K0322).Example: LR7K0308.";i:832;s:314:"B11/3Overload relaysTeSys ProtectTeSys Protect accessory for LRK Thermal overload relaysProduct referencesAccessory for TeSys LRK Thermal overload relayDescriptionType of connectionReferenceTerminal block for separate clip-on mounting of the overload relay on 35 mm 7 rail Screw clampLA7K0064PB121488.epsLA7K0064";i:833;s:3310:"B11/4Overload relays3-pole differential thermal overload relays for Deca contactors - Class 10A bfor use with fuses or magnetic circuit breakers ref. GV2L and GV3L bcompensated relays with manual or automatic reset bwith relay trip indicator bfor a.c. or d.c.Relay setting range (A)Fuses to be used with selected relayFor use with contactor LC1ReferenceWeightkgaM (A)gG (A)BS88 (A)Class 10 A (1) for connection by screw clamp terminals or connectors0.10...0.160.252–D09...D38LRD010.1240.16...0.250.52–D09...D38LRD020.1240.25...0.4012–D09...D38LRD030.1240.40...0.6312–D09...D38LRD040.1240.63...124–D09...D38LRD050.1241...1.6246D09...D38LRD060.1241.6...2.54610D09...D38LRD070.1242.5...461016D09...D38LRD080.1244...681616D09...D38LRD100.1245.5...8122020D09...D38LRD120.1247...10122020D09...D38LRD140.1249...13162525D12...D38LRD160.12412...18203532D18...D38LRD210.12416...24255050D25...D38LRD220.12423...32406363D25...D38LRD320.12430...38408080D32 and D38LRD350.124Class 10 A (1) for connection by EverLink® BTR screw connectors (2)9...13162525D40A...D65ALRD3130.37512...18203235D40A...D65ALRD3180.37517...25255050D40A...D65ALRD3250.37523...32406363D40A...D65ALRD3320.37530...40408080D40A...D65ALRD3400.37537...5063100100D40A...D65ALRD3500.37548...6563100100D50A and D65ALRD3650.37562...8080125125D80ALRD3800.375Class 10 A (1) for connection by screw clamp terminals or connectors17...25255050D80 and D95LRD33220.51023...32406363D80 and D95LRD33530.51030...404010080D80 and D95LRD33550.51037...5063100100D80 and D95LRD33570.51048...6563100100D80 and D95LRD33590.51055...7080125125D80 and D95LRD33610.51063...8080125125D80 and D95LRD33630.51080...104100160160D80 and D95LRD33650.51080...104125200160D115 and D150LRD43650.90095...120125200200D115 and D150LRD43670.900110...140160250200D150LRD43690.90080...104100160160(3)LRD336561.00095...120125200200(3)LRD336761.000110...140160250200(3)LRD336961.000Class 10 A (1) for connection by lugsSelect the appropriate overload relay with screw clamp terminals or connectors from the table above and add one of the following suffixes: bfigure 6 for relays LRD01 to LRD35 and relays LRD313 to LRD380. bA66 for relays LRD3322 to LRD3363.Relays LRD43pp are suitable, as standard, for use with lug-clamps.Thermal overload relays for use with unbalanced loadsClass 10 A (1) for connection by screw clamp terminals or lugsIn the references selected above, change the prefix LRD (except LRD43pp) to LR3D. Example: LRD02 becomes LR3D02.Example with EverLink®connectors: LRD340 becomes LR3D340.Example with lugs: LRD3806 becomes LR3D3806.(1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR: class 10 A: between 2 and 10 seconds.(2) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).(3) Independent mounting of the contactor.Please check the availability of your variant in the index page B11/16. The SEARCH function of your viewer can be used.Product referencesCharacteristics:pages B11/27 to B11/30Dimensions:pages B11/31 to B11/33Schemes:page B11/33TeSys ProtectDeca Thermal overload relaysPB121694.tifLRDppPB123837.tifLRD33ppPB123839.epsLRD43ppPB123840.epsLRD3pp6";i:834;s:2164:"B11/5Overload relays3-pole differential thermal overload relays for Deca contactors - Class 10 A bfor use with fuses or magnetic circuit breakers ref. GV2L and GV3L bcompensated relays with manual or automatic reset bwith relay trip indicator bfor a.c. or d.c.Relay setting range (A)Fuses to be used with selected relayFor use with contactor LC1ReferenceaM (A)gG (A)BS88 (A)Classes 10 A (1) for connection by spring terminals (only for direct mounting beneath the contactor)1...1.6246D09...D38LRD0631.6...2.54610D09...D38LRD0732.5...461016D09...D38LRD0834...681616D09...D38LRD1035.5...8122020D09...D38LRD1237...10122020D09...D38LRD1439...13162525D12...D38LRD16312...18203532D18...D38LRD21316...24255050D25...D38LRD223Class 10 A with connection by EverLink® BTR screw connectors (2) and control by spring terminals23...32406363D40A...D65ALRD332337...5063100100D40A...D65ALRD350348...6563100100D50A and D65ALRD365362...8080125125D80ALRD3803Thermal overload relays for use with unbalanced loadsClasses 10 A (1) for connection by BTR screw connectors (2) and control by spring terminalsIn the references selected above, replace LRD3 with LR3D3.Example: LRD3803 becomes LR3D3803.Thermal overload relays for use on 1000 V suppliesClasses 10 A (1) for connection by screw clamp terminalsFor relays LRD06 to LRD35 only, for an operating voltage of 1000 V, and only for independent mounting, the reference becomes LRD33ppA66. Order an LA7D3064 terminal block separately, see page B11/9.Standard relayRelay for 1000 V networkLRD32LRD3353A66(1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR: class 10 A: between 2 and 10 seconds. (2) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).Please check the availability of your variant in the index page B11/16. The SEARCH function of your viewer can be used.Product referencesTeSys ProtectDeca Thermal overload relaysCharacteristics:pages B11/27 to B11/30Dimensions:pages B11/31 to B11/33Schemes:page B11/33PB121704.epsLRDpp3";i:835;s:2547:"B11/6Overload relaysProduct referencesTeSys ProtectDeca Thermal overload relaysCharacteristics:pages B11/27 to B11/30Dimensions:pages B11/31 to B11/33Schemes:page B11/333-pole differential termal overload relays for Deca contactors - Class 20 bfor use with fuses or magnetic circuit breakers ref. GV2L and GV3L bcompensated relays with manual or automatic reset bwith relay trip indicator bfor a.c. or d.c.Relay setting range (A)Fuses to be used with selected relayFor use with contactor LC1ReferenceaM (A)gG (A)BS88 (A)Classes 20 (1) for connection by screw clamp terminals0.63...124 -D09...D38LRD05L1...1.6246D09...D38LRD06L1.6...2.54610D09...D38LRD07L2.5...461016D09...D38LRD08L4...681616D09...D38LRD10L5.5...8122020D09...D38LRD12L7...10122020D09...D38LRD14L9...13162525D12...D38LRD16L12...18203532D18...D38LRD21L17...24255050D25...D38LRD22L23...32406363D25...D38LRD32LClass 20 (1) for connection by EverLink® BTR screw connectors (2)9...13203235D40A...D65ALRD313L12...18254040D40A...D65ALRD318L17...25325050D40A...D65ALRD325L23...32406363D40A...D65ALRD332L30...40508080D40A...D65ALRD340L37...5063100100D40A...D65ALRD350L48...6580125125D50A and D65ALRD365LClasses 20 (1) for connection by screw clamp terminals17...25325050D80 and D95LR2D352223...32406363D80 and D95LR2D355330...404010080D80 and D95LR2D355537...5063100100D80 and D95LR2D355748...6580125100D80 and D95LR2D355955...70100125125D80 and D95LR2D356163...80100160125D80 and D95LR2D3563Class 20 (1) for connection by lugsFor relays LRD05L to LRD32L and relays LRD313L to LRD365L, select the appropriate overload relay with screw clamp terminals or connectors from the table above and add the suffixe 6.Example: LRD05L becomes LRD05L6.Thermal overload relays for use with unbalanced loadsClass 20 (1) for connection by screw clamp terminals or lugsFor relays LRD05L to LRD32L and relays LR2D3522 to LR2D3563, select the appropriate overload relay with screw clamp terminals or connectors from the table above and change the prefix LRD or LR2D to LR3D.Example: LRD05L becomes LR3D05L.(1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR: class 20: between 6 and 20 seconds (2) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).Please check the availability of your variant in the index page B11/16. The SEARCH function of your viewer can be used.PB121670_R.epsLRD05L...LRD32LPB123838.tifLR2D35pp";i:836;s:1127:"B11/7Overload relays3-pole differential thermal overload relays for Deca contactors - Class 20 bfor use with fuses or magnetic circuit breakers ref. GV2L and GV3L bcompensated relays with manual or automatic reset bwith relay trip indicator bfor a.c. or d.c.Relay setting range (A)Fuses to be used with selected relayFor mounting beneath contactor LC1 ReferenceaM (A)gG (A)BS88 (A)Class 20 (1) with connection by EverLink® BTR screw connectors (2) and control by spring terminals9...13203235D40A...D65ALRD313L3(1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR: class 10: between 4 and 10 seconds, class 10 A: between 2 and 10 seconds, class 20: between 6 and 20 seconds. (2) BTR screws: hexagon socket head. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).Product referencesTeSys ProtectDeca Thermal overload relays Characteristics:pages B11/27 to B11/30, pages B11/34 to B11/37 Dimensions:pages B11/31 to B11/33 and B11/38Schemes:pages B11/33 and B11/39";i:837;s:32:"B11/8Overload relaysDB439338.eps";i:838;s:3970:"B11/9Overload relaysSeparate components for relaysDescriptionFor use withSold in lots ofUnit referencePre-wiring kit allowing direct connection of the N/C contact of relay LRD01...35 or LR3D02...D35 to the contactor LC1D09...D1810LAD7C1 (1)LC1D25...D3810LAD7C2 (1)Terminal block (2) for clip-on mounting on 35 mm rail (AM1DP200) or screw fixing; for fixing centres, see pages B11/31 to B11/33LRD01...35 and LR3D02...D351LAD7B106LRD05L...LRD32L, LR3D05L...LR3D32L1LAD7B205LRD33pp, LR3D33pp, LR2D35pp, LR3D35pp1LA7D3064 (3)EverLink® terminal block for independent mountingLRD3pp, LRD3ppL and LR3D3pp1LAD96560Size 4 Allen key, insulated, 1000 VLRD3pp, LRD3ppL and LR3D3pp5LADALLEN4Terminal block adapter for mounting a relay beneath an LC1D115 or D150 contactorLRD33pp, LR3D33pp, LRD35pp1LA7D3058 (3)Mounting plates (4) for screw fixing on 110 mm centresLRD01...35, LR3D02...D35, LRD05L...LRD32L, LR3D05L...LR3D32L10DX1AP25LRD3ppp, LR3D3ppp, LR2D35pp1LA7D902Marker holders, snap-in 8 x 18 mmLRD3pp100LAD90All relays except LRD01...35, LRD05L...32L, LR3D05L...D32LLR3D02...D35, LRD3pp, LRD3ppL and LR3D3pp100LA7D903Bag of 400 blank legends (self-adhesive, 7 x 16 mm)All relays1LA9D91Remote Stop or electrical reset device (5)LRD01...35, LR3D02...D35, LRD05L...32L, LR3D05L...D32L and LRD313...LRD3801LAD703p (6) (7)Remote tripping or electrical reset device (5)All relays except LRD01...35, LR9D01...32, LRD05L...32L, LR3D05L...D32L, LR3D02...D35, LR9D01...32, LRD3pp, LRD3ppL and LR3D3pp1LA7D03p (6)Block of insulated terminalsLR9D2LA9F103 (7)IP 20 cover for lug type terminalsfor independent mountingLRD3256...38061LAD96570IP 20 cover for lug type terminalsfor mounting with contactor LC1D40A6...D65A6LRD3256...38061LAD96575Terminal block for lug type terminals for independent mountingLRD3256...38061LAD96566Remote control“Reset” functionDescriptionFor use withSold in lots ofUnit referenceBy flexible cable(length = 0.5 m)LRD01...35, LR3D02...D35, LR3D05L...D32L and LRD313...LRD380, LRD05L...LRD32L1LAD7305 (8)All relays except LRD01...35, LR3D02...D35, LRD3pp, LRD05L...32L, LR3D05L...D32L, LRD3ppL, LR3D3pp, LR9D011LA7D305"Stop" and/or "Reset" functionsThe terminal protection shroud must be removed and the following 3 products must be ordered separately:Adapter for door mountingLRD33pp, LR2D1LA7D1020Operating heads for spring return pushbuttonStopAll relays1XB5AL84101ResetAll relays1XB5AA86102(1) These pre-wiring kits cannot be used with reversing contactors.(2) Terminal blocks are supplied with terminals protected against direct finger contact and screws in the open, "ready-to-tighten" position.(3) To order a terminal block for connection by lugs, the reference becomes LA7D30646.(4) Remember to order the terminal block corresponding to the type of relay.(5) The time for which the coil of remote tripping or electrical resetting device LA7D03 or LAD703 can remain energised depends on its rest time: 1 s pulse duration with 9 s rest time; 5 s pulse duration with 30 s rest time; 10 s pulse duration with 90 s rest time; maximum pulse duration 20 s with a rest time of 300 s. Minimum pulse time: 200 ms.(6) Reference to be completed by adding the code indicating the control circuit voltage. Standard control circuit voltages (for other voltages, please consult your Regional Sales Office):Volts12244896110220/230380/400415/44050/60 Hz–BE–FMQNConsumption, inrush and sealed: < 100 VAcJBEDDFM––Consumption, inrush and sealed: < 100 W.(7) Only one terminal block can be mounted below LR9D.(8) Not compatible with 3-pole relays fitted with spring terminals.Product referencesTeSys ProtectTeSys Deca accessories for Deca Thermal overload relaysLAD7CpDF537820.epsPB121510.epsPB123864.epsLAD7B106DB439417.epsLAD96570LAD96575LAD96570DF538608.epsPB121512.epsPB121513.eps";i:839;s:2097:"B11/10Overload relaysElectronic thermal overload relays for Deca contactorsb for use with fuses or magnetic circuit breakersb compensated relays, with relay trip indicator,b for a.c.,b for direct mounting on contactor or independent mounting (1).Relay setting rangeFuses to be used with selected relayFor direct mounting beneath contactor LC1ReferenceaMgGAAAClasses 5.10.20.30 (1) selectable for direct connection on Deca contactors or connection using connectors0.1...0.5D09...D38LR9D010.4...2D09...D38LR9D021.6...8D09...D38LR9D086.4...32D09...D38LR9D32Classes 10 or 10 A (1) for connection using bars or connectors60...100100160D115...D150LR9D536790...150160250D115...D150LR9D5369Classes 20 (1) for connection using bars or connectors60...100125160D115...D150LR9D556790...150200250D115...D150LR9D5569Separate components for relaysDescriptionFor use withSold in lots ofUnit referenceTerminal block (2)For clips-on mounting on 35 mm rails (AM1DP200) or screws fixing; for fixing centres, see pages B11/35 to B11/37LR9D01, LR9D02, LR9D08, LR9D321LAD7B205Electronic overload relays for balanced or unbalanced loadsRelay setting rangeFuses to be used with selected relayFor direct mounting beneath contactor LC1ReferenceaMgGAAAClasses 10 or 20 (1) selectable for direct connection using bars or connectors60...100100160D115...D150LR9D6790...150160250D115...D150LR9D69(1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR: class 5: between 0.5 and 5 seconds class 10: between 4 and 10 seconds class 10 A: between 2 and 10 seconds class 20: between 6 and 20 seconds class 30: between 9 and 30 seconds.(2) Terminal blocks are supplied with terminals protected against direct finger contact and screws in the open, "ready-to-tighten" position.TeSys ProtectDeca Electronic thermal overload relaysProduct referencesCharacteristics:pages B11/34 to B11/37Dimensions:page B11/38Schemes:page B11/39LR9D0p and LR9D32PB114690.epsLAD7B205 mounted on LR9D01PB121747.epsLAD7B205PB121746.epsLR9D5567PB108399.epsLR9D67PB114693.eps";i:840;s:743:"B11/11Overload relaysTeSys ProtectGiga Electronic overload relaysPole pitch aligned with TeSys Giga ContactorPush-in type control terminalsWide range of overload setting with trip class & ground fault protectionManual Reset buttonMotor ON and trip Alarm indicatorsRelay trip indicationUnique QR code providing quick access to complete product dataManual reset button1 NO + 1 NC trip contacts with push-in type terminalsTest button5E...30E trip class selection with ground fault protection optionManual/auto reset selection with phase imbalance protection optionSetting dial for current IrTransparent cover with seal protectionTrip indicatorTrip alarm LED indicationMotor ON LED indicationIntelligent design for greater advantagesIntroduction";i:841;s:1395:"B11/12Overload relaysTeSys ProtectGiga Electronic overload relaysDescriptionPerfect selection for your motor protection125...500 A160...630 ARangep A comprehensive range of TeSys Giga Electronic overload relays in 3 sizesp Direct mounting of relay with contactors saving in panel space and installation timeOverload relaysp Advanced electronic monitoring with high accuracyp Thermal compensation for ambient temperatures up to 60 °Cp Wide range of current settings, 0.25...1 Ir settingp Direct and separately mountable to manage panel designp Pole pitch alignment with contactors, enabling direct mountingp Push-in terminals for quick and easy control wiring optionsp 4 references covering the complete range means less inventoryp Manual and auto reset to suit your needsp Multiple reset options: Manual, Automatic & Remotep Protection against phase lossp Selectable protection against imbalanced loadp Selectable protection against ground faultp ON status and overload alarm signaling by LEDp TRIP indicatorCertificationsp Multiple standardsp International certificationsTrip classp Selectable, from class 5E to class 30E to suit different application needs28...115 A and 57...225 ALR9G630 Electronic overload relayTeSys Giga seriesProtection settings115: 28...115 A225: 57...225 A500: 125...500 A630: 160...630 AProduct references – coding principle";i:842;s:1872:"B11/13Overload relaysIntroduction:pages B11/11 to B11/12Characteristics:pages B11/40 to B11/42Dimensions:page B11/43TeSys ProtectGiga Electronic overload relaysTeSys Giga Electronic overload relays bElectronic overload relay bSuitable for independent mounting or direct mounting with TeSys Giga contactors bErgonomic rotary switches for thermal and protection settings bTrip class selection: 5E/10E/20E/30E bOverload, phase imbalance, phase loss and ground fault protections bManual and auto reset options bLED indicator for Motor ON and pre-trip alarm bThermal memory and compensation bPush-in terminals for control connectionsRelay setting range Fuses to be used with selected relayFor direct mountingbeneath contactor LC1GReferenceaM /gG/aRkAAAClass 5E...30E 28...115125 aM100LC1G115...225LR9G11557...225250 aM100LC1G115...225LR9G225125...500630 aM100LC1G265...500LR9G500630 gG80630 aR25160...630800 aR100LC1G630LR9G630800 aR80800 aR25Product referencesOverload relay accessoriesMounting and wiring accessories DescriptionReferenceMounting base for alignment of LR9G115-225 with LC1G115-225 (2)LA9G3650Mounting base for alignment of LR9G500 with LC1G265-330 (2)LA9G3651Mounting base for alignment of LR9G500 with LC1G400-500 (2)LA9G3652Mounting base for alignment of LR9G630 with LC1G630-800 (2)LA9G3653Push-in connection adapterLA9G82PB121623_R.tifLR9G225PB121647.tifDirect mounting with TeSys Giga ContactorPB121632.epsLA9G3650LA9G82_ISO.epsLA9G82PB121626.epsLA9G3704Front protection coverDescriptionCompatible with contactorsQuantityReferenceFront protection cover (3)LR9G115 / LR9G2251LA9G3704LR9G5001LA9G3705LR9G6301LA9G3706(2) Used for independent mounting of Overload Relay beneath contactor to align main power pole connections.(3) Used to cover main power connection terminals between contactor and overload with direct mounting option.i";i:843;s:1003:"B11/14Overload relaysTeSys ProtectGiga Electronic overload relaysRemote Reset control deviceDescriptionQuantityReferenceRemote electrical reset device (1)1LAD703p (2)Remote Reset function controlby flexible cable (length = 0.5 m)1LAD7305(1) The time for which the coil of remote electrical reset device LAD703p can remain energised depends on its rest time: 1 s pulse duration with 9 s rest time; 5 s pulse duration with 30 s rest time; 10 s pulse duration with 90 s rest time. Maximum pulse duration of 20 s with rest time of 300 s. Minimum pulse time: 200 ms.(2) Reference to be completed by adding the coil voltage code.Standard control circuit voltagesVolts24110220/230a 50/60 HzBFMConsumption, inrush and sealed: < 100 VAcBFMConsumption, inrush and sealed: < 100 W.PB121732.epsLAD7305PB121733.epsLAD703●Product referencesIntroduction:pages B11/11 to B11/12Characteristics:pages B11/40 to B11/42Dimensions:page B11/43i";i:844;s:1906:"B11/15Overload relaysProduct referencesLR97D electronic over current relaysRelay setting rangeUsable range (1)For use with contactor (2)Relay supply voltageReference (3)AA0.3...1.50.3...1.3LC1 D09...D38a 200...240 VLR97D015M7a 100...120 VLR97D015F7c/a 24 VLR97D015Bc/a 48 VLR97D015E1.2...71.2...6LC1 D09...D38a 200...240 VLR97D07M7a 100...120 VLR97D07F7c/a 24 VLR97D07Bc/a 48 VLR97D07E5...255...21LC1 D09...D38a 200...240 VLR97D25M7a 100...120 VLR97D25F7c/a 24 VLR97D25Bc/a 48 VLR97D25E20...3820...34LC1 D25...D38a 200...240 VLR97D38M7a 100...120 VLR97D38F7c/a 24 VLR97D38Bc/a 48 VLR97D38ELT47 electronic over current relaysRelay setting rangeUsable range (1)Relay supply voltageReferenceAALT47 relay with manual/electric reset0.5...60.5...5a 200...240 VLT4706M7Sa 100...120 VLT4706F7Sc/a 24 VLT4706BS3...303...25a 200...240 VLT4730M7Sa 100...120 VLT4730F7Sc/a 24 VLT4730BS5...605...50a 200...240 VLT4760M7Sa 100...120 VLT4760F7Sc/a 24 VLT4760BSc/a 48 VLT4760ESLT47 relay with automatic reset0.5...60.5...5a 200...240 VLT4706M7Ac/a 24 VLT4706BA3...303...25a 200...240 VLT4730M7Aa 100...120 VLT4730F7Ac/a 24 VLT4730BAc/a 48 VLT4730EA5...605...50a 200...240 VLT4760M7Ac/a 24 VLT4760BAAccessories (to be ordered separately)DescriptionFor use withSold in lots ofUnit referencePre-wiring kits allowing connection of the LR97D relay N/C contact directly to the contactorLC1 D09...D1810LAD7C1LC1 D25...D3810LAD7C2Terminal block for clip-on mounting on 35 mm rail (AM1 DP200)LR97D1LAD7B106(1) To allow adjustment of the tripping sensitivity, see adjustment method (page B11/44).(2) Please see chapter B8.(3) If a pre-wiring kit is used, it is no longer possible to electrically wire signalling of tripped status.TeSys ProtectLR97, LT47 Electronic over current relaysPB111974.epsLR97D07ppPB111927.epsLT4730pppCharacteristics:pages B11/44 to B11/47Dimensions, schemes: page B11/48";i:845;s:2367:"B11/16Overload relaysTeSys ProtectThermal and electronic overload relaysDPER01DPER21DPER32DPER35ER1XA2MLA7D03BLA7D03FLA7D03MLA7D03QLA7D1020LA7D1064LA7D305LA7D3058LA7D3064LA7D30646LA7D903LA7K0064LA9D730LA9D91LAD703BLAD703ELAD703FLAD703MLAD703QLAD7305LAD7B105LAD7B1056LAD7B106LAD7B205LAD7C1LAD7C2LR2D3522LR2D3553LR2D3555LR2D3557LR2D3559LR2D3561LR2D3563LR2K0301LR2K0302LR2K0303LR2K0304LR2K0305LR2K0306LR2K0307LR2K0308LR2K0310LR2K0312LR2K0314LR2K0316LR2K0321LR2K0322LR3D02LR3D03LR3D04LR3D046LR3D05LR3D056LR3D06LR3D066LR3D07LR3D076LR3D07LLR3D08LR3D086LR3D08LLR3D10LR3D106LR3D10LLR3D12LR3D126LR3D12LLR3D14LR3D146LR3D14LLR3D16LR3D166LR3D16LLR3D21LR3D216LR3D21LLR3D22LR3D226LR3D22LLR3D313LR3D318LR3D32LR3D325LR3D326LR3D32LLR3D332LR3D3322LR3D3353LR3D3355LR3D3363LR3D3365LR3D340LR3D35LR3D350LR3D3522LR3D3553LR3D3555LR3D3557LR3D3559LR3D3561LR3D3563LR3D365LR3D380LR3D3803LR3D3806LR3D4365LR3D4367LR3D4369LR7K0305LR7K0306LR7K0308LR7K0310LR7K0312LR7K0314LR7K0316LR97D015BLR97D015ELR97D015F7LR97D015M7LR97D07BLR97D07ELR97D07F7LR97D07M7LR97D25BLR97D25ELR97D25F7LR97D25M7LR97D38BLR97D38ELR97D38F7LR97D38M7LR9D5367LR9D5369LR9D5567LR9D5569LR9D67LR9D69LR9G115LR9G225LR9G500LR9G630LA9G3650LA9G3651LA9G3652LA9G3653LA9G82LA9G3704LA9G3705LA9G3706LRD01LRD02LRD03LRD04LRD046LRD04L6LRD05LRD056LRD05LLRD06LRD063LRD066LRD06LLRD07LRD073LRD076LRD07LLRD07L6LRD08LRD083LRD086LRD08LLRD08L6LRD10LRD103LRD106LRD10LLRD10L6LRD12LRD123LRD126LRD12LLRD14LRD143LRD146LRD14LLRD1508LRD1510LRD1512LRD1514LRD1516LRD1521LRD1522LRD1530LRD1532LRD16LRD163LRD166LRD16LLRD16L6LRD21LRD213LRD216LRD21LLRD21L6LRD22LRD223LRD226LRD22LLRD22L6LRD313LRD313LLRD318LRD318LLRD32LRD325LRD3256LRD325LLRD326LRD32LLRD32L6LRD3312LRD3314LRD332LRD3322LRD3323LRD332LLRD3353LRD3353A66LRD3355LRD3357LRD3357A66LRD3359LRD3359A66LRD3361LRD3363LRD3365LRD33656LRD33676LRD33696LRD340LRD3406LRD340LLRD340L6LRD35LRD350LRD3503LRD3506LRD350LLRD356LRD365LRD3653LRD3656LRD365LLRD365L6LRD380LRD3803LRD3806LRD4365LRD4367LRD4369LRD488CLT4706BALT4706BSLT4706F7SLT4706M7ALT4706M7SLT4730BALT4730BSLT4730EALT4730F7ALT4730F7SLT4730M7ALT4730M7SLT4760BALT4760BSLT4760ESLT4760F7SLT4760M7ALT4760M7SProduct referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:846;s:1447:"B11/17Overload relaysTechnical Data for DesignersTeSys LRK, Deca Overload relaysContentsMotor and machine protection ...........................B11/18 to B11/23TeSys LRK - thermal overload protection: > characteristics .......................................................B11/24 to B11/25 > dimensions and schemes .....................................................B11/26Deca - thermal overload protection: > characteristics .......................................................B11/27 to B11/30 > dimensions ............................................................B11/31 to B11/33 > schemes ................................................................................B11/33Deca - electronic thermal overload protection: > characteristics .......................................................B11/34 to B11/37 > dimensions ............................................................................B11/38 > schemes ................................................................................B11/39Giga - electronic overload relays: > characteristics .......................................................B11/40 to B11/42 > dimensions and diagram.......................................................B11/43LR97, LT47 - electronic over current relays: > characteristics .......................................................B11/44 to B11/47 > dimensions and schemes .....................................................B11/48";i:847;s:1722:"B11/18Overload relaysMotor and machine protectionTeSys ProtectOverload relaysIntroductionExceeding the operating limits of an electric motor will lead, eventually, not only to destruction of the motor itself but also of the mechanisms it drives.This type of load can be the cause of electrical or mechanical faults. bElectrical faults: vovervoltage, voltage drop, imbalance and phase failure which cause variations in the current drawn, vshort-circuits which can cause the current to reach levels capable of destroying the load. bMechanical faults: vlocked rotor, vbrief or prolonged overload which leads to an increase in the current drawn by the motor, and therefore overheating. The cost of these faults must take into account loss of production, loss of raw materials, repair of the production tool, poor quality of production and delays in delivery.These faults can also have dramatic consequences on the safety of persons in direct or indirect contact with the motor.To prevent these faults, protection measures are necessary. They make it possible to isolate the equipment to be protected from the mains supply by measuring variations in electrical values (voltage, current, etc.).Each motor starter must therefore have: bshort-circuit protection, to detect and break, as quickly as possible, abnormal currents generally greater than 10 times the rated current (In). boverload protection, to detect increases in current up to about 10 In and switch off the starter before overheating of the motor and conductors damages the insulation.This protection is provided by specific devices such as fuses, circuit breakers and thermal overload relays, or by more integrated devices offering several types of protection.";i:848;s:2768:"B11/19Overload relaysCauses, effects and consequences of various faults There are two types of fault: bInternal faults within the motor bExternal faults: these are located outside the electric motor but their consequences can lead to damage inside the motor.FaultsCausesEffectsConsequences on the motor and on the machineShort-circuitContact between several phases, or between one phase and neutral or between several turns of the same phase. bCurrent peak bElectrodynamic forces on the conductorsDestruction of windingsOvervoltage bLightning bElectrostatic discharge bOperationDielectric breakdown in the windingsDestruction of the windings due to loss of insulationPhase imbalance and phase failure bOpening of a phase bSingle-phase load upstream of the motor bShort-circuit between the turns of the same winding bReduction of usable torque, efficiency and speed bIncrease in losses bStarting impossible if phase failureOverheating (1)High starting frequency bFailure of the automation system bToo many manual control operations bNumerous fault tripsHigh stator and rotor temperature rise due to the frequent start currentOverheating (1)Consequences on the processVoltage variations bInstability of the mains voltage bConnection of heavy loads bReduction of usable torque bIncrease in lossesOverheating (1)Harmonics bPollution of the mains supply by variable speed drives, inverters, etc... bReduction of usable torque bIncrease in lossesOverheating (1)Long starting time bResistive torque too high (load too heavy) bVoltage dropIncrease in starting timeOverheating (1)Jamming bMechanical problem (crusher) bSeizuresOvercurrentOverheating (1) Consequences on the processNo-load running bPump running empty bMechanical break in drive to the loadDrop in current drawnConsequences on the processFrequency fluctuations bOverload of a supply powered by limited independent sources bFaulty alternator speed regulator bIncrease in losses bInterferes with synchronous devices (clock, recorder, ...)–Overload bIncrease in resistive torque bVoltage drop bDrop in power factorIncrease in current consumptionOverheating (1)Loss of machine excitation bSignificant drop in excitation current bBreak in rotor winding bIncrease in active power bDrop in power factorSignificant overheating of rotor and cagePhase-Earth fault bAccidental Phase-Earth contacts bAccidental Phase-machine casing contacts (casing connected to earth) bOvervoltage developed in the mains supply bRise in earth potential (safety of persons)Consequences on safety of persons(1) Then, in the longer or shorter term, depending on the seriousness of the fault and/or its frequency, short-circuit and destruction of the windings.Motor and machine protectionTeSys ProtectOverload relays";i:849;s:2471:"B11/20Overload relaysMotor and machine protectionTeSys ProtectOverload relaysProtection functions Short-circuit protectionGeneralA short-circuit results in a very rapid rise in current which can reach several hundred times the value of the operational current. The consequences of a short-circuit are dangerous to both equipment and persons. It is therefore imperative to use protection devices to detect the fault and very quickly break the circuit. Two types of protection are commonly used: bfuses (cutout) which break the circuit by melting, which then requires their replacement, bmagnetic trip circuit breakers, often more simply called "magnetic circuit breakers", which only require re-setting to put them back into service.Short-circuit protection can also be built-into multifunction devices such as motor circuit breakers and contactor-breakers.The main characteristics of short-circuit protection devices are: btheir breaking capacity: this is the highest prospective short-circuit current value that a protection device can break at a given voltage. btheir making capacity: this is the highest current value that the protection device can make at its rated voltage in specified conditions. The making capacity is equal to k times the breaking capacity.Fuses (cutouts) Fuses provide individual phase protection (single-pole), with a high breaking capacity in a compact size: bmounted either in fuse carriers, bor in isolators, replacing the original links or shunt bars.For motor protection, aM type fuses are used. Their design characteristics allow them to conduct the high magnetising currents that occur when motors are switched on. They are therefore unsuitable for overload protection (unlike gG type fuses). This is why an overload relay must be included in the motor power supply circuit.Magnetic circuit breakers These circuit breakers protect installations against short-circuits, within the limit of their breaking capacity. Magnetic circuit breakers provide omnipole breaking as standard. For relatively low short-circuit currents, the operation of a circuit breaker is faster than that of fuses. This protection conforms to standard IEC 60947-2. The thermal and electrodymanic effects are also limited, therefore ensuring better protection of cables and equipment.Fuse carrier Ref. LS1D32PB111830.epsPB114116.epsSwitch disconnectorsRef. GS2N3PB121671.epsDeca Magnetic circuit breakerRef. GV2LPB114909.epsDeca Magnetic circuit breakerRef. GV4LE";i:850;s:2861:"B11/21Overload relaysProtection functionsOverload protectionGeneralAn overload condition is the most frequently encountered fault. The symptoms are a rise in the current drawn by the motor and thermal effects. A rapid return to normal operating conditions is important.The actual operating conditions (ambient temperature, operating altitude and type of standard duty) are essential to determine the operating values of the motor (power, current) and to be able to select effective overload protection. These operational values are given by the motor manufacturer.According to the level required, protection can be provided by: boverload relays and thermal overload relays (bi-metallic or electronic type) which protect motors in the event of: voverload, by monitoring the current drawn by each phase, vphase imbalance or failure, by their differential mechanism. brelays with PTC thermistor probes (Positive Temperature Coefficient). bovertorque relays, bmultifunction relays.Overload relaysThese relays protect motors against overload. They must allow the temporary overload that occurs on starting and must only trip if the starting time is abnormally long.The overload relay will be selected according to the length of the starting time (tripping class) and the motor rating.These relays have a thermal memory (except for certain electronic overload relays, indicated by their manufacturers) and can be connected: beither in series with the load, bor to current transformers placed in series with the load. Bi-metallic thermal overload relays Combined with a contactor, these relays protect the line and the equipment against small and prolonged overloads. They must be protected against strong overcurrent by a circuit breaker or fuses. These relays may be used on an a.c. or d.c. system and are generally: b3-pole, bcompensated, i.e. insensitive to ambient temperature variations, bwith manual or automatic reset, bgraduated with a "motor FLC" scale: allowing direct setting to the full load current as shown on the motor rating plate. They can also be sensitive to phase failure: this is known as 'differential'. This function conforms to standards IEC 60947-4-1 and 60947-6-2. This type of relay is extremely reliable and is a relatively low cost device.Electronic thermal overload relays Electronic thermal overload relays have the advantage of electronics which allow a more complex thermal image of the motor to be created.They can be combined with products having complementary functions, such as: btemperature sensing via PTC probes, bprotection against jamming and overtorque, bprotection against phase reversal, bearth fault protection, bprotection against no-load running, balarm function.Motor and machine protectionTeSys ProtectOverload relaysPB121694.tifDeca Thermal overload relayRef. LRD08PB121503.epsCurrent measurement relayRef. RM4JA";i:851;s:1905:"B11/22Overload relaysProtection functions (continued) Overload protection (continued)Relays for use with PTC thermistor probes With direct sensing of the stator windings, these relays can be used to protect motors against: boverload, ba rise in ambient temperature, ba ventilation circuit fault, ba high starting frequency, bmechanical shocks, etc.Overload (or overtorque) relays These relays protect the drive line in the event of a locked rotor, seizure or mechanical shocks. This is an additional protection.Unlike thermal overload relays, these relays do not have a thermal memory. They have definite time characteristics (adjustable current threshold and time delay).The overtorque relay can be used as overload protection for motors with long starting times or very frequent starting (for example, lifting hoists). Multifunction relays bOvercurrent relays are limited when it is necessary to take into account problems associated with voltage, temperature or special applications. New production or maintenance management needs have prompted manufacturers to offer products which provide not only adaptable protection, but also complete management of the motor and its load. They incorporate: bcurrent and voltage sensors (T controllers), bhybrid analog and digital electronic technology, bthe use of communication buses for data exchange and control, bpowerful motor modelling algorithms, bintegrated application programs whose parameters can be set.These products make it possible to reduce installation and operating costs by reducing maintenance and downtime.T controllers: The multifunction relay is separate from the power line and incorporates inputs and outputs. It can be used in conjunction with a contactor up to 810 A.Motor and machine protectionTeSys ProtectOverload relaysPB111974.epsInstantaneous electronic overcurrent relaysRef. LR97D07PB121504.epsT controller Ref. LTMR08MBD";i:852;s:865:"B11/23Overload relaysProtection relay selection tableMotor protectionMachine protectionMotor and machine protectionRelay typeThermal overload relayRef.LR2K, LRD,LRD3, LR9D (1), LR9GRelays for use with PTC probes Ref. LT3SOvertorque relaysRef.LR97D, LT47Ultra controllerRef.LUTMT controllerRef.LTMRCauses of overheating(2)(2)(2)(3)Slight overloadLocked rotorNo-load runningSupply phase failureLR97DVentilation faultWith probesAbnormal temperature riseWith probesShaft bearing seizureWith probesInsulation faultProtracted starting timeSevere dutyWith probesVoltage variationFrequency fluctuationsLoss of machine excitationIdeally suitedPossible solutionNot suitable (no protection)(1) For motor circuit breaker ref. GV2ME.(2) Protection based on current.(3) Protection based on current and voltage.Motor and machine protectionTeSys ProtectOverload relays";i:853;s:2407:"B11/24Overload relaysEnvironmentConforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T14048.Product certificationsUL , CSA, CCC, EAC, CB, UKCA certificationDegree of protectionConforming to IEC 60529Protection against direct finger contactAmbient air temperature around the deviceStorage°C -40...+70For normal operation (IEC 60947)°C -20...+55 (without derating)Operating limit°C-30...+60 (with derating) (1)Maximum operating altitudeWithout deratingm2000Operating positionsVertical axisDF535726.epsWithout deratingHorizontal axisDF535727.epsWith derating (1)Flame resistanceConforming to 60695-2-11°C850Shock resistance, hot state (1/2 sine wave, 11 ms)Conforming to IEC 60068-2-27, N/C contact 10 gnConforming to IEC 60068-2-27, N/O contact10 gnVibration resistance, hot state 5 to 300 Hz Conforming to IEC 60068-2-6, N/C contact 2 gnConforming to IEC 60068-2-6, N/O contact 2 gnCablingScrew clamp terminalsMinimumMaximum Maximum to IEC 60947Solid cablemm2 1 x 1.5 2 x 4 1 x 4 + 1 x 2.5Flexible cable without cable endmm2 1 x 0.75 2 x 42 x 2.5Flexible cable with cable endmm2 1 x 0.34 1 x 1.5 + 1 x 2.51 x 1.5 + 1 x 2.5Tightening torquePhilips head n° 2 - Ø6N.m0.8MountingDirectly under the contactor or reversing contactorConnectionsMade automatically when mounted under the contactor, as follows:b contactor terminal A2 connected to overload relay terminal 96 on all products,b contactor terminal 14 connected to overload relay terminal 95 on products with 3 P + N/O.When using 3 P + N/C, or 4 P contactors, or the N/O auxiliary contact marked 13-14, at a voltage other than the coil voltage, break off the link marked 14.Auxiliary contact characteristicsNumber of contacts1 N/C + 1 N/OConventional thermal currentA6Short-circuit protectionConforming to IEC 60947 gG fuse or circuit breaker GB2CBppA6 max.Maximum power of the controlled contactor coils (sealed) (Occasional operating cycles of contact 95-96)a.c.V2448110220/230400415/440600/690VA100200400600600600600d.c.V2448110220250––W100100504535––Maximum operational voltagea.c., category AC-15V690d.c., category DC-13V250(1) Please consult your Regional Sales Office.(2) Very low safety voltage.TeSys ProtectLRK Thermal overload relayCharacteristicsReferences:pages B11/2 and B11/3Dimensions:page B11/26Schemes:page B11/26";i:854;s:1669:"B11/25Overload relaysElectrical characteristics of the power circuitRated operational voltage (Ue)Up toV690Rated insulation voltage (Ui)Conforming to IEC 60947 V690Conforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1 V600Rated impulse withstand voltage (Uimp)kV6Frequency limits of the operational currentHzUp to 400Power dissipated per poleW2Operating characteristicsTripping threshold Conforming to IEC 60947-4-1A1.14 ±0.06 IrSensitivity to phase failureConforming to IEC 60947 Ye sResetManual or automaticSelected by means of a lockable and sealable switch on the front of the relaySignallingOn front of relayTrip indicatorReset-Stop functionPressing the Reset-Stop button:- actuates the N/C contact- has no effect on the N/O contactTest functionBy pushbuttonPressing the Test button enables:- checking of the control circuit wiring- simulation of overload tripping (actuation of both N/C and N/O contacts, and of the trip indicator)Short-circuit protection and coordinationSee pages A5/12 and A5/30 Tripping curvesAverage operating time related to multiples of the current setting (Class 10 A)Balanced 3-phase operation, from cold stateBalanced operation with 2 phases only, from cold stateDF535729.eps2 h 1h 20 min1 h40 min20 min10 min6 min4 min2 min1 min40 s20 s10 s6 s4 s2 s1 s1 1,21,52345681015TimeX setting current (Ir)2 h1h 20 min1 h40 min20 min10 min6 min4 min2 min1 min40 s20 s10 s6 s4 s2 s1 s1 1,21,5234568101512TimeX setting current (Ir)DF535728.eps Setting: at lower end of scale Setting: at upper end of scale TeSys ProtectLRK Thermal overload relaysCharacteristicsReferences:pages B11/2 and B11/3Dimensions:page B11/26Schemes:page B11/26";i:855;s:710:"B11/26Overload relaysDimensions, mountingLR2K Direct mounting beneath the contactor Separate mounting with terminal block LA7 K0064 on 35 mm 7 rail(AM1DP200 or AM1DE200)658==35==455850116DF533599.eps388075c45DF533600.epsAM1cDP20078.5DE20086SchemesLR2KLR2K + LCpK13524697989596AHTestReset/stop812563.epsPre-wiring scheme13513A124614A224697959896DF533601.eps– KM1A2A196951314– KM1O9596DF533602.epsLR7KNote: If pre-wiring is not required, break off the 2 links located on the thermal overload relay.13524697989596AHTestReset/stopDF511020.epsDF533603.epsTeSys ProtectLRK Thermal overload relaysDimensions, mounting, schemesCharacteristics:pages B11/24 and B11/25References:pages B11/2 and B11/3";i:856;s:2702:"B11/27Overload relaysPB121694.tifIntroduction3-pole Deca thermal overload relays are designed to protect a.c. circuits and motors against: boverloads bphase failure bexcessively long starting times bprolonged stalled rotor condition.Power connection Product references LRD01 to LRD35LRD01 to 35 relays are designed for connection by screw clamp terminals. They can be supplied for connection by spring terminals or by lugs (1).Product references LRD04 to LRD32LThese relays are designed for connection by screw clamp terminals. They can be supplied for connection by lugs (1).Product references LRD313 to LRD380These relays are for connection by BTR screw connectors (hexagon socket head). The screws are tightened by means of a size 4, insulated Allen key. This type of connection uses the EverLink® system with creep compensation (2) (Schneider Electric patent).This technique makes it possible to achieve accurate and durable tightening torque.These relays are also available for connection by lugs (1). Product references LRD3361 to 4369, LR2D3561 to D3563 Product references LRD3361 to 4369 and LR2D3561 to D3563 relays are designed for connection by screw clamp terminals. They can be supplied for connection by lugs (1).Ref. LRD08PB121670_R.epsRef. LRD05L...32LPB123810.epsRef. LRD365PB123837.tifRef. LRD33ppRef. LRD01...35, LRD05L...32L LRD313...LRD365RESETSTOP543,5301162, 5437DF567968.epsDescriptionDeca 3-pole thermal overload relays are designed to protect a.c. circuits and motors against overloads, phase failure, long starting times and prolonged stalling of the motor.1 Adjustment dial Ir.2 Test button. Operation of the Test button allows: - checking of control circuit wiring, - simulation of relay tripping (actuates both the N/O and N/C contacts).3 Stop button. Actuates the N/C contact; does not affect the N/O contact.4 Reset button.5 Trip indicator.6 Setting locked by sealing the cover.7 Selector for manual or automatic reset. Product references LRD01 to 35, LRD05L to 32L and LRD313 to LRD380 relays are supplied with the selector in the manual position, protected by a cover. Deliberate action is required to move it to the automatic position.Ref. LRD3361...4369, LR2 D3561...356350A41RESETTEST98979596NONCMA3746153426DF567969.eps(1) Connection by lugs meets the requirements of certain Asian markets and is suitable for applications subject to strong vibration, such as railway transport.(2) Creep: normal crushing phenomenon of copper conductors, that is accentuated over time.References:pages B11/4 to B11/7Dimensions, mounting: pages B11/31 to B11/33Schemes: page B11/33CharacteristicsTeSys ProtectDeca Thermal overload relays";i:857;s:3138:"B11/28Overload relaysEnvironmentConforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1 UL 60947-5-1, CSA C22.2 n° 60947-5-1, EN 50495 (1), GB/T 14048.4, GB/T 14048.5Product certificationsUL (2), CSA (2), UKCA IEC, CCC (3), EAC, ATEX (1)ABS, BV (4), DNV-GL (5), LRoS (6), RINA (7), RMRS (8), EU RO Mutual recognition (9)Degree of protection (front face)Conforming to IEC 60529Protection against direct finger contact IP20Climatic withstandConforming to IACS E10Ambient air temperature around the deviceStorage°C-60...+70Normal operation, without derating (IEC 60947-4-1)°C-20...+60Minimum /maximum operating temperatures (with derating)°C-20...+70Operating positions without deratingIn relation to normal vertical mounting planeAny position.When mounting on a vertical rail, use a stop.Flame resistanceConforming to 60695-2-11°C850Shock resistancePermissible acceleration conforming to IEC 60068-2-2715 gn - 11 msVibration resistance (10) Permissible acceleration conforming to IEC 60068-2-66 gn except LRD05L...LRD32L: 3 gnDielectric strength at 50 HzConforming to IEC 60947-1kV1.89 (product Ui 690 V), 2.2 (product Ui 1000 V) Impulse withstand voltageConforming to IEC 60947-1kV6Electrical characteristics of power circuitRelay typeLRD01 ...16,LR3D02 ...16LRD05L ...32LLRD21 ...35,LR3D21 ...35LRD313 ...365LR3D 313 ...38LRD313L ...365LLRD3322 ...33696LR3D3322 ... 33696LR2D 3522... 3563LRD 4365 ... 4369Tripping classConforming to UL 60947-4-1, IEC 60947-4-110 A2010 A10 A2010 A2010 ARated insulation voltage (Ui)Conforming to IEC 60947-4-1V6901000 (11)Conforming to UL, CSAV600600 except LRD 4369Rated impulse withstand voltage (Uimp)kV6Rated operational voltage (Ue)V690Frequency limitsOf the operating currentHz0...400Setting rangeDepending on modelA0.1...130.63...3212...389...809...6517...14017...8080...140Auxiliary contact characteristicsConventional thermal currentA5Max. sealed consumption of the operating coils of controlled contactors (Occasional operating cycles of contact 95-96)a.c. supply, AC-15V120240380480500600A31.50.950.750.720.12d.c. supply, DC-13V125250440A0.220.10.06Protection against short-circuitsBy gG, BS fuses. Maximum rating or by GB2A4(1) For relays LRD01 to LRD380, LRD3322 to LRD3365, LRD04L to LRD32L, LRD4365 to LRD4369, LRD33656 to LRD33696.(2) Except for relays LRD4369.(3) CCC: Except for LRD/LR3D04L to LRD/LR3D32L, LR2D3522 to LR2D3563.(4) BV: except for LRD/LR3D04L to LRD/LR3D32L, LRD/LR3D313 to LRD/LR3D380.(5) DNV-GL: except for LRD04L to LRD32L.(6) LRoS: except for LRD/LR3D04L to LRD/LR3D32L, LRD/LR3D380.(7) RINA: for LRD/LR3D01 to LRD/LR3D35.(8) RMRS: for LRD/LR3D313 to LRD/LR3D380.(9) EU RO Mutual Recognition: for LRD/LR3D313 to LRD/LR3D380, LRD313L to LRD365L.(10) In case of vibration above 3gn on Deca Green contactor directly mounted with LRD, it is recommended do mount the devices separately by screws on metal plate.(11) 750 V for LRD33656, LRD33676, LRD33696.CharacteristicsReferences:pages B11/4 to B11/7Dimensions, mounting: pages B11/31 to B11/33Schemes: page B11/33TeSys ProtectDeca Thermal overload relays";i:858;s:2335:"B11/29Overload relaysPower circuit connection characteristicsRelay typeLRD01 ...16,LR3D01 ...16LRD04L ...21LLRD22L ...32LLRD21 ...35,LR3D21 ...35LRD 313 ...365LR3D 313 ...380LRD 313L ...365LLRD 3322 ...33696LR3D 3322 ... 33696LR2D 3522 ...3563LRD4365...4369Connection to screw clamp terminalsFlexible cable without cable end1 conductormm21.5...101.5...101...351...354...354...50Flexible cable with cable end1 conductormm21...41...61...6 except LRD21: 1...41...351...354...354...35Solid cable without cable end1 conductormm21...61.5...101.5/10 except LRD21: 1/61...351...354...354...50Tightening torque N.m1.72.52.51...25: 5 35: 81...25: 5 35: 8999Connection to spring terminals (Min/max c.s.a.) (except LRD04L...LRD32L)Flexible cable without cable end1 conductormm21.5...4––1.5...4–––––Flexible cable with cable end1 conductormm21.5...4––1.5...4–––––Connection by bars or lugsedLDF567972.epsdLDF567973.epsL'DF567974.epsRelay typeLRD016...166 LRD04L6 ... 16L6LRD216...356LRD21L6 ... 32L6LRD3136... 3806LRD313L6... 365L6LRD3322A66... 3365A66PitchWithout spreadersmm14.517.517.517.521.5Bars or cables with lugsemmy 6y 6y 6y 6y 6Lmmy 8y 8y 13.5y 13.5y 16L’mmy 9.5y 9.5y 16.5y 16.5y 16dy 7y 7y 10y 10y 12ScrewsM4M4M6M6M10Tightening torqueN.m1.72.56611.3Control circuit connection characteristicsConnection to screw clamp terminals or spring terminalsBare cableshDF567971.epsRelay typeLRD01 ...16,LR3D01 ...16LRD04L ...21LLRD22L ...32LLRD21 ...35,LR3D21 ...35LRD313 ...365LR3D313 ...380LRD 313L ...365LLRD3322 ...33696LR3D 3322 ... 33696LR2D 3522 ... 3563LRD4365...4369Connection to screw clamp terminals (1)Solid cable without cable endmm22 x 1...2.5Flexible cable without cable end mm22 x 1...2.5Flexible cable with cable end mm22 x 1...2.5Tightening torqueN.m1.7Connection to spring terminals (Min/max c.s.a.) (except LRD04L...LRD32L)Solid cablemm21...2.5–1...2.5–Flexible cable without cable endmm21...2.5–1...2.5–(1) For relays LRD313 to 380: BTR hexagon socket head screws, EverLink® system. In accordance with local electrical wiring regulations, a size 4 insulated Allen key must be used (reference LADALLEN4, see page B8/42).CharacteristicsReferences:pages B11/4 to B11/7Dimensions, mounting: pages B11/31 to B11/33Schemes: page B11/33TeSys ProtectDeca Thermal overload relays";i:859;s:1411:"B11/30Overload relaysOperating characteristicsRelay typeLRD01 ...16,LR3D02 ...16LRD04L... LRD32LLRD21 ...35,LR3D21 ...35LRD313 ...365LR3D313 ...380LRD313L ...365LLRD3322 ...33696LR3D3322 ... 33696LR2D3522... 3563LRD4365...4369Temperature compensation°C-20...+60Tripping thresholdConforming to IEC 60947-4-1A1.14 ±0.06 IrSensitivity to phase failureTripping current 130 % of Ir on two phases, the third phase at 0.Tripping curvesAverage operating time related to multiples of the setting currentLRD01 to LRD35, LR2D and LRD3322 to LRD4369LRD04L to LRD32L and LR2D3522 to LR2D3563214020104214020104210,80,8 1246101720132Class 10 ATimex the setting current (Ir)secondsminuteshoursDF567975.eps214020104214020104210,80,81246101720132Class 20 Timex the setting current (Ir)secondsminuteshoursDB419876.epsLRD313 to LRD380LRD313L to LRD365L0,1124102040151015501212468101420132Class 10 ATimex the setting current (Ir)secondsminuteshoursDF567976.eps1241020401251020401212468101520132Class 20 Timex the setting current (Ir)secondsminuteshoursDB415345.eps1 Balanced operation, 3-phase, without prior current flow (cold state).2 2-phase operation, without prior current flow (cold state).3 Balanced operation, 3-phase, after a long period at the set current (hot state).References:pages B11/4 to B11/7Dimensions, mounting: pages B11/31 to B11/33Schemes: page B11/33CharacteristicsTeSys ProtectDeca Thermal overload relays";i:860;s:1288:"B11/31Overload relaysLRD01...35 (1)LRD04...32L (1)LRD063...223Direct mounting beneath contactors with screw clamp connectionsDirect mounting beneath contactors with screw clamp connectionsDirect mounting beneath contactors with spring terminal connectionsb4570cDF533583.epsb4576.1cDB415912.epsb4566cDF533585.epsLC1D09...D18D25...D38LC1D09...D18D25...D38LC1D093...D253b123137b123137b168cSee pages B11/28 and B8/95cSee pages B11/28 and B8/95cSee pages B11/28 and B8/95LRD313...380 (1) LRD3256...3806 (1) Direct mounting beneath contactors LC1D40A...D80A with screw clamp connections or EverLink® connectorsDirect mounting beneath contactors LC1D40A6...D80A6 with lugs1857011512612355DF567294.eps19223612612355LAD 96575LAD 96570DF567779.epsLRD33pppDirect mounting beneath contactors LC1D80...D95b109cd54213070ge4DF533586.eps AM1 DL201DL200d717Control circuit ACbceg (tri)g (tetra)LC1D80115.512476.99.522LC1D95115.512476.99.5-Control circuit DCLC1D80, D95115.5179.476.99.522(1) In case of vibration above 3 gn on Deca Green contactor directly mounted with LRD, it is recommended do mount the devices separately by screws on metal plate.Dimensions, mountingTeSys ProtectDeca Thermal overload relaysCharacteristics: pages B11/27 to B11/30References:pages B11/4 to B11/7Schemes: page B11/33";i:861;s:960:"B11/32Overload relaysLRD4pppDirect mounting beneath contactors LC1D115 and D150 132d120267150189DF533587.epsAM1 DL200 and DR200DE200 and EDpppd2.510.5LRD01...35Independent mounting on 50 mm centres or on rail AM1DP200 or DE200Independent mounting on 110 mm centresLAD 7B1064528037,5855053510615DF533589.epsLAD 7B106110==46==2xØ6,5DX1 AP2590125DF533590.epsLRD313...380Mounting on rail AM1Dp200 or ED200Panel mountingMounted on plate AM1PWith terminal block LAD96560Outgoing terminal block not shown87116d55LAD 96560DF537825.eps(1)437222DF537826.eps4374AF1 EA4LAD 96560DF536768.epsAM1 DP200DE200ED200d29.59.5(1) 2 elongated holes Ø 4.2 x 6.LRD01...35 and LRD313...380Remote tripping or electrical resetLAD 703 (1)32DF536769.eps(1) Can only be mounted on RH side of relay LRD01...35 and LRD313...380 . Characteristics: pages B11/27 to B11/30References:pages B11/4 to B11/7Schemes: page B11/33Dimensions, mountingTeSys ProtectDeca Thermal overload relays";i:862;s:1327:"B11/33Overload relaysLRD04L...32LIndependent mounting on 50 mm centres or on rail AM1DP200 or DE200Independent mounting on 110 mm centres LAD 7B20545286.137,5855053510615DB415878R.epsLAD 7B205110==46==2xØ6,5DX1 AP25125DB415879.epsAM1 DP200DE200d29.5Remote tripping or electrical resetLAD 70332DB415919.eps(1) Can be mounted on RH or LH side of relay LR2D15.LRD3ppp and LR2D35ppLRD3ppp, LR2D35pp and LR9DIndependent mounting on 50 mm centres or on rail AM1DP200 or DE200Remote tripping or electrical reset1211002xØ4,5LA7 D306451,5d75/8725075==23,532DF533594.eps11921LA7 D03 (1)DF533595.epsAM1DP200DE200d29.5(1) Can be mounted on RH or LH side of relay LRD3ppp, LR2D35pp or LR9D.LRD3pppLRD, LRD313...380, LRD04...32LAdapter for door mounted operator“Reset” by flexible cableLA7D1020LA7D305 and LAD7305StopMounting with cable straightMounting with cable bentDF564938.epsc10LA7 D1020DF533596.eps c: adjustable from 17 to 120 mmceDF533597.eps e: up to 20 mm / c: up to 550 mmM10x1eDF533598.eps ResetDF564939.epsDimensions, mounting and schemesTeSys ProtectDeca Thermal overload relaysCharacteristics: pages B11/27 to B11/30References:pages B11/4 to B11/7LRDpp, LRD3pp and LR2Dpp Pre-wiring kit LAD7C1, LAD7C213524697989695TestStopAutoMan.ResetDF564943.eps9596 KM A1A2_ LRD_DF510715.eps";i:863;s:2481:"B11/34Overload relays165273/4 & 8LR9D01...32DB418880.epsProduct references LR9D01, 02, 08 and 32These self-powered electronic thermal overload relays are designed for direct mounting to contactors LC1D09 through LC1D38. In addition to the protection provided by the Deca thermal overload relays (see page B11/31), they offer the following additional features: bprotection against phase imbalance bchoice of starting class bprotection of unbalanced circuits bprotection of single-phase circuits1 Adjustment dial Ir.2 Test button.3 Stop button.4 Reset button.5 Trip indicator.6 Setting locked by sealing the cover.7 Class 5/10/20/30 dipswitches.8 Reset mode selector.EnvironmentRelay typeLR9D01, 02, 08, 32Conforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.4Product certificationsCCC, CSA, UL, CB, UKCA certificationDegree of protectionConforming to IEC 60529 and VDE 0106IP 20 on front panelAmbient air temperature around the device(Conforming to IEC 60255-8)Storage°C-55 to +80Normal operation°C-25 to +70Maximum operating altitudeWithout deratingm2000Operating positions without deratingIn relation to normal vertical mounting planeAny positionShock resistancePermissible acceleration conforming to IEC 60068-2-2715 g (11ms)Vibration resistancePermissible acceleration conforming to IEC 60068-2-66 g (10-150 Hz)Dielectric strength at 50 HzConforming to IEC 60947-4-1kV6Surge withstand, common modeConforming to IEC 61000-4-5kV2Resistance to electrostatic dischargeConforming to IEC 61000-4-2kV8Immunity to radiatedradio-frequency disturbancesConforming to IEC 61000-4-3 and NF C 46-022V/m10Immunity to fast transient currentsConforming to IEC 61000-4-4kV2Electromagnetic compatibilityDraft EN 50081-1 and 2, EN 50082-2Meets requirementsElectrical characteristics of auxiliary contactsConventional thermal currentA5Max. sealed consumption of the operating coils of controlled contactors (Occasional operating cycles of contact 95-96)a.c. supply, AC-15V2448110220380600VA100200400600600600d.c. supply, DC-13V2448110220––W1001005045––Protection against short-circuitsBy gG or BS fuses or by circuit breaker GB2A5CablingFlexible cable without cable end1 or 2 conductorsmm2 (AWG)1 to 2.5 (18 to 14)Tightening torqueNm (lb-in)0.8 (7)CharacteristicsReferences:page B11/10 Dimensions, mounting: page B11/38Schemes: page B11/39TeSys ProtectDeca Electronic overload relays";i:864;s:1667:"B11/35Overload relaysCharacteristicsReferences:page B11/10 Dimensions, mounting: page B11/38Schemes: page B11/39TeSys ProtectDeca Electronic overload relaysElectrical characteristics of power circuitRelay typeLR9D01LR9D02LR9D08LR9D32Tripping classConforming to IEC/EN 60947-4-15, 10, 20, 30Conforming to UL 60947-4-1, CSA C22.2 n° 60947-4-1 10, 20, 30Rated insulation voltage (Ui)Conforming to IEC 60947-4-1V AC1000Rated operational voltage (Ue)Conforming to IEC 60947-4-1V AC690Conforming to UL/CSAV AC600Rated impulse withstand voltagekV6Frequency limitsOf the operating currentHz50...60 Setting rangeA0.1...0.50.4...21.6...8 6.4...32Power circuit connectionsWire size - 1 or 2 conductorsmm2 (AWG)1 to 16 (14 to 6)Tightening torqueNm (lb-in)3.1 (28)Operating characteristicsConsumptionmW< 300Tripping thresholdsConforming to IEC 60947-4-1A1.25 InSensitivity to phase unbalanceConforming to IEC 60947-4-1Phase difference > 40%, tripping in 3 sCurrent setting ratio5:1Automatic reset timemin.1.5...4LR9D01, 02, 08, 32 tripping curvesClass 5 Trip curveClass 10 Trip curve10001001010,1012345678DB432871.epsTripping time in secondsx the setting current (Ir)10001001010,1012345678DB432872.epsTripping time in secondsx the setting current (Ir)Class 20 Trip curveClass 30 Trip curve10001001010,1012345678DB432873.epsTripping time in secondsx the setting current (Ir)10001001010,1012345678DB432874.epsTripping time in secondsx the setting current (Ir) Cold status Hot status Phase low and Phase unbalance Cold status Hot status Phase low and Phase unbalance Cold status Hot status Phase low and Phase unbalance Cold status Hot status Phase low and Phase unbalance";i:865;s:2809:"B11/36Overload relaysIr(A)15090127107NO9798NC9596231456LR9D5367...D5569DF567979_1.epsDescription: LR9D5367...LR9D5569, LR9D67, LR9D69These electronic thermal overload relays are designed for use with contactors LC1D115 and D150.In addition to the protection provided by Deca thermal overload relays (see page B11/27), they offer the following special features: bprotection against phase imbalance bchoice of starting class bprotection of unbalanced circuits bprotection of single-phase circuits balarm function to avoid tripping by load shedding.1 Adjustment dial Ir.2 Test button.3 Stop button.4 Reset button.5 Trip indicator.6 Setting locked by sealing the cover.7 Class 10/class 20 selector switch.8 Selector for balanced load /unbalanced load AlarmNO9798NC959617823465Ir(A)15090127107+24 V- / 1031041020ClassLoadLR9D67 and D69DF567980_1.epsEnvironmentRelay typeLR9D5367...LR9D5569, LR9D67, LR9D69Conforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.4Product certificationsUL, CSA, CCC, ABS, BV, DNV-GL, UKCADegree of protectionConforming to IEC 60529 IP 20 on front panel with protective covers LA9D11570p or D11560pClimatic withstandaccording to IACS E10Ambient air temperature around the device(Conforming to IEC 60255-8)Storage°C- 40...+ 85Normal operation°C- 20...+ 55 (1)Maximum operating altitudeWithout deratingm2000Operating positions without deratingIn relation to normal vertical mounting planeAny positionShock resistancePermissible acceleration conforming to IEC60028-2-2713 gn - 11 msVibration resistancePermissible acceleration conforming to IEC 60068-2-62 gn - 5...300 HzDielectric strength at 50 HzConforming to IEC 60947-4-1kV6Surge withstandConforming to IEC 61000-4-5kV6Resistance to electrostatic dischargeConforming to IEC 61000-4-2kV8Immunity to radiatedradio-frequency disturbancesConforming to IEC 61000-4-3 V/m10Immunity to fast transient currentsConforming to IEC 61000-4-4kV2Electromagnetic compatibilityEN 50081-1 and 2, EN 50082-2Meets requirementsElectrical characteristics of auxiliary contactsConventional thermal currentA5Max. sealed consumption of the operating coils of controlled contactors (Occasional operating cycles of contact 95-96)a.c. supply V2448110220380600VA100200400600600600d.c. supply V2448110220440–W100100504525–Protection against short-circuitsBy gG or BS fuses or by circuit breaker GB2A5CablingFlexible cable without cable end1 or 2 conductorsmm2Minimum c.s.a.: 1Maximum c.s.a.: 2.5Tightening torqueNm1.2(1) For operating temperatures up to 70 °C, please consult your Regional Sales Office.CharacteristicsReferences:page B11/10 Dimensions, mounting: page B11/38Schemes: page B11/39TeSys ProtectDeca Electronic overload relays";i:866;s:1810:"B11/37Overload relaysCharacteristicsElectrical characteristics of power circuitRelay typeLR9D5367...LR9D5569, LR9D67, LR9D69Tripping classConforming to IEC/EN 60947-4-1, UL 60947-4-1, CSA C22.2 n° 60947-4-110 or 20Rated insulation voltage (Ui)Conforming to IEC 60947-4-1V1000Conforming to UL, CSAV600Rated impulse withstand voltage(Uimp)kV8Frequency limitsOf the operating currentHz50...60 (1)Setting rangeDepending on modelA60...150Power circuit connectionsWidth of terminal lugmm20Clamping screwM8Tightening torqueN.m18Operating characteristicsTemperature compensation°C- 20...+70Tripping thresholdsConforming to IEC 60947-4-1AlarmA1.05 ±0.06 InTripA1.12 ±0.06 InSensitivity to phase failureConforming to IEC 60947-4-1Tripping in 4 s ±20 % in the event of phase failureAlarm circuit characteristicsRated supply voltaged.c. supplyV24Supply voltage limits V17...32Current consumptionNo-loadmAy 5Switching capacitymA0...150ProtectionShort-circuit and overloadSelf protectedVoltage dropClosed stateVy 2.5CablingFlexible cable without cable endmm20.5...1.5Tightening torqueN.m0.45(1) For other frequencies and for applications involving the use of these overload relays with soft starters or variable speed drives, please consult your Regional Sales Office.LR9D5367...LR9D5569, LR9D67, LR9D69 tripping curves11001010,103245678121000sClasse 10 20 10 Class 10 classKlasse 10 Clase 10 Classe 20 Class 20 Klasse 20 Clase 20LR9 Dp3pp LR9 Fp3pp LR9 Dpp LR9 Fpp11001010,103245678121000s20 10 classLR9 Dp5pp LR9 Fp5ppLR9 DppLR9 FppTripping time in secondsDB439805.aiAverage operating time related to multiples of the setting current1 Cold state curve2 Hot state curveReferences:page B11/10 Dimensions, mounting: page B11/38Schemes: page B11/39TeSys ProtectDeca Electronic overload relaysTripping time in seconds";i:867;s:702:"B11/38Overload relaysDimensions, mountingTeSys ProtectDeca Electronic overload relaysLR9D01, 02, 08, 32b80cDB418846.eps45DB418847.epsLC1D09...D18D25...D38b130140cSee pages B8/65 and B8/66LR9D01...32286.137,585LAD 7B205DB418850.eps45DB418851.eps5053510615DB418852.epsLR9D53pp, LR9D55pp, LR9D67, LR9D69LR9DDirect mounting beneath contactors LC 1D115 and D150“Reset” by flexible cableLA7D305 and LAD7305Mounting with cable straight132120d174255136DF533588.epsAM1 DP200 and DR200DE200 and EDpppd2.510.5ceDF533597.eps e: up to 20 mm / c: up to 550 mmMounting with cable bentM10x1eDF533598.eps e: up to 20 mmReferences:page B11/10 Characteristics: pages B11/34 to B11/37Schemes: page B11/39";i:868;s:813:"B11/39Overload relaysLR9D01, 02, 08, 3213524697989695TestStopAutoMan.ResetDF564943.epsLR9D01, 02, 08, 32, LR9 D110SLR9D5ppp6/T34/T22/T15/L3979598963/L21/L1KM1KM1KM130 A246M L1L2L33 Stop Start LR9D●●●DB418845.eps95976/T34/T22/T196985/L33/L21/L1 M A 1314 KM KM1123456M L1L2L3(1) KM A1A2(4)(2)N(3)3(3)_____u112%TestStopMan. reset.DF537828.eps(1) Tripped.(2) Overload.(3) Setting current.(4) Specialised circuit.LR9D67 and LR9D6995976/T34/T22/T196985/L31031043/L21/L1 M A 1314KM KM1123456M L1L2L3(1) KM A1A2(4)(2)(5)N(3)3(3)(5)++0 V_____u112%u105%TestStopMan. reset.DF537829.eps(1) Tripped.(2) Overload.(3) Setting current.(4) Specialised circuit.(5) Alarm.SchemesReferences:page B11/10 Characteristics: pages B11/34 to B11/37Dimensions: page B11/38TeSys ProtectDeca Electronic overload relays";i:869;s:1473:"B11/40Overload relaysTeSys ProtectGiga Electronic overload relaysCharacteristicsIntroduction:pages B11/11 to B11/12References:pages B11/13 to B11/14Dimensions:page B11/43EnvironmentContactor typeLR9G115LR9G225LR9G500LR9G630Conforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.4Product certificationsCB Scheme, CCC, cULus, UKCA, ATEX, EU-RO-MR by DNVDegree of protectionConforming to IEC 60529 / VDE 0106IP 20 on front of relay with accessories LA9G37ppClimatic withstandaccording to IACS E10Ambient air temperaturearound the device (conforming to IEC 60255-8)Storage°C-55...+80Normal operation°C-25...+60Maximum operating altitudeWithout deratingm3000Net weightkg1.21.72.8Operating positions without deratingIn relation to normal vertical mounting plane / floor mountingAny positionShock resistance 11 msPermissible acceleration conforming to IEC 60068-2-715 gn Vibration resistance 5 to 300 HzPermissible acceleration conforming to IEC 60068-2-66 gn Rated impulse withstand voltage (Uimp)Conforming to IEC 60947-4-1kV8Surge withstandConforming to IEC 61000-4-5kV4Resistance to electrostatic dischargeConforming to IEC 61000-4-2kV8 (in air)6 (in direct mode)Resistance to radiatedradio-frequency disturbanceConforming to IEC 61000-4-3V/m20Resistance tofast transient currentsConforming to IEC 61000-4-4kV4Electromagnetic compatibilityEN 50081-1 and 2, EN 50082-2Conforming ";i:870;s:1324:"B11/41Overload relaysTeSys ProtectGiga Electronic overload relaysCharacteristicsIntroduction:pages B11/11 to B11/12References:pages B11/13 to B11/14Dimensions:page B11/43Power circuit - Electrical characteristicsRelay typeLR9G115LR9G225LR9G500LR9G630Rated insulation voltage (Ui)Conforming to IEC 60947-4-1 Over-voltage category III,degree of pollution: 3V1000Rated impulse withstand voltage (Uimp )Conforming to IEC 60947-1kV8Rated operational current (Ie)A28 to 630Short-circuit protection and coordinationSee pages A5/7 to A5/8, A5/23 to A5/26 and A5/38 to A5/39.Frequency limits of the operating currentHz50 / 60Power circuit connectionsWidth of terminal lugmm18183048Clamping screwM8M8M10M12Tightening torqueN.m18183558Auxiliary contact electrical characteristicsConventional thermal currentA5Short-circuit protectionBy gG fusesA6Connection (Push-in type)Min.Max.Flexible cable 1 conductor with cable endmm2 0.252.52 conductors with Dual Sleevemm2 0.51Solid cable1 conductormm2 0.22.5Stripping lengthmm1010Rated operational contact powera.c. supply AC-15V2448120240380480500A4431.50.950.750.72VA96192360360361360360d.c. supply DC-13V2448125250–––A20.70.220.11–––W4833.6 27.5 27.5 –––Maximum operational voltagea.c., category AC-15V500500500500500500500d.c., category DC-13V250250250250250250250";i:871;s:1463:"B11/42Overload relaysTeSys ProtectGiga Electronic overload relaysCharacteristicsOperating characteristicsTripping classConforming to IEC 60947-4-15E/10E/20E/30EOperating temperature°C-40...+60 (1)Resetauto and manualTrip alarm and fault indicationOn front of relayTest functionOn front of relayTripping thresholdsConforming to IEC 60947-4-1Alarm≥ 90% of permissible thermal stateTrippingA1.2 ± 0.05 IrSensitivity to phase lossConforming to IEC 60947-4-1Tripping in 4 s ± 1 s in the event of phase lossPhase imbalanceConforming to IEC 60947-1Tripping in 5 s ± 1 s if imbalance ratio ≥ 40 % according to Annex T5.5Ground faultConforming to IEC 60947-4-1Ig = 0.75 Ir Tripping 1 s ± 20 % if I ≥ 1.1 IgAdjustment (nominal motor current)Setting dial on front of relay (64 settings)Security sealingYe s(1) Adjustment of dial setting(s): -25...+60 °C. LR9G tripping curvesAverage operating times depending on multiples of the setting currentClass 5EClass 10EDB438472.ai0246810121416182010-1100101102103Trip time (s)12I (x Ir)DB438473.ai0246810121416182010-1100101102103Trip time (s)12I (x Ir)1 Hot state 2 Cold state 1 Hot state 2 Cold stateClass 20EClass 30EDB438474.ai0246810121416182010-1100101102103104Trip time (s)12I (x Ir)DB438475.ai02468101214161820100101102103104Trip time (s)12I (x Ir)1 Hot state 2 Cold state 1 Hot state 2 Cold state Introduction:pages B11/11 to B11/12References:pages B11/13 to B11/14Dimensions:page B11/43";i:872;s:538:"B11/43Overload relaysTeSys ProtectGiga Electronic overload relaysDimensions and diagramIntroduction:pages B11/11 to B11/12References:pages B11/13 to B11/14Characteristics:pages B11/40 to B11/42DimensionsLR9G115...630G2JØ3G1DB438402.aiLR9G115-225500630a105.7140210b109.55115.65149.45c126.2139.2185.9G170119.3186.2G2354570J80.168.2586M7883100H525252L6679107P354570Q182535S111.522.522.5S217.530.550Ø18.310.613Ø2910.613Ø35.35.38.5X1303350DiagramTESTAUTOMANU9698951/L13/L25/L32/T14/T26/T397RESETDB438512.aiCLHX1BØ1Ø2S1QPPPaMS2DB438399.ai";i:873;s:4096:"B11/44Overload relaysCharacteristicsIntroductionLR97D and LT47 electronic over current relays have been developed to satisfy machine protection requirements.These relays have definite time characteristics: current threshold and time based function.They are particularly recommended for providing mechanical protection on machines with high resistive torque, high inertia and with strong probability of jamming under steady state conditions. They can be used for motor protection in the case of long starting times or frequent starting.The LR97D relay also incorporates two fixed time protection functions, one of 0.5 seconds against locked rotor and one of 3 seconds against phase failure.LR97D and LT47 can be used to provide mechanical shock protection. In this case, setting the O-Time knob to minimum will ensure tripping in 0.3 seconds. LR97D is designed to be directly connected downstream of the Deca contactor. LT47 provides two current transformers, to be crossed by the motor power cables.ApplicationsLR97D and LT47 relays are particularly suitable for the following machines:b Monitoring function for excessively long starting time on machines with a risk of difficult starting: v Machines with high resistive torque, high inertia machines.b Monitoring of machines during steady state operation: overtorque detection functionv Machines with strong risk of jamming, machines with torque build-up over time, v Mechanical failure monitoring,v Faster detection of malfunctioning on machines where the motor is oversized in relation to its thermal protection I²t.b Motor protection for specific applications:v Machines with long starting times,v Machines with high on-load factor: more than 30 to 50 starts/hour,v Machine with fluctuating load from a steady state, where the thermal image of a thermal overload relay (thermal memory) is unsuitable in relation to actual overheating of the motor.Examples of machines:v Conveyors, crushers and mixers,v Fans, pumps and compressors,v Centrifuges and spin-dryers,v Presses, shearing machines, saws, broaching machines, sanders and lifting hoists. OperationBecause of their two separate time settings, LR97D and LT47 relays can be combined with the motor-starter function:D-Time: starting time, O-Time: trip time during steady state.The D-Time function is only available during the motor starting phase. During this phase the overload detection function is inhibited in order to allow starting. Under steady state conditions, when the motor current is greater than the setting current due to an overload or single-phasing, the red LED lights up and the internal relay switches its contact after a time preset by the O-Time knob.The red LED stays on, indicating that the relay has tripped.The relays are simple to set, in 5 easy steps:- Adjust the 3 knobs to maximum (Load, D-Time and O-Time),- Adjust the D-Time knob to the value corresponding to the motor starting time.- When the motor reaches steady state, adjust the Load knob (turn the knob counter-clockwise until the red LED starts to flicker).- Slowly turn the Load knob clockwise until the LED goes out.- Set the required tripping time, using the O-Time knob. DescriptionDescriptionStatus signallingLR97DpppppLT47pppppLR97DpppppLT47pppppA1A29896TEST/STOP2T14T26T3RESET95182349567DF531695.epsRESETTEST124356710DF531696.epsTo assist fast diagnostics, two LEDs (one green and one red) allow signalling of the operating status:StatusVoltageStartingSteady stateOverloadOnOnOnOffOffLED signalGreen LEDRed LEDOffOffOffOffOffOnOver-currentL1RotorlockedPhasefail -ureTripL2L3DF563948.epsConditionVoltageStartingSteady stateOverloadOnOnOnOffOffLED signalGreen LEDRed LEDTripOffOnDF563947.eps1 RESET knob2 TEST/STOP knob3 Ready/Run Indicator4 Relay tripped indicator5 Current setting6 Adjustment of starting time7 Adjustment of tripping time8 Manual/Auto adjustment9 Single-phase/3-phase adjustment10 Retractable fixing lugs TeSys ProtectLR97, LT47 Electronic over current relaysPB111974.epsLR97DPB111927.epsLT47References:page B11/15Dimensions, mounting: page B11/48Schemes: page B11/48";i:874;s:1651:"B11/45Overload relaysCharacteristicsCurvesLR97DOverload protectionProtection against locked rotor and mechanical jamming under steady state conditions0,5 st959698959698U power supply A1-A23 x I settingSetting currentNormal steady state operationCurrentTripping due to locked rotor or mechanical jamming during steady state operationTripping on overloadStartingLocked rotor on startingMechanical jamming during steady state operationOverloadReset: Manual (1) or electric (3) Reset: Manual (1) automatic (2) or electric (3) D-TimeO-TimeO-TimeBrief overloadDF532218.epsOverload protectionProtection against phase failure during starting and during steady state operation959698959698<3s<3stU power supply A1-A2Setting currentNormal steady state operationCurrentTripping due to phase failureTripping on overloadStartingPhase failureMissing phaseOverloadReset: Manual (1) or electric (3) Reset: Manual (1) automatic (2) or electric (3) D-TimeO-TimeO-TimeBrief overloadDF532219.epsMechanical shock protection959698tO-Time set to minimum (02-03 s)U power supply A1-A2Setting currentNormal steady state operationCurrentTripping to due mechanical shockStartingOverloadD-TimeReset: Manual (1) automatic (2) or electric (3)DF532220.eps (1) By Reset button.(2) Fixed time of 120 s. Selectable by dip switch. Function not available in the event of tripping due to locked rotor/mechanical jamming (I> 3 x I setting) or phase failure.(3) By brief interruption of power supply, minimum 0.1 s.TeSys ProtectLR97, LT47 Electronic over current relaysReferences:page B11/15Dimensions, mounting: page B11/48Schemes: page B11/48";i:875;s:2245:"B11/46Overload relaysCharacteristicsCurvesLT47Overload protectiont98979695U power supply A1-A2Setting currentNormal steady state operationCurrentTripon overloadStartingOverloadD-TimeReset: Manual (1) automatic (2) or electric (3)O-TimeO-TimeBrief overloadDF532221.epsMechanical shock protectiont98979695U power supply A1-A2Setting currentNormal steady state operationCurrentTripping due to mechanical shockStartingOverloadD-TimeReset: Manual (1) automatic (2) or electric (3)O-Time set to minimum (02-03 s)DF532222.eps(1) By Reset button.(2) Only available on version with automatic reset (LT47ppppA). Time adjustable from 1 to 120 s with the R-Time knob.(3) By brief interruption of power supply, minimum 0.1 s.CharacteristicsEnvironmentRelay typeLR97DpppppLT47pppppConforming to standardsIEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5IEC/EN 60947-4-1, IEC/EN 60947-5-1, UL 60947-4-1, CSA C22.2 n° 60947-4-1, UL 60947-5-1, CSA C22.2 n° 60947-5-1, GB/T 14048.5Product certificationsUL, CSA, CCC, EACUL, CSA, CCC, EACDegree of protectionConforming to IEC 60529 IP 20 (front face)IP 20 (front face)Ambient air temperature around the deviceStorage°C- 30...+ 80- 30...+ 80Normal operation without derating (IEC 60947-4-1)°C- 25...+ 60- 25...+ 60Maximum operating altitudem20002000Operating positions without deratingIn relation to normal vertical mounting planeAny positionAny positionShock resistancePermissible acceleration conforming to IEC 60068-2-2715 gn - 11 ms15 gn - 11 msVibration resistancePermissible acceleration conforming to IEC 60068-2-64 gn4 gnDielectric strength at 50 HzConforming to IEC 60947-4-1kV22Surge withstandConforming to IEC 61000-4-5kV66Resistance to electrostatic dischargeIn open airkV8 (level 3)8 (level 3)In direct modekV6 (level 3)6 (level 3)Immunity to radiated radio-frequency disturbanceV/m10 (level 3)10 (level 3)Immunity to fast transient currentskV22Conducted emissionsConforming to EN 55011Class AClass AConducted HF disturbanceConforming to EN 61000-4-6V1010TeSys ProtectLR97, LT47 Electronic over current relaysReferences:page B11/15Dimensions, mounting: page B11/48Schemes: page B11/48";i:876;s:2575:"B11/47Overload relaysCharacteristics CharacteristicsAuxiliary contact characteristicsRelay typeLR97DpppppLT47pppppContact type1 NO/NC1 N/O + 1N/CConventional thermal currentA33Maximum hold consumptionof controlled contactor coils (occasional operating cycles of contact 95-96)Va 24a 48a 110a 220a 24a 48a 110a 220Conforming to IEC 60947VA7014036036070140360360Vc 24c 48c 110c 220c 24c 48c 110c 220W5555282855552828Short-circuit protectionBy gG, BS fuses. Maximum rating or GB2 circuit breakerA33Connection by cable or lug-clampsFlexible cable without cable end1 or 2 conductorsMin.mm21 x 0.751 x 1Max.mm22 x 2.52 x 2.5Flexible cable with cable end1 or 2 conductorsMin.mm21 x 0.341 x 1Max.mm21 x 1.5 + 1 x 2.52 x 2.5External Ø of lugsmm77Ø of screwmmM3M3.5Tightening torqueN.m0.6...1.20.8...1.7Electrical characteristics of power circuitRelay typeLR97D015pp to LR97D25ppLR97D38ppLT47pppppSetting rangeDepending on modelA0.3...380.5...60Tripping classAdjustableAdjustableRated insulation voltage (Ui)Conforming to IEC 60947-4-1V690690Conforming to UL, CSAV600600Rated impulse withstand voltage (Uimp)kV66Frequency limitsOf the operating currentHz50...6050...60Connection by cable or lug-clampsFlexible cable without cable end1 conductorMin.mm21.52.5–Max.1010–Flexible cable with cable end1 conductorMin.mm211–Max.46–External Ø of lugsmm1012–Ø of screwmmM4M4–Tightening torqueN.m22–Operating characteristicsRelay typeLR97DpppppLT47ppppSLT47ppppAAdjustmentCurrentA“Load” knob“Load” knob“Load” knobTimeD-time knobs0.5...300.5...30–O-time knobs0.2/0.3...100.2/0.3...100.2/0.3...30R-time knobs––1...120ResetManualReset buttonReset buttonReset buttonAutomatic120 s fixed–R-time knob: 1-120 sElectricalBy interruption of power supply (minimum 0.1 s)By interruption of power supply (minimum 0.1 s)By interruption of power supply (minimum 0.1 s)Protection functionsOn startingSteady stateOn startingSteady state–Overload Imax > IsettingTrippingInhibited during D-timeAfter O-timeInhibited during D-timeAfter O-timeAfter O-timeLocked rotor, mechanical jamming I > 3 x IsettingTrippingAfter D-time< 0.5 sInhibited during D-timeAfter O-timeAfter O-timeSensitivity to phase failureTripping< 3 s< 3 sInhibited during D-timeAfter O-timeAfter O-timeStatus and fault signalling(see table page 24517/2)2 LEDs2 LEDs2 LEDsTEST/STOP functionTestNo loadNo loadNo loadStopUnder loadUnder loadUnder loadSealingYe sYe sYe sTeSys ProtectLR97, LT47 Electronic over current relaysReferences:page B11/15Dimensions, mounting: page B11/48Schemes: page B11/48";i:877;s:659:"B11/48Overload relaysDimensions, mounting, schemesDimensionsLR97Dpppp LT47pppp 51,51367,545DF526335.eps MountingLR97Dpppp LT47pppp Direct mounting beneath the contactor DF563956.epsb45c67,5561994.epsLC1D09...D18D25...D38Note: Can be mounted on 5 rail.b123137cSee pages B8/76 and B8/77SchemesLR97Dpppp LT47pppp T1T3T2L1L3L2 M3 A1989596A2A1989596A2KM1KM1MCBBL1L2L3LR 97D1314 KM1A1A2StartStopTest/StopResetDF563957.epsA1989596A297LT47L1L2L3KM11314 M3 KM1A1A2MCBBStartStopTest/StopResetDF563958.eps50,870,319,520,477,256711062,26351Ø 12TeSys ProtectLR97, LT47 Electronic over current relaysReferences:page B11/15Characteristics:pages B11/44 to B11/47";i:878;s:177:"C/1Motor management devicesControl and monitoring islandTeSys ActiveT motor management systemC1/1TeSys ActiveIsland motor startersC2/1Par t C2.0COMPONENTSFOR ADVANCED SOLUTIONS";i:879;s:3:"C/2";i:880;s:543:"C1/1Motor management devicesTeSys ActiveT Motor management systemTeSys T Motor management systemTeSys T Motor management controllers with Modbus, or CANopen, Devicenet, Profibus, Ethernet TCP/IP communication portC1/2Extension modules for TeSys T Motor management systemC1/3HMI terminal and cables C1/3AccessoriesC1/4Coordination tables: b fuses (NFC, DIN type aM) + contactor + TeSys T + current transformersb magnetic circuit breaker + contactor + TeSys T + current transformers C1/6Technical Data for Designers C1/13Chapter C1 TeSys Active";i:881;s:1329:"C1/2Motor management devicesControllersSetting rangeControl voltageCurrent rangeReferenceAVAFor Modbus8c 240.4...8LTMR08MBDa 100...2400.4...8LTMR08MFM27c 241.35...27LTMR27MBDa 100...2401.35...27LTMR27MFM100c 245...100LTMR100MBDa 100...2405...100LTMR100MFMFor CANopen8c 240.4...8LTMR08CBDa 100...2400.4...8LTMR08CFM27c 241.35...27LTMR27CBDa 100...2401.35...27LTMR27CFM100c 245...100LTMR100CBDa 100...2405...100LTMR100CFMFor DeviceNet8c 240.4...8LTMR08DBDa 100...2400.4...8LTMR08DFM27c 241.35...27LTMR27DBDa 100...2401.35...27LTMR27DFM100c 245...100LTMR100DBDa 100...2405...100LTMR100DFMFor Profibus DP8c 240.4...8LTMR08PBDa 100...2400.4...8LTMR08PFM27c 241.35...27LTMR27PBDa 100...2401.35...27LTMR27PFM100c 245...100LTMR100PBDa 100...2405...100LTMR100PFMFor Ethernet TCP/IP (communication protocols: Modbus/TCP and EtherNet/IP)8c 240.4...8LTMR08EBDa 100...2400.4...8LTMR08EFM27c 241.35...27LTMR27EBDa 100...2401.35...27LTMR27EFM100c 245...100LTMR100EBDa 100...2405...100LTMR100EFMFilterControl voltageCurrent maxReferenceVmAa 150...240130LTM9FProduct referencesTeSys Active T Motor management systemLTMR08EBDPB121443.epsPB121434.epsLTMR08MBDPB121440.epsLTMR08CBDPB121441.epsLTMR08DBDPB121442.epsLTMR08PBDCharacteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:882;s:1164:"C1/3Motor management devicesProduct referencesExtension modules (with voltage measurement on the 3 phases)Input control voltageNumber of inputsSupply to the electronicsReferenceVc 244Via the controllerLTMEV40BD a 100...2404Via the controllerLTMEV40FMHMI terminalsDescriptionSupply VoltageReferenceOperator control unitLanguages:EnglishFrenchSpanishSupply via the controllerLTMCUOperator control unit with Fast DeviceReplacement Service (FDR)Languages:EnglishFrenchSpanishSupplyvia the controllerLTMCUFKit for portable LTM CULTM9KCUDescriptionNumber and type of connectorsLengthmReferenceConnecting cables for the LTM CU control unit2 x RJ451LTM9CU103LTM9CU30Connecting cablesfor the XBT N410SUB-D 25-way female RJ452.5XBTZ938CablesDescriptionNumber and type of connectorsLengthReferencemConnecting cables For connecting the controller to the extension module2 x RJ450.04LTMCC004 (1)0.3LTM9CEXP031LTM9CEXP10(1) Sold in lots of 6.TeSys Active T Motor management systemLTMEV40BDPB121436.epsLTMCUFPB112374.epsLTMCC004PB121444.epsCharacteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:883;s:1366:"C1/4Motor management devicesProduct referencesConfiguration toolsDescriptionCompositionReferenceWeight kgConnection cable for PCUSB to RJ45 cable, lenght 2.5 mTCSMCNAM3M002P0.200Current transformersOperational currentReferenceWeightPrimarySecondaryAAkg1001LT6CT10010.5502001LT6CT20010.5504001LT6CT4001 0.5508001LT6CT80010.680Earth fault toroids (marketed under the Schneider Electric brand)Rated operational current IeInternal Ø of toroidReferenceWeightAmmkgClosed toroids, type A6530504370.1208550504380.20016080504390.420250120504400.530400200504411.320630300504422.230Split toroids, type OA8546504851.300250110504863.200PTC thermistor probes (3)DescriptionNominal Operating Temperature (NOT)ColourUnit reference (4)°CTriple probes90Green/greenDA1TT090 110Brown/brownDA1TT110120Grey/greyDA1TT120130Blue/blueDA1TT130140White/blueDA1TT140150Black/blackDA1TT150160Blue/redDA1TT160170White/greenDA1TT170(1) The transformers offered for use with Ultra starters are suitable. Please consult our " Ultra starter-controllers " catalogue(2) For use with LTMR08pp controllers.(3) PTC: Positive Temperature Coefficient.(4) Sold in lots of 10.TeSys Active T Motor management systemLT6CT4001PF526393.epsDA1TTpppPB121445.epsCharacteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:884;s:2074:"C1/5Motor management devicesProduct referencesMarking accessories (to be ordered separately)DescriptionCompositionHeightmmUnit reference WeightkgClip-in markers Strips of 10 identical numbers (0 to 9) or capital letters (A to Z)5NSYTRABF5p (1)0.0026NSYTRABF6p (1)0.002Connection accessoriesDescriptionLengthReference WeightmkgFor Modbus connectionCables fitted with 2 x RJ45 connectors0.3VW3A8306R030.0451VW3A8306R100.0653VW3A8306R300.125T-junctions0.3VW3A8306TF030.0321VW3A8306TF100.032RS 485 line terminator–VW3A8306R0.012For CANopen connectionCables50TSXCANCA504.930100TSXCANCA1008.800300TSXCANCA30024.560IP20 connectorsSUB-D 9-way femaleLine end adapter switchElbowed (90°)–TSXCANKCDF90T0.046Straight–TSXCANKCDF180T0.049Elbowed (90°) with SUB-D 9-way connector for connection to PC or diagnostic tool–TSXCANKCDF90TP0.051For DeviceNet connectionCables50TSXCANCA504.930100TSXCANCA1008.800300TSXCANCA30024.560For Profibus DP connection (2)Cables100TSXPBSCA100–400TSXPBSCA400–ConnectorsWith line terminator–490NAD91103–Without line terminator–490NAD91104–With line terminator and terminal port–490NAD91105–For Ethernet TCP/IP connectionShielded twisted pair cables to standard EIA/TIA568Cables fitted with 2 x RJ45 connectors for connection to terminal equipmentStraight2 490NTW00002–5490NTW00005–12490NTW00012–40490NTW00040–80490NTW00080–Shielded twisted pair cables, UL and CSA 22.1 approvedCables fitted with 2 x RJ45 connectorsfor connection to terminal equipmentStraight2490NTW00002U–5490NTW00005U–12490NTW00012U–40490NTW00040U–80490NTW00080U–Ethernet ConnectorElbowed 180°LTM9CE180T (3)0.180(1) When ordering, replace the p in the reference with the number or letter required.(2) To order other connectors and cables (UL cables for harsh environments, etc.), please consult our Customer Care Centre.(3) Sold in packs of 6.TeSys Active T Motor management systemCharacteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:885;s:2256:"C1/6Motor management devicesCoordination: fuses (NFC, DIN type aM) + contactor + TeSys T + current transformersTeSys Active T Motor management system0.37 to 75 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3 400/415 VSwitch-disconnectoraM fusesContactorTeSys T controllerExternal current transformerPIeReference (1)SizeRatingReference (2)ReferenceReferencekWAA0.371.1GS1DD10 x 382LC1D09LTMR08pp–0.551.5GS1DD10 x 382LC1D09LTMR08pp–0.751.9GS1DD10 x 384LC1D09LTMR08pp–1.12.7GS1DD10 x 384LC1D09LTMR08pp–1.53.6GS1DD10 x 384LC1D09LTMR08pp–2.24.9GS1DD10 x 386LC1D09LTMR08pp–36.5GS1DD10 x 388LC1D09LTMR27pp–48.5GS1DD10 x 3810LC1D09LTMR27pp–5.511.5GS1DD10 x 3816LC1D12LTMR27pp–7.515.5GS1DD10 x 3816LC1D25LTMR27pp–1019GSpF14 x 5125LC1D25LTMR27pp–1122GSpF14 x 5125LC1D25LTMR27pp–1529GSpF14 x 5132LC1D32LTMR100pp–18.535GSpF14 x 5140LC1D40ALTMR100pp–2241GSpJ22 x 5850LC1D50ALTMR100pp–3055GSpJ22 x 5880LC1D65ALTMR100pp–3766GSpJ22 x 58100LC1D80LTMR100pp–4580GSpJ22 x 58100LC1D95LTMR100pp–5597GSpKT00125LC1D115LTMR08ppLT6CT200175132GSpLT0160LC1D150LTMR08ppLT6CT2001(1) GSp: GS1 for direct operator, GS2 for external operator.(2) For reversing operation, replace the prefix LC1 with LC2.Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/3590 to 355 kW at 400 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3eSwitch-disconnectoraM fusesContactorTeSys T controllerExternal current transformer400 VProduct typeSizeRatingProduct typeProduct type (1)Ir setting (2)ReferencePIeIqkWAkAAA9016080GSppN1200LC1G185LTMR08ppp160LUTC200111019580GSppN1250LC1G225LTMR08ppp195LUTC400113223080GSppQQ2315LC1G265LTMR08ppp230LUTC400116028080GSppQQ2400LC1G330LTMR08ppp280LUTC400120035080GS2S3500LC1G400LTMR08ppp350LUTC800125043080GS2S3500LC1G500LTMR08ppp430LUTC800131554080GS2S3630LC1G630LTMR08ppp540LUTC800135561080GS2V4800LC1G630LTMR08ppp610LUTC8001(1) Please refer to C1/2 to select the complete reference for TeSys T motor management controller.(2) This setting is a general guidance, Ir should be adjusted according to motor characteristics and conditions of use.";i:886;s:1589:"C1/7Motor management devicesCoordination: magnetic circuit breaker + contactor + TeSys T + current transformersTeSys Active T Motor management system0.06 to 75 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3400/415 VLimiter blockCircuit breakerContactorTeSys T controllerExternal current transformerPIeIqReferenceReferenceReferenceReferenceReferencekWAkA0.060.2130–GV2L03LC1D09LTMR08pp–0.090.3130–GV2L03LC1D09LTMR08pp–0.120.44130–GV2L04LC1D09LTMR08pp–0.180.6130–GV2L04LC1D09LTMR08pp–0.250.85130–GV2L05LC1D09LTMR08pp–0.371.1130–GV2L05LC1D09LTMR08pp–0.41.1130–GV2L05LC1D09LTMR08pp–0.551.5130–GV2L06LC1D09LTMR08pp–0.61.5130–GV2L06LC1D09LTMR08pp–0.751.9130–GV2L07LC1D09LTMR08pp–0.81.9130–GV2L07LC1D09LTMR08pp–1.12.7130–GV2L07LC1D18LTMR08pp–1.53.6130–GV2L08LC1D18LTMR08pp–2.24.9130–GV2L10LC1D18LTMR08pp–36.5130–GV2L14LC1D18LTMR08pp–48.5130–GV2L14LC1D18LTMR27pp–5.511.5130–GV2L16LC1D25LTMR27pp–7.515.550–GV2L20LC1D25LTMR27pp–918.150–GV2L22LC1D25LTMR27pp–112250–GV2L22LC1D25LTMR27pp–152950–GV3L32LC1D40ALTMR100pp–7.515.585GV1L3GV2L20LC1D25LTMR27pp–918.185GV1L3GV2L22LC1D25LTMR27pp–112285GV1L3GV2L22LC1D25LTMR27pp–152985GV1L3GV2L32LC1D40ALTMR100pp–18.53550–GV3L40LC1D50ALTMR100pp–224150–GV3L50LC1D50ALTMR100pp–305550–GV3L65LC1D65ALTMR100pp–376670–GV4LE80SLC1D80LTMR100pp–458070–NSX100HMALC1D115LTMR100pp–Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:887;s:2658:"C1/8Motor management devicesCoordination: magnetic circuit breaker + contactor + TeSys T + current transformersTeSys Active T Motor management system 0.06 to 75 kW at 400/415 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3400/415 VCircuit breakerContactorTeSys T controllerExternal current transformerPIeIqReferenceReferenceReferenceReferencekWAkA559750NSX160NMALC1D115LTMR08ppLT6CT2001559770NSX160HMALC1D115LTMR08ppLT6CT20017513250NSX160NMALC1D150LTMR08ppLT6CT20017513270NSX160HMALC1D150LTMR08ppLT6CT2001Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Substitution tableOld range LT6P multifunction protection relayNew range T controllersMotor currentReferenceReferenceExternal current transformer ReferenceReferenceReferenceExternal current transformer Referencea 100...240 Vc 24 Va 100...240 Vc 24 VI < 5 ALT6P0M005FMLT6P0M005S144–LTMR08pFMLTMR08pBD–5 A < I < 25 ALT6P0M025FMLT6P0M025S144–LTMR27pFMLTMR27pBD–25 A < I < 100 ALT6P0M005FMLT6P0M005S144LT6CT1001LTMR100pFMLTMR100pBD–100 A < I < 200 ALT6P0M005FMLT6P0M005S144LT6CT2001LTMR08pFMLTMR08pBDLT6CT2001200 A < I < 400 ALT6P0M005FMLT6P0M005S144LT6CT4001LTMR08pFMLTMR08pBDLT6CT4001400 A < I < 800 ALT6P0M005FMLT6P0M005S144LT6CT8001LTMR08pFMLTMR08pBDLT6CT800190 to 250 kW at 400 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3eCircuit breakerContactorTeSys T controllerExternal current transformer400 VProduct type (1)Irm(2)Product typeProduct type (3)Ir setting (2)ReferencePIeIqkWAkAAA90160130NSX250● + MA2200LC1G185LTMR08pp160LUTC2001110195130NSX250● + MA2640LC1G225LTMR08pp195LUTC2001132230130NSX400p + MicroLogic 1.3 M3200LC1G265LTMR08pp230LUTC4001150280130NSX400p + MicroLogic 1.3 M3840LC1G330LTMR08pp280LUTC4001200350130NSX630p + MicroLogic 1.3 M5000LC1G400LTMR08pp350LUTC4001220388130NSX630p + MicroLogic 1.3 M5500LC1G500LTMR08pp388LUTC4001250430130NSX630p + MicroLogic 1.3 M6000LC1G500LTMR08pp430LUTC8001300460130NS800L + MicroLogic 5.0 LR OFF8800LC1G630LTMR08pp460LUTC8001335575130NS800L + MicroLogic 5.0 LR OFF9600LC1G630LTMR08pp575LUTC8001(1) Product type to be completed by replacing the ● with the breaking performance code: Rated conditional short-circuit (kA)NSX250●/ NSX400●/ NSX630●NS800●Breaking performance codeFNHSLL400 V365070100130150(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.(3) Please refer to C1/2 to select the complete reference for TeSys T motor management controller.";i:888;s:2219:"C1/9Motor management devicesCoordination: fuses (NFC, DIN type aM) + contactor + TeSys T + current transformersTeSys Active T Motor management system0.37 to 75 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hz in category AC-3Switch-disconnector(1)aM fusesContactorTeSys T controllerExternal current tranformerPIeReferenceSizeRatingReferenceReferenceReferencekWAA0.370.64GSpF14 x 511LC1D09LTMR08pp–0.550.87GSpF14 x 512LC1D09LTMR08pp–0.751.1GSpF14 x 512LC1D09LTMR08pp–1.11.6GSpF14 x 512LC1D09LTMR08pp–1.52.1GSpF14 x 514LC1D09LTMR08pp–2.22.8GSpF14 x 514LC1D09LTMR08pp–33.8GSpF14 x 516LC1D09LTMR08pp–44.9GSpF14 x 516LC1D09LTMR08pp–5.56.7GSpF14 x 518LC1D25LTMR08pp–7.58.9GSpF14 x 5110LC1D25LTMR27pp–1112.8GSpF14 x 5116LC1D25LTMR27pp–1517GSpGT00020LC1D32LTMR27pp–18.521GSpGT00025LC1D32LTMR27pp–2224GSpGT00032LC1D40ALTMR27pp–3032GSpGT00040LC1D50ALTMR100pp–3739GSpJ22 x 5850LC1D65ALTMR100pp–4547GSpJ22 x 5863LC1D80LTMR100pp–5557GSpJ22 x 5880LC1D115LTMR100pp–7577GSpKKT00100LC1D115LTMR100pp–(1) GSp: GS1 for direct operator, GS2 for external operator.Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35110 to 400 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors50/60 Hz in category AC-3eSwitch-disconnectoraM fusesContactorTeSys T controllerExternal current transformer690 VProduct typeSizeRatingProduct typeProduct type (1)Ir setting (2)ReferencePIeIqkWAkAAA11011380GSppKK0125LC1G185LTMR08ppp113LUTC200113213480GSppL0160LC1G265LTMR08ppp134LUTC200116016280GSppN1160LC1G265LTMR08ppp162LUTC200120020380GSppN1200LC1G330LTMR08ppp203LUTC200122022480GSppQQ2250LC1G400LTMR08ppp224LUTC400125025080GSppQQ2250LC1G400LTMR08ppp250LUTC400129029280GSppQQ2315LC1G500LTMR08ppp292LUTC400131531380GSppQQ2400LC1G500LTMR08ppp313LUTC400135535480GS2S3500LC1G630LTMR08ppp354LUTC400140040080GS2S3630LC1G630LTMR08ppp400LUTC8001(1) Please refer to C1/2 to select the complete reference for TeSys T motor management controller.(2) This setting is a general guidance, Ir and Irm should be adjusted according to motor characteristics and conditions of use.";i:889;s:1925:"C1/10Motor management devicesCoordination: magnetic circuit breaker + contactor + TeSys T + current transformersTeSys Active T Motor management system ½ to 20 HP at 480 V - 3PStandard power ratings 480 VLimiter blockCircuit breakerContactorTeSys T controllerExternal current transformerPIeIqReferenceReferenceReferenceReferenceReferenceHPAkA–0.49100–GV2L04LC1D09LTMR08pp––0.64100–GV2L05LC1D09LTMR08pp––0.87100–GV2L05LC1D09LTMR08pp–0.51.1100–GV2L06LC1D09LTMR08pp–0.751.6100–GV2L06LC1D25LTMR08pp–12.165GV1L3GV2L07LC1D25LTMR08pp–1.5365GV1L3GV2L08LC1D25LTMR08pp–23.465GV1L3GV2L08LC1D25LTMR08pp–34.865GV1L3GV2L10LC1D25LTMR08pp–57.665GV1L3GV2L14LC1D25LTMR08pp–7.51165GV1L3GV2L16LC1D25LTMR27pp–101465GV1L3GV2L16LC1D25LTMR27pp–1014100LA9LB920GV2L16LC1D25LTMR27pp–152165GV1L3GV2L22LC1D32LTMR27pp–1521100LA9LB920GV2L22LC1D32LTMR27pp–202765GV1L3GV2L32LC1D40ALTMR100pp–2027100LA9LB920GV2L32LC1D40ALTMR100pp–0.25 to 22 kW at 690 V: type 2 coordinationStandard power ratings of 3-phase motors 50/60 Hzin category AC-3690 VLimiter blockCircuit breakerContactorTeSys T controllerExternal current transformerPIeIqReferenceReferenceReferenceReferenceReferencekWAkA–0.49100–GV2L04LC1D09LTMR08pp––0.64100–GV2L05LC1D09LTMR08pp––0.87100–GV2L05LC1D09LTMR08pp–0.751.1100–GV2L06LC1D09LTMR08pp–1.11.6100–GV2L06LC1D25LTMR08pp–1.52.165LA9LB920GV2L07LC1D25LTMR08pp–2.22.865LA9LB920GV2L08LC1D25LTMR08pp–33.865LA9LB920GV2L08LC1D25LTMR08pp–44.965LA9LB920GV2L10LC1D25LTMR08pp–5.56.765LA9LB920GV2L14LC1D25LTMR08pp–7.58.965LA9LB920GV2L14LC1D25LTMR27pp–910.665LA9LB920GV2L16LC1D25LTMR27pp–1112.865LA9LB920GV2L16LC1D25LTMR27pp–151765LA9LB920GV2L20LC1D32LTMR27pp–18.52165LA9LB920GV2L22LC1D32LTMR27pp–222465LA9LB920GV2L32LC1D40ALTMR100pp–Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35";i:890;s:29:"C1/11Motor management devices";i:891;s:1123:"C1/12Motor management devicesTeSys Control - TeSys ActiveUltra Motor management controllerT Motor management system5043750438504395044050441504425048550486490NAD91103490NAD91104490NAD91105490NTW00012U490NTW00040U490NTW00080UDA1TT090DA1TT110DA1TT120DA1TT130DA1TT140DA1TT150DA1TT160DA1TT170LT6CT1001LT6CT2001LT6CT4001LT6CT8001LTM9BPSLTM9CE180TLTM9CEXP10LTM9CU10LTM9CU30LTM9FLTM9KCULTMCULTMCUFLTMEV40BDLTMEV40FMLTMR08CBDLTMR08CFMLTMR08DBDLTMR08DFMLTMR08EBDLTMR08EFMLTMR08MBDLTMR08MFMLTMR08PBDLTMR08PFMLTMR100CBDLTMR100CFMLTMR100DBDLTMR100DFMLTMR100EBDLTMR100EFMLTMR100MBDLTMR100MFMLTMR100PBDLTMR100PFMLTMR27CBDLTMR27CFMLTMR27DBDLTMR27DFMLTMR27EBDLTMR27EFMLTMR27MBDLTMR27MFMLTMR27PBDLTMR27PFMTSXCANCA100TSXCANCA300TSXCANCA50TSXCANKCDF180TTSXCANKCDF90TTSXCANKCDF90TPTSXPBSCA100TSXPBSCA400VW3A8306RVW3A8306R03VW3A8306R10VW3A8306R30VW3A8306TF03VW3A8306TF10XBTZ938Product referencesThis document is current. Click on the product reference to get the most recent availability status (hyperlink to se.com product datasheet).If your product variant is no longer available, please consult your distributor or regional sales office.";i:892;s:355:"C1/13Motor management devicesTechnical Data for DesignersUltra, T Motor management devicesContentsT Motor management system: > characteristics ......................C1/14 to C1/28 > curves ................................................C1/29 > dimensions ...........................C1/30 to C1/31 > schemes ...............................C1/32 to C1/35";i:893;s:1924:"C1/14Motor management devices1 Magnetic Circuit breaker2 Contactor3 Controller with extension module4 Operator control unit CharacteristicsTeSys Active T Motor management system1 LTMEV40BD extension module2 LTMCC004 2 x RJ45 jumper3 LTMR08MBD controller13PB120124.epsPB123812.eps2IntroductionTeSys T is a motor management system that provides protection, metering and monitoring functions for single-phase and 3-phase, constant speed, a.c. motors up to 810 A. Suitable for the harshest applications, this product range offers:b high-performance multifunction protection, independent of the automation systemb a local HMI control unit for reading, displaying and modifying the parameters monitored, diagnostics, etc.b configuration using SoMove softwareb connection to the automation system via a communication network (selection according to various protocols).ApplicationThe TeSys T motor management system is used for motor control and protection in harsh industrial applications, in which downtime must be avoided because it is very costly: Oil & Gas, chemical industry, water treatment, metal, minerals and mining, pharmaceutical industry, microelectronics, tunnels, airports etc. With TeSys T motor management system, unexpected stops of a process or manufacturing, associated with a motor, are anticipated via predictive analysis of fault situations. Fault tripping is therefore reduced to a minimum. Its use in motor control panels makes it possible to: b increase the operational availability of installationsb improve flexibility from project design through to implementationb increase productivity by making available all information needed to run the system.The motor management system integrates perfectly with Schneider Electric low voltage equipment, such as Okken, Blokset and Prisma.References: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:894;s:2712:"C1/15Motor management devicesCharacteristicsTeSys Active T Motor management systemLTMR08MBDPB121434.epsLTMEV40BDPB121436.epsLTMCUFPB112374.epsIntroductionComposition of the motor management systemThe system comprises:b an LTMR motor management controller v with internal current transformer up to 100 Av above 100 A, by external current transformer up to 810 Ab an LTME extension moduleb an LTMCU operator control unitb configuration software incorporated in the SoMove software applicationb accessories for system set-up.CommunicationThe LTMR controller is equipped with a communication interface to allow remote monitoring and control of the motor. All motor information is then available at automation system level. The following networks are available: b Modbus, CANopen, DeviceNet, ProfiBus DP and Ethernet TCP/IP (with two communication protocols, Modbus/TCP and EtherNet/IP).T system functionsProtection functionsb against thermal overloadb against phase imbalance and phase failureb thermal motor protection via PTC probesb against phase reversalb against earth faultsb against long starting times and motor stallingb against automatic load shedding and restartingb against load fluctuations (I, U, P)b against variations of Cos φ (power factor).Metering functionsb Measurements (rms values):v current on the 3 phasesv voltage on the 3 phases (shedding)v motor temperaturev earth fault.b Values calculated:v average currentv frequencyv Cos φ (power factor), power, power consumption...Motor control functionsA motor managed by TeSys T motor management system can be controlled:b locally, using the logic inputs present on the product, or via the HMI terminalb remotely, via the network (connection by terminal block or connector except for DeviceNet: terminal block only).Motor control modes5 predefined motor control modes are incorporated in the controller:b overload mode: monitoring of motors whose control is not managed by the controller,b independent mode: starting of non-reversing motors,b reverser mode: starting of reversing motors,b 2-step mode: 2-step starting of motors (star-delta, by autotransformer and by resistor),b 2-speed mode: 2-speed starting of motors (Dahlander, pole changer).A 6th “Custom” mode is available to allow the user to create a specific motor control mode that is not predefined in the controller.Statistical and diagnostic functionsb Fault statistics: counters per type of protection and history of the last 5 faults.b Motor statistics: saving of motor statistics values.b Diagnosis of faults affecting correct operation of the product.References: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:895;s:1870:"C1/16Motor management devicesCharacteristicsTeSys Active T Motor management systemLTMRppPB121447.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Controller ref. LTMRThe controller is the central component in the motor management system.It manages the basic functions such as:b measurement of 3-phase current via integral current transformers from 0.4 to 100 A (up to 810 A by external current transformers)b measurement of earth current by external earth fault toroidb measurement of motor temperature by PTC probeb inputs and outputs for the various motor control modes, fault management and associated functions.CharacteristicsSupply2 types of controller power supply are available:b 24 Vcb 100...240 Va.Current ranges3 current ranges allow measurement of motor current from 0.4 to 100 A:b 0.4...8 Ab 1.35...27 Ab 5...100 A.For use with external current transformers, choose the 0.4...8 A range (1 or 5 A current transformer secondary).Inputsb 6 discrete logic inputs.Outputsb 3 relay logic outputs (1N/O).b 1 relay output for fault signalling (1N/O + 1N/C).Measurementsb Connections for a temperature probe.b Connections for an earth fault toroid.Extension module ref. LTMEThe extension module adds the following functionalities to the T controller:b voltage measurement on the 3 phases. This enables it to calculate numerous engine monitoring parameters (power, frequency, Cos φ...)b 4 additional inputs.CharacteristicsInputsb 4 discrete logic inputs (independent).Power suppliesb 2 types of power supply for the inputs: 24 Vc and 100...240 Va. v A 24 Vc expansion module can be assembled with a 24 Vc controller or with a 100...240 Va controller.v A 100...240 Va expansion module can be assembled with a 100...240 Va controller.Voltage measurement between phases up to 690 V nominal.Ref.";i:896;s:2481:"C1/17Motor management devicesCharacteristicsTeSys Active T Motor management systemLTMCUPB121448.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Human/Machine Interfaces (HMI)Depending on the application, 2 types of HMI can be used with the LTMR controller. bThe LTMCU operator control unit: ventirely dedicated to the T range vonly for control/monitoring of an LTMR controller. bA Magelis XBTN410 terminal for control/monitoring of 1 to 8 LTMR controllers.Operator control unit ref. LTMCUDedicated exclusively to T controllers, control unit LTMCU makes it possible to: bconfigure the parameters of the LTMR controller bdisplay information on controller configuration and operation bmonitor the alarms and faults generated by the controller blocal control of the motor via the local control interface (keys can be customised). Three different languages can be loaded into the LTMCU controller at the same time. By default, these 3 languages are: bLTMCU: English, French and SpanishNote: English is the only compulsory language.A language download utility (LangTool), together with all the other languages, are available on the website “www.se.com”.This tool allows the languages present in the LTMCU control unit to be adapted.The LTMCU HMI control unit has an RJ45 port, protected by a flexible cover to provide a good level of protection (IP54). This port on the front panel allows connection to a PC, via a connecting cable, in order to use SoMove software. In this case, the control unit acts as a transmitter and all information can then be viewed in SoMove. The LTMCU HMI can be used as a portable version by using the separate kit LTM9KCU. This kit consists of two snap-on plastic shells (tool-free mounting) fitted with a simple fixing system that uses magnets for mounting on all types of metal surfaces.The Magelis XBT N410 HMI terminalTwo applications have been predefined for T motor management system. Depending on the application loaded, the HMI terminal makes it possible to:b configure and monitor a motor starter (LTM_1T1_V1.dop)b monitor and modify certain parameters on up to 8 motor starters(LTM_1T8_X_V1.dop) (1).XBTL1000 programming software is needed for loading applications into the HMI terminal. These applications are available on the website “www.se.com”.(1) Replace the X with an E for the English version, or an F for the French version.Ref.";i:897;s:1651:"C1/18Motor management devicesCharacteristicsControllers ref. LTMRModbusDeviceNet23467108195PF526381-44-M.eps2347108195PF526382-44-M.epsControllers feature the following on their front panel:1 Controller power supply.2 Input connections.3 Fault outputs (N/O+N/C).4 Port for connection to the HMI terminal, a PC or an extension module (RJ45).5 Controller status LEDs.6 Network port for connection to the network by connector (except DeviceNet) (1).7 Test/Reset button.8 Connection to the network by terminal block (except Ethernet TCP/IP).9 Connection for an earth fault toroid and temperature probes.10 Outputs for motor control mode function.Profibus DPCANopen23467108195PF526383-44-M.eps23467108195PF526384-44-M.epsEthernet TCP/IP (communication protocols: Modbus/TCP and EtherNet/IP)34610129576CPB100751-00.eps(1) Connection using power extension (daisy-chaining) is possible for Ethernet TCP/IP.Extension modules ref. LTMEV40ppOperator control unit ref. LTMCU12354PF526386-22-M.eps1234PF568607-34-M.epsExtension modules have the following on their front face:1 Inputs for voltage measurement.2 Port for connection to the HMI terminal or to the PC.3 Port for connection to the controller.4 Extension module status LEDs.5 Connection of additional inputs.The control unit has the following on its front face:1 Screen LCD display.2 Local control interface including control keys and LEDs.3 RJ45 port on front panel for connection to a PC (protected by a cover).4 Contextual navigation keys.TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:898;s:2836:"C1/19Motor management devicesThermal and current protection functionsFunctionsSetting rangeController LTMRController and extension module (LTMR + LTME)Alarm thresholdFault thresholdDescriptionThermal overload: thermal protection of motor by monitoring current consumptionClass: 5, 10, 15, 20, 25, 30.Inverse ther/definite time Motor temperature: thermal monitoring of the motor using temperature probes (winding, paper...). Up to 3 sensors in series.PTC binary PTC/NTC analogue: 20 ...6500 Ohm Phase imbalance: monitors the symmetry of currents. To be used for imbalance < 80 % of the average current (1).10...70% I average 0.2...20 sPhase failure: monitors the symmetry of currents. To be used for imbalance < 80 % of the average current (1).0.1...30 sPhase reversal: signals when the phase sequence is different from the defined sequence (motor running).A-B-C A-C-BLong starting time: monitors the motor starting time100...800 % of FLC (2) 1...200 sLocked rotor: locking detected by a sudden increase in current after the start phase100...800 % of FLC (2) 1...30 sMin/max current load limit variations: monitors motor load through variations of current around preset thresholds.min.: 30...100 % of FLC (2) 1...200 smax.: 20...800 % of FLC (2) 1...250 sEarth fault: signals internal insulation faults, by vectorial summing of external currents, via earth fault toroid.internal: 50...500 % min FLC (2) 0.5...25 sexternal: 0.02...21 A 0.1...25 sFrequent starting: Protects the motor against overheating due to frequent starting.0...999.9 sVoltage and power protection functionsPhase imbalance: monitors the symmetry of voltage between phases. To be used for imbalance < 40 % of the average voltage (3).3...15 % 0.2...20 sPhase failure: monitors the symmetry of voltage between phases. To be used for imbalance > 40 % of the average voltage (3).0.1...30 sPhase reversal: signals when the phase sequence is different from the defined sequence (motor stopped).A-B-C A-C-BVoltage variations. Min/max voltage limits: monitors voltage variations around preset thresholds.min.: 70...99 % 0.2...25 s max.: 101...115 % 0.2...25 sLoad shedding: opens outputs O.1 and O.2 if voltage drops below a preset threshold.68...115 % 1...9999 sPower variations. Min/max power limits: monitors power variations around preset thresholds.20...800 % 1...100 sVariations of Cos φ. Min/max limits of Cos φ: monitors variations of Cos φ around preset thresholds.0...1 s 1...25 sFunction performed. (1) Average current value measured on the 3 phases.(2) FLC: Full Load Current (setting current).(3) Average voltage value measured on the 3 phases.Characteristics TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:899;s:1920:"C1/20Motor management devicesCharacteristicsMotor control functionsFunctionsDescriptionWith controller LTMRWith controller LTMR and extension module LTMEControl modes Local, via terminal blockbbLocal, via HMI terminal (1)bbRemote, via networkbbOperating modesOverloadbbIndependentbbReverserbb2-stepbb2-speedbb"Custom" modebbFault managementManual resetbbAutomatic resetbbRemote resetbbMetering functions and statisticsFunctionsDescriptionMeasurement rangeWith controller LTMRWith controller LTMR and extension module LTMEMeasurements (2)Current/Phase0.08...1000 AbbEarth current0.1633 x CT ratiobbAverage current0.08...1000 AbbCurrent imbalance between phases0...200 %bbThermal capacity level0...200 %bbMotor temperature rise0...6500 OhmbbFrequency0... 100 HzbVoltage between phasesa 0...830 VbVoltage imbalance between phases0...200 %bActive power0...6553.5 kWbReactive power0...6553.5 kWrbCos φ (power factor)0...100bActive power consumption0...400 kWhbReactive power consumption0...400 kWrhbFault statisticsProtection fault countersbbProtection alarm countersbbDiagnostic fault countersbbMotor control function countersbbFault historybbFault diagnosticsInternal watchdog faultbbController internal temperaturebbTemperature sensor connectionbbCurrent connectionbbVoltage connectionbMotor control commands (start, stop, run check back and stop check back)bbControl configuration checksumbbLoss of communicationbbMotor statisticsNumber of motor control commands (O.1/O.2 starts)bbOperating timebbNumber of starts/hourbbLast start I max.bbDuration of last startbbThermal overload statisticsTime to tripbbTime to restartbbSystem operating statisticsRun, ON, Start, alarm, fault.bb(1) HMI: Human Machine Interface.(2) See measurement details page C1/26.TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:900;s:858:"C1/21Motor management devicesEthernet: different network topologiesStar topology In a star topology, all the peripherals are linked via an intermediate peripheral (hub or switch).In industrial Ethernet applications, the use of full duplex switches (instead of hubs) as central peripherals is strongly recommended.Daisy chain topologyDaisy chaining, at bus level, is another connection topology commonly used in industrial automation system networks. The cable segments link several peripherals to each other, constituting the peripheral "section" of the network cable.CharacteristicsTeSys Active T Motor management systemTe Sys TTe Sys TTe Sys TTe Sys TStar topologyDB438463.epsTe Sys TTe Sys TTe Sys TDaisy chain topologyDB438464.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:901;s:2065:"C1/22Motor management devicesEthernet: different network topologiesRing topologyIn a ring topology, all the peripherals or components of the network infrastructure are connected within a loop. This type of topology makes it possible to achieve different levels of redundancy of the network.Ethernet ring Ethernet rings are generally the main networks in applications where a high level of reliability is required. If a ring topology is required, the switches handling this function must be used.RedundancyRedundancy of the network infrastructure is the key to development of applications with high operational reliability. Implementing a single or double ring architecture makes it possible to provide protection against breaks in network segments.Single ringThe first level of redundancy can be achieved by installing a single ring.ConneXium switches can be used to establish main network ring configurations.The ring is created using RSTP protocol. If a section of the line fails, the ring structure converts into a line type configuration.Ethernet: different communication protocolsLTMR controllers communicating over an Ethernet network can communicate either using the Modbus/TCP communication protocol or using the EtherNet/IP communication protocol. Both protocols are loaded in the controller. One must be selected for the operation.Note: EtherNet/IP communication protocol is supported by ODVA, also promoter of DeviceNet communication solution. Note that in EtherNet/IP, IP stands for Industrial Protocol. bIP address Class for Ethernet TCP/IP version: Class A 20 ETH10/100.Services available on Ethernet TCP/IP version In Modbus/TCPIn Ethernet/IPWeb ServerbbModbus messagingbIO MessagingbExplicit MessagingbClient FDRbbSNMP network administratorbbRSTPbbDiscoverybbMaster IPb bBroadcast Storm Protectionbb CharacteristicsTeSys Active T Motor management systemTe Sys TTe Sys TTe Sys TTe Sys TRing topologyDB438465.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:902;s:344:"C1/23Motor management devicesPossible configurations and applicationsLTMCUTe Sys TTe Sys TTe Sys TSoMoveLTMCUSoMoveDB438466.epsPLC (automation platform)Network or busorCharacteristicsTeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:903;s:1787:"C1/24Motor management devicesCharacteristicsConfiguration with SoMoveThe T configurator is incorporated in the SoMove software application, as from version 2.5. (1)It allows configuration, commissioning and maintenance of motor startersprotected by TeSys T motor management system.A library containing predefined motor control mode functions is available in order to:b allow standardisation b avoid errorsb reduce motor starter setup times. 5 predefined motor control modes are incorporated in the controller:b overload mode: monitoring of motors whose control is not managed by the controllerb independent mode: starting of non-reversing motorsb reverser mode: starting of reversing motorsb 2-step mode: 2-step starting of motors (star-delta, by autotransformer and by resistor)b 2-speed mode: 2-speed starting of motors (Dahlander, pole changer).By using logic functions, a "Custom" mode makes it possible to:b easily adapt these predefined motor control mode functions to the specific needs of your applications b create a link with the motor starter environment or b create new functions. The functions thus defined can be saved and used to build your function library for future applications.To create special functions, a logic editor is incorporated in the configurator and allows a choice of 2 programming languages:b function blockb structured text.(1) An update file is available, free of charge, on the website “www.se.com”. It will enable you to take advantage of the latest functions in the T motor management system.TeSys Active T Motor management systemExample of T configurator setup screenPB113436.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:904;s:2811:"C1/25Motor management devicesCharacteristicsEnvironmentProduct typeLTMR controllersLTMEV40pp extension modulesConforming to standardsIEC/EN 60947-4-1, UL60947-4-1A, CSA 22-2 n°60947-4-1, IACS E10Product certificationsUL, CSA, CE, CCC, UKCA, EAC/GOST, RCM/CTIC’K, Atex, Marine (BV, LROS, DNV, RINA, ABS) (1)Rated insulation voltage of the outputs (Ui)Conforming to IEC/EN 60947-1, overvoltage category III, degree of pollution 3V690Conforming to UL 508, CSA C222 n° 14V690Rated impulse withstand voltage (Uimp)Conforming to IEC/EN 60947-4-1a 100...240 V supply, inputs and outputskV44c 24 V supply, inputs and outputskV0.80.8Communication circuitskV0.8–Current or voltage measurement circuitkV66Short-circuit withstandConforming to IEC/EN 60947-4-1kA100Climatic withstandConforming to IEC/EN 60068-2-3012 x 24 hour cyclesConforming to IEC/EN 60070-2-11h48Ambient air temperature around the deviceStorage°C- 40...+80Operation°C- 20...+60Operating position without datingIn relation to normal vertical mounting plane±30° in relation to mounting plate, ±90°DF568612.epsDF568613.epsFlame resistanceConforming to UL 94°C960 (for parts supporting live components)Conforming to IEC/EN 60695-2-12°C650 (for other parts)Shock resistance (1/2 sine wave, 11 ms)Conforming to IEC/EN 60068-2-27 (2)15 gnVibration resistanceConforming to IEC/EN 60068-2-6 (2)5...300 Hz4 gn (plate mounted)1 gn (mounted on 5 rail)Resistance to electrostatic dischargeConforming to IEC/EN 61000-4-2kVIn open air: 8 - Level 3On contact: 6 - Level 3Immunity to radiated electromagnetic interferenceConforming to IEC 61000-4-3V/m10 - Level 3Immunity to fast transient burstsConforming to IEC 61000-4-4 kVOn supply and relay outputs: 4 - Level 4Other circuits: 2 - Level 3Immunity to radioelectric fields (3)Conforming to IEC/EN 61000-4-6V10 - Level 3Immunity to dissipated shock wavesConforming to IEC/EN 61000-4-5Common modeSerial modeCommon modeSerial modeRelay outputs and supplykV42––c 24 V inputskV1111a 100...240 V inputskV2121Voltage inputskV––42CommunicationkV2–2–Temperature sensor (IT1/IT2)kV10.5––Altitude derating2000 m3000 m3500 m4000 m4500 mRated operational voltage (Ui)10.930.870.80.7Max. operating temperature10.930.920.90.88(1) Certain certifications are pending; please consult your Customer Care Centre.(2) Without modifying the contact states, in the most unfavorable direction.(3) This product has been designed for use in environment A and in B, it may cause unwanted electromagnetic disturbance to other devices, which may require the implementation of adequate mitigation measures.TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:905;s:2632:"C1/26Motor management devicesCharacteristicsController and extension module characteristicsProduct typeControllersExtension modulesLTMRpppBDLTMRpppFMLTMEV40BDLTMEV40FMControl supplyOperational voltage (U)Conforming to IEC/EN 60947-1Vc 24a 100...240–Resistance to voltage dipsConforming to IEC/EN 61000-4-11V0 for 3 ms 70 % of U for 500 ms–Associated protectionAgG fuse, 0.5–Operational voltageLimit valuesVc 20.4...26.24a 93.5...264–Current consumption50/60 HzmAc 56...127a 8...62.8–ConnectorsPitchmm5.085.08Flexible cable without cable end1 conductormm20.2...2.50.2...2.52 identical conductorsmm20.2...1.50.2...1.5Flexible cable with cable endWithout insulated ferrule1 conductormm20.25...2.50.25...2.52 identical conductorsmm20.5...1.50.5...1.5With insulated ferrule1 conductormm20.25...2.50.25...2.52 identical conductorsmm20.2...10.2...1Solid cable without cable end1 conductormm20.2...2.50.2...2.52 identical conductorsmm20.2...10.2...1Conductor sizeAWG24 to AWG14AWG24 to AWG14Tightening torqueN.m0.5...0.60.5...0.6Flat screwdrivermm33Input characteristicsNominal valuesConforming to IEC/EN 61131-1Type 1 positive logic (c: resistive, a: capacitive)VoltageVc 24a 100...240c 24a 100...240CurrentmAc 7a 3.1 for 100 V a 7.5 for 240 Vc 7a 3.1 for 100 V a 7.5 for 240 VLogic inputsLogic state 1VoltageV15 min79 < U < 26415 min79 < U < 264CurrentmA2 min...15 max2 min at 110 V... 3 min at 220 V2 min...15 max2 min at 110 V... 3 min at 220 VLogic state 0VoltageV5 max0 < U < 405 max0 < U < 40CurrentmA15 max15 max15 max15 maxResponse timeChange to state 1ms15251525Change to state 0ms525525Output characteristicsType Volt free, single breakLoada250 V / 5 A B300c30 V / 5 APermissible power in cat. AC-15For 500 000 operating cyclesVA480 / Ie max: 2 APermissible power in cat. DC-13For 500 000 operating cyclesW30 / Ie max: 1.25 AAssociated protectionAgG fuse, 4Max. frequencyHz2Max. operating levelop. cycles/h1800Response timeChange to state 1ms10 maxChange to state 0ms10 maxMeasurement detailsCurrent1 % for the 0.4...8 A and 1.35...27 A ranges 2 % for the 5...100 A rangeVoltage1 % from 100 to 830 VEarth fault currentInternal measurement without earth fault toroid5...15 % for current > 0.1 A in the 0.4...8 A range current > 0.2 A in the 1.35...27 A range current > 0.3 A in the 5...100 A rangeExternal measurement with earth fault toroid< 5 % or 0.01 ATemperature measurement2 %Power factor10 %Active and reactive power15 %Internal clock±30 min / yearTeSys ActiveT Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:906;s:2188:"C1/27Motor management devicesBus and network characteristicsType of bus/networkModbusCANopenDeviceNetProfibus DPEthernetPhysical interface2-wire RS 485ISO 11898ISO 11898polarised 2-wire RS 485IEEE 802.3Addressing1 to 2471 to 1271 to 641 to 1250 to 159 (1)Transmission speeds1.2 to 19.2 kb/s10, 20, 50, 125, 250, 500, 800 and 1000 kb/s + Auto baud125 to 500 kb/s9.6 kb to 12 Mb/s10/100 Mb/s, with automatic recognitionConnectionsRJ45/terminal block9-way SUB-D/terminal blockTerminal block9-way SUB-D/terminal blockRJ45Cables2 shielded twisted pairs4 twisted, shielded wires4 twisted, shielded wires2 shielded twisted pairs, type A2 shielded twisted pairsLTMCU operator control unitEnvironmentConforming to standardsIEC/EN 61131-2, UL60947-4-1A, CSA 22-2 n°60947-4-1Product certificationsUL, CSA, CE, EAC/GOST, RCM/CTIC’KAmbient air temperature around the deviceStorage°C-40...+80Operation°C-20...+60Relative humidity15...95 % without condensationClimatic withstandConforming to IEC/EN 60068-2-3012 x 24 hour cyclesDegree of protectionConforming to IEC 60947-1IP54Shock resistance Conforming to IEC/EN 60068-2-2715 gn / 11msVibration resistanceConforming to IEC/EN 60068-2-65...300 Hz4 gnFlame resistanceConforming to IEC 60947-1°C650Conforming to UL 94V2Electrical characteristicsSupply to the productPowered via the controllerMaximum currentmA140Maximum power dissipatedW1Resistance to electromagnetic dischargeConforming to IEC/EN 61000-4-2kVIn open air: 8. Level 3On contact: 4. Level 3Immunity to radiated electromagnetic interferenceConforming to IEC/EN 61000-4-3V/m10 - Level 3Immunity to fast transient burstsConforming to IEC/EN 61000-4-4kV2, shielded access. Level 3Immunity to radioelectric fieldsConforming to IEC/EN 61000-4-6V10. Level 3Immunity to shock wavesConforming to IEC/EN 61000-4-5kV2, shielded access. Level 3Physical characteristicsMountingFlush mountedDisplayBacklit LCDSignallingBy 4 LEDsCablingRJ45(1) For DHCP, stored IP, adressing limited by subnet mask.CharacteristicsTeSys Active T Motor management systemReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:907;s:1706:"C1/28Motor management devicesCharacteristicsLT6CTpppp external current transformer characteristicsConforming to standardsIEC 60185, BS 7626PrecisionClass 5PPrecision limit factor15Rated insulation voltage (Ui)690Maximum operating temperature°C50Transformer ratioA100/1200/1400/1800/1Diameter of conductor passage holemm35353535Maximum cabling c.s.a.mm230 x 1030 x 1030 x 10incorporated (1)Earth fault toroid characteristicsToroid type5043750438504395044050441504425048550486Rated insulation voltage UiV1000Operating temperature°C- 35...+ 70Protection indexIP30 (connections IP20)Transformer ratio1/1000Rated operational current leA658516025040063085250Max. conductor c.s.a. per phasemm22550952402 x 1852 x 24050240DA1TTpp probe characteristicsConforming to standardsIEC 60034-11 mark AEconomy resistorAt 25 °CΩ3 x 250 in seriesRated operational voltage (Ue)Per probeVc 2.5 maxRated insulation voltage (Ui)kV2.5InsulationReinforcedLength of connecting cablesBetween probesmm250Between probe and motor terminal platem1Guaranteed operating zones: example with 3 probes type DA1TTppp (250 Ω at 25 °C) in series, conforming to standard EC 60034-11, mark A. 1 3 probes type DA1ppp (250 Ω at 25 °C) in series.NOT: Nominal Operating Temperature.Protection unit tripped.Protection unit reset.(1) Electrical connection to be made using M10 bolt.TeSys Active T Motor management system10 000400010010-202075010001650150001Economy resistor(ohms)Trip zoneReset zoneTrip zone on probe short-circuitTemperature (°C)NOT + 15 °CNOT + 5 °CNOT - 20 °CNOT - 5 °CNOTDF568614.epsReferences: pages C1/2 to C1/9Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:908;s:459:"C1/29Motor management devicesTripping curvesCold state curves Hot state curves TeSys Active T Motor management system10 0001000100101t (s)I/Ir11,121,52345678Class 5Class 10Class 15Class 20Class 25Class 30DF568616.eps10 0001000100101t (s)I/Ir11,121,52345678Class 5Class 10Class 15Class 20Class 25Class 30DF568615.epsReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Dimensions, mounting: pages C1/30 to C1/31Schemes: pages C1/32 to C1/35Ref.";i:909;s:723:"C1/30Motor management devicesDimensions, mountingLTMRpp controllers5,291(2)(2)122,5 (1)6130,2(2)(2)DF568617.epsLTMEV40pp extension modules5,545120,7 (1)6130,2DF568618.epsLTMCU operator control unitPanel mounting, cut-out235011770DF568610.eps9245DF568611.epsLTM9F68,9 17,884,495,4DB403366.eps(1) 140 mm with RJ45 connector for connection to extension module and to network, 166 mm with Profibus DP/CANopen connector.(2) Leave a gap around the device of: 9 mm at 45 °C, 9 to 40 mm from 45 to 50 °C, 40 mm at 60 °C.TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Schemes: pages C1/32 to C1/35Ref.";i:910;s:970:"C1/31Motor management devicesDimensionsCurrent transformersHMI terminalLT6CTXBTN4102,5352555259535107304210102,52042,542,555DF568619.eps13274 (1)6(2)DF568620.eps(1) 104 mm with fixing clips (supplied with the product).(2) 58 mm with SUB-D 25-way elbowed cable XBTZ9680 for Twido, TSX Micro and Premium or XBTZ998 for Advantys STB. 104 mm with SUB-D 25-way cable XBTZ68/Z9681 for Twido, TSX Micro and Premium.Earth fault toroids50437 and 5043850439, 50440 and 50441c1c28Hb1b2921416DF568621.epsHaGa1Jc1b2Kb1DF568622.epsTypebb1Øcc1c2HTypeaa1Øbb1b2Øcc1GHJK504378353306031505043926.5441228055801503565126405043810966508745605044026.54416480551201903565166405044129462561209019627437104254605044250485 and 5048634429299DF568623.epsaGDF568624.epsTypeaØbØcG50485721484657504867822411076TeSys Active T Motor management systemReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Schemes: pages C1/32 to C1/35Ref.";i:911;s:1178:"C1/32Motor management devicesSchemesSchemesLTMRppFM wiring with LTM9F filterKM1O. 1O.2O.3LTMRA1131423243334Z1Z2T1T2A2I.1I.2I.3I.4I.5I.697989596CCCStartO. 4StopI7 C7 I8 C8 I9 C9 I10 C10 LV1 LV2 LV33aKM1LaNaI7I8I9I10LTM9F A2A1NLN LIe 0.13 A Ue 150-240 V 50/60 HzLTMEDB414749.epsNote: inputs MUST be connected across the common terminals (C).Overload modeIndependent mode3-wire local-control3-wire local-controlLTM R24333413142396959897I.6CI.5I.4CI.3I.2CI.1A2A1– KM1– KM1O.1O.2O.3O.4 M 3KM1StopStart(1)DB403368.epsDB414718.eps(1) Connection of a single-phase motor is possible. In this case, do not use the central current transformer.2-wire local-control3-wire with switchable local/network control2-wire with switchable local/network control96959897I.6CI.5I.4CI.3I.2CI.1O.4Start/StopDF568627.eps96959897I.6CI.5I.4CI.3I.2CI.1O.4NLOStartStopDF568628.eps96959897I.6CI.5I.4CI.3I.2CI.1O.4NLODF568629.epsL: Local controlO: StopN: Network controlTeSys Active T Motor management systemStartStopReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Ref.";i:912;s:760:"C1/33Motor management devicesSchemesSchemesReverser mode3-wire local-controlLTM R24333413142396959897I.6CI.5I.4CI.3I.2CI.1A2A1– KM2– KM1– KM1– KM2– KM2– KM1(1)O.1O.2O.3O.4 M 3DB414719.eps2-step mode, star-delta application3-wire local-controlLTM R24333413142396959897I.6CI.5I.4CI.3I.2CI.1A2A1KM3KM1 KM2– KM1– KM3– KM3– KM2– KM3– KM1– KM1(1)O.1O.2O.3O.4 M 3DB438500.eps(1) Contacts for interlocking KM1 and KM2 are not obligatory because the controller electronically interlocks outputs O.1 and O.2.TeSys ActiveT Motor management systemStopStart Rev.Start Forw.StopStartReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Ref.";i:913;s:1117:"C1/34Motor management devicesSchemesSchemes2-step mode, primary resistor application3-wire local-controlLTM R24333413142396959897I.6CI.5I.4CI.3I.2CI.1A2A1– KM2– KM1– KM1– KM2O.1O.2O.3O.4 M 3DB414721.eps2-speed mode, Dahlander application3-wire local-control/70--5----------------------------,----&,----,----&,----,----&,----$--$--±--.0--±--.0--2----2----2----2----±--.0--±--.0--±--.0--±--.0--±--.0--±--.0--------------±--.0--------------0----DB418281.eps(1) For a Dahlander application, all the power cables must pass through current transformers. The controller can also be placed upstream of the contactor. In this case, and if the Dahlander motor is used in "variable torque" mode, all the cables downstream of the contactors must be of identical size. (2) Contacts for interlocking KM1 and KM2 are not obligatory because the controller electronically interlocks outputs O.1 and O.2.TeSys ActiveT Motor management systemStopLow speedStopStartHigh speedReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Ref.";i:914;s:522:"C1/35Motor management devicesSchemesSchemesEarth fault toroid and motor temperature probe connection243334131423O.1O.2Z1 Z2 T1 T2O.3LTM RDF568634.epsConnection of outputs for motor control mode functionWithout intermediate relayWith intermediate relay M 3LTM R1314– KM1O.1– KM1DF568635.eps M 3LTM R1314– KM1O.1– KA1– KM1DF568636.epsTeSys ActiveT Motor management systemReferences: pages C1/2 to C1/9Characteristics: pages C1/14 to C1/28Curves: page C1/29Dimensions, mounting: pages C1/30 to C1/31Ref.";i:915;s:29:"C1/36Motor management devices";i:916;s:205:"C2/1Control and monitoring islandTeSys Activeisland Motor startersTeSys island Motor startersType of informationPagesIntroduction Digital multifunctional load management solutionC2/2Chapter C2 TeSysActive";i:917;s:1296:"C2/2Control and monitoring islandIntroductionTeSys Activeisland Motor startersMore information p Watch videos, read documents and use the product selector online on Schneider Electric website.Digital multifunctional load management solutionTeSys Active - island Motor starters are designed to switch, protect, and manage motors and other electrical loads up to 80 Amps (AC3) in an electrical control panel.Dedicated to Control and Monitor Machine and Processes TeSys island is a digital load management solution that makes machines and processes smarter and more reliable. TeSys island is a fully digitized and object-oriented load management system and an Industry 4.0 compliant data provider. It is reducing time to market and is enabling OEMs to move forward in their Industry 4.0 journey. Benefits of the object-oriented functional approach The TeSys avatar approach simplifies application and system configuration and reduces engineering tasks. Thus TeSys island makes the machine engineering and installation phase much faster. In addition, TeSys island can be easily integrated into 3rd party automation systems and supports several fieldbuses like EtherNet/IP, Modbus TCP, PROFINET and PROFIBUS.TeSys island gives users access to all relevant load data for advanced system diagnostics. ";i:918;s:2285:"C2/3Control and monitoring islandIntroductionTeSys Activeisland Motor startersBus CouplerProgramable Logic ControllerEngineering PC Power TeSys island internal bus (ribbon cable) Fieldbus Ethernet service busVoltage interface module24 VdcStandardStartersPower interface moduleMotor Soft StarterSILinterfacemoduleSIL starterPreventa™ XPS relayDigital I/O module24 Vdc24 VdcAnalog I/O moduleMain characteristicsp TeSys island manages motors and other electrical loads up to 80 A (AC-3) / 37 kW/40 hpp Fieldbus connectivity via bus coupler for EtherNet/IP, Modbus TCP, PROFINET or PROFIBUSp Availability of all relevant load data like current, power, energy and advanced diagnostic datap Simplified engineering and commissioning due to TeSys avatar objects and dedicated configuration and maintenance tools p Up to 20 modules on 1 island mounted on DIN rail (up to 112 cm length)p No control or auxiliary wiring required, thanks to full connectivity over fieldbusp All adjustments and setting are digitized, no mechanical dials or dip switchesp Limited number of references including 5 starter sizes, digital & analog I/Os and voltage measurement modulesp SIL starter available for integration into functional safety systems according to IEC 61508, IEC 62061 and ISO 13849-1, including TUV certification (Stop 0 and 1 with wiring categories 1 to 2, suitable for PL c, d and SIL level 2), UKCAp Fully complaint to international standards (IEC / UL / CSA 61010, IEC / UL / CSA 60947, GB/T14018)p Embedded Cybersecurity (Achilles Level 2).Modular architecture, thanks to TeSys Active - island Motor starters internal bus TeSys island catalog:TeSys island design guides:> 8536IB1901: TeSys island System Guide > 8536IB1902: TeSys island Installation Guide > 8536IB1903: TeSys island Operating Guide > 8536IB1904: TeSys island Functional Safety (Safe Stop according to EN 61800-5-2) Guide> 8536IB1905: Third Party Function Block Guide and more.>> Ref. Document: LVCATISL_ENLoad monitoringIsland power supply / communication Motor control and monitoringMotor control and monitoring Safe stop functionalitiesStop functions (in compliance with EN/IEC 60204-1)Digital I/O monitoring / controlAnalog I/O monitoring / controlVoltage measurement";i:919;s:9174:"Notes.............................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................. 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..............................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................";i:923;s:492:"Control Panel Technical guidesHow to facilitate the UL-compliant approval to your control panel > Ref: CPTG005_EN> Click on QR code to downloadHow to prevent machine malfunctions and electronic damage due to voltage surges > Ref: CPTG002_EN> Click on QR code to download> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.TeSys";i:924;s:495:"Control Panel Technical guides> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.How to protect a machine from malfunctions due to electromagnetic disturbance > Ref: CPTG003_EN> Click on QR code to downloadHow to reduce damage to components through effective thermal management> Ref: CPTG001_EN> Click on QR code to downloadTeSys";i:925;s:462:"> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.Control Panel Technical guidesHow define the right outdoor solution and optimize its durability> Ref: CPTG006_EN> Click on QR code to downloadHow to protect electrical equipment from condensation> Ref: UE12MK03EN> Click on QR code to downloadTeSys";i:926;s:550:"Control Panel Technical guides> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.How to select the appropriate motor starters for your HVAC & R* equipments* Heating, Ventilation, Air conditioning & Refrigeration > Ref: CPTG007_EN> Click on QR code to downloadHow to choose the circuit breaker and transfer switch for a generator set> Ref: CPTG008_EN> Click on QR code to downloadTeSys";i:927;s:474:"Control Panel Technical guidesElevator How to choose contactors and other electrical components> Ref: CPTG009_EN> Click on QR code to downloadNew edition 2020> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.How to "Ecodesign" your pump motor control system> Ref: CPTG010_EN> Click on QR code to downloadTeSys";i:928;s:349:"Control Panel Technical guidesHow to quickly design optimized contactor assemblies> Ref: CPTG011_EN> Click on QR code to download> Discover our technical guides collection. They are dedicated to frequent issues faced when designing an installing a control panel.> Free download on www.se.com with the document reference or from the QR codes.TeSys";i:929;s:595:"Catalogues of contactors for specific applications> TeSys Switching TeSys D, K 'S355 series' (EN60335 standards) Contactors for electrodomestic applications> Ref: LVCATESDK335_EN> Click on QR code to download.> For applications requiring components conforming to specific standards with increased severity.> TeSys Switching TeSys D, K S355 and S207 series contactors are built for these purpose, with new materials.> TeSys Control TeSys K, Deca, Giga S207 series (EN45545 R22 HL3 standards) Contactors for railways applications> Ref: LVCATRAIL_EN> Click on QR code to download.TeSys";i:930;s:1829:"CO2 and P&L impact through... Resource PerformanceGreen Premium brings improved resource efficiency throughout an asset’s lifecycle. This includes efficient use of energy and natural resources, along with the minimization of CO2 emissions.Cost of ownership optimization through... Circular PerformanceWe’re helping our customers optimize the total cost of ownership of their assets. To do this, we provide IoT-enabled solutions, as well as upgrade, repair, retrofit, and remanufacture services.Peace of mind through... Well-being PerformanceGreen Premium products are RoHS and REACh compliant. We’re going beyond regulatory compliance with step-by-step substitution of certain materials and substances from our products.Improved sales through... DifferentiationGreen Premium delivers strong value propositions through third-party labels and services. By collaborating with third-party organizations we can support our customers in meeting their sustainability goals such as green building certifications.The Green Premium program stands for our commitment to deliver customer valued sustainable performance. It has been upgraded with recognized environmental claims and extended to cover all offers including Products, Services and Solutions.Discover what we mean by greenCheck your products!An industry leading portfolio of offers delivering sustainable valueGreen PremiumTMMore than 75% of our product sales offer superior transparency on the material content, regulatory information and environmental impact of our products:• RoHS compliance• REACh substance information• Industry leading # of PEP’s*• Circularity instructions*PEP: Product Environmental Profile (i.e. Environmental Product Declaration)";i:931;s:390:"Schneider Electric SE35, rue Joseph MonierCS 3032392506 Rueil Malmaison Cedex FranceRCS Nanterre 542 048 574Capital social 2 268 274 220 €www.se.comMarch, 2023ART834519© 2023 - Schneider Electric. All Rights Reserved.All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies.Document reference: MKTED210011ENThis document has beenprinted on recycled paper";}