ABB Electronic Products and Relays

Catalog  2014 Electronic Products and Relays Catalog |  2CDC110004C0209.pdf   1 11/26/2013   4:49:55 PM

2   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2CDC110004C0209.pdf   2 11/26/2013   4:50:01 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3  Machine Safety Jokab Safety products Productivity and safety go hand in hand Jokab Safety was acquired by ABB in 2010. This gives us extra strength and a sales network in 120 countries. Our goal is to become  even better at supporting you as a customer through cooperation within ABB Jokab Safety globally and locally. The fact that the leading  power and automation technology company, ABB, and a leader in machine safety, Jokab Safety, have joined forces means a lot more  than just a new organizational chart. ABB has a huge footprint in the industry - from power supply to the control of each individual motor  - and has been delivering reliable solutions for decades that boost productivity in the industry. The acquisition of Jokab Safety means  the last building block is in place. We can now offer our customers tailored, turnkey solutions where machine safety is an integral and  value-enhancing component. Jokab Safety offering:   – Safety PLC  Pluto, Pluto AS-i, Gateways, Safe Encoder   – Safety controller  Vital and Tina safety systems   – Safety relays  RT series, JSB series, safety timers, expansion relays   – Light curtains, light grids, light beams and scanner  Focus II, Spot, Look   – Stop time measurement and machine diagnosis  Smart   – Sensors, switches and locks  Eden, Sense, MKey, Magne, Dalton, Knox   – Control devices  JSHD4, Safeball, Fox2   – Emergency stop devices  Inca, Smile, EStrong, LineStrong   – Contact rails, bumpers and safety mats   – Fencing systems  Quick-Guard, SafeCad, Roller doors Further information: „ABB Safety Handbook“ - Order code: 2TLC172001C0202 2CDC110004C0209.pdf   3 11/26/2013   4:50:01 PM

4   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Electronic Products and Relays News The requirements for rolling stock are increasing and will continue to do so. The task is to implement  ever faster connections, while also increasing traveler comfort. During their everyday work, the trains  are exposed to very high environmental, electrical and mechanical loads.  Selected products of the electronic timers and measuring and monitoring relays comply to the latest  rail standards NF F 16-101/102, EN 45545, EN 50155 and more standards which are relevant for  railway applications. Find more inforamtion in the rail brochure 2CDC110084B0201. The CM-UFx grid feeding monitoring relays can be used for measurement of voltage and frequency  according to different standards:   ½   CM-UFD.M21: Grid feeding monitoring according to VDE AR-N 4105   ½   CM-UFD.M22: Grid feeding monitoring according to CEI 0-21   ½   CM-UFS.1: Grid feeding monitoring according to DIN V VDE V 0126-1-1: Feb. 2006 The device is connected between the decentral electrical energy source (e.g. photovoltaic systems,  wind turbines, block-type thermal power stations) and the public grid. In case the public grid is dis- connected due to any reason, for instance during maintenance work, the CM-UFx recognizes this  powerless situation. Then, in conjunction with a section switch, the CM-UFx disconnects the decen- tral electrical energy source from the public grid, shows the corresponding alarm on the display and  signals the cause of alarm to a superior control system. The field of applications for insulation monitors is quite big, it covers machines and generators, emer- gency power supplies and ship applications, railway applications and mobile power generators (air  planes), industrial IT systems, printing applications and the renewable energy segments, like wind  and photo voltaic. With the CM-IWx range ABB offer a modular and adjustable assortment of insula- tion monitors. An insulation monitor constantly detects the insulation resistance to earth and releases  a signal whenever the thresholds are passed. The CP-ASI power supply range is specifically designed with integrated data decoupling for the sup- ply of AS-Interface systems. Up to 62 slaves (binary I/O devices) can be supplied with a single  two-conductor cable. The configurable IR addressing mode allows the easy assign of new ID addres- ses by means of an external infrared programming unit. Characteristics:   ½   Six devices cover the whole range of necessary maximum system leakage capacitances for grid  feeding applications   ½   Easy to handle front-face operating controls with status indication via LEDs   ½   Direct connection to 690 V AC / 1000 V DC systems possible in combination with coupling unit  CM-IVN Electronic timers, measuring and monitoring relays for railway solutions New range of grid feeding monitoring relays CM-IWx range - Monitoring of insulation resistance in unearthed AC/DC systems CP-ASI range - Primary switch mode power supply for AS-interface   2CDC110004C0209.pdf   4 11/26/2013   4:50:01 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   5  1 5 3 7 2 6 8 4 Electronic Products and Relays Table of contents Electronic timers  1/1 Measuring and monitoring relays  2/1 Primary switch mode power supplies  3/1 Analog signal converters, serial data converters  4/1 Interface relays and optocouplers  5/1 Panel heaters  6/1 Logic relays  7/1 Index 8/1 2CDC110004C0209.pdf   5 11/26/2013   4:50:02 PM

6   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Approvals and marks for the world market Overview ABB low-voltage switching devices are developed and produced in accordance with the applicable regulations as stated in the international IEC publica-tions, the European EN specifications and the national VDE standards. In most countries, low-voltage switching devices are produced according to such regulations under the responsibility of the manufacturers. This is why the devices are not subject to further approval. However, for those devices which are intended for use in household or for public use our customers can reque-st test reports of our internal laboratory for presentation to the various qualified local organizations. In other countries, approvals are prescribed by law. For devices installed in ships, an approval issued by independent shipping companies, such as the GL, are demanded by the maritime insurance  companies. Marks of conformity and examples of approvals (device-dependent)  International CB scheme K The CB (Certification Body) Scheme is a system designed to facilitate international trade by establishing mutual acceptance of test reports among participating safety certification organizations (the National Cer-tification Bodies) in more than 30  countries. The CB Scheme was  established by the International  Electrotechnical Committee for Conformity Testing to Standards for Electrical  Equipment (IECEE).  Europe Conformité Européen (CE) a All devices which comply with the  European low voltage directive and which are intended for sale within the European Union must have the CE sign applied. All products in this catalog are CE marked. The CE sign must not be confused with a certificate of quality issued by the EU. It is solely used to confirm that the respective product complies with the applicable  European directives ). The CE sign is part of an administrative procedure to  guarantee free movement of goods within the Europe-an Community. )  Directives:   Low Voltage Directive 2006/95/EC   EMC Directive 2004/108/EC   Machinery Directive 98/37/EEC Verband der Elektrotechnik  Elektronik Informationstechnik(VDE) J Applicable for technical instruments  covered by the German Gerätesicherheitsgesetz (GSG) as well as for single parts and electri-cal wiring devices. Berufsgenossenschaft  der Feinmechanik und  Elektrotechnik (BGFE) M The BG-PRÜFZERT sign is a voluntary  safety mark, awarded by the BGFE  following successful safety testing. Explosion protection (EX) I Explosion protection acc. to  Directive 94/9/EG (ATEX 100a) Swiss insurance institution (SUVA) Q Department accident prevention suvaPRO Germanischer Lloyd (GL) C Shipping approval Lloyds Register P Shipping approval  Russia In Russia, low-voltage switching devices are subject to certification and have to be provi-ded with a sign. Gost Standard (GOST-R)  1) D Gost R certification is mandatory for many products. This certification is based on a safety test (IEC standards with Russia- specific deviations) and an EMC test. Russian Maritime Register of Shipping RMRS L Shipping approval  Australia, New Zealand C-Tick Mark b The C-Tick Mark certifies compliance with the Australian EMC requirements. The Mark is also recognized in New Zealand.  China CCC (China Compulsory  Certification) E In China the CCC certification mark is a compulsory certification mark in the field of safety and quality for products sold on the Chinese market.  North America Canadian and US standards are more or less equivalent but considerably differ from the IEC and VDE regulations.  USA Underwriters Laboratories (UL)Listing B Released for installation in systems and for sale as individual component in the USA. Recognition G Released for installation in systems, if the respective system has been completely mounted and wired by qualified personnel.  Canada Canadian Standards  Association (CSA) F  USA and Canada The combined UL signs for the USA and  Canada are recognized by the  authorities of both countries. Devices with this  certificate meet the requirements of both countries. Listing A Recognition  H 1)  May have been replaced by EAC during the availability of this catalog edition. 2CDC110004C0209.pdf   6 11/26/2013   4:50:02 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7  Documentation in ABB Library www.abb.com/lowvoltage When you enter www.abb.com/lowvoltage for the first time, you will be asked to select your country and to select your preferred language (see screen shot 1). You can change this setting later if you like. Select Control Products to find Electronic Products and Relays in world wide web. 2CDC110004C0209.pdf   7 11/26/2013   4:50:02 PM

8   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Documentation in ABB Library www.abb.com/lowvoltage Click on depen-ding category for further documen-tation e.g.  Electronic Relays and Controls After selecting e.g. Electronic Relays and Controls it is possible to select the product range of interest directly.  Please select one of the product ranges as listed below, e.g. Time Relays. The whole EPR assortment is splitted in four different categories:   Q Electronic Relays and Controls   Q Motor Controllers   Q Power Supplies   Q Signal Converters 2CDC110004C0209.pdf   8 11/26/2013   4:50:02 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   9  Documentation in ABB Library www.abb.com/lowvoltage For each product range the Overview-tab  describes the specific product offering. It is possible to jump directly to technical data or to the download section. Here an example for time relays: Downloads: By using the drop down list you can filter the list of available information according to the entry of the drop down list e.g. CT-S.  You can find a short tutorial of the Download section on page 10. Data: The data tab shows a list of search results of the product range. Additionally you can filter the results by using the filters on the right section of the data tab. Like that you can find the specific products which corresponds to your specific demands. You can find a short tutorial of the Data Tab section on page 11. 2CDC110004C0209.pdf   9 11/26/2013   4:50:03 PM

10   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Documentation in ABB Library Download section In the download section, select an entry of the drop down list to filter the available downloads e.g. CT-S. The list of available downloads is filtered according to the selection. Expand one of the nodes, e.g. brochure. Click on the document which you would like to display. The document will open. 2CDC110004C0209.pdf   10 11/26/2013   4:50:03 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   11 Documentation in ABB Library Data Tab Click on the tab Data to enter to the Data Tab of the product range (in this case Time Relays). Use the filters on the right section of the page to customize the list of products displayed, e.g. Time Range. 2CDC110004C0209.pdf   11 11/26/2013   4:50:03 PM

12   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 A window is openend. Here you can add or remove a value of the filter you have chosen (in our example Time Range). On the left side just click on the value you want to add. Then click on the Add-button. The value appears on the right side. After adding the value just click on Apply to set the filter for the search results. After clicking on Apply the search results are now shown with the defined filter. Selecting a specific product opens the detailed information sheet, e.g. CT-ERE 1SVR550100R5100. On the bottom of the page you can find further documentation and download information. Documentation in ABB Library Data Tab 2CDC110004C0209.pdf   12 11/26/2013   4:50:03 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   13 Documentation in ABB Library Notes 2CDC110004C0209.pdf   13 11/26/2013   4:50:04 PM

1/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 Electronic timers Product group picture 2CDC110004C0209.pdf   14 11/26/2013   4:50:04 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/2  1 Electronic timers Table of contents Electronic timers Table of contents   1/2 Overview   1/3 Approvals and marks   1/4 CT-D range   1/5 Table of contents   1/6 Benefits and advantages   1/7 Ordering details   1/8 Function diagrams   1/9 Connection diagrams   1/12 Technical data   1/13 Technical data, Technical diagrams   1/15 Wiring notes, Dimensional drawings   1/16 CT-E range   1/17 Table of contents   1/18 Benefits and advantages   1/19 Ordering details   1/20 Function diagrams   1/22 Connection diagrams   1/27 Connection diagrams, Technical diagrams   1/28 Technical data   1/29 Wiring notes, Dimensional drawings   1/31 CT-S range   1/33 Table of contents   1/34 Benefits and advantages   1/35 Ordering details - multifunctional   1/37 Ordering details - singlefunctional   1/38 Ordering details - Accessories   1/39 Function diagrams   1/41 Connection diagrams   1/49 Technical data   1/52 Technical diagrams   1/55 Wiring notes, Dimensional drawings   1/56 2CDC110004C0209.pdf   15 11/26/2013   4:50:05 PM

1/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range CT-E range CT-D range Timing function multifunctional single-functional multifunctional single-functional multifunctional single-functional A  ON-delay CT-MFD CT-ERD CT-MFE, CT-MKE CT-ERE, CT-EKE CT-MVS, CT-MFS,  CT-MBS, CT-WBS CT-ERS B  OFF-delay CT-MFD CT-AHD CT-MFE CT-AHE, CT-ARE,  CT-AKE CT-MVS, CT-MFS,  CT-MBS CT-APS, CT-AHS,  CT-ARS, CT-VBS AB   ON- and OFF-delay CT-MVS, CT-MXS,  CT-MFS, CT-MBS CA  Impulse-ON CT-MFD CT-VWD CT-MFE, CT-MKE CT-VWE CT-MVS, CT-MFS,  CT-MBS, CT-WBS CB  Impulse-OFF CT-MFD CT-AWE CT-MVS, CT-MFS,  CT-MBS CE   Impulse-ON and OFF CT-MXS DA   Flasher starting with ON CT-MFD CT-EBD CT-MFE, CT-MKE CT-MFS, CT-MBS,  CT-WBS DB   Flasher staring with OFF CT-MFD CT-MFE, CT-MKE CT-EBE CT-MFS, CT-MBS,  CT-WBS DE   Flasher starting with ON  or OFF CT-MVS ED   Pulse generator starting  with ON or OFF CT-TGD CT-MXS H  Pulse  former CT-MFD CT-MFE CT-MVS, CT-MFS,  CT-MBS F  Star-delta  change-over CT-SDD, CT-SAD CT-SDS FC  Star-delta  change-over  with impulse CT-SDE CT-MVS.2x,   CT-MFS, CT-MBS FA  Star-delta  change-over     twice  ON-delayed CT-YDE A +       AC        BC        G    further functions     (depending on device) CT-MVS, CT-MXS,  CT-MFS, CT-MBS,  CT-WBS G  Switching  relay CT-IRE CT-IRS Technical data (extract) Time ranges 7 (0.05 s - 100 h) CT-SDD, CT-SAD: 4 (0.05 s - 10 min) Multifunction devices:  8 (0.05 s - 100 h)  Single-function devices:  5 single ranges (0.05-1 s, 0.1-10 s, 0.3-30 s, 3-300 s, 0.3-300 min) 10 (0.05 s - 300 h) CT-ARS, CT-SDS: 7 (0.05 s- 10 min) Control supply voltage Wide and multi ranges Wide ranges Single and dual ranges Wide, multi and single ranges Type and number of contacts 1 or 2 c/o contacts CT-SDD, CT-SAD: 2 n/o contacts 1 c/ o contact CT-SDE: 1 n/o contact and 1 n/c contact CT-MKE, CT-EKE, CT-AKE: 1 thyristor 1 or 2 c/o contacts CT-MVS.21, CT-MFS, CT-MBS: 2nd c/o contact selectable as inst. contact CT-SDS: 2 n/o contacts Control inputs voltage-related triggering, polarized, capable of switching a parallel load voltage-related triggering, polarized CT-MFE, CT-AHE, CT-AWE:  with auxiliary voltage voltage-related triggering, non-polarized, capable of switching a parallel load CT-MFS, CT-MBS, CT-AHS:  volt-free triggering Electronic timers Overview 2CDC110004C0209.pdf   16 11/26/2013   4:50:05 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/4  1 Electronic timers Approvals and marks ½ existing  ˽ pending CT-D Approvals CT -MFD.12 CT -MFD.21 CT -ERD.12 CT -ERD.22 CT -AHD.12 CT -AHD.22 CT -VWD.12 CT -EBD.12 CT -TGD.12 CT -TGD.22 CT -SDD.22 CT -SAD.22 A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ EAC ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ E CCC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ˽ ½ ˽ ½ ˽ ½ ½ ½ ˽ ˽ ˽ ½ existing  ˽ pending CT-E Approvals CT -MFE CT -ERE CT -AHE CT -ARE CT -VWE CT -AWE CT -EBE CT -YDE CT -SDE CT -IRE CT -MKE CT -EKE CT -AKE A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ C GL ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ EAC ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ E CCC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ existing  ˽ pending CT-S Approvals CT -MVS.12S/P CT -MVS.2xS/P CT -MXS.22S/P CT -MFS.21S/P CT -MBS.22S/P CT -WBS.22S/P CT -ERS.12S/P CT -ERS.2xS/P CT -APS.12S/P CT -APS.2xS/P CT -AHS.22S/P CT -ARS.11S/P CT -ARS.21S/P CT -VBS.1x CT -SDS.2xS/P CT -IRS.1x CT -IRS.2x CT -IRS.3x A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ C GL ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ˽ ˽ ½ EAC ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ˽ K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ E CCC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Rail applications  1) ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 1)  Applicable in rail application following the latest standards for rail applications. Further information are available in our rail segment brochure 2CDC110084B0201. 2CDC110004C0209.pdf   17 11/26/2013   4:50:05 PM

1/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-D range Product group picture 2CDC110004C0209.pdf   18 11/26/2013   4:50:05 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/6  1 CT-D range Table of contents CT-D Range Product group picture   1/5 Table of contents   1/6 Benefits and advantages   1/7 Ordering details   1/8 Function diagrams   1/9 Connection diagrams   1/12 Technical data   1/13 Technical data, Technical diagrams   1/15 Wiring notes, Dimensional drawings   1/16 2CDC110004C0209.pdf   19 11/26/2013   4:50:06 PM

1/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-D range Benefits and advantages Operating controls 1   LEDs for status indication     U - green LED:       V  control supply voltage applied     W  timing     R, R1, R2 - yellow LED:  V  output relay energized 2   Time range adjustment 3   Fine adjustment of the time delay 4   Preselection of the timing function multifunctional single-functional LEDs for status indication All actual operational states are displayed by front-face LEDs, thus  simplifying commissioning and troubleshooting. Connection terminals Wide terminal spacing allows connection of wires: 2 x 1.5 mm² (2 x 16 AWG) with wire end ferrules or 2 x 2.5 mm²  (2 x 14 AWG) without ferrules. Direct reading scales Direct setting of the time delay without any additional calculation provides accurate time delay adjustment. Width 17,5 mm With their width of 17.5 mm only, the CT-D range timers are ideally suited for installation in distribution panels. Switching currents The CT-D range timers allow an output load of up to 6 A on devices  with 1 c/o contact and up to 5 A on devices with 2 c/o contacts. 17.5 mm Characteristics   ½ Diversity:   ½ 2 multifunction timers   ½ 10 single-function timers   ½ Control supply voltages:   ½ Wide range: 12-240 V AC/DC   ½ Multi range: 24-48 V DC, 24-240 V AC   ½ 7 time ranges from 0.05 s to 100 h or  4 time ranges from 0.05 s to 10 min   ½ Width of only 17.5 mm   ½ Light-grey housing in RAL 7035   ½ Devices with: 1 c/o contact (250 V / 6 A) or 2 c/o contacts (250 V / 5 A) Control input: voltage-related triggering, polarized,     capable of switching parallel loads   ½ Approvals / Marks (partly pending, details see page 1/4) A, K, E,  ,  L  /  a, b Benefits 4 2 3 1 2 3 2CDC 253 066 F0006 2CDC 253 132 F0006 2CDC 253 033 F0004 2CDC 253 021 F0004 1 1 2 2 3 3 4 4 2CDC110004C0209.pdf   20 11/26/2013   4:50:06 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/8  1 Synonyms used expression alternative expression(s) used expression alternative expression(s) 1 c/o contact SPDT voltage-related wet / non-floating 2 c/o contacts DPDT volt-free dry / floating 2CDC 251 089 F0006 2CDC 251 091 F0006 CT-MFD.12 CT-ERD.22 A  ON-delay  B  OFF-delay  CA  Impulse-ON  CB  Impulse-OFF  DA  Flasher starting with ON  DB  Flasher staring with OFF H  Pulse former   ED  Pulse generator  F  Star-delta change-over  CT-D range Ordering details 1)  Functions: ON-delay, OFF-delay with auxiliary voltage, Impulse-ON, Impulse-OFF with auxiliary voltage,   Flasher starting with ON, Flasher starting with OFF, Pulse former 2)  ON and OFF times adjustable independently: 2 x 7 time ranges 0.05 s - 100 h 3)   Transition time 50 ms fixed 4)   Transition time adjustable Description The CT-D range in MDRC design with a width of only 17.5 mm fits into all domestic installati- on and distribution panels. The CT-D range represents a link between industry and the installation types. For maximum  flexibility in operation, 10 single-function as well as 2 multifunction devices with 7 timing   functions are available. The devices offer 4 or 7 time ranges from 0.05 seconds up to 100  hours. Their wide input range allows the use in applications worldwide.. Ordering details Timing function Rated  control supply  voltage Time  ranges Con-trol input Output Type Order code Price 1 pce Weight(1 pce) kg (lb)  Multifunc-tional 1) 24-240 V AC 24-48 V DC 7 (0.05 s - 100 h) Q 1 c/o CT-MFD.12 1SVR500020R0000 0.060 (0.132) Multifunc-tional 1) 12-240  V AC/DC 7 (0.05 s - 100 h) Q 2 c/o CT-MFD.21 1SVR500020R1100 0.065 (0.143) ON-delay 24-240 V AC 24-48 V DC 7 (0.05 s - 100 h)  - 1 c/o CT-ERD.12 1SVR500100R0000 0.060 (0.132) - 1 c/o CT-ERD.22 1SVR500100R0100 0.065 (0.143) OFF-delay Q 1 c/o CT-AHD.12 1SVR500110R0000 0.060 (0.132) Q 2 c/o CT-AHD.22 1SVR500110R0100 0.065 (0.143) Impulse-ON - 1 c/o CT-VWD.12 1SVR500130R0000 0.060 (0.132) Flasher starting with ON - CT-EBD.12 1SVR500150R0000 Pulse  generator 2×7 (0.05 s - 100 h) Q CT-TGD.12 2) 1SVR500160R0000 0.060 (0.132) Q 2 c/o CT-TGD.22 2) 1SVR500160R0100 0.065 (0.143) Star-delta change-over 4 (0.05 s -  10 min) - 2 c/o CT-SDD.22 3) 1SVR500211R0100 0.065 (0.143) - CT-SAD.22 4) 1SVR500210R0100 Q  Control input with voltage-related triggering - no triggering 2CDC110004C0209.pdf   21 11/26/2013   4:50:06 PM

1/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 Remarks Legend G    Control supply voltage not applied / Output contact open B    Control supply voltage applied / Output contact closed  A1-Y1/B1  Control input with voltage-related triggering  Terminal designations on the device and in the diagrams The 1st c/o contact is always designated 15-16/18. The 2nd c/o contact is designated 25-26/28. The n/o contacts of the star-delta timers are designated with 17-18 and 17-28.  Control supply voltage is always applied to terminals A1-A2. Function of the yellow LED The yellow LED R glows as soon as the output relay energizes and turns off when the output relay de-energizes.  A  ON-delay      (Delay on make)   CT-ERD,  CT-MFD B   OFF-delay with auxiliary voltage    (Delay on break)   CT-AHD,  CT-MFD This function requires continuous control supply voltage for timing.  Timing begins when control supply voltage is applied. The green LED flashes during timing. When the selected time delay is complete, the output relay energizes and the flashing green LED turns steady.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1/B1 of the CT-MFD is disabled when this function is selected. This function requires continuous control supply voltage for timing.  If control input A1-Y1/B1 is closed, the output relay energizes imme-diately. If control input A1-Y1/B1 is opened, the time delay starts. The green LED flashes during timing. When the selected time delay is com-plete, the output relay de- energizes and the flashing green LED turns steady.  If control input A1-Y1/B1 recloses before the time delay is complete, the time delay is reset and the output relay does not change state. Timing starts again when control input A1-Y1/B1 re-opens. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. A1-A2 15-16, 25-26  15-18, 25-28  t   t 2CDC 252 106 F0206 green LED t = adjusted time delay A1-A2  15-16, 25-26  15-18, 25-28  t A1-Y1/B1  t 2CDC 252 107 F0206 green LED t = adjusted time delay CT-D range Function diagrams CA  Impulse-ON     (Interval)  CT-VWD,  CT-MFD CB   Impulse-OFF with auxiliary voltage     (Trailing edge interval)   CT-MFD This function requires continuous control supply voltage for timing.  The output relay energizes immediately when control supply voltage is applied and de-energizes after the set pulse time is complete. The green LED flashes during timing. When the selected pulse time is complete, the flashing green LED turns steady.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1/B1 of the CT-MFD is disabled when this function is selected. This function requires continuous control supply voltage for timing.  If control supply voltage is applied, opening control input A1-Y1/B1 energizes the output relay immediately and starts timing. The green LED flashes during timing. When the selected pulse time is complete, the output relay de-energizes and the flashing green LED turns steady.  Closing control input A1-Y1/B1, before the time delay is complete, de-energizes the output relay and resets the time delay. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  A1-A2  15-16, 25-26  15-18, 25-28  t   t 2CDC 252 108 F0206 green LED t = adjusted pulse time A1-A2  15-16, 25-26  15-18, 25-28  t A1-Y1/B1 t 2CDC 252 109 F0206 green LED t = adjusted pulse time 2CDC110004C0209.pdf   22 11/26/2013   4:50:07 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/10  1 DA   Flasher, starting with the ON time     (Recycling equal times, ON first)   CT-EBD,  CT-MFD DB   Flasher, starting with the OFF time     (Recycling equal times, OFF first)   CT-MFD Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an ON time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1/B1 of the CT-MFD is disabled when this function is selected. Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an OFF time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1/B1 of the CT-MFD is disabled when this function is selected. A1-A2  15-16, 25-26  15-18, 25-28  t t  2CDC 252 029 F0206  green LED  t = adjusted flashing time A1-A2  15-16, 25-26  15-18, 25-28  t t  2CDC 252 030 F0206  green LED  t = adjusted flashing time CT-D range Function diagrams H   Pulse former (Single shot)   CT-MFD E   Pulse generator, starting with the ON or OFF time     (Recycling unequal times, ON or OFF first)   CT-TGD This function requires continuous control supply voltage for timing.  Closing control input A1-Y1/B1 energizes the output relay immediately and starts timing. Operating the control contact switch A1-Y1/B1 during the time delay has no effect. The green LED flashes during timing. When the selected ON time is complete, the output relay de-energizes and the flashing green LED turns steady. After the ON time is complete, it can be restarted by closing control input A1-Y1/B1.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  Applying control supply voltage, with open control input A1-Y1/B1, starts timing with an ON time first. Applying control supply voltage, with closed control input A1-Y1/B1, starts timing with an OFF time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  The ON & OFF times are independently adjustable.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. A1-A2  15-16, 25-26  15-18, 25-28  t t A1-Y1/B1  2CDC 252 110 F0206 green LED t = adjusted pulse time A1-A2  A1-Y1/B1  15-16, 25-26  15-18, 25-28  t1 t1 t2 t2 2CDC 252 111 F0206 green LED t1 = adjusted OFF timet2 = adjusted ON time 2CDC110004C0209.pdf   23 11/26/2013   4:50:07 PM

1/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 K1T K1T K3 K3 Y ͬ N K2 K2 K2 L1 N F3 F2 95 9621 22 22 21 A1 A2 A1 A2 A1 A2 A1 A2 22 21 1314 1718 1728 1314 1314 5354 S1 0 I S2 K1 K1 K1 2CDC 252 128 F0b06 -K1 -K3 L1 -F1 1 2 95 96 97 98 L2 3 4 L3 5 6 12 34 56 12 34 56 -K2 -F2 12 34 56 1 3 5 2 4 6 M 3 ~ W2 V2 U2 W1 V1 U1 -M1 2CDC 252 012 F0b07 F  Star-delta  change-over     (Star-delta  starting)   CT-SDD,  CT-SAD This function requires continuous control supply voltage for timing.  Applying control supply voltage to terminals A1-A2, energizes the star contactor connected to terminals 17-18 and begins the set starting time t 1 . The green LED flashes during timing. When the starting time is com- plete, the first output contact de-energizes the star contactor.  Now, the transition time t 2  starts. When the transition time is complete,  the second output contact energizes the delta contactor connected to terminals 17-28. The delta contactor remains energized as long as con-trol supply voltage is applied to the unit. A1-A2  t1 t2 2CDC 252 112 F0206 green LED  t1 = adjusted starting timet2 = transition timeCT-SDD: t2 = 50 msCT-SAD: t2 adjustable 17-18  17-28  Power circuit diagram Control circuit diagram CT-D range Function diagrams 2CDC110004C0209.pdf   24 11/26/2013   4:50:07 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/12  1 CT-MFD.21 CT-MFD.12 A  CT-ERD.12 B  CT-AHD.22 A1  A1 28 28 26 26 A2 18 16 Y1/B1 A2 15  25 18 16 15 25 Y1/B1 2CDC 252 113  F0b06 A1  A1 28 28 26 26 A2 18 16 Y1/B1 A2 15  25 18 16 15 25 Y1/B1 2CDC 252 116  F0b06 A1  A1 28 28 26 26 A2 18 16 A2 15 25 25 18 16 15 2CDC 252 115  F0b06 A  CT-ERD.22 B  CT-AHD.12 CA  CT-VWD.12 DA  CT-EBD.12 ED  CT-TGD.22 A1  A1 28 18 26 16 A2 18 16 Y1/B1 A2 15  15 28 26 25 25 Y1/B1 2CDC 252 118  F0b06 A1 A1  A2 18  28  17  17 28 18 A2 2CDC 252 160  F0b06 ED  CT-TGD.12 F  CT-SDD.22 F  CT-SAD.22 A1  A1 18  18  16  16  A2  A2  15  15  Y1/B1 Y1/B1 2CDC 252 114  F0b06 A1  A1  18  18  16  16  A2  A2  15  15  2CDC 252 177  F0b05 A1  A1  18  18  16  16  A2  A2  15  15  Y1/B1 Y1/B1 2CDC 252 117  F0b06 A1  A1  18  18  16  16  A2  A2  15  15  2CDC 252 179  F0b05 A1  A1  18  18  16  16  A2  A2  15  15  2CDC 252 180  F0b05 A1  A1 18  18  16  16  A2  A2 15  15  Y1/B1 Y1/B1 2CDC 252 119  F0b06 A1 A1  A2 18  28  17  17 28 18 A2 2CDC 252 160  F0b06 A1-A2 Supply:      12-240 V AC/DC  15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 17-18  1. n/o contact   (star  contactor) 17-28  2. n/o contact   (delta  contactor) A1-A2 Supply:      24-48 V DC or     24-240 V AC 17-18  1. n/o contact   (star  contactor) 17-28  2. n/o contact   (delta  contactor) CT-D range Connection diagrams 2CDC110004C0209.pdf   25 11/26/2013   4:50:07 PM

1/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-D range Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated CT-D with 1 c/o  contact CT-D with 2 c/o  contacts CT-MFD.21 Input circuit - Supply circuit Rated control supply voltage U s 24-240 V AC / 24-48 V DC 12-240 V AC/DC Rated control supply voltage U S  tolerance -15...+10 % Rated frequency AC/DC versions DC or 50/60 Hz AC versions 50/60 Hz Frequency range DC or 47-63 Hz Typical current / power consumption see data sheet Power failure buffering time min. 20 ms min. 30 ms Input circuit - Control circuit Kind of triggering voltage-related triggering Control input, Control function A1-Y1/B1 start timing external Parallel load / polarized yes / yes Maximum cable length to the control inputs 50 m - 100 pF/m Minimum control pulse length 30 ms Control voltage potential see rated control supply voltage Current consumption of the control input max. 4 mA see data sheet Timing circuit Time ranges 7 time ranges 0.05 s - 100 h 1.) 0.05-1 s    2.) 0.5-10 s    3.) 5-100 s    4.) 0.5-10 min     5.) 5-100 min    6.) 0.5-10 h   7.) 5-100 h 4 time ranges 0.05 s - 10 min  (CT-SDD, CT-SAD) 1.) 0.05-1 s    2.) 0.5-10 s    3.) 5-100 s    4.) 0.5-10 min Recovery time 50 ms Accuracy within the rated control supply voltage tolerance ͬt 0.005 % / V Accuracy within the temperature range ͬt 0.06 % / °C Repeat accuracy (constant parameters) ͬt   ±  0.5 % Star-delta transition time CT-SDD / CT-SAD fixed 50 ms / adjustable: 20-100 ms in steps of 10 ms Star-delta transition time tolerance CT-SDD / CT-SAD ±3 ms Indication of operational states Control supply voltage / timing U: green LED V: control supply voltage applied  W: timing Relay status R: yellow LED V: output relay energized Output circuit Kind of output 15-16/18 Relay, 1 c/o contact - 15-16/18; 25-26/28 - Relay, 2 c/o contacts 17-18; 17-28 relay, 2 n/o contacts (CT-SDD, CT-SAD) Contact material Cd-free, see data sheet Rated operational voltage U e IEC/EN 60947-1 250 V Minimum switching voltage / minimum switching current 12 V / 100 mA Maximum switching voltage / maximum switching current see load limit curves Rated operational current I e  (IEC/EN 60947-5-1 ) AC12 (resistive) at 230 V 6 A 5 A AC15 (inductive) at 230 V 3 A 3 A 0.75 A (n/c contact) DC12 (resistive) at 24 V 6 A 5 A DC13 (inductive) at 24 V 2 A 2 A  1) 1 A AC rating (UL 508) Utilization category Rating Code B 300 max. rated operational voltage 300 V AC Maximum continuous thermal current at B300 5 A max. making/breaking apparent power at B300 3600 VA / 360 VA AC rating (UL 508) only n/c contact (CT-MFD.21) Utilization category Rating Code C 300 max. rated operational voltage 300 V AC Maximum continuous thermal current at C300 2.5 A max. making/breaking apparent power at C300 1800 VA / 180 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection (IEC/EN 60947-5-1) n/c contact 6 A fast-actingn/o contact 10 A fast-acting 6 A fast-acting General data Duty time 100% Dimensions (W x H x D) 17.5 x 70 x 58 mm  (0.69 x 2.76 x 2.28 in) 17.5 x 80 x 58 mm  (0.69 x 3.15 x 2.28 in) Weight see ordering details Mounting  DIN rail (IEC/EN 60715), snap-mounting without any tool Mounting position any Minimum distance to other units horizontal / vertical no / no Degree of protection housing / terminals IP50 / IP20 2CDC110004C0209.pdf   26 11/26/2013   4:50:07 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/14  1 CT-D range Technical data CT-D with 1 c/o  contact CT-D with 2 c/o  contacts CT-MFD.21 Electrical connection Wire size fine-strand with(out) wire end ferrule 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) rigid 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 1 x 0.5-4 mm 2  (1 x 20-12 AWG) Stripping length 7 mm (0,28 in) Tightening torque 0.5-0.8 Nm (4.43-7.08 lb.in) Environmental data Ambient temperature range operation / storage -20 ... +60 °C / -40 ... +85 °C Damp heat (cyclic) IEC/EN 60068-2-30 6 x 24 h cycles, 55 °C, 95 % RH Vibration (sinusoidal) IEC/EN 60068-2-6 40 m/s 2 , 20 cycles, 10....150...10 Hz Shock (half-sine)  IEC/EN 60068-2-27 100 m/s 2 , 11 ms Isolation data Rated impulse withstand voltage U imp  between all  isolated circuits VDE 0110, IEC/EN 60664-1 4 kV; 1.2/50 μs Pollution category IEC/EN 60664-1, VDE 0110 3 Overvoltage category IEC/EN 60664-1, VDE 0110 III Rated insulation voltage U i input circuit / output circuit 300 V output circuit 1 / output circuit 2 300 V Basic insulation (IEC/EN 61140) input circuit / output circuit 300 V Protective separation (VDE 0106 part 101 and part 101/A1; IEC/EN 61140) input circuit / output circuit 250 V Power-frequency withstand voltage test (test vol-tage, routine test) between all isolated circuits 2.5 kV, 50 Hz, 1 s Standards Product standard IEC 61812-1, EN 61812-1 + A11, DIN VDE 0435 part 2021 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field  IEC/EN 61000-4-3 Level 3 (10 V / m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B „Approvals and marks“ see page 1/4. 2CDC110004C0209.pdf   27 11/26/2013   4:50:07 PM

1/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-D range Technical data, Technical diagrams CT-D.2x CT-D.2x Derating factor F   for inductive AC load Contact lifetime DC current [A] resistive load DC voltage [V] 2CDC 252 121 F0206 AC current [A] resistive load AC voltage [V] 2CDC 252 122 F0206 Switching current [A] 250 Vresistive load Switching cycles 2CDC 252 123 F0206 cos  ϕ 0.5 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 0.6 0.7 0.8 0.9 1.0 Derating factor F 2CDC 252 124 F0206 CT-D.1x CT-D.1x AC load (resistive) DC load (resistive) Technical diagrams Load limit curves DC current [A] resistive load DC voltage [V] 2CDC 252 045 F0207 AC current [A] resistive load AC voltage [V] 2CDC 252 044 F0207 2CDC110004C0209.pdf   28 11/26/2013   4:50:07 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/16  1 CT-D range Wiring notes, Dimensional drawings 0.69“ 2.76“ 0.2“ 2.28“ 1.71“ 1.77“ 17,5 70 5 58 43,4 45 2CDC 252 131 F0b06 0.69“ 17,5 3.15“ 80 0.2“ 5 2.28“ 1.71“ 58 43,4 1.77“45 2CDC 252 130 F0b06 CT-D devices with 1 c/o contact or 2 n/o contacts CT-D devices with 2 c/o contacts Dimensional drawings  dimensions in mm L(+) N(-) A1 Y1/B1 A2 2CDC 252 102 F0b06 Wiring notes for devices with control input A parallel load to the control input is possible 2CDC110004C0209.pdf   29 11/26/2013   4:50:08 PM

1/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-E range Product group picture 2CDC110004C0209.pdf   30 11/26/2013   4:50:08 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/18  1 CT-E range Table of contents CT-E Range Product group picture   1/17 Table of contents   1/18 Benefits and advantages   1/19 Ordering details   1/20 Function diagrams   1/22 Connection diagrams   1/27 Connection diagrams, Technical diagrams   1/28 Technical data   1/29 Wiring notes, Dimensional drawings   1/31 Notes   1/32 2CDC110004C0209.pdf   31 11/26/2013   4:50:08 PM

1/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-E range Benefits and advantages Characteristics   ½ Diversity:   ½ 2 multifunction timers   ½ 56 single-function timers   ½ 4 switching relays   ½ Control supply voltages:   ½ Dual range: 24 V AC/DC   ½ Single range: 110-130 V AC, 220-240 V AC   ½ Wide range: 24-240 V AC/DC (CT-MFE)   ½ Time ranges   ½ 5 single ranges: 0.05-1 s, 0.1-10 s, 0.3-30 s, 3-300 s, 0.3-30 min   ½ 8 time ranges: 0.05 s - 100 h (CT-MFE)   ½ Devices with 1 c/o (SPDT) contact (250 V / 4 A) or solid-state out-put for high switching frequencies (thyristor 0.8 A)   ½ Switching relay CT-IRE for added switching contacts with either side-by-side or diagonally positioned connection terminals   ½ Approvals / Marks (details see page 1/4) A, C,  , K, E,  L  /  a, b 1   LEDs for status indication     U - green LED:  V  control supply  voltage applied   R2:  red  LED:  V  output relay energized 2   Time range adjustment (only multifunctional devices) 3   Fine adjustment of the time delay 4   Preselection of the timing function (only multifunctional devices) Operating controls LEDs for status indication All actual operational states are displayed by front-face LEDs, thus  simplifying commissioning and troubleshooting. Direct reading scales Direct setting of the time delay without any additional calculation  provides accurate time delay adjustment. Connection screws in M3 (Pozidrive 1) Easy and fast tightening and release of the connection screws with  pozidrive, pan- or crosshead screwdriver. Solid-state output Devices with solid-state output are the perfect solution for high  operation cycles. 4 1 2 3 Benefits AL A1 A1 AL 1SVC 110 000 F0508 1SVC 110 000 F0500 1SVC 110 000 F0506 2CDC 252 166 F0005 1 1 2 2 3 4 4 3 Synonyms used expression alternative expression(s) used expression alternative expression(s) 1 c/o contact SPDT voltage-related wet / non-floating 2 c/o contacts DPDT volt-free dry / floating 2CDC110004C0209.pdf   32 11/26/2013   4:50:08 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/20  1 1SVR 550 029 F8100 1SVR 550 111 F1100 CT-MFE CT-AHE A  ON-delay  B  OFF-delay  CA  Impulse-ON  CB  Impulse-OFF  DA  Flasher starting with ON  DB  Flasher staring with OFF  H  Pulse former  CT-E range Ordering details 1)  Functions: ON-delay, OFF-delay with auxiliary voltage, Impulse-ON, Impulse-OFF with auxiliary voltage,   Flasher starting with ON, Flasher starting with OFF, Pulse former 2)  without auxiliary voltage, True Off-delay timer Description The CT-E range with its excellent price/performance ratio offers an ideal solution for serial  applications. 56 single-function devices with 5 different time ranges as well as 2 multifunction  timers with 6 functions and 8 time ranges offer the highest possible flexibility for almost every  application. For high operating cycles, contact-free CT-E timers with solid-state output are  available. Ordering details Timing function Rated  control supply voltage Time  ranges Con-trol Input Output Type Order code Price 1 pce Weight(1 pce) kg (lb)   Multifunc-tional  1) 24-240  V AC/DC 8 (0.05 s - 100 h) Q 1 c/o CT-MFE 1SVR550029R8100 0.08 (0.18) ON-delay 24 V AC/DC,220-240 V AC 0.1-10 s - 1 c/o CT-ERE 1SVR550107R1100 0.08 (0.18) 0.3-30 s 1SVR550107R4100 3-300 s 1SVR550107R2100 0.3-30 min 1SVR550107R5100 110-130 V AC 0.1-10 s - 1SVR550100R1100 0.3-30 s 1SVR550100R4100 3-300 s 1SVR550100R2100 0.3-30 min 1SVR550100R5100 OFF-delay 24 V AC/DC 0.1-10 s Q 1 c/o CT-AHE 1SVR550118R1100 0.08 (0.18) 0.3-30 s 1SVR550118R4100 3-300 s 1SVR550118R2100 110-130 V AC 0.1-10 s 1SVR550110R1100 0.3-30 s 1SVR550110R4100 3-300 s 1SVR550110R2100 220-240 V AC 0.1-10 s 1SVR550111R1100 0.3-30 s 1SVR550111R4100 3-300 s 1SVR550111R2100 OFF-delay 2) 24 V AC/DC,220-240 V AC 0.1-10 s - 1  c/o CT-ARE 1SVR550127R1100 0.08 (0.18) 0.3-30 s 1SVR550127R4100 110-130 V AC 0.1-10 s 1SVR550120R1100 0.3-30 s 1SVR550120R4100 Impulse-ON 24 V AC/DC,220-240 V AC 0.1-10 s - 1  c/o CT-VWE 1SVR550137R1100 0.08 (0.18) 0.3-30 s 1SVR550137R4100 3-300 s 1SVR550137R2100 110-130 V AC 0.1-10 s 1SVR550130R1100 0.3-30 s 1SVR550130R4100 3-300 s 1SVR550130R2100 Impulse-OFF 2) 24 V AC/DC 0.05-1 s - 1 c/o CT-AWE 1SVR550158R3100 0.08 (0.18) 110-130 V AC 1SVR550150R3100 220-240 V AC 1SVR550151R3100 Q  Control input with voltage-related triggering - no triggering 2CDC110004C0209.pdf   33 11/26/2013   4:50:09 PM

1/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-E range Ordering details 2CDC 251 125 F0004 2CDC 251 128 F0004 CT-AWE CT-IRE A  ON-delay  B  OFF-delay  CA  Impulse-ON  CB  Impulse-OFF  DA  Flasher starting with ON  DB  Flasher staring with OFF  H  Pulse former  G  Switching relay  FA  Star-delta change-over  twice  ON-delayed FC  Star-delta change-over   with  impulse DE  Pulse generator starting   with ON or OFF 1)  without auxiliary voltage 2)  with fixed transition time 3)  A1/A2 diagonal 4)  A1/A2 on top 5)  solid-state output, functions and time range selection via external jumpers 6)  symetric ON & OFF times 7)  common contact 8)  Functions: ON-delay (AC/DC), Impuls-ON (AC only), Flasher starting with OFF (AC only) Notice CT-...KE are solid-state timers with thyristor output for 2-wire applications. They are connected  directly in series with the control coil of contactors or relays. Voltage should not be applied   without a load connected, because there is no current limiting in the unit. Bestellangaben Timing function Rated  control supply voltage Time  ranges Con-trol Input Output Type Order code Price 1 pce Weight(1 pce) kg (lb)   Impulse-OFF 24 V AC/DC 0.1-10 s Q 1 c/o CT-AWE  1SVR550148R1100 0.08 (0.18) 0.3-30 s 1SVR550148R4100 3-300 s 1SVR550148R2100 110-130 V AC 0.1-10 s 1SVR550140R1100 0.3-30 s 1SVR550140R4100 3-300 s 1SVR550140R2100 220-240 V AC 0.1-10 s 1SVR550141R1100 0.3-30 s 1SVR550141R4100 3-300 s 1SVR550141R2100 Flasher staring with OFF 24 V AC/DC,220-240 V AC 0.1-10 s - 1 c/o CT-EBE   6) 1SVR550167R1100 0.08 (0.18) 110-130 V AC 1SVR550160R1100 Star-delta change-over twice ON-delayed 24 V AC/DC,220-240 V AC 0.1-10 s - 1 c/o CT-YDE  1) 2) 1SVR550207R1100 0.08 (0.18) 0.3-30 s 1SVR550207R4100 3-300 s 1SVR550207R2100 110-130 V AC 0.1-10 s 1SVR550200R1100 0.3-30 s 1SVR550200R4100 3-300 s 1SVR550200R2100 Star-delta change-over with impuls 24 V AC/DC,220-240 V AC 0.3-30 s - 1 n/o +  1 n/c CT-SDE  2) 7) 1SVR550217R4100 0.08 (0.18) 110-130 V AC 1SVR550210R4100 380-415 V AC 1SVR550212R4100 Multifunc-tional  8) 24-240  V AC/DC 0.1-10 s.3-300 s - solide-state CT-MKE  5) 8) 1SVR550019R0000 0.08 (0.18) ON-delay 24-240  V AC/DC 0.1-10 s - CT-EKE 1SVR550509R1000 0.08 (0.18) 0.3-30 s 1SVR550509R4000 3-300 s 1SVR550509R2000 OFF-delay 24-240 V AC 0.1-10 s - CT-AKE 1SVR550519R1000 0.08 (0.18) 0.3-30 s 1SVR550519R4000 3-300 s 1SVR550519R2000 Switching relay 24 V AC/DC - 1 c/o CT-IRE  3) 1SVR550228R9100 0.08 (0.18) 220-240  V AC/DC 1SVR550221R9100 24 V AC/DC - 1 c/o CT-IRE  4) 1SVR550238R9100 0.08 (0.18) 220-240  V AC/DC 1SVR550231R9100 Q  Control input with voltage-related triggering - no triggering 2CDC110004C0209.pdf   34 11/26/2013   4:50:09 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/22  1 CT-E range Function diagrams A    ON-delay (Delay on make)   CT-ERE,  CT-MFE B   OFF-delay, with auxiliary voltage (Delay on break)   CT-AHE,  CT-MFE t = adjusted time delay t = adjusted time delay Minimum control pulse length: 20 ms t A1-A2/B1 15-1815-16 t 2CDC 252 130 F0205 green LED red LED A1-A2 A1-Y1 15-16 15-18 t 2CDC 252 132 F0205 green LED red LED Applying control supply voltage starts timing. When the selected time delay is complete, the output relay energizes. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Interrupting control supply voltage before the time delay is complete, resets the time delay. The output relay does not energize. This function requires continuous control supply voltage for timing.  Timing is controlled by control input A1-Y1. If the control input is closed, the output relay energizes. If control input A1-Y1 is opened, the selected time delay starts. When the time delay is complete, the output relay de-energizes. If control input A1-Y1 is closed before the time delay is complete, the time delay is reset. Timing starts again when the control input re-opens. Remarks Legend G  Control supply voltage not applied / Output contact open B  Control supply voltage applied / Output contact closed  A1-Y1/B1  Control input with voltage-related triggering  Terminal designations on the device and in the diagrams The c/o contact is always designated 15-16/18. The n/o contacts are designated with 15-16 and 15-18.  Control supply voltage is always applied to terminals A1-A2/B1. Function of the red LED The red LED R glows as soon as the output relay energizes and turns off when the output relay de-energizes.  2CDC110004C0209.pdf   35 11/26/2013   4:50:09 PM

1/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CA    Impulse-ON (Interval)   CT-VWE,  CT-MFE B   OFF-delay, without auxiliary voltage     (true delay on break) CT-ARE t = adjusted time delay A1-A2/B1 15-1815-16 t 2CDC 252 133 F0205 green LED This function requires continuous control supply voltage for timing. Ti-ming is controlled by control input A1-Y1. If the control input is opened, the output relay energizes and timing begins. When the selected time delay is complete, the output relay de-energizes. Interrupting control supply voltage or closing control input A1-Y1, before the time delay is complete, de-energizes the output relay and resets the time delay. The Impulse-OFF function without auxiliary voltage does not require con-tinuous control supply voltage for timing. If control supply voltage is interrupted, the output relay energizes and the OFF time starts. When timing is complete, the output relay de-energizes. If control supply voltage is re-applied before the time delay is complete, the time delay is reset and the output relay de-energizes. Control supply voltage must be applied for the minimum energizing time (200 ms), for proper operation. t = adjusted pulse time t = adjusted pulse time A1-A2 A1-Y1 15-16 15-18 t 2CDC 252 137 F0205 green LED red LED A1-A2 15-16 15-18 t 2CDC 252 138 F0205 green LED red LED The output relay energizes immediately when control supply voltage is applied and de-energizes after the selected time delay is complete. If control supply voltage is interrupted before the time delay is complete, the output relay de-energizes and the time delay is reset. Control input A1-Y1 has to be jumpered, when this timing function is selected. CT-VWE:    CT-MFE: The OFF-delay function without auxiliary voltage does not require conti-nuous control supply voltage for timing. Applying control supply voltage, energizes the output relay. If control supply voltage is interrupted, the OFF-delay starts. When timing is complete, the output relay de-energizes. If control supply voltage is re-applied before the time delay is complete, the time delay is reset and the output relay remains energized. Control supply voltage must be applied for the minimum energizing time (200 ms), for proper operation. CB   Impulse-OFF, with auxiliary voltage     (Trailing edge interval) CT-AWE CB   Impulse-OFF, without auxiliary voltage     (True trailing edge interval) CT-AWE t = adjusted pulse time t = adjusted pulse time A1-A2/B1 15-1815-16 t t 2CDC 252 134 F0205 green LED red LED A1-A2 15-1815-16 t t A1-Y1 2CDC 252 135 F0205 green LED red LED CT-E range Function diagrams 2CDC110004C0209.pdf   36 11/26/2013   4:50:09 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/24  1 DA    Flasher starting with ON     (Recycling equal times, ON first) CT-MFE t = adjusted flashing time DB   Flasher starting with OFF    (Recycling equal times, OFF first) CT-EBE, CT-MFE t = adjusted flashing time G  Switching  relay     CT-IRE H   Pulse former (Single shot)   CT-MFE t = adjusted pulse time A1-A2 15-16 15-18 2CDC 252 145 F0205 green LED A1-A2 A1-Y1 15-16 15-18 t t 2CDC 252 136 F0205 green LED red LED The switching relay may be used to increase the number of available contacts or to reinforce contacts, or as a coupling/decoupling interface. Applying control supply voltage, energizes the output relay. The output relay de-energizes if control supply voltage is interrupted. Closing the control input A1-Y1, with control supply voltage applied, en-ergizes the output relay for the selected ON time. Operating the control input during timing has no effect. When the ON time is complete, the output relay de-energizes. Timing can be restarted by re-closing control input A1-Y1. If control supply voltage is interrupted during timing, the output relay de-energizes and the ON time is reset. Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an ON time first. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1 has to be open, when this timing function is se-lected. Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an OFF time first. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Control input A1-Y1 has to be jumpered, when this timing function is selected. CT-EBE:    CT-MFE: A1-A2 A1-Y1 15-16  15-18  t  t  2CDC 252 026 F0209 green LED red LED A1-A2/B1 15-16 15-18 t t 2CDC 252 140 F0205 green LED red LED 15-16 15-1815-16 15-18 t t A1-A2 A1-Y1 2CDC 252 023 F0209 green LED red LED t = adjusted flashing time CT-E range Function diagrams 2CDC110004C0209.pdf   37 11/26/2013   4:50:10 PM

1/25   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 -K1 -K3 L1 -F1 1 2 95 96 97 98 L2 3 4 L3 5 6 12 34 56 12 34 56 -K2 -F2 12 34 56 1 3 5 2 4 6 M 3 ~ W2 V2 U2 W1 V1 U1 -M1 2CDC 253 009 F0012 K1 K3 K3 Y ͬ N K2 K2 K2 L1 N F3 F2 95 9621 22 21 22 21 22 A1 A2 A1 A2 A1 A2 A1 A2 21 22 16 15 13 14 43 44 1314 1314 S1 0 I S2 K1 K1T K1T K1 K1 2CDC 253 002 F0013 K1T K1T K1T K3 K3 Y ͬ N K2 K2 K2 L1 N F3 F2 95 9621 22 22 21 A1 B1    A2 A1 A2 A1 A2 A1 A2 22 21 1314 15 16 15 18 13 14 53 54 5354 S1 0 I S2 K1 K1 K1 2CDC 253 001 F0013 FC  Star-delta  change-over     CT-SDE FA    Star-delta change-over    CT-YDE Power circuit diagram Control circuit diagram Control circuit diagram A1-A2/B1  15-16  15-18  t1 t2 2CDC 252 133 F0206 Star contactor Delta contactor green LED  red LED  t1 = adjustable starting timet2 = fixed transition time of 50 ms A1-A2/B1  15-16  15-18  t1 t2 2CDC 252 134 F0206 Star contactor Delta contactor green LED  red LED  t1 = adjustable starting timet2 = fixed transition time of 30 ms Applying control supply voltage energizes the star contactor (K1) and the line contactor (K2) and begins the set starting time. When the starting time is complete, contact 15-16 de-energizes the star contactor (K1) Now, the fix transition time starts. When the transition time is complete, contact 15-16 energizes the delta contactor (K3). Applying control supply voltage energizes the star contactor (K1) and the line contactor (K2) and begins the set starting time. When the starting time is complete, contact 15-16 de-energizes the star contactor (K1). Now, the fix transition time starts. When the transition time is complete, contact 15-18 energizes the delta contactor (K3). CT-E range Function diagrams 2CDC110004C0209.pdf   38 11/26/2013   4:50:10 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/26  1 2CDC 252 001 F0213 A1-A2 t t Thyristor A1-A2 2CDC 252 146 F0205 red LED A1-A2 t t Thyristor A1-A2 2CDC 252 147 F0205 red LED A1-A2 Thyristor A1-A2 t t 2CDC 252 148 F0205 red LED A1-A2 t t Thyristor A1-A2 2CDC 252 149 F0205 red LED t = adjusted time delay t = adjusted pulse time t = adjusted flashing time t = adjusted flashing time A   ON-delay (Delay on make)   CT-EKE t = adjusted time delay B   OFF-delay, with auxiliary voltage (Delay on break)   CT-AKE t = adjusted time delay Multifunction timer CT-MKE Functions and time ranges are programmed by simply plugging in external wire jumpers. Notice: CT-...KE are solid-state timers with thyristor output for 2-wire applications. They are connected directly in series with the control coil of contactors or relays. Voltage should not be applied without a load connected, because there is no current limiting in the unit. A   ON-delay (Delay on Make) Without external connection. Timing begins when control supply voltage is applied to terminal A1 and the load connected in series with A2. When the selected time delay is complete, the load energizes. If control supply voltage is interrupted, the load de-energizes and the time delay is reset. Interrupting supply voltage before the time delay is complete, resets the time delay. The load does not energize. CA  Impulse-ON  (Interval) External connection X1-X4 required. The load energizes and timing starts when control supply voltage is applied to terminal A1 and the load connected in series with A2. When the selected time delay is complete, the load de-energizes. Inter-rupting control supply voltage before the time delay is complete, de-energizes the load and resets the time delay. DA   Flasher, starting with ON External connection X1-X4 and X2-X4 required. When control supply voltage is applied to terminal A1 and the load connected in series with A2, the load energizes and de-energizes with the selected ON & OFF times. The ON & OFF times are equal. The cycle starts with an ON time first (load energized). If control supply vol-tage is interrupted, the load de-energizes and the time delay is reset. DB   Flasher, starting with OFF External connection X2-X4 required. When control supply voltage is applied to terminal A1 and the load connected in series with A2, the load energizes and de-energizes with the selected ON & OFF times. The ON & OFF times are equal. The cycle starts with an OFF time first (load de-energized). If control supply voltage is interrupted, the load de-energizes and the time delay is reset. A1-AL t t Thyristor A1-AL 2CDC 252 150 F0205 green LED A1-AL t Y2-A2 Thyristor A1-AL green LED Programming the time ranges X 3 -X 4  jumpered: 0,1-10 s   X 3 -X 4  open: 3-300 s Timing begins when control supply voltage is applied to terminal A1 and the load connected in series with AL. When the selected time delay is complete, the load energizes. The green LED glows as long as the load is energized. If control supply voltage is interrupted, the load de-energizes and the time delay is reset. Interrupting control supply voltage before the time delay is complete, resets the time delay. The load does not energize. The OFF-delay function with auxiliary voltage requires continuous control supply voltage at terminal A1, and the load connected in series with AL, for timing. Timing is controlled by control input Y2-A2. When the control input is closed, the load energizes. If the control input is opened, the selected time delay starts (minimum control pulse length is 20 ms). The green LED glows as long as the load is energized. When the selected time delay is complete, the load de-energizes. If control input Y2-A2 is clo-sed before the time delay is complete, the time delay is reset and the load remains energized. Timing starts again when the control input is re-opened. Interrupting control supply voltage resets the time delay and de-energizes the load. CT-E range Function diagrams 2CDC110004C0209.pdf   39 11/26/2013   4:50:10 PM

1/27   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 2CDC 252 152 F0005 A1 A1 A2 15 15 16 16 18 A2 18 Y1 2CDC 252 153 F0005 A1 B1 16 18 A2 A2 16 18 A1 15 15 B1 2CDC 252 154 F0005 A1 A1 A2 16 18 15 15 Y1 16 18 A2 2CDC 252 155 F0005 A1 A2 16 18 B1 15 15 A1 B1 18 16 A2 CT-MFE A  CT-ERE B  CT-ARE B  CT-AHE  1) 15  A1  A1  A2 B1  16  18  15  B1  18  16 A2  2CDC 252 156 F0b05 15  A1  A1  A2 16  18  15  18  16 A2  2CDC 252 157 F0b05 15 Y1  A1  A1  A2 16  18  15  18  16 A2  2CDC 252 158 F0b05 CA   CT-VWE   CB   CT-AWE CB   CT-AWE  1) 2CDC 252 159 F0005 15 B1 A1 A1 B1 15 18 16 A2 16 18 A2 DB   CT-EBE FAI  CT-YDE F C   CT-SDE F C   CT-SDE 2CDC 252 160 F0005 15 B1 A1 A1 A2 B1 16 18 15 18 16 A2 2CDC 252 161 F0005 15 B1 A1 A1 A2 B1 16 18 15 18 16 A2 2CDC 252 162 F0005 15 A1 A1 A2 16 18 15 18 16 A2 G   CT-IRE 2CDC 252 163 F0005 11 A1 A1 A2 12 14 11 14 12 A2 A1-A2 Supply:        24-240 V AC/DC  A1-Y1 Control  input 15-16/18 c/o  contact Device without aux. voltage A1-A2 Supply:      220-240 V AC or     110-130 V AC A1-B1 Supply:      24 V AC/DC 15-16/18 c/o  contact A1(+)-A2(-) Supply:      24 V AC/DC or     110-240 V AC or     220-240 V AC A1-Y1 Control  input 15-16/18 c/o  contact A1-A2 Supply:      220-240 V AC or     110-130 V AC A1-B1 Supply:      24 V AC/DC 15-16/18 c/o  contact A1-A2 Supply:      220-240 V AC or     110-130 V AC A1-B1 Supply:      24 V AC/DC 15-16/18 c/o  contact Device with aux. voltage A1(+)-A2(-) Supply:      24 V AC/DC or     110-240 V AC or     220-240 V AC 15-16/18 c/o  contact A1-A2 Supply:      24 V AC/DC or     110-240 V AC or     220-240 V AC A1-Y1 Control  input 15-16/18 c/o  contact A1-A2 Supply:      220-240 V AC or     110-130 V AC A1-B1 Supply:      24 V AC/DC 15-16/18 c/o  contact A1-A2 Supply:      220-240 V AC or     110-130 V AC A1-B1 Supply:      24 V AC/DC 15-16/18 c/o  contact A1-A2 Supply:      220-240 V AC A1-B1 Supply:      24 V AC/DC 15-16 n/c  contact 15-18 n/o  contact with common contact Device: 1SVR 550 217 R4100 Devices: 1SVR 550 210 R4100, 1SVR 550 212 R4100 A1-A2 Supply:      110-130 V AC or     380-415 V AC  15-16 n/c  contact 15-18 n/o  contact with common contact A1-A2 Supply:      24 V AC/DC or     220-240 V AC/DC   11-12/14 c/o  contact Supply terminals  diagonally positioned CT-E range Connection diagrams 2CDC110004C0209.pdf   40 11/26/2013   4:50:10 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/28  1 2CDC 252 164 F0005 A2 A1 A1 A2 12 14 11 12 11 14 G   CT-IRE 2CDC 252 165 F0005 X2 A1 A2 U X1 A1 X4 X3 A2 CT-MKE 2CDC 252 166 F0005 AL A1 A1 AL 2CDC 252 167 F0005 AL A1 A1 Y2 A2 AL A2 Y2 A  CT-EKE B  CT-AKE A1-A2 Supply:      24 V AC/DC or     220-240 V AC/DC 11-12/14 c/o  contact Supply terminals on one side of the device A1-A2 Supply:      24-240 V AC/DC A1-A2 Thyristor X1-X4  Timing function adjustment X2-X4  Timing function adjustment X3-X4  Time range adjustment (Details see function diagrams) A1-AL Supply:      24-240 V AC/DC A1-AL Thyristor A1-AL Supply:      24-240 V AC A1-AL Thyristor Y2-A2 Control  input 1)  Wiring notes 1/31 220 V 50 Hz AC1 360 cycles/h 300  200  100  80 60  50  40 30  20  10  1 2 4  6  10  I A  V  U  2CDC 252 193 F0205 0,1 0,2 0,5 cos  ϕ F  2CDC 252 192 F0205 0,5 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 1,0 0,6 0,7 0,8 0,9 1,0 300  200  100  80 60  50  40 30  20  10  1 2 4  6  10  I A  V  U  2CDC 252 194 F0205 0,1 0,2 0,5 4  3  2  1  10 5 2    3    4    N  I A  5    8    9    10 6 5 6 7 8  2CDC 252 034 F0208 AC load (resistive) DC load (resistive) Technical diagrams Load limit curves Derating factor F for inductive AC load Contact lifetime CT-E range Connection diagrams, Technical diagrams 2CDC110004C0209.pdf   41 11/26/2013   4:50:10 PM

1/29   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-E range Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated CT-E (relays) CT-E (solid-state) Input circuit - Supply circuit Rated control supply voltage U s A1-A2, A1-AL 24-240 V AC/DCA1-A2, A1-AL 24-240 V AC A1-A2 110-130 V AC - A1-A2 220-240 V AC - A1-A2 380-415 V AC - A1-B1 24 V AC/DC - Rated control supply voltage U S  tolerance  -15...+10 % Rated frequency AC/DC versions DC or 50/60 Hz AC versions 50/60 Hz Typical current / power consumption 24-240 V AC/DC, 24-240 V AC approx. 1.0-2.0 VA/W 110-130 V AC, 220-240 V AC approx. 2.0 VA - 380-415 V AC approx. 3.0 VA - 24 V AC/DC approx. 1.0 VA/W - Minimum energizing time CT-ARE, CT-AWE w/o aux. voltage 200 ms - Current consumption while timing - ≤ 2 mA (24-60 V AC/DC)≤ 8 mA (60-240 V AC/DC)(CT-AKE only AC) Input circuit - Control circuit Kind of triggering voltage-related triggering - Control input, Control function A1-Y1 start timing external - Parallel load / polarized no / yes  1) - Minimum control pulse length 20 ms - Control voltage potential see rated control supply voltage - Timing circuit Time ranges 1 of 5 time ranges per single-function device 0.05-1 s / 0.1-10 s / 0.3-30 s / 3-300 s / 0.3-30 min 8 time ranges 0.05 s - 100 h (CT-MFE) 1.) 0.05-1 s        3.) 5-100 s          5.) 0.5-10 min     7.) 0.5-10 h     2.) 0.5-10 s  4.) 50-1000 s   6.) 5-100 min  8.) 5-100 h - 2 time ranges 0.1-300 s (CT-MKE) - 1.)  0.1-10  s 2.) 3-300 s Recovery time 50 msCT-ARE: 200 msCT-AWE, CT-SDE: 400 msCT-YDE: 500 ms CT-EKE: 50 msCT-MKE: 100 msCT-AKE: 300 ms Accuracy within the rated control supply voltage tolerance ͬt 0.5 % / V Accuracy within the temperature range ͬt 0.1 % / °CCT-MFE:  ͬt 0.06 % / °C - Repeat accuracy (constant parameters) ͬt 1 % Star-delta transition time CT-YDE / CT-SDE 50 ms / 30 ms - Output circuit Kind of output 15-16/18 Relay, 1 c/o contact - CT-SDE: 15-16, 15-18 1 n/c, 1 n/o contract with common  contact A1-A2. A1-AL - Thyristor Contact material AgCdO - Rated operational voltage U e IEC/EN 60947-1 250 V Maximum switching voltage 250 V AC, 250 V DC Rated operational current I e    (IEC/EN 60947-5-1 ) AC12 (resistive) at 230 V 4 A - AC15 (inductive) at 230 V 3 A - DC12 (resistive) at 24 V 4 A - DC13 (inductive) at 24 V 2 A - 1)  CT-MFE: yes / no 2CDC110004C0209.pdf   42 11/26/2013   4:50:11 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/30  1 CT-E (relays) CT-E (solid-state) AC rating (UL 508) Utilization category   (Control Circuit Rating Code) B 300 - max. rated operational voltage 300 V AC - Maximum continuous thermal current at B300 5 A - max. making/breaking apparent power at B300 3600 VA / 360 VA - Mechanical lifetime 30 x 10 6  switching cycles - Electrical lifetime at AC12, 230 V, 4 A 0.1 x 10 6  switching cycles - Max. fuse rating to achieve short-circuit protection (IEC/EN 60947-5-1) n/c contact 10 A fast-acting, CT-ARE: 5 A - n/o contact 10 A fast-acting, CT-ARE: 5 A - Minimum load current - CT-MKE:  20  mACT-EKE, CT-AKE: 10 mA Maximum load current - CT-MKE: 0.8 A at Ta = 20 °CCT-EKE, CT-AKE: 0.7 A Load current reduction / Derating - 10  mA/°C Maximum surge current - CT-MKE: ≤ 20 A for t ≤ 20 msCT-EKE, CT-AKE: ≤ 15 A Voltage drop in connected state - ≤ 3 V Cable length between solid-state timer and connected load at 50 Hz and a cable capacity of 100 pF/m : at 24 V AC - 220 m / 22 nF at 42 V AC - 100 m / 10 nF at 60 V AC - 65 m / 6.5 nF at 110 V AC - 50 m / 5 nF at 240 V AC - 22 m / 2.2 nF General data Duty time 100% Dimensions (W x H x D) 22.5 x 78 x 78.5 mm (0.886 x 3.07 x 3.09 in) Weight approx. 80 g (0.176 lb) Mounting DIN rail (IEC/EN 60715) Mounting position any Minimum distance to other units horizontal / vertical no / no Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size fine-strand with wire end ferrule 2 x 0.75-1.5 mm2 (2 x 18-16 AWG) fine-strand without wire end ferrule 2 x 1-1.5 mm2 (2 x 18-16 AWG) rigid 2 x 0.75-1.5 mm2 (2 x 18-16 AWG) Stripping length 10 mm (0.39 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) Environmental data Ambient temperature ranges operation / storage -20...+60 °C / -40...+85 °C Damp heat IEC/EN 60068-2-30 24 h cycle, 55 °C, 93 % rel., 96 h Operational reliability IEC/EN 60068-2-6 6 g Mechanical resistance IEC/EN 60068-2-6 10 g Isolation data Rated impulse withstand voltage U imp  between all  isolated circuits IEC/EN 60664 4 kV; 1.2/50 μs Pollution category IEC/EN 60664, IEC/EN 60255-5 III/C Overvoltage category IEC/EN 60664, IEC/EN 60255-5 III/C Rated insulation voltage U i  between supply circuit,  control circuit and output circuit input circuit / output circuit 300 V (supply up to 240 V) 500 V (supply up to 440 V) Test voltage between all isolated circuits routine test 2.5 kV, 50 Hz, 1 s Standards Product standard IEC 61812-1, EN 61812-1 + A11, DIN VDE 0435 Teil 2021 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency electromag-netic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission IEC/EN 61000-6-4 „Approvals and marks“ see page 1/4. CT-E range Technical data 2CDC110004C0209.pdf   43 11/26/2013   4:50:11 PM

1/31   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-E range Wiring notes, Dimensional drawings 3.48“  3.19“  3.09“  .886“  3.07“  88,5  81  78,5  78  22,5  2CDC 252 189 F0b05 A1  Y1  A2  I  I  I  2CDC 252 200  F0b05 U  A1  A2  Y1  2CDC 252 199  F0b05 U  Dimensional drawing  Dimensions in mm Wiring notes for single-function devices with control contact  (CT-AHE, CT-AWE with auxiliary voltage) I  I  A1  A2  Y1  I  2CDC 252 198  F0b05 U  A1  Y1  A2  2CDC 252 201 F0b05 U  2CDC110004C0209.pdf   44 11/26/2013   4:50:11 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/32  1 CT-E range Notes 2CDC110004C0209.pdf   45 11/26/2013   4:50:11 PM

1/33   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Product group picture 2CDC110004C0209.pdf   46 11/26/2013   4:50:12 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/34  1 CT-S range Table of contents CT-S Range Product group picture   1/33 Table of contents   1/34 Benefits and advantages   1/35 Ordering details - multifunctional   1/37 Ordering details - singlefunctional   1/38 Ordering details - Accessories   1/39 Ordering details - Accessories   1/40 Function diagrams   1/41 Connection diagrams   1/49 Technical data   1/52 Technical diagrams   1/55 Wiring notes, Dimensional drawings   1/56 2CDC110004C0209.pdf   47 11/26/2013   4:50:12 PM

1/35   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Benefits and advantages Characteristics   ½ Diversity:   ½   8 multifunction timers   ½   13 single-function timers   ½   8 switching relays   ½ Control supply voltages:   ½   Multi range: 24-48 V DC, 24-240 V AC   ½   Wide range: 24-240 V AC/DC   ½   Single range: 380-440 V AC   ½ Innovative connection technology   ½ Double-chamber cage connection terminals   ½ Easy Connect Technology   ½ Devices with:   ½   1 or 2 c/o (SPDT) contacts   ½   2nd c/o contact can be selected as instantaneous contact  1)   ½   Remote potentiometer connection  1)   ½   Control input with volt-free or voltage-related triggering      e.g. to start timing, pause timing   ½   Extended operating temperature range down to -40 °C  1)   ½ Sealable transparent cover for protection against unauthorized changes of time values   ½ Integrated marker label   ½ Approvals / Marks (partly pending, details see page 1/4)  A, C,  , E, K,  L  /  a, b 1)  selected devices 1  2nd contact as an instantaneous contact 2  Preselection of the time range 3  Indication of   operational states   U/T: V control supply voltage applied / W timing  R: V Output relay energized 4  Fine adjustment of time delay 4  Preselection of timing function  Marker label Operating controls 4 1 2 3 5 6 2CDC110004C0209.pdf   48 11/26/2013   4:50:12 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/36  1 LEDs for status indication All actual operational states are displayed by front-face LEDs, thus  simplifying commissioning and troubleshooting. Integrated marker label Integrated marker labels allow the product to be marked quickly and simply. No additional marker labels are required. Sealable transparent cover Protection against unauthorized changes of time and threshold values. Available as an accessory. Snap-On housing Tool-free DIN rail installation and deinstallation of the electronic timer. CT-S range Benefits and advantages Easy Connect Technology Tool-free wiring and excellent vibration resistance. Push-in terminals provi-de connection of wires up to 2 x 0,5 - 1,5 mm² (2 x 20 -16 AWG), rigid or fine-strand with or without wire end ferrules. The extended type designa-tors for products with push-in terminals are indicated by a P following the extended type designator e.g. CT-xxS.xxP. Double-chamber cage connection terminals Double-chamber cage connection terminals provide connection of wires up to 2 x 0,5-2,5 mm² (2 x 20-14 AWG) rigid or fine-strand, with or without wire end ferrules. Potential distribution does not require additional termi-nals. The extended type designators for products with double-chamber cage connection terminals are indicated by a S following the extended type designator e.g. CT-xxS.xxS. Time range preselection and fine adjustment Direct assignment of the preselected time range to the fine adjustment potentiometer scale by multicolor scales. Higher utility class The Easy Connect Technology provides excellent vibration resistance with gas tight push-in terminals – the right solution for harsh environment. Selected products of the electronic timers and measuring and monitoring relays comply to the latest rail standards NF F 16-101/102, EN 45545, EN 50155 and more standards which are relevant for railway applications. Find more inforamtion in the rail brochure 2CDC110084B0201. 1 2 3 4 6 5 7 8 4 2CDC 253 035 F0011 2CDC 253 026 F0011 2CDC 253 025 F0011 2CDC 252 006 F0012 2CDC 255 006 S0011 2CDC 253 007 F0012 2CDC 253 013 F0013 2 1 3 7 6 8 5 2CDC110004C0209.pdf   49 11/26/2013   4:50:13 PM

1/37   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Ordering details - multifunctional 2CDC 251 024 V0011 CT-MVS.21P 2CDC 251 023 V0011 CT-MBS.22P Description The highly sophisticated CT-S range in ABB’s new S-range housing offers two different  types of connection terminals and is ideally suited for universal use. Two different connection  technologies are available:   ½ Double-chamber cage connection terminals    ½ Easy Connect Technology Accessories: The CT-S range offers the possibility of using accessories such as a remote potentiometer to  adjust the time delay or a sealable, transparent cover to protect against unauthorized changes.  of time and threshold values. A(+)  ON-delay (accumulative)  B  OFF-delay without aux.   voltage  CA  Impulse-ON  CB  Impulse-OFF AB  Symmetrical ON-delay and   OFF-delay DA  Flasher starting with ON  DB  Flasher staring with OFF DE  Pulse generator starting FC  Star-delta change-over with  impulse H  Pulse former G  ON/OFF-function FA  Star-delta change-over twice    ON-delayed    with ON or OFF ED  Pulse generator starting with   ON or OFF EC  Single-pulse generator CE  Impulse-ON/OFF DA  Flasher starting with ON DB  Flasher starting with OFF AC  fixed impulse with adjustable  time  delay BC  Adjustable impulse with fixed  time  delay Timing function Rated  control supply  voltage Time  ranges Con-trol input Output Type Order  code Price 1 pce Weight(1 pce) kg (lb) Multifunc-tional  5) 24- 240  V AC/DC 10 (0.05 - 300 h) Q 2 c/o CT-MVS.21S  1) 2) 3) 1SVR730020R0200 0.148 (0.326) CT-MVS.21P  1) 2) 3) 1SVR740020R0200 0.136 (0.30) 24-48 V DC,24-240 V AC CT-MVS.22S 1SVR730020R3300 0.142 (0.313) CT-MVS.22P 1SVR740020R3300 0.131 (0.289) 380-440 V AC CT-MVS.23S 1SVR730021R2300 0.144 (0.317) CT-MVS.23P 1SVR740021R2300 0.133 (0.293) Multifunc-tional  6) 24-48 V DC,24-240 V AC 10 (0.05 s - 300 h) Q 1 c/o CT-MVS.12S 1SVR730020R3100 0.107 (0.236) CT-MVS.12P 1SVR740020R3100 0.102 (0.225) Multifunc-tional  7) 24-48 V DC,24-240 V AC 2×10  (0.05 s - 300 h) Q 2 c/o CT- MXS.22S 4) 1SVR730030R3300 0.142 (0.313) CT-MXS.22P 4) 1SVR740030R3300 0.131 (0.289) Multifunc-tional  8) 24-240  V AC/DC 10  (0.05 s - 300 h) - 2  c/o CT-MFS.21S  1) 2) 3) 1SVR730010R0200 0.145 (0.32) CT-MFS.21P  1) 2) 3) 1SVR740010R0200 0.133 (0.293) 24-48 V DC,24-240 V AC 10  (0.05 s - 300 h) Q /     Q 2 c/o CT-MBS.22S  2) 3) 1SVR730010R3200 0.14 (0.309) CT-MBS.22P  2) 3) 1SVR740010R3200 0.129 (0.284) Multifunc-tional  9) 24-48 V DC,24-240 V AC 10 (0.05 s - 300 h) - 2  c/o CT-WBS.22S 1SVR730040R3300 0.123 (0.271) CT-WBS.22P 1SVR740040R3300 0.115 (0.254) 1)  Extended temperature range -40 °C 2)  Remote potentiometer connection 3)  2nd c/o contact selectable as instantaneous contact 4)  2 remote potentiometer connections 5)  Functions: ON-delay, OFF-delay with auxiliary voltage, Impulse-ON, Impulse-OFF with auxiliary voltage, Symmetrical ON- and OFF- delay, Flasher starting with ON or OFF, Star-delta change-over with impulse, Pulse former, Accumulative ON-delay, ON/OFF-function 6)  Functions: ON-delay, OFF-delay with auxiliary voltage, Impulse-ON, Impulse-OFF with auxiliary voltage, Symmetrical ON- and OFF- delay,  Flasher starting with ON or OFF, Pulse former, Accumulative ON-delay, ON/OFF-function 7)  Functions: Select function via DIP switches behind the marker label on the front of the unit, asymmetrical ON- and OFF-delay,   Impulse-ON/OFF, Pulse generator starting with ON or OFF, Single pulse generator, ON/OFF-function 8)  Functions: ON-delay, OFF-delay with auxiliary voltage, Impulse-ON, Impulse-OFF with auxiliary voltage, Symmetrical ON- and OFF- delay, Flasher starting with ON, Flasher starting with OFF, Star-delta change-over with impulse, Pulse former, ON/OFF-function 9)  Functions: Flasher starting with ON, Flasher starting with OFF, Impulse-ON, ON-delay, fixed impulse with adjustable time delay,  Adjustable impulse with fixed time delay, ON/OFF-function Q  Control input with voltage-related triggering Q Control input with volt-free triggering Q   /  Q two control input with volt-free triggering - no triggering S: screw connectionP: push-in / easy connect 2CDC110004C0209.pdf   50 11/26/2013   4:50:14 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/38  1 CT-S range Ordering details - singlefunctional Timing function Rated  control supply  voltage Time  ranges Con-trol input Output Type Order code Price 1 pce Weight(1 pce) kg (lb) ON-delay (accumu-lative)  24-240  V AC/DC 10 (0.05 s - 300 h) - 2 c/o CT-ERS.21S 1) 1SVR730100R0300 0.13 (0.287) CT-ERS.21P 1) 1SVR740100R0300 0.121 (0.267) 24-48 V DC,24-240 V AC CT-ERS.22S   1SVR730100R3300 0.121 (0.267) CT-ERS.22P   1SVR740100R3300 0.113 (0.249) 24-48 V DC,24-240 V AC - 1  c/o CT-ERS.12S 1SVR730100R3100 0.106 (0.234) CT-ERS.12P 1SVR740100R3100 0.101 (0.222) OFF-delay 24-240  V AC/DC  10 (0.05 s - 300 h) Q 2 c/o CT-APS.21S 1)  1SVR730180R0300 0.146 (0.322) CT-APS.21P 1)  1SVR740180R0300 0.125 (0.276) 24-48 V DC,24-240 V AC CT-APS.22S 1SVR730180R3300 0.138 (0.304) CT-APS.22P 1SVR740180R3300 0.127 (0.28) Q 1 c/o CT-APS.12S 1SVR730180R3100 0.109 (0.24) CT-APS.12P 1SVR740180R3100 0.103 (0.227) 24-48 V DC,24-240 V AC 10 (0.05 s - 300 h) Q 2 c/o CT-AHS.22S 1SVR730110R3300 0.136 (0.30) CT-AHS.22P 1SVR740110R3300 0.125 (0.276) OFF-delay 5) 24-240  V AC/DC 7 (0.05 s - 10 min) - 1  c/o CT-ARS.11S 1SVR730120R3100 0.106 (0.234) CT-ARS.11P 1SVR740120R3100 0.10 (0.22) - 2  c/o CT-ARS.21S 1SVR730120R3300 0.124 (0.273) CT-ARS.21P 1SVR740120R3300 0.115 (0.254) OFF-delay 5) 110-127 V AC oder  110 V DC - CT-VBS.17 7) 1SVR430261R6000 0.123 (0.271) 200-240  V AC/DC - CT-VBS.18 7) 1SVR430261R5000 0.118 (0.26) Star-delta change-over  6) 24-48 V DC,24-240 V AC 7 (0.05 s - 10 min) - 2 n/o CT-SDS.22S 1SVR730210R3300 0.114 (0.251) CT-SDS.22P 1SVR740210R3300 0.108 (0.238) 380-440 V AC CT-SDS.23S 1SVR730211R2300 0.118 (0.26)  CT-SDS.23P 1SVR740211R2300 0.112 (0.247) ON/OFF-function 24 V AC/DC - 2  c/o CT-IRS.16 1SVR430220R9100 0.121 (0.267) 110-240 V AC CT-IRS.14 1SVR430221R7100 0.126 (0.278) 24 V AC/DC CT-IRS.26 1SVR430220R9300 0.135 (0.298) 110-240 V AC CT-IRS.24 1SVR430221R7300 0.141 (0.311) 24 V AC/DC - 2  c/o CT-IRS.26G 8) 1SVR430230R9300 0.147 (0.324) 110-240 V AC CT-IRS.24G 8) 1SVR430231R7300 0.15 (0.331) 24 V AC/DC - 3  c/o CT-IRS.36 1SVR430220R9400 0.159 (0.351) 220-240 V AC CT-IRS.35 1SVR430221R1400 0.161 (0.355) 2CDC 251 030 V0011 CT-ERS.21P 2CDC 251 033 V0011 CT-AHS.22P 2CDC 251 040 V0011  CT-SDS.23P 2CDC 251 073 F0007 CT-IRS.35 1)   Extended temperature range -40 °C 2)  Remote potentiometer connection 3)  2nd c/o contact selectable as instantaneous contact 4)  2 remote potentiometer connections 5)  Without auxiliary voltage 6)    50 ms transition time 7)   For DC contactor coils 8)   with gold-plated contacts A(+)  ON-delay (accumulative)  B  OFF-delay without aux.     voltage  CA  Impulse-ON  DA  Flasher starting with ON  DB  Flasher staring with OFF G  ON/OFF-function CE  Impulse-ON/OFF DA  Flasher starting with ON DB  Flasher starting with OFF AC  fixed impulse with adjustable  time  delay BC  Adjustable impulse with fixed  time  delay F  Star-delta change-over S: screw connectionP: push-in / easy connect Q  Control input with voltage-related triggering Q Control input with volt-free triggering Q   /  Q two control input with volt-free triggering - no triggering 2CDC110004C0209.pdf   51 11/26/2013   4:50:14 PM

1/39   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 Marker label 29.6 x 44.5 mm Marker label with scale 0-10 48.5 x 44.5 mm Marker label with scale 0-30 48.5 x 44.5 mm 30 15 12 9 6 3 18 27 21 24 0 MT-x50B 30 mm adapters 2CDC 252 041 F0009 2CDC 252 042 F0009 2CDC 252 043 F0209 2CDC 252 044 F0209 2CDC 252 045 F0209 CT-S time relay Potentiometers Z2 Z3 Z1 Note: The connections of the potentiometer           are not marked. Remote potentiometer  50 k ⏲ ±20 % - 0,2 ⏲, degree of protection IP66 Material Diameter  in mm Type Order code Price 1 piece Pack.- unit  pieces Weight 1 piece  g / oz Plastic, black 22.5 MT-150B 1SFA611410R1506 1 0.040 Plastic, chrome 22.5 MT-250B 1SFA611410R2506 1 0.040 Metal, chrome 22.5 MT-350B 1SFA611410R3506 1 0.048 30 mm adapter for attaching the potentiometer 22 mm in 30 mm mounting hole Marker label Material Type Order code Price   1 piece Pack.- unit  pieces Weight 1 piece  g / oz Plastic, black KA1-8029 1SFA616920R8029 1 Metal, chrome KA1-8030 1SFA616920R8030 1 Caption Type Order code Price 1 piece Pack.- unit  pieces Weight 1 piece  g / oz Symbol (see illustration) SK 615 562-87 GJD6155620R0087 1 0.002 Scale 0 - 10 SK 615 562-88 GJD6155620R0088 1 0.002 Scale 0 - 30 MA16-1060 1SFA611940R1060 1 0.002 Note: Technical specifications see data sheet 2CDC 252 039 F0009 2CDC 252 040 F0209 CT-S range Ordering details - Accessories 2CDC110004C0209.pdf   52 11/26/2013   4:50:14 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/40  1 2CDC 252 008 F0010 CT-S range Ordering details - Accessories 6.5 62.5 60 10 11.5 20 0.256” 2.461” 2.362” 70 2.756” 0.394” 0.787” 0.453” 2CDC 252 185 F0005 22,5 68,5 7 3,5 .886” 2.70 ” .138” .275” front-to-back size 107 22.5   0.89” 68     2.68” 110.5    4.31” 8   0. 32” 4.8  0. 19” front to back 20 3A11 8 0.315” 0.787” 21 18 8 0.314“ 0.709“ 0.827“ 4T22 19.9 4T22 7.85 0.309” 0.783” 22.2 0.874” ADP.01 COV.01 COV.11 MAR.01 MAR.02 MAR.12 2CDC 252 010 F0011 2CDC 252 186 F0005 2CDC 252 010 F0010 2CDC 252 020 F0010 Accessories for CT-S in new housing (1SVR7...) Description Type Order code Price 1 piece Pack.- unit  pieces Weight 1 piece  kg / lb Adapter for screw mounting ADP.01 1SVR430029R0100 1 0.018 (0.040) Sealable transparent cover COV.11 1SVR730005R0100 1 0.004 (0.009) Marker label for devices w/o DIP switches MAR.01 1SVR366017R0100 10 0.001 (0.002) Marker label for devices with DIP switches MAR.12 1SVR730006R0000 10 0.001 (0.002) Accessories for CT-S in old housing (1SVR4...) Description Type Order code Price 1 piece Pack.- unit  pieces Weight 1 piece  kg / lb Adapter for screw mounting ADP.01 1SVR430029R0100 1 0.018 (0.040) Sealable transparent cover COV.01 1SVR430005R0100 1 0.004 (0.009) Marker label for devices w/o DIP switches MAR.01 1SVR366017R0100 10 0.001 (0.002) Marker label for devices with DIP switches MAR.02 1SVR430043R0000 10 0.001 (0.002) 2CDC110004C0209.pdf   53 11/26/2013   4:50:15 PM

1/41   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Function diagrams A  ON-delay      (Delay on make)    CT-MVS, CT-ERS, CT-WBS A  ON-delay      (Delay on make)   CT-MFS,  CT-MBS A1-A2 15-16, 25-26  21-24 21-22  15-18, 25-28  t   t  2CDC 252 017 F0206  green LED  t = adjusted time delay A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1 t3 t2 t  X1-Z2  Y1-Z2  2CDC 252 018 F0206  green LED  t = adjusted time delay t1 + t2 = tt3 = pause timing This function requires continuous control supply voltage for timing.  Timing begins when control supply voltage is applied. The green LED flashes during timing. When the selected time delay is complete, the output relay energizes and the flashing green LED turns steady.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  If control input Y1-Z2 is open, timing begins when control supply voltage is applied. Or, if control supply voltage is already applied, opening con-trol input Y1-Z2 also starts timing. The green LED flashes during timing. When the selected time delay is complete, the output relay energizes and the flashing green LED turns steady.  If control input Y1-Z2 closes before the time delay is complete, the time delay is reset and the output relay remains de-energized. Pause timing / Accumulative ON-delay (CT-MFS): Timing can be paused by closing control input X1-Z2. The elapsed time t 1  is stored and continues from this time value when X1-Z2 is re-opened.  This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Remarks Legend G  Control supply voltage not applied / Output contact open B  Control supply voltage applied / Output contact closed  A1-Y1/B1  Control input with voltage-related triggering  Y1-Z2  Control input with volt-free triggering X1-Z2  Control input with volt-free triggering Remote potentiometer connection: When an external potentiometer is connected to the remote potentiometer connection (terminals Z1-Z2, Z3-Z2 respectively), the internal, front-face potentiometer is disabled and the time adjustment is made via the external potentiometer. 2nd c/o contact selectable as instantaneous contact: When switch position Inst. “I” is selected, the functionality of the 2nd c/o contact changes to an instantaneous contact. It acts like the c/o contacts of a switching relay, i.e. applying or interrupting the control supply voltage energizes or de-energizes the c/o contact. The designation of the 2nd c/o contact changes from 25-26/28 to 21-22/24, when selected as instanta-neous contact.  Terminal designations on the device and in the diagrams: The 1st c/o contact is always designated 15-16/18. The 2nd c/o contact is designated 25-26/28, if it responds to the time delay.  If the 2nd c/o contact is selected as an instantaneous contact, the desi-gnation 25-26/28 is replaced by 21-22/24.  Control supply voltage is always applied to terminals A1-A2. Function of the yellow LEDs: On devices without the function ‘2nd c/o contact selectable as instanta-neous contact’, the yellow LED R glows as soon as the output relay ener-gizes and turns off when the output relay de-energizes.  Devices with the function ‘2nd c/o contact selectable as instantaneous contact’ have two yellow LEDs, designated R1 and R2. LED R1 shows the status of the 1st c/o contact (15-16/18) and LED R2 shows the status of the 2nd c/o contact (25-26/28, 21-22/24 resp.). LED R1 or R2 glow as soon as the corresponding output relay energizes and turns off when the corresponding output relay de-energizes. 2CDC110004C0209.pdf   54 11/26/2013   4:50:15 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/42  1 CT-S range Function diagrams B   OFF-delay with auxiliary voltage     (Delay on break)    CT-MFS, CT-MBS, CT-AHS A1-A2 15-16, 25-26  21-24 21-22  15-18, 25-28  t1 t3 t2 t  X1-Z2  Y1-Z2  2CDC 252 019 F0206  green LED  t = adjusted time delay t1 + t2 = tt3 = pause timing A+  Accumulative  ON-delay      (Accumulative delay on make)   CT-MVS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1 t3 t2 t  A1-Y1/B1  2CDC 252 043 F0206  green LED  t = adjusted time delay t1 + t2 = tt3 = pause timing This function requires continuous control supply voltage for timing.  Timing begins when control supply voltage is applied. The green LED flashes during timing. When the selected time delay is complete, the out-put relay energizes and the flashing green LED turns steady.  Timing can be paused by closing control input A1-Y1/B1. The  elapsed time t 1  is stored and continues from this time value when   A1-Y1/B1 is re-opened.  This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  If control input Y1-Z2 is closed, the output relay energizes immediately. If control input Y1-Z2 is opened, the time delay starts. The green LED flashes during timing. When the selected time delay is complete, the out-put relay de- energizes and the flashing green LED turns steady.  If control input Y1-Z2 closes before the time delay is complete, the time delay is reset and the output relay does not change state. Timing starts again when control input Y1-Z2 re-opens. Pause timing / Accumulative OFF-delay (CT-MFS): Timing can be paused by closing control input X1-Z2. The elapsed time t 1   is stored and continues from this time value when X1-Z2 is re-opened.  This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  B   OFF-delay with auxiliary voltage     (Delay on break)   CT-MVS,  CT-APS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t  A1-Y1/B1  t  2CDC 252 020 F0206  green LED  t = adjusted time delay B   OFF-delay without auxiliary voltage     (True delay on break)    CT-ARS A1-A2  15-16, 25-26  15-18, 25-28  t  2CDC 252 021 F0206  green LED  t = adjusted time delay This function requires continuous control supply voltage for timing.  If control input A1-Y1/B1 is closed, the output relay energizes immedia-tely. If control input A1-Y1/B1 is opened, the time delay starts. The green LED flashes during timing. When the selected time delay is complete, the output relay de-energizes and the flashing green LED turns steady.  If control input A1-Y1/B1 recloses before the time delay is complete, the time delay is reset and the output relay does not change state. Timing starts again when control input A1-Y1/B1 re-opens. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  The OFF-delay function without auxiliary voltage does not require con-tinuous control supply voltage for timing. After a storage time of several months without any voltage, a formatting time of about 5  minutes is necessary.  Applying control supply voltage energizes the output relay immediately. Applied control supply voltage is displayed by the glowing green LED. If control supply voltage is interrupted, the OFF-delay starts  and the LED turns off. When timing is complete, the output relay  de-energizes.  For correct operation of the unit, it is necessary to complete the minimum energizing time. As soon as timing starts, the LED turns off. 2CDC110004C0209.pdf   55 11/26/2013   4:50:15 PM

1/43   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 AB   Symmetrical ON-delay and OFF-delay     (Symmetrical delay on make and delay on break)   CT-MFS,  CT-MBS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1a t3 t1b t1 X1-Z2  Y1-Z2  t2 t2a t3 t2b 2CDC 252 022 F0206  green LED  t1 = adjusted ON-delayt2 = adjusted OFF-delayt1 = t2 t1a + t1b = t1t2a + t2b = t2t3 = pause timing AB   Symmetrical ON-delay and OFF-delay     (Symmetrical delay on make and delay on break)   CT-MVS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1 A1-Y1/B1  t2 t1 t2 2CDC 252 023 F0206  green LED  t1 = adjusted ON-delayt2 = adjusted OFF-delayt1 = t2 This function requires continuous control supply voltage for timing.  Closing control input Y1-Z2 starts the ON-delay t 1 . When timing is com- plete, the output relay energizes. Opening control input Y1-Z2 starts the OFF-delay t 2 . Both timing functions are displayed by the flashing green  LED. When the OFF-delay t 2  is complete, the output relay de-energizes. If control input Y1-Z2 opens before the ON-delay t 1  is complete, the time  delay is reset and the output relay remains de-energized. If  control input Y1-Z2 closes before the OFF-delay t 2  is complete, the time  delay is reset and the output relay remains energized.  Pause timing / Accumulative, symmetrical ON-delay and OFF-delay (CT-MFS): Timing can be paused by closing control input X1-Z2. The elapsed time t 1a  or t 2a  is stored and continues from this time value when X1-Z2 is  re-opened. This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  Closing control input A1-Y1/B1 starts the ON-delay t 1 . When timing  is complete, the output relay energizes. Opening control input A1-Y1/B1 starts the OFF-delay t 2 . Both timing functions are displayed by the  flashing green LED. When the OFF-delay t 2  is complete, the output relay  de-energizes.  If control input A1-Y1/B1 opens before the ON-delay t 1  is complete, the  time delay is reset and the output relay remains de-energized. If control input A1-Y1/B1 closes before the OFF-delay t 2  is complete, the time  delay is reset and the output relay remains energized. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  B   OFF-delay without auxiliary voltage     for DC contactor coils    CT-VBS A1-A2  3-4 1)  1+/2-  t1 t2 1+/2- 1)  2CDC 252 045 F0206  t1 = OFF-delay (without jumper between terminals 3 and 4 1))t2 = OFF-delay (with jumper between terminals 3 and 4 1))1) only for version 200-240  V AC 3 W  7 W  9 W  0  20  0  40  60  80  100  120  140  160  180  200  100 200  t [ms]  300 400  Contactor coil dr op-out voltage  [ V ] 2CDC 252 127 F0205  3 W  7 W  9 W  0  20  0  40  60  80  100  120  140  160  180  200  1  t [s]  2  Contactor coil dr op-out voltage  [ V ] 2CDC 252 128 F0205  3 W  7 W  9 W  0  0  120  100  80  60  40  20  1  t [s]  2  Contactor coil dr op-out voltage  [ V ] 2CDC 252 129 F0205  The DC contactor coil connected to the output is energized when con-trol supply voltage is applied.  If control supply voltage is disconnected, the DC contactor coil remains energized for a short time delay. This time delay depends on the coil drop-out voltage and on the wattage of the contactor coil. Time delay guideline values 200-240 V AC version without jumper 3/4 Time delay guideline values 200-240 V AC version with jumper 3/4 Time delay guideline values 110-127 V AC version CT-S range Function diagrams 2CDC110004C0209.pdf   56 11/26/2013   4:50:15 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/44  1 CA  Impulse-ON     (Interval)  CT-MVS,  CT-WBS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t   t  2CDC 252 024 F0206  green LED  t = adjusted pulse time AB   Asymmetrical ON-delay and OFF-delay     (Asymmetrical delay on make and delay on break)   CT-MXS A1-A2  15-16, 25-26 15-18, 25-28 t1 A1-Y1/B1  t2 t1 t2 2CDC 252 038 F0206  green LED  t1 = adjusted ON-delayt2 = adjusted OFF-delayt1 and t2 independently adjustable This function requires continuous control supply voltage for timing.  Closing control input A1-Y1/B1 starts the ON-delay t 1 . When timing is  complete, the output relay energizes. Opening control input A1-Y1/B1 starts the OFF-delay t 2 . When the OFF-delay is complete, the output relay  de-energizes. Both timing functions are displayed by the flashing green LED. The ON-delay and OFF-delay are independently adjustable.  If control input A1-Y1/B1 opens before the ON-delay is complete ( t 1 ), the  time delay is reset and the output relay remains de-energized.  If control input A1-Y1/B1 closes before the OFF-delay is complete ( t 2 ),  the time delay is reset and the output relay remains energized.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  The output relay energizes immediately when control supply voltage is applied and de-energizes after the set pulse time is complete. The green LED flashes during timing. When the selected pulse time is complete, the flashing green LED turns steady.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. CA  Impulse-ON     (Interval)  CT-MFS,  CT-MBS CB   Impulse-OFF with auxiliary voltage     (Trailing edge interval)   CT-MFS,  CT-MBS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1 t3 t2 t  X1-Z2  Y1-Z2  2CDC 252 025 F0206  green LED  t = adjusted pulse time t1 + t2 = tt3 = pause timing A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t1 t3 t2 t  X1-Z2  Y1-Z2  2CDC 252 026 F0206  green LED  t = adjusted pulse time t1 + t2 = tt3 = pause timing This function requires continuous control supply voltage for timing.  The output relay energizes immediately when control supply voltage is applied and de-energizes after the set pulse time is complete. If con-trol input Y1-Z2 is open, timing begins when control supply voltage is applied. Or, if control supply voltage is already applied, opening control input Y1-Z2 starts timing. The green LED flashes during timing. When the selected pulse time is complete, the output relay de-energizes and the flashing green LED turns steady.  Closing control input Y1-Z2, before the pulse time is complete, de-energizes the output relay and resets the pulse time.  Pause timing / Accumulative impulse-ON (CT-MFS): Timing can be paused by closing control input X1-Z2. The elapsed time t 1  is stored and continues from this time value when X1-Z2 is re-opened.  This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  This function requires continuous control supply voltage for timing.  If control supply voltage is applied, opening control input Y1-Z2 ener-gizes the output relay immediately and starts timing. The green LED flashes during timing. When the selected pulse time is complete, the output relay de-energizes and the flashing green LED turns steady.  Closing control input Y1-Z2, before the pulse time is complete, de-energizes the output relay and resets the pulse time.  Pause timing / Accumulative impulse-OFF (CT-MFS): Timing can be paused by closing control input X1-Z2. The elapsed time t 1  is stored and continues from this time value when X1-Z2 is re-opened.  This can be repeated as often as required. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  CT-S range Function diagrams 2CDC110004C0209.pdf   57 11/26/2013   4:50:15 PM

1/45   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 DB   Flasher, starting with the OFF time     (Recycling equal times, OFF first)   CT-WBS DA   Flasher, starting with the ON time     (Recycling equal times, ON first)   CT-WBS A1-A2  15-16, 25-26  15-18, 25-28  t t  2CDC 252 029 F0206  green LED  t = adjusted flashing time A1-A2  15-16, 25-26  15-18, 25-28  t t  2CDC 252 030 F0206  green LED  t = adjusted flashing time Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an ON time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an OFF time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. CB   Impulse-OFF with auxiliary voltage     (Trailing edge interval)   CT-MVS CE  Impulse-ON and impulse-OFF     (Interval and trailing edge interval)   CT-MXS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t  A1-Y1/B1 t  2CDC 252 027 F0206  green LED  t = adjusted pulse time A1-A2  15-16, 25-26  15-18, 25-28  t1 t1 t2 A1-Y1/B1  2CDC 252 028 F0206  green LED  t1 = adjusted pulse time 1t2 = adjusted pulse time 2 This function requires continuous control supply voltage for timing.  If control supply voltage is applied, opening control input A1-Y1/B1 en-ergizes the output relay immediately and starts timing. The green LED flashes during timing. When the selected pulse time is complete, the out-put relay de-energizes and the flashing green LED turns steady.  Closing control input A1-Y1/B1, before the pulse time is complete, de-energizes the output relay and resets the pulse time. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  This function requires continuous control supply voltage for timing.  If control supply voltage is applied, closing control input A1-Y1/B1 ener-gizes the output relay immediately and starts the pulse time t 1 . The green  LED flashes during timing. When t 1  is complete, the output relay de-ener- gizes and the flashing green LED turns steady.  Re-opening control input A1-Y1/B1 energizes the output relay immediately and starts the pulse time t 2 . The green LED flashes during timing. When  t 2  is complete, the output relay de-energizes and the flashing green LED  turns steady. t 1  and t 2  are independently adjustable.  If control input A1-Y1/B1 changes state before the pulse time is complete, the output relay de-energizes and the pulse time is reset. If control input A1-Y1/B1 changes state again, the interrupted pulse time restarts. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  CT-S range Function diagrams DB   Flasher with reset, starting with the OFF time     (Recycling equal times with reset, OFF first)   CT-MFS,  CT-MBS A1-A2  Y1-Z2  15-16, 25-26  15-18, 25-28  21-22  21-24  t t t t 2CDC 252 032 F0206  green LED  t = adjusted flashing time Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an OFF time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  The time delay can be reset by closing control input Y1-Z2. Opening control input Y1-Z2 starts the timer pulsing again with symmetrical ON & OFF times. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  DA   Flasher with reset, starting with the ON time     (Recycling equal times with reset, ON first)   CT-MFS,  CT-MBS A1-A2  Y1-Z2  15-16, 25-26  15-18, 25-28  21-22  21-24  t t t t 2CDC 252 031 F0206  green LED  t = adjusted flashing time Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an ON time first. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  The time delay can be reset by closing control input Y1-Z2. Opening control input Y1-Z2 starts the timer pulsing again with symmetrical ON & OFF times. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset.  2CDC110004C0209.pdf   58 11/26/2013   4:50:15 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/46  1 DE   Flasher, starting with the ON or OFF time     (Recycling equal times, ON or OFF first)   CT-MVS H   Pulse former    (Single  shot)   CT-MFS,  CT-MBS A1-A2  A1-Y1/B1 15-16, 25-26  15-18, 25-28  21-22  21-24  t t  t t  2CDC 252 033 F0206  green LED  t = adjusted flashing time A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t t  Y1-Z2  2CDC 252 034 F0206  green LED  t = adjusted pulse time Applying control supply voltage starts timing with symmetrical ON & OFF times. The cycle starts with an ON time first.  Closing control input A1-Y1/B1, with control supply voltage applied, starts the cycle with an OFF time first. The ON & OFF times are displa-yed by the flashing green LED, which flashes twice as fast during the OFF time.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  Closing control input Y1-Z2 energizes the output relay immediately and starts timing. Operating the control contact switch Y1-Z2 during the time delay has no effect. The green LED flashes during timing. When the selected ON time is complete, the output relay de-energizes and the flashing green LED turns steady. After the ON time is complete, it can be restarted by closing control input Y1-Z2.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. CT-S range Function diagrams H  Pulse  former     (Single  shot)   CT-MVS A1-A2  15-16, 25-26  21-24 21-22  15-18, 25-28  t t  A1-Y1/B1  2CDC 252 035 F0206  green LED  t = adjusted pulse time This function requires continuous control supply voltage for timing.  Closing control input A1-Y1/B1 energizes the output relay immediately and starts timing. Operating the control contact switch A1-Y1/B1 during the time delay has no effect. The green LED flashes during timing. When the selected ON time is complete, the output relay de-energizes and the flashing green LED turns steady. After the ON time is complete, it can be restarted by closing control input A1-Y1/B1.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. ED   Pulse generator, starting with the ON or OFF time     (Recycling unequal times, ON or OFF first)   CT-MXS A1-A2  A1-Y1/B1  15-16, 25-26  15-18, 25-28  t1 t1 t2 t2 2CDC 252 075 F0207 green LED t1 = adjusted OFF timet2 = adjusted ON time This function requires continuous control supply voltage for timing.  Applying control supply voltage, with open control input A1-Y1/B1, starts timing with an ON time t 2  first. Applying control supply voltage,  with closed control input A1-Y1/B1, starts timing with an OFF time t 1  first. The ON & OFF times are displayed by the flashing green LED,  which flashes twice as fast during the OFF time.  The ON & OFF times are independently adjustable. If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. 2CDC110004C0209.pdf   59 11/26/2013   4:50:15 PM

1/47   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 EC   Single-pulse generator, starting with the OFF time     (Delay on make with interval output)   CT-MXS AC   Fixed impulse with adjustable time delay     (Delayed pulse output)    CT-WBS A1-A2  A1-Y1/B1  15-16, 25-26  15-18, 25-28  t1 t2 t2 t1 2CDC 252 037 F0206  green LED  t1 = adjusted OFF timet2 = adjusted ON timet1 and t2 independently adjustable A1-A2  t1 t1 t2 15-18, 25-28 15-16, 25-26  2CDC 252 041 F0206  green LED  t1 = adjusted time delayt2 = pulse time fixed 500 ms This function requires continuous control supply voltage for timing.  Applying control supply voltage, or, if control supply voltage is already applied, opening control input A1-Y1/B1 energizes the output relay after the OFF time t 1  is complete. When the following ON time t 2  is complete,  the output relay de-energizes. The ON & OFF times are displayed by the flashing green LED, which flashes twice as fast during the OFF time.  The ON & OFF times are independently adjustable. Closing control input A1-Y1/B1, with control supply voltage applied, de-energizes the output relay and resets the time delay.  If control supply voltage is interrupted, the output relay de-energizes and the time delay is reset. This function requires continuous control supply voltage for timing.  The time delay t 1  starts when control supply voltage is applied. The  green LED flashes during timing. When t 1  is complete, the output relay  energizes for the fixed impulse time t 2  of 500 ms and the flashing green  LED turns steady.  If control supply voltage is interrupted, the time delay is reset. The output relay does not change state. CT-S range Function diagrams G  ON/OFF-Function    CT-MFS, CT-MBS, CT-MVS, CT-MXS, CT-WBS A1-A2  15-16, 25-26  15-18, 25-28  2CDC 252 044 F0206  green LED  Time sector  ≠ 300 h Time sector = 300 h This function is used for test purposes during commissioning and trou-bleshooting.  If the selected max. value of the time range is smaller than 300 h (front-face potentiometer “Time sector” ≠ 300 h), applying control supply vol-tage energizes the output relay immediately and the green LED glows. Interrupting control supply voltage, de-energizes the output relay.  If the selected max. value of the time range is 300 h (front-face potenti-ometer “Time sector” = 300 h) and control supply voltage is applied, the green LED glows, but the output relay does not energize.  Time settings and operating of the control inputs have no effect on the operation. BC   Adjustable impulse with fixed time delay     (Delayed Interval) CT-WBS A1-A2  t2 t2 t1 t1 15-18, 25-28 15-16, 25-26  2CDC 252 042 F0206  green LED  t1 = adjusted pulse timet2 = time delay fixed 500 ms This function requires continuous control supply voltage for timing.  Applying control supply voltage starts the fixed time delay t 2  of   500 ms. When t 2  is complete, the output relay energizes and the se- lected pulse time t 1  starts. The green LED flashes during timing. When   t 1  is complete, the output relay de-energizes and the flashing green LED  turns steady.  If control supply voltage is interrupted, the pulse time is reset. The out-put relay does not change state. G  Switching  relays   CT-IRS A1-A2 n1-n2 n1-n4 2CDC 252 055 F0206 n = 1, 2 or 3 The switching relay may be used to increase the number of available contacts or to reinforce contacts, or as a coupling/decoupling interface. Approx. 10 ms after applying control supply voltage to terminals A1-A2, the output relay energizes. If control supply voltage is interrupted, the output relay de-energizes. 2CDC110004C0209.pdf   60 11/26/2013   4:50:16 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/48  1 K1T K1T K3 K3 Y ͬ N K2 K2 K2 L1 N F3 F2 95 9621 22 22 21 A1 A2 A1 A2 A1 A2 A1 A2 22 21 1314 1718 1728 1314 1314 5354 S1 0 I S2 K1 K1 K1 2CDC 252 128 F0b06 -K1 -K3 L1 -F1 1 2 95 96 97 98 L2 3 4 L3 5 6 12 34 56 12 34 56 -K2 -F2 12 34 56 1 3 5 2 4 6 M 3 ~ W2 V2 U2 W1 V1 U1 -M1 2CDC 253 009 F0012 K1T K1T K3 K3 Y ͬ N K2 K2 K2 L1 N F3 F2 95 9621 22 22 21 A1 A2 A1 A2 A1 A2 A1 A2 22 21 1314 1518 2528 1314 1314 5354 S1 0 I S2 K1 K1 K1 2CDC 252 129 F0b06 F  Star-delta  change-over     (Star-delta  starting)   CT-SDS A1-A2  t1 t2 2CDC 252 040 F0206  green LED  t1 = adjusted starting timet2 = transition time (50 ms) 17-18  17-28  This function requires continuous control supply voltage for timing. Applying control supply voltage to terminals A1-A2, energizes the star contactor connected to terminals 17-18 and begins the set starting time t 1 . The green LED flashes during timing. When the starting time is com- plete, the first output contact de-energizes the star contactor.  Now, the fixed transition time t 2  of 50 ms starts. When the transition time  is complete, the second output contact energizes the delta contactor connected to terminals 17-28. The delta contactor remains energized as long as control supply voltage is applied to the unit. Power circuit diagram Control circuit diagram Control circuit diagram CT-S range Function diagrams FC   Star-delta change-over with impulse function     (Star-delta starting, interval/delay on make)    CT-MFS, CT-MBS, CT-MVS.2x A1-A2  15-16  25-26  t1 t2 2CDC 252 039 F0206  green LED  t1 = adjusted starting timet2 = transition time (50 ms) 15-18  25-28  This function requires continuous control supply voltage for timing.  Applying control supply voltage to terminals A1-A2, energizes the star contactor connected to terminals 15-18 and begins the set starting time t 1 . The green LED flashes during timing. When the starting time is com- plete, the first c/o contact de-energizes the star contactor.  Now, the fixed transition time t 2  of 50 ms starts. When the transition  time is complete, the second c/o contact energizes the delta contactor connected to terminals 25-28. The delta contactor remains energized as long as control supply voltage is applied to the unit. 2CDC110004C0209.pdf   61 11/26/2013   4:50:16 PM

1/49   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-MVS.21 CT-MVS.22 CT-MVS.12 CT-MXS.22 2CDC 252 002 F0b06 A1 A1 Y1/B1 15 A2 16 18 15Z2 18 16 A2 Y1/B1 Z1 25 21 28 24 26 22 21 25 26 28 22 24 A1 A1 Y1/B1 15 25 A2 16 18 26 28 15 28 26 25 18 16 A2 Y1/B1 2CDC 252 003 F0b06 A1 A1 Y1/B1 15 A2 16 18 15 Y1/B1 18 16 A2 2CDC 252 004 F0b06 A1 A1 Y1/B1 15 25 A2 16 18 26 28 15Z2 28 26 Y1/B1 25 18 16 A2 Z3 Z1 2CDC 252 005 F0b06 A1 A1 Y1/B1 15 25 A2 16 18 26 28 15 28 26 25 18 16 A2 Y1/B1 2CDC 252 003 F0b06 CT-MVS.23 A1 A1 15 21 25 A2 16 18 26 28 22 24 15Z2 28 26 24 22 Y1 Z1 18 16 A2 X1 25 21 2CDC 252 006 F0b06 A1 A1 15 21 25 A2 16 18 26 28 22 24 15Z2 28 26 24 22 Y1 Z1 18 16 A2 25 21 2CDC 252 007 F0b06 A1  A1 15  25  A2  16 18 26 28  15  28 26  25  18 16 A2  2CDC 252 008 F0b06  CT-MFS.21 CT-MBS.22 CT-WBS.22 A  CT-ERS.21 A1 A1 15 A2 16 18 15 18 16 28 26 A2 25 25 26 28 2CDC 252 009 F0b06 A1 A1 A2 16 18 15 15 18 16 A2 2CDC 252 010  F0b06 A  CT-ERS.22 A  CT-ERS.12 A1 A1 15 A2 16 18 15 18 16 28 26 A2 25 25 26 28 2CDC 252 009 F0b06 A1-A2 Supply:      24-240 V AC/DC  15-16/18  1. c/o contact 25-26/28  2. c/o contact 21-22/24  2. c/o contact as   instantaneous  contact A1-Y1/B1 Control  input Z1-Z2 Remote  potentiometer     connection A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact   A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact   A1-Y1/B1 Control  input A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input Z1-Z2 Remote  potentiometer     connection Z3-Z2 Remote  potentiometer     connection A1-A2 Supply:      380-440 V AC  15-16/18  1. c/o contact 25-26/28  2. c/o contact   A1-Y1/B1 Control  input A1-A2 Supply:      24-240 V AC/DC  15-16/18  1. c/o contact 25-26/28  2. c/o contact 21-22/24  2. c/o contact as   instantaneous  contact Y1-Z2 Control  input X1-Z2 Control  input Z1-Z2 Remote  potentiometer     connection A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact 21-22/24  2. c/o contact as   instantaneous  contact Y1-Z2 Control  input Z1-Z2 Remote  potentiometer     connection A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-A2 Supply:      24-240 V AC/DC  15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-A2 Supply:      24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact CT-S range Connection diagrams 2CDC110004C0209.pdf   62 11/26/2013   4:50:16 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/50  1 B  CT-APS.21 B  CT-APS.22 B  CT-AHS.22 B  CT-ARS.11 A1 Y1/B1 A1 15 25 A2 16 18 26 28 15 Y1/B1 26 28 25 18 16 A2 2CDC 252 011 F0b06 A1 A1 15 25 A2 16 18 26 28 15Z2 26 28 25 18 16 A2 Y1 2CDC 252 013  F0b06 15 A1 A1 A2 16 18 15 18 16 A2 2CDC 252 014  F0b06 A1 Y1/B1 A1 A2 16 18 15 15 Y1/B1 18 16 A2 2CDC 252 012  F0b06 B  CT-APS.12 A1 A1 15 25 A2 16 18 26 28 15 26 28 25 18 16 A2 2CDC 252 015  F0b06 A1 A1 A2 2- 1+ 1+ 2- A2 2CDC 252 107  F0b05 A1 A1 A2 2- 4 3 1+ 3 4 1+ 2- A2 2CDC 252 108  F0b05 B  CT-ARS.21 B  CT-VBS.17 B  CT-VBS.18 F  CT-SDS.22 A1  A1  A2 18  28  17  17  18 28 A2  2CDC 252 016  F0b06  F  CT-SDS.23 A1 Y1/B1 A1 15 25 A2 16 18 26 28 15 Y1/B1 26 28 25 18 16 A2 2CDC 252 011 F0b06 A1  A1  A2 18  28  17  17  18 28 A2  2CDC 252 016  F0b06  A1-A2 Supply:      24-240 V AC/DC  15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:   24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:   24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact 25-26/28  2. c/o contact Y1-Z2 Control  input A1-A2 Supply:    24-240 V AC/DC 15-16/18  1. c/o contact A1-A2 Supply:   24-48 V DC or     24-240 V AC 15-16/18  1. c/o contact A1-Y1/B1 Control  input A1-A2 Supply:   24-240 V AC/DC 15-16/18  1. c/o contact 25-26/28  2. c/o contact A1-A2 Supply:   110-127 V AC 1+ - 2-  Contactor coil A1-A2 Supply:   200-240 V AC 1+ - 2-  Contactor coil 3-4  Jumper for setting     the time delay     (see time delay diagram) A1-A2 Supply:   24-48 V DC or     24-240 V AC 17-18  1. n/o contact 17-28  2. n/o contact A1-A2 Supply:   380-440 V AC  17-18  1. n/o contact 17-28  2. n/o contact CT-S range Connection diagrams 2CDC110004C0209.pdf   63 11/26/2013   4:50:16 PM

1/51   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 G  CT-IRS.16 G  CT-IRS.14 G  CT-IRS.24 A1 A1 11 A2 12 14 14 12 A2 11 2CDC 252 123  F0b05 A1 A1 A2 21 21 22 22 24 24 A2 11 11 14 14 12 12 2CDC 252 125  F0b05 A1 A1 A2 12 14 22 24 11 21 21 22 24 A2 11 14 12 2CDC 252 124  F0b05 G  CT-IRS.26 A1  A1  A2  21  22  22  24  24  A2  11  11 21 31 32  32  31  34  34  14  14  12  12  2CDC 252 035  F0b08 G  CT-IRS.36 G  CT-IRS.35 A1 A1 11 A2 12 14 14 12 A2 11 2CDC 252 123  F0b05 A1 A1 A2 12 14 22 24 11 21 21 22 24 A2 11 14 12 2CDC 252 124  F0b05 A1 A1 A2 21 21 22 22 24 24 A2 11 11 14 14 12 12 2CDC 252 125  F0b05 A1  A1  A2  21  22  22  24  24  A2  11  11 21 31 32  32  31  34  34  14  14  12  12  2CDC 252 035  F0b08 A1-A2 Supply:  24  AC/DC 11-12/14  1. c/o contact A1-A2 Supply:   110-240 V AC  11-12/14  1. c/o contact A1-A2 Supply:   110-240 V AC  11-12/14  1. c/o contact 21-22/24  2. c/o contact A1-A2 Supply:  24  AC/DC  11-12/14  1. c/o contact 21-22/24  2. c/o contact A1-A2 Supply:  24  AC/DC  11-12/14  1. c/o contact 21-22/24  2. c/o contact A1-A2 Supply:   110-240 V AC  11-12/14  1. c/o contact 21-22/24  2. c/o contact A1-A2 Supply:   24 V AC/DC  11-12/14  1. c/o contact 21-22/24  2. c/o contact 31-32/34  3. c/o contact A1-A2 Supply:   220-240 V AC  11-12/14  1. c/o contact 21-22/24  2. c/o contact 31-32/34  3. c/o contact G  CT-IRS.26G (gold-plated cont.) G  CT-IRS.24G (gold-plated cont.) CT-S range Connection diagrams 2CDC110004C0209.pdf   64 11/26/2013   4:50:16 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/52  1 Data at T a  = 25 °C and rated values, unless otherwise indicated CT-S Input circuit - Supply circuit Rated control supply voltage U s CT-xxx.x1 24-240 V AC/DCCT-xxx.x2 24-48 V DC, 24-240 V ACCT-xxx.x3 380-440 V ACCT-xxx.x4 110-240 V ACCT-xxx.x5 220-240 V ACCT-xxx.x6 24 V AC/DCCT-xxx.x7 100-127 V AC or 110 V DCCT-xxx.x8 200-240V AC/DC Rated control supply voltage U S  tolerance  -15...+10 % Rated frequency DC or 50/60 Hz Frequency range AC 47-63 Hz Typical current / power consumption depending on device, see data sheet Power failure buffering time 24 V DC min. 15 ms 230/400 V AC min. 20 ms Input circuit - Control circuit Kind of triggering CT-MVS, CT-MXS, CT-APS voltage-related triggering Control input, Control function A1-Y1/B1 start timing external Parallel load / polarized yes / no Maximum cable length to the control input 50 m - 100 pF/m Minimum control pulse length 20 ms Control voltage potential see rated control supply voltage Current consumption of the control input 24 V DC 1.2 mA 230 V AC 8 mA 400 V AC 6 mA Kind of triggering CT-MFS, CT-MBS, CT-AHS volt-free triggering Control input, Control function Y1-Z2 start timing external X1-Z2 pause timing / accumulative functions (CT-MFS) Maximum switching current in the control circuit 1 mA Maximum cable length to the control input 50 m - 100 pF/m Minimum control pulse length 20 ms No-load voltage at the control inputs 10-40 V DC Remote potentiometer Remote potentiometer connections, Resistance value Z1-Z2 50 kΩ (CT-MFS, CT-MBS, CT-MVS.21, CT-MXS) Z3-Z2 50 kΩ (CT-MXS) Maximum cable length to remote potentiometer 2 x 25 m, shielded with 100 pF/m Shield connection Z2 Timing circuit Time ranges 10 time ranges 0.05 s - 300 h 1.) 0.05-1 s     2.)     0.15-3 s      3.) 0.5-10 s    4.) 1.5-30 s     5.) 5-100 s       6.) 15-300 s    7.) 1.5-30 min     8.) 15-300 min     9.) 1.5-30 h      10.) 15-300 h 7 time ranges 0.05 s - 10 min (CT-SDS, CT-ARS) 1.) 0.05-1 s      2.) 0.15-3 s      3.) 0.5-10 s 4.) 1.5-30 s     5.) 5-100 s     6.) 15-300 s    7.) 0.5-10 min Recovery time 24-240 V AC/DC  50 ms 24-48 V DC, 24-240 V AC  80 ms 380-440 V AC  60 ms Accuracy within the rated control supply voltage tolerance ͬt 0.004 % / V Accuracy within the temperature range ͬt 0.03 % / °C Repeat accuracy (constant parameters) ±0.2 % Star-delta transition time fixed 50 ms (CT-SDS, CT-MBS, CT-MFS, CT-MVS.2x) Star-delta transition time tolerance ±2 ms Minimum energizing time 100 ms (CT-ARS) Formatting time  1) 5 min (CT-ARS) CT-S range Technical data 1)  prior to first commisioning and after a six-month stop in operation 2CDC110004C0209.pdf   65 11/26/2013   4:50:16 PM

1/53   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Technical data Indication of operational states Control supply voltage / timing U/T: green LED V: control supply voltage applied / W: timing Control supply voltage U: green LED V: control supply voltage applied Relay state R, R1, R2: yellow LED V: output relay energized Output circuit Kind of output 15-16/18 relay, 1 c/o contact 15-16/18; 25-26/28 relay, 2 c/o contacts 15-16/18; 25(21)-26(22)/28(24) relay, 2 c/o contacts, 2nd c/o contact selectable as inst. contact 17-18; 17-28 relay, 2 n/o contacts (CT-SDS) Contact material Cd-free, on request Rated operational voltage U e IEC/EN 60947-1 250 V Minimum switching voltage / minimum switching current 12 V / 10 mA (CT-IRS.2xG: 10 mV / 10 μA) Maximum switching voltage / maximum switching current see load limit curves (CT-IRS.2xG: 10 V / 200 mA) Rated operational current I e   (IEC/EN 60947-5-1 ) AC12 (resistive) at 230 V 4 A AC15 (inductive) at 230 V 3 A DC12 (resistive) at 24 V 4 A DC13 (inductive) at 24 V 2 A (CT-ARS; 1.5 A) AC rating (UL 508) Utilization category   (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC Maximum continuous thermal current at B300 5 A max. making/breaking apparent power at B300 3600 VA / 360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime at AC12, 230 V, 4 A 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection  (IEC/EN 60947-5-1) n/c contact 6 A fast-acting n/o contact 10 A fast-acting General data  2) MTBF on request Duty time 100% Dimensions (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection  2) Screw connection technology Easy Connect Technology  (Push-in) Wire size fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2   (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - 2)  Data for all references 1SVR 730 xxx xxx and 1SVR 740 xxx xxx. For devices with 1SVR 430 xxx xxx please refer to the data sheet. 2CDC110004C0209.pdf   66 11/26/2013   4:50:16 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/54  1 CT-S range Technical data Environmental data Ambient temperature ranges operation / storage -25...+60 °C / -40...+85 °C,  -40...+60 °C / -40...+85 °C (CT-MVS.21, CT-MFS.21, CT-ERS.21, CT-APS.21) Damp heat (cyclic) (IEC/EN 60068-2-30) 6 x 24 h cycle, 55 °C, 95 % RH Vibration, sinusoidal (IEC/EN 60068-2-6) functioning 40 m/s 2 , 10-58/60-150 Hz resistance 60 m/s 2 , 10-58/60-150 Hz, 20 cycles Vibration, seismic (IEC/EN 60068-3-3) functioning 20 m/s 2 Shock, half-sine (IEC/EN 60068-2-27) functioning 100 m/s 2 , 11 ms, 3 shocks/direction resistance 300 m/s 2  , 11 ms, 3 shocks/direction Isolation data Rated insulation voltage U i input circuit / output circuit 500 V output circuit 1 / output circuit  2 300 V Rated impulse withstand voltage U imp  between all  isolated circuits VDE 0110, IEC/EN 60664 4 kV; 1.2/50 μs Power-frequency withstand voltage test between all isolated circuits (test voltage) routine test 2.0 kV, 50 Hz, 1 s type test 2.5 kV, 50 Hz, 1 min Basic insulation (IEC/EN 61140) input circuit / output circuit 500 V Protective separation (IEC/EN 61140; EN 50178) input circuit / output circuit 250 V Pollution degree (IEC/EN 60664-1) 3 Overvoltage category (IEC/EN 60664-1) III Standards Product standard IEC 61812-1, EN 61812-1 + A11, DIN VDE 0435 part 2021 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (1 GHz) 3 V/m (2 GHz) 1 V/m (2.7 GHz) electrical fast transient / burst IEC/EN 61000-4-4 Level 3, 2 kV / 5 kHz surge IEC/EN 61000-4-5 Level 4, 2 kV A1-A2 conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emission IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B „Approvals and marks“ see page 1/4. 2CDC110004C0209.pdf   67 11/26/2013   4:50:17 PM

1/55   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1 CT-S range Technical diagrams AC load (resistive) DC load (resistive) Technical diagrams Load limit curves Derating factor F   for inductive AC load Contact lifetime DC current [A] resistive load DC voltage [V] 2CDC 252 150 F0206 cos  ϕ 0.5 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 0.6 0.7 0.8 0.9 1.0 Derating factor F 2CDC 252 124 F0206 AC current [A] resistive load AC voltage [V] 2CDC 252 149 F0206 Switching current [A] 250 Vresistive load Switching cycles 2CDC 252 148 F0206 2CDC110004C0209.pdf   68 11/26/2013   4:50:17 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   1/56  1 CT-S range Wiring notes, Dimensional drawings 2CDC 252 188 F0b05 100  102  109,5  4.31“  22,5  .886“  78  3.07“  4.02“  3.94“  L(+) N(-) A1 Y1 Z2 X1 A2 2CDC 252 101 F0b06 L(+) N(-) A1 Y1/B1 A2 2CDC 252 102 F0b06 L(+) L(+) N(-) L(-) A1 Y1/B1 A2 2CDC 252 103 F0b06 L(+) N(-) A1 Z1 Z2 Z3 A2 2CDC 252 104 F0b06 L(+) +V N(-) 0 V A1 Y1 Z2 A2 2CDC 252 105 F0b06 Dimensional drawing                                        Dimensions in mm and inches Wiring notes Remote potentiometer Control inputs (volt-free triggering) Control inputs (voltage-related triggering) Triggering of the control inputs (volt-free) with a proximity switch (3 wire) The control input Y1/B1 is triggered with electric potential against A2. It is possible to use the control supply voltage from terminal A1 or any other voltage within the rated control supply vol-tage range. 113.4    4.47” 22.5    0.89” 85.6     3.37” 103.7    4.08” 105.9    4.17” 2CDC 252 009 F0011 1SVR 430  XXX   XXX 1SVR 730  XXX   XXX , 1SVR 740  XXX   XXX 2CDC110004C0209.pdf   69 11/26/2013   4:50:17 PM

2/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Measuring and monitoring relays Product group picture 2CDC110004C0209.pdf   70 11/26/2013   4:50:17 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/2  2 Measuring and monitoring relays Table of contents Measuring and monitoring relays Product group picture  1 Table of contents  2 Benefits and advantages  3 Monitoring features and application ranges  5 Approvals and marks  7 Current and voltage monitoring relays, single-phase ............................... 9 Three-phase monitoring relays ............................................................ 27 Grid feeding monitoring relays - Voltage and frequency monitoring   functions ............................................................................................ 49 Insulation monitoring relays for unearthed supply systems .................... 63 Motor load monitoring relays ............................................................... 77 Motor control and protection ............................................................... 83 Thermistor motor protection relays ...................................................... 89 Temperature monitoring relays ............................................................. 99 Liquid level monitors and controls...................................................... 111 Contact protection relays .................................................................. 125 Sensor interface relays ...................................................................... 131 Cycle monitoring relay with watchdog function ................................... 137 General technical data, Accessories, Current transformers ................. 143 2CDC110004C0209.pdf   71 11/26/2013   4:50:19 PM

2/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Measuring and monitoring relays Benefits and advantages 1SVR 550 851 F9400 2CDC 251 052 V0011 2CDC 251 062 V0011   ½   Only 22.5 mm wide housing   ½   Output contacts: 1 c/o contact or 1 n/o  contact   ½   One supply voltage range   ½   One monitoring function   ½   Cost-efficient solution for OEM applications   ½   Preset monitoring ranges   ½   Only 22.5 mm wide housing   ½   Output contacts: 1 or 2 c/o (SPDT) contacts   ½   One supply voltage range or supplied by  measuring circuit   ½   Setting and operation via front-face operating  controls   ½   Adjustment of threshold values and switching  hysteresis via direct reading scale   ½   Integrated and snap-fitted front-face marker   ½   Snap-on housing: The relays can be placed  on a DIN rail tool-free - just snap it on or  remove it tool-free   ½   Sealable transparent cover (accessory)   ½   45 mm wide housing   ½   Output contacts: 2 c/o (SPDT) contacts   ½   Continuous voltage range (24-240 V AC/DC)  or single-supply   ½   Setting and operation via front-face operating  controls   ½   Adjustment of threshold values and switching  hysteresis via direct reading scale   ½   Adjustable time delays   ½   Integrated and snap-fitted front-face marker  label   ½   Sealable transparent cover (accessory) CM-N range: Multifunctional CM-S range: Universal and multifunctional  CM-E range: Economy ABB‘s measuring and monitoring relays in a new  housing  Benefits at a glance Easy Connect Technology New options: Additionally to the existing well established screw connections a new inno-vative connection technology can be offered: Easy Connect Technology with push-in terminals. Tool-free wiring: The push-in terminals can be wired with rigid or fine stranded wires with wire end ferrules totally tool-free. The connection direction is exactly the same as the screw version. Higher utility class: The Easy Connect Technology provides excellent vibration resistance with gas tight push-in terminals – the right solution for harsh environment. Extended features Flammability: The plastic housing material used meets the requirements for the highest flammability class. (UL94 V-0 rated) Look and feel: The new housing fits perfectly with ABB’s control products offer. 2CDC110004C0209.pdf   72 11/26/2013   4:50:19 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/4  2 LED ‘ s for status indication All actual operational states are displayed by front-face LEDs, thus simp-lifying commissioning and troubleshooting. Integrated marker label Integrated marker labels allow the product to be marked quickly and sim-ply. No additional marker labels are required. Sealable transparent cover Protection against unauthorized changes of time and threshold values. Available as an accessory. Snap-On housing Tool-free DIN rail installation and deinstallation of the monitoring relay. Measuring and monitoring relays Benefits and advantages 2CDC 253 011 F0003 1SVC 110 000 F0506 2CDC 253 026 F0011 2CDC 253 025 F0011 2CDC 252 006 F0012 2CDC 255 006 S0011 2CDC 253 007 F0012 Combination screws for CM-E range Easy tightening and release of the connection screws with pozidrive, pan- or crosshead screwdriver. Safety The „real distance“ is hidden. The clearance and the creepage distances of our products exceed inter-national standards and substantially increase the safety of our products. Easy Connect Technology Tool-free wiring and excellent vibration resistance. Push-in terminals pro-vide connection of wires up to 2 x 0.5 - 1.5 mm² (2 x 20 -16 AWG), rigid or fine-strand with or without wire end ferrules. The extended type designa-tors for products with push-in terminals are indicated by a P following the extended type designator e.g. CM-xxS.xxP. Double-chamber cage connection terminals Double-chamber cage connection terminals provide connection of wires up to 2 x 0,5-2.5 mm² (2 x 20-14 AWG) rigid or fine-strand, with or without wire end ferrules. Potential distribution does not require additional termi-nals. The extended type designators for products with double-chamber cage connection terminals are indicated by a S following the extended type designator e.g. CM-xxS.xxS. 1 1 3 3 4 4 5 7 7 5 6 8 6 2 2 8 2CDC 253 013 F0013 2CDC110004C0209.pdf   73 11/26/2013   4:50:19 PM

2/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Measuring and monitoring relays Monitoring features and application ranges v 2CDC 252 025 F0004 2CDC 252 026 F0004 Single-phase current and voltage monitoring Three-phase monitoring   ½   Phase failure CM-PBE   ½   Over- and undervoltage CM-PVE   ½   Phase sequence and phase failure CM-PFE and CM-PFS   ½   Phase sequence and phase failure, over- and undervoltage CM-PSS.xx  and CM-PVS.xx   ½   Phase sequence and phase failure, unbalance CM-PAS.xx   ½   Phase sequence and phase failure, unbalance, over- and undervoltage  CM-MPS.xx and CM-MPN.xx   ½   Over- and undervoltage, over- and underfrequency CM-UFS.1 Motor load monitoring CM-LWN monitoring relays load states of single- and three-phase  asynchronous motors. Current monitoring   ½   Monitoring of motor current consumption   ½   Monitoring of lighting installations and heating circuits   ½   Monitoring of hoisting gear and transportation equipment overload   ½   Monitoring of locking devices, electromechanical brake gear and locked rotor Voltage monitoring   ½   Speed monitoring of DC motors   ½   Monitoring of battery voltages and other supply networks   ½   Monitoring of upper and lower voltage threshold values   ½   For electrically isolated AC systems: CM-IWS.2   ½   For electrically isolated AC, DC and mixed AC/DC systems:  CM-IWS.1, CM-IWN.1 and especially for solar applications:  ͨ 500 μF: CM-IWN.4  ͨ 1000 μF: CM.IWN.5  ͨ 2000 μF: CM-IWN.6 Three-phase voltage monitoring   ½   Voltage monitoring of mobile three-phase equipment   ½   Protection of personnel and installations against phase reversal    ½   Monitoring of the supply voltage to machines and installations   ½   Protection of equipment against damage caused by unstable supply  voltage   ½   Switching to emergency or auxiliary supply   ½   Protection of motors against damage caused by unbalanced phase volta- ges and phase loss   ½   Automatic connection & disconnection of decentralised power stations to the grid 2CDC 252 027 F0004 2CDC 252 028 F0004 Insulation monitoring   ½   Monitoring of electrically isolated supply mains for insulation resistance failure   ½   Detection of initial faults   ½   Protection against earth faults   ½   Detection of V-belt breaking   ½   Motor protection against overload   ½   Monitoring of filters for clogging   ½   Protection of pumps against dry running   ½   Detection of high pressure in conduit systems   ½   Monitoring for dulling blades in sawing and cutting machines   ½   Over- or undercurrent monitoring CM-SRS and CM-SRS.M   ½   Over- and undercurrent monitoring CM-SFS   ½   Over- or undervoltage monitoring CM-ESS and CM-ESS.M   ½   Over- and undervoltage monitoring CM-EFS ϑ 2CDC 252 029 F0004 Thermistor motor protection Grid feeding monitoring relays CM-MSE, CM-MSS and CM-MSN provide full protection of motors with integrated PTC resistor sensors. The CM-UFx range monitors all voltage and frequency parameters in a grid and ensures the safe feeding of decentral produced eletrical energy into the grid.   ½   Monitoring of the voltage with up to 2 thresholds for over- and undervoltage   ½   Monitoring of the frequency with up to 2 thresholds for over- and  underfrequency   ½   Optional ROCOF (rate of change of frequency) and vector shift   ½   Acc. to national grid feeding standards such as CEI 0-21, VDE AR-N 4105  etc.   ½   Protection of motors against thermal overload, e. g. caused by insuf- ficient cooling, heavy load starting conditions, undersized motors, etc. V,f L1 L2 L3 N 2CDC 252 009 F0013 2CDC110004C0209.pdf   74 11/26/2013   4:50:20 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/6  2 2CDC 252 030 F0004 CM-ENE, CM-ENS and CM-ENN for control and regulation of liquid levels and ratios of mixtures of conductive fluids.   ½   Protection of pumps against dry running   ½   Protection against container overflow   ½   Control of liquid levels   ½   Detection of leaks   ½   Control of mixing ratios Liquid level monitoring and control ϑ 2CDC 252 031 F0004 2CDC 252 032 F0004 2CDC 252 036 F0004 The CM-KRN protects sensitive control contacts from excessive loads and can store switch positions. The CM-SIS supplies and evaluates NPN and PNP sensors. Contact protection, sensor evaluation Temperature monitoring Cycle monitoring   ½   Motor and system protection   ½   Control panel temperature monitoring   ½  Frost monitoring   ½   Temperature limits for process variables, e.g. in the packing or electro- plating industry   ½   Control of systems and machines like heating, air-conditioning and ven- tilation systems, solar collectors, heat pumps or hot water supply systems   ½   Monitoring of servomotors with KTY sensors   ½   Bearing and gear oil monitoring   ½  Coolant monitoring   ½   Storage of the switching states of bouncing contacts   ½   Amplification of the switch state information of sensitive contacts   ½   Supply and evaluation of NPN or PNP sensors   ½   External monitoring of the correct function of programmable logic cont- rollers (plc) and industrial pcs (ipc) Acquisition, messaging and regulation of temperatures of solid, liquid and gaseous media in processes and machines   ½   with CM-TCS via PT100 sensor   ½   with C512 and C513 with PT100, PT1000  KTY83, KTY84 or NTC sensors Measuring and monitoring relays Monitoring features and application ranges 2CDC110004C0209.pdf   75 11/26/2013   4:50:20 PM

2/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Measuring and monitoring relays Approvals and marks ½ existing  ˽ pending Current and voltage monitoring,  single-phase Three-phase monitoring Approvals CM-SRS.1xS/P CM-SRS.2xS CM.SRS.MS/P CM-SFS.2S/P CM-ESS.2xS CM-ESS.MS/P CM-EFS.2S/P CM-PBE CM-PVE CM-PFE CM-PFS.S/P CM-PSS.x1S/P CM-PVS.x1S/P CM-P AS.x1S/P CM-MPS.x1S/P CM-MPS.x3S/P CM-MPN.52S/P CM-MPN.62S/P CM-MPN.72S/P A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ C GL ˽ ˽ ˽ ˽ ˽ ˽ ˽ ½ ½ ½ ½ ½ ½ ½ ½ ½ D GOST ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) EAC ½ ½ ½ K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ E CCC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Rail applications  2) ½ ½ ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ existing  ˽ pending Insulation monitoring relays  for ungrounded supply  mains Motor load  monitoring Tempera- ture  monitoring Contact pro- tection, sensor  interface Grid feeding   monitoring relays Approvals CM-IWS.2S/P CM-IWS.1S/P CM-IWN.1S/P CM-IWN.4,5,6.S/P CM-IVN.S/P CM-L WN CM-TCS.xS/P C512 C513 CM-KRN CM-SIS CM-UFS.1 CM-UFD.M21 CM-UFD.M22 A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ C GL ½ ½ ½ ½ ½ ˽ ½ D GOST ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) K CB scheme ½ ½ ½ ½ ½ ½ ½ E CCC ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ Rail applications  2) ½ ½ ½ CEI 0-21 ½ VDE-AR-N 4105 „Erzeugungsan-lagen am Niederspannungsnetz“ ½ BDEW  „Erzeugungsanlagen am Mittelspannungsnetz“ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ existing  ˽ pending Cycle  monitoring Thermistor motor protection Liquid level monitoring Approvals CM-WDS CM-MSE CM-MSS (1) CM-MSS (2) CM-MSS (3) CM-MSS (4) CM-MSS (5) CM-MSS (6) CM-MSS (7) CM-MSN CM-ENE MIN CM-ENE MAX CM-ENS CM-ENS UP/... CM-ENN CM-ENN UP/... A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ˽ ½ ½ ½ ½ ½ ½ ½ ½ ½ C GL ½ ½ ½ ½ ½ ½ ½ ½ ½ 3) ½ D GOST ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) EAC ½ ½ ½ I II (2) G D, PTB 02 ATEX 3080 ½ ½ ½ ½ ½ K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ E CCC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ L RMRS ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 1)  May have been replaced by EAC during the availability of this catalog edition. 2)  Applicable in rail application following the latest standards for rail applications: NF F 16-101/102 (I2/F2 classified), EN 45545 (Hazard Level 3), DIN 5510, EN 50155,   IEC 60571. Further information is available in our rail segment brochure 2CDC110084B0201. 3)  Version with protective separation without  C approval 2CDC110004C0209.pdf   76 11/26/2013   4:50:20 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/8  2 Measuring and monitoring relays Notes 2CDC110004C0209.pdf   77 11/26/2013   4:50:21 PM

2/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Current and voltage monitoring relays, single-phase Product group picture 2CDC110004C0209.pdf   78 11/26/2013   4:50:21 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/10  2 Current and voltage monitoring relays, single-phase Table of contents Current and voltage monitoring relays, single-phase Product group picture  9 Table of contents  10 Benefits and advantages  11 Operating controls  12 Selection table - Current monitoring relays  13 Selection table - Voltage monitoring relays  14 Ordering details - Current monitoring relays  15 Ordering details - Voltage monitoring relays  16 Function diagrams  17 Connection diagrams, DIP switches  20 Technical data - Current monitoring relays  22 Technical data - Voltage monitoring relays  24 Notes 26 2CDC110004C0209.pdf   79 11/26/2013   4:50:21 PM

2/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Current and voltage monitoring relays, single-phase Benefits and advantages Characteristics current and voltage monitoring relays   ½   Monitoring of DC and AC currents: 3 mA to 15 A  1)   ½   Monitoring of DC and AC voltages from 3 - 600 V   ½   TRMS measuring principle   ½   One device includes 3 measuring ranges   ½   One device includes 4 measuring ranges: 3 - 30 V; 6 - 60 V;   30 - 300 V; 60 - 600 V   ½   Over- and undercurrent monitoring 1)   ½   Over- and undervoltage monitoring 1)   ½   ON or OFF-delay configurable 1)   ½   Open- or closed-circuit principle configurable 1)   ½   Threshold values for U and/or U adjustable 1)   ½   Latching function configurable 1)   ½   Thresholds for I and/or I adjustable 1)   ½   Fixed hysteresis of 5 % 1)   ½   Start-up delay T v  adjustable 0; 0.1 - 30 s 1)   ½   Tripping delay T v  adjustable 0; 0.1 - 30 s 1)   ½   1 x 2 c/o contacts (common signal) or 2 x 1 c/o contact   (separate signals for I and I) configurable  1)   ½   1 x 2 c/o contacts (common signal) or 2 x 1 c/o contact   (separate signals for U and U) configurable 1)   ½   22.5 mm width   ½   3 LEDs for the indication of operational states   ½   Approvals / Marks  A C D K E L    2)  / a b 1)  depending on device 2)  Applicable in rail application following the latest standards for rail applications:   NF F 16-101/102 (I2/F2 classified), EN 45545 (Hazard Level 3), DIN 5510, EN 50155,  IEC 60571. Further information is available in our rail segment brochure  2CDC110084B0201. Current monitoring, single-phase The ABB current monitoring relays CM-SRS.xx reliably monitor the occu-rence of currents that exceed or fall below the selected threshold value. The functions overcurrent or undercurrent monitoring can be preselected. Single- and multifunction devices for the monitoring of direct or alternating currents from 3 mA to 15 A are available. Current window monitoring (I min , I max ) The window monitoring relay CM-SFS.2x is available if the application requires the simultaneous monitoring of over- and undercurrents. Voltage monitoring, single-phase The ABB voltage monitoring relays CM-SRS.xx are used to monitor direct and alternating voltages within a range of 3-600 V. Over- or undervoltage detection can be preselected. Voltage window monitoring (U min , U max ) For the simultaneous detection of over- and undervoltages, the window monitoring relay CM-EFS.2 can be used. 2CDC 251 056 V0011 2CDC 251 059 V0011 2CDC110004C0209.pdf   80 11/26/2013   4:50:22 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/12  2 Current and voltage monitoring relays, single-phase Operating controls 4 1 2 3 5 1   Adjustment of the threshold value I for overcurrent 2   Adjustment of the threshold value I for undercurrent 3   Indication of operational states U/T: green LED – control supply voltage/timing R: yellow LED  – relay status I: red LED – over- / undercurrent 4   Adjustment of the tripping delay T V 5   Adjustment of the start-up delay T S 6   DIP switches (see DIP switch functions on page 2/20) A ON-delayB OFF-delayg Closed-circuit principleh Open-circuit principlef Latching function activatede Latching function not activatedi 2x1 c/o (SPDT) contactj 1x2 c/o (SPDT) contacts 1   Adjustment of the threshold value U for overvoltage 2   Adjustment of the threshold value U for undervoltage 3   Indication of operational states U/T: green LED – control supply voltage/timing R: yellow LED  – relay status U: red LED – over- / undervoltage 4   Adjustment of the tripping delay T V  5   Adjustment of the measuring range 6   DIP switches (see DIP switch functions on page 2/20) A ON-delayB OFF-delayg Closed-circuit principleh Open-circuit principlef Latching function activatede Latching function not activatedi 2x1 c/o (SPDT) contactj 1x2 c/o (SPDT) contacts 4 1 2 3 5 Current monitoring relays Voltage monitoring relays 2CDC110004C0209.pdf   81 11/26/2013   4:50:22 PM

2/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Current and voltage monitoring relays, single-phase Selection table - Current monitoring relays Or der number 1SVR 730 840 R0200 1SVR 740 840 R0200 1SVR 730 841 R0200 1SVR 740 841 R0200 1SVR 730 841 R1200 1SVR 740 841 R1200 1SVR 730 840 R0300 1SVR 730 841 R0300 1SVR 730 841 R1300 1SVR 730 840 R0400 1SVR 740 840 R0400 1SVR 730 841 R0400 1SVR 740 841 R0400 1SVR 730 841 R1400 1SVR 740 841 R1400 1SVR 730 840 R0500 1SVR 730 841 R0500 1SVR 730 841 R1500 1SVR 730 840 R0600 1SVR 740 840 R0600 1SVR 730 840 R0700 1SVR 730 760 R0400 1SVR 740 760 R0400 1SVR 730 760 R0500 T ype C M -S R S .11 S C M -S R S .11 P C M -S R S .11 S C M -S R S .11 P C M -S R S .11 S C M -S R S .11 P CM-SRS .1 2 S CM-SRS .2 1 S CM-SRS .2 1 P CM-SRS .2 1 S CM-SRS .2 1 P CM-SRS .2 1 S CM-SRS .2 1 P CM-SRS .2 2 S CM-SRS .M 1 S CM-SRS .M 1 P CM-SRS .M 2 S CM-SF S .2 1 S CM-SF S .2 1 P CM-SF S .2 2 S   Rated control supply voltage U s 24 - 240 V AC/DC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 110 - 130 V AC ½ ½ ½ ½ ½ ½ 220 - 240 V AC ½ ½ ½ ½ ½ ½ Measuring ranges AC/DC 3 - 30 mA ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 10 - 100 mA ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 0.1 - 1 A ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 0.3 - 1.5 A ½ ½ ½ ½ ½ ½ ½ ½ 1 - 5 A ½ ½ ½ ½ ½ ½ ½ ½ 3 - 15 A ½ ½ ½ ½ ½ ½ ½ ½ Monitoring function Over- or undercurrent ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Windows current monitoring ½ ½ ½ Latching sel sel sel sel sel sel Open circuit or closed circuit principle sel sel sel sel sel sel Timing functions for tripping delay ON delay, 0 or 0. 1 - 30 s adj adj adj adj adj adj adj adj adj adj adj adj ON or OFF delay sel sel sel Output c/o contact 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Connection type Push-in terminals ½ ½ ½ ½ ½ ½ ½ ½ Double-chamber cage connection terminals ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ adj: adjustable sel: selectable 2CDC110004C0209.pdf   82 11/26/2013   4:50:23 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/14  2 Current and voltage monitoring relays, single-phase Selection table - Voltage monitoring relays Or der number 1SVR 730 830 R0300 1SVR 740 830 R0300 1SVR 730 831 R0300 1SVR 740 831 R0300 1SVR 730 831 R1300 1SVR 740 831 R1300 1SVR 730 830 R0400 1SVR 740 830 R0400 1SVR 730 831 R0400 1SVR 740 831 R0400 1SVR 730 831 R1400 1SVR 740 831 R1400 1SVR 730 830 R0500 1SVR 740 830 R0500 1SVR 730 750 R0400 1SVR 740 750 R0400 T ype CM-E SS .1 S CM-E SS .1 P CM-E SS .1 S CM-E SS .1 P CM-E SS .1 S CM-E SS .1 P CM-E SS .2 S CM-E SS .2 P CM-E SS .2 S CM-E SS .2 P CM-E SS .2 S CM-E SS .2 P CM-E SS .M S CM-E SS .M P CM-E F S .2 S CM-E F S .2 P Rated control supply voltage U s 24 - 240 V AC/DC ½ ½ ½ ½ ½ ½ ½ ½ 110 - 130 V AC ½ ½ ½ ½ 220 - 240 V AC ½ ½ ½ ½ Measuring ranges AC/DC 3 - 30 V ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 6 - 60 V ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 30 - 300 V ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 60 - 600 V ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Monitoring function Over- or undervoltage ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Windows voltage monitoring ½ ½ Latching sel sel sel sel Open circuit or closed circuit principle sel sel sel sel Timing functions for tripping delay ON delay, 0 or 0.1 - 30 s adj adj adj adj adj adj adj adj ON or OFF delay sel sel Output c/o contact 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 Connection type Push-in terminals ½ ½ ½ ½ ½ ½ ½ ½ Double-chamber cage connection terminals ½ ½ ½ ½ ½ ½ ½ ½ adj: adjustable sel: selectable 2CDC110004C0209.pdf   83 11/26/2013   4:50:24 PM

2/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Current and voltage monitoring relays, single-phase Ordering details - Current monitoring relays Description The CM range current monitoring relays protect single-phase mains (DC or AC) from over- and  undercurrent from 3 mA to 15 A. Two different terminal versions are available. You can choose  between the proven screw connection technology (double-chamber cage connecting termi- nals) and the completely tool-free Easy Connect Technology (push-in terminals).   Ordering details Rated control supply voltage Function Tripping  delay T V Measuring range Type Order  code Price 1 pce Weight  (1 pce)kg (lb) 24-240 V AC/DC b a without 3-30 mA 10-100 mA 0.1-1 A CM-SRS.11S 1SVR730840R0200 0.145 (0.320) 110-130 V AC 1SVR730841R0200 0.161 (0.355) 220-240 V AC 1SVR730841R1200 0.161 (0.355) 24-240 V AC/DC CM-SRS.11P 1SVR740840R0200 0.137 (0.302) 110-130 V AC 1SVR740841R0200 0.153 (0.337) 220-240 V AC 1SVR740841R1200 0.153 (0.337) 24-240 V AC/DC b a without 0.3-1.5 A 1-5 A 3-15 A CM-SRS.12S 1SVR730840R0300 0.137 (0.302) 110-130 V AC 1SVR730841R0300 0.168 (0.370) 220-240 V AC 1SVR730841R1300 0.168 (0.370) 24-240 V AC/DC b a adjustable  0 or 0.1-30 s 3-30 mA 10-100 mA 0.1-1 A CM-SRS.21S 1SVR730840R0400 0.152 (0.335) 110-130 V AC 1SVR730841R0400 0.179 (0.395) 220-240 V AC 1SVR730841R1400 0.179 (0.395) 24-240 V AC/DC CM-SRS.21P 1SVR740840R0400 0.141 (0.311) 110-130 V AC 1SVR740841R0400 0.168 (0.370) 220-240 V AC 1SVR740841R1400 0.168 (0.370) 24-240 V AC/DC b a adjustable  0 or 0.1-30 s 0.3-1.5 A 1-5 A 3-15 A CM-SRS.22S 1SVR730840R0500 0.144 (0.399) 110-130 V AC 1SVR730841R0500 0.181 (0.399) 220-240 V AC 1SVR730841R1500 0.181 (0.399) 24-240 V AC/DC b e a f adjustable  0 or 0.1-30 s 3-30 mA 10-100 mA 0.1-1 A CM-SRS.M1S 1SVR730840R0600 0.153 (0.337) CM-SRS.M1P 1SVR740840R0600 0.142 (0.313) 24-240 V AC/DC adjustable  0 or 0.1-30 s 0.3-1.5 A 1-5 A 3-15 A CM-SRS.M2S 1SVR730840R0700 0.155 (0.342) 24-240 V AC/DC b e a f ji adjustable  0 or 0.1-30 s 3-30 mA 10-100 mA 0.1-1 A CM-SFS.21S 1SVR730760R0400 0.150 (0.331) CM-SFS.21P 1SVR740760R0400 0.139 (0.306) 24-240 V AC/DC adjustable  0 or 0.1-30 s 0.3-1.5 A 1-5 A 3-15 A CM-SFS.22S 1SVR730760R0500 0.158 (0.348) 2CDC 251 054 V0011 2CDC 251 056 V0011 CM-SRS.22S CM-SFS.22P b   Overcurrent monitoring  a  Undercurrent monitoring  e  Without latching  f  With latching j  1x2 c/o (SPDT) contacts i  2x1 c/o (SPDT) contact S: screw connectionP: push-in / easy connect 2CDC110004C0209.pdf   84 11/26/2013   4:50:24 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/16  2 Current and voltage monitoring relays, single-phase Ordering details - Voltage monitoring relays Description The CM range voltage monitoring relays provide reliable monitoring of voltages as well as detec- tion of phase loss in single-phase mains. All devices are available with two different terminal versions. You can choose between the pro- ven screw connection technology (double-chamber cage connecting terminals) and the comple- tely tool-free Easy Connect Technology (push-in terminals).  Ordering details Rated control supply voltage Function Tripping  delay T V Measuring range Type Order  code Price 1 pce Weight  (1 pce)kg (lb) 24-240 V AC/DC d   c without 3-30 V 6-60 V 30-300 V 60-600 V CM-ESS.1S 1SVR730830R0300 0.135 (0.298) 110-130 V AC 1SVR730831R0300 0.164 (0.362) 220-240 V AC 1SVR730831R1300 0.164 (0.362) 24-240 V AC/DC CM-ESS.1P 1SVR740830R0300 0.126 (0.278) 110-130 V AC 1SVR740831R0300 0.155 (0.342) 220-240 V AC 1SVR740831R1300 0.155 (0.342) 24-240 V AC/DC d   c adjustable  0 or 0.1-30 s 3-30 V 6-60 V 30-300 V 60-600 V CM-ESS.2S 1SVR730830R0400 0.153 (0.337) 110-130 V AC 1SVR730831R0400 0.181 (0.399) 220-240 V AC 1SVR730831R1400 0.181 (0.399) 24-240 V AC/DC CM-ESS.2P 1SVR740830R0400 0.142 (0.313) 110-130 V AC 1SVR740831R0400 0.170 (0.375) 220-240 V AC 1SVR740831R1400 0.170 (0.375) 24-240 V AC/DC de ce  df cf adjustable  0 or 0.1-30 s 3-30 V 6-60 V 30-300 V 60-600 V CM-ESS.MS 1SVR730830R0500 0.154 (0.340) CM-ESS.MP 1SVR740830R0500 0.143 (0.320) 24-240 V AC/DC b e a f ji adjustable  0 or 0.1-30 s 3-30 V 6-60 V 30-300 V 60-600 V CM-EFS.2S 1SVR730750R0400 0.157 (0.346) CM-EFS.2P 1SVR740750R0400 0.146 (0.322) 2CDC 251 060 V0011 2CDC 251 059 V0011 CM-ESS.MP CM-EFS.2 b  Overcurrent monitoring  a  Undercurrent monitoring  e  Without  latching  f  With latching j  1x2 c/o (SPDT) contacts i  2x1 c/o (SPDT) contact S: screw connectionP: push-in / easy connect 2CDC110004C0209.pdf   85 11/26/2013   4:50:24 PM

2/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Function diagrams - CM-SRS.1 Overcurrent monitoring b Undercurrent monitoring a Function diagrams - CM-SRS.2 Overcurrent monitoring b Undercurrent monitoring a A1-A2  11-14 (15-18) 11-12 (15-16)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 208 F0205    A1-A2  11-14 (15-18) 11-12 (15-16)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 209 F0205    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 210 F0205  T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 211 F0205  T V  T V  Function diagrams - CM-SRS.M Overcurrent monitoring b without latching e Overcurrent monitoring b with latching f Undercurrent monitoring a without latching e Undercurrent monitoring b with latching f   A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 212 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 214 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  T S  Reset    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 213 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 215 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  T S  Reset  If the measured value exceeds resp. drops below the adjusted threshold value, the output relay(s) energize(s): on the CM-SRS.1 immediately, on the CM-SRS.2 after the set tripping delay T V . If the measured value exceeds resp. drops below the threshold value plus resp. minus the adjusted hysteresis, the  output relay(s) de-energize(s). The hysteresis is adjustable within a range of 3-30 % of the threshold value. If the measured value exceeds resp. drops below the adjusted threshold value before the set start-up delay T S  is complete, the output relays do not  change their actual state. If the measured value exceeds resp. drops below the adjusted threshold value when T S  is complete, the tripping delay T V    starts. If T V  is complete and the measured value is still exceeding resp. below the threshold value plus resp. minus the set hysteresis, the output  relays energize h / de-energize g. If the measured value exceeds resp. drops below the threshold value minus resp. plus the set hysteresis and the latching function is not activated e, the output relays de-energize h / energize g. With activated latching function f the output relays remain energized h and de-energize  only, when the supply voltage is interrupted / the output relays remain de-energized g and energize only, when the supply voltage is switched off  and then again switched on = Reset. The hysteresis is adjustable within a range of 3-30 % of the threshold value.  Current and voltage monitoring relays, single-phase Function diagrams 2CDC110004C0209.pdf   86 11/26/2013   4:50:25 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/18  2 Current and voltage monitoring relays, single-phase Function diagrams Function diagrams - CM-ESS.1 Overvoltage monitoring d Undervoltage monitoring c Function diagrams - CM-ESS.2 Overvoltage monitoring d Undervoltage monitoring c   A1-A2  11-14 (15-18) 11-12 (15-16)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 208 F0205  A1-A2  11-14 (15-18) 11-12 (15-16)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 209 F0205    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 210 F0205  T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 211 F0205  T V  T V  OFF-delayed B current window monitoring with parallel switching c/o  contacts j:If the measured value exceeds resp. drops below the adjusted threshold value when the set start-up delay T S  is complete, the output relays ener- gize h / de-energize g, when B is configured, and remain in this  position during the set tripping delay T V . If the measured value exceeds  resp. drops below the threshold value plus resp. minus the fixed hystere-sis (5%) and the latching function is not activated e, the tripping delay  T V  starts. After completion of T V , the output relays de-energize h / ener- gize g, provided that the latching function is not activated e. With  activated latching function f the output relays remain energized h and  de-energize only, when the supply voltage is interrupted / the output relays remain de-energized g and energize only, when the supply vol- tage is switched off and then again switched on = Reset. When i is  adjusted on the device, the functionality is equivalent to the one described above. There is only to consider that in this case, instead of both output relays, only one output relay each will be switched. “ I“ = 11 15 -12 16 /14 18  ; “ I“ = 21 25 -22 26 /24 28 Function diagrams - CM-SFS.2 Current window monitoring 1x2 c/o contact j  ON-delayed A without latching f Current window monitoring 1x2 c/o contact j  OFF-delayed B without latching e Further function diagrams see data sheet.   A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold max  Hysteresis  green LED  red LED  yellow LED  2CDC 252 216 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Hysteresis  Measured value Threshold min    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold max  Hysteresis  green LED  red LED  yellow LED  2CDC 252 217 F0205  T S  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Hysteresis  Measured value Threshold min    ON-delayed A current window monitoring with parallel switching c/o  contacts j:If the measured value exceeds resp. drops below the adjusted threshold value before the set start-up delay T S  is complete, the output relays do not  change their actual state. If the measured value exceeds resp. drops below the adjusted threshold value when T S  is complete, the tripping delay T V  starts, when A is confi- gured. If T V  is complete and the measured value is still exceeding resp.  below the threshold value minus resp. plus the fixed hysteresis (5%), the output relays energize h /de-energize g.If the measured value exceeds resp. drops below the threshold value plus resp. minus the hysteresis and the latching function is not activated f,  the output relays de-energize h / energize g. With activated latching  function e the output relays remain energized h and de-energize only,  when the supply voltage is interrupted / the output relays remain de-ener-gized g and energize only, when the supply voltage is switched off and  then again switched on = Reset. Depending on the configuration, the voltage monitoring relays CM-ESS.1 and CM-ESS.2 can be used for over- d or undervoltage monitoring c in  single-phase AC and/or DC systems. The voltage to be monitored (measured value) is applied to terminals B-C. The devices work according the open-circuit principle. If the measured value exceeds resp. drops below the adjusted threshold value, the output relay(s) energize(s): on the CM-ESS.1 immediately, on the CM-ESS.2 after the set tripping delay T V.  If the measured value exceeds resp. drops below the threshold value plus resp. minus the  adjusted hysteresis, the output relay(s) de-energize(s). The hysteresis is adjustable within a range of 3-30 % of the threshold value. 2CDC110004C0209.pdf   87 11/26/2013   4:50:25 PM

2/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 If the measured value exceeds resp. drops below the adjusted threshold value, the tripping delay T V  starts. If T V  is complete and the measured value is  still exceeding resp. below the threshold value plus resp. minus the set hysteresis, the output relays energize h / de-energize g. If the measured value exceeds resp. drops below the threshold value plus resp. minus the set hysteresis and the latching function is not activated e,  the output relays de-energize h / energize g. With activated latching function f the output relays remain energized h and de-energize only, when  the supply voltage is interrupted / the output relays remain de-energized g and energize only, when the supply voltage is switched off and then again  switched on = Reset. The hysteresis is adjustable within a range of 3-30 % of the threshold value. Function diagrams - CM-ESS.M Overvoltage monitoring d without latching e Overvoltage monitoring  d  with latching  f Undervoltage monitoring c without latching e Undervoltage monitoring  c  with latching  f   A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 228 F0205  T V  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 230 F0205  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Reset  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 229 F0205  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  T V    A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold  Hysteresis  Measured value green LED  red LED  yellow LED  2CDC 252 231 F0205  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Reset  T V  ON-delayed A voltage window monitoring with parallel switching c/o  contacts j:If the measured value exceeds resp. drops below the adjusted threshold value, the tripping delay T V  starts, when A is configured. If T V  is complete  and the measured value is still exceeding resp. below the threshold value minus resp. plus the fixed hysteresis (5%), the output relays energize h / de-energize g.If the measured value exceeds resp. drops below the threshold value plus resp. minus the hysteresis and the latching function is not activated e,  the output relays de-energize h / energize g. With activated latching  function e the output relays remain energized h and de-energize only,  when the supply voltage is interrupted / the output relays remain de-ener-gized g and energize only, when the supply voltage is switched off and  then again switched on = Reset. OFF-delayed B voltage window monitoring with parallel switching c/o  contacts j:If the measured value exceeds resp. drops below the adjusted threshold value, the output relays energize h / de-energize g, when B is confi- gured, and remain in this position during the set tripping delay T V . If the measured value exceeds resp. drops below the threshold value plus resp. minus the fixed hysteresis (5%) and the latching function is not acti-vated e, the tripping delay T V  starts.  After completion of T V , the output relays de-energize h / energize g,  provided that the latching function is not activated e. With activated lat- ching function e the output relays remain energized h and de-energize  only, when the supply voltage is interrupted / the output relays remain de-energized g and energize only, when the supply voltage is switched off  and then again switched on = Reset. When i is adjusted on the device, the functionality is equivalent to the  one described above. There is only to consider that in this case, instead of both output relays, only one output relay each will be switched.  “ U“ = 11 15 -12 16 /14 18  ; “ U“ = 21 25 -22 26 /24 28 Voltage window monitoring 1x2 c/o contact j  ON-delayed A without latching e Voltage window monitoring 1x2 c/o contact j  OFF-delayed B without latching e Further function diagrams see data sheet.   A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  open  closed  Threshold max  Hysteresis  green LED  red LED  yellow LED  2CDC 252 232 F0205  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Hysteresis  Measured value Threshold min  T V  A1-A2  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  11-14 (15-18) 11-12 (15-16)  21-24 (25-28) 21-22 (25-26)  closed  open  Threshold max  Hysteresis  green LED  red LED  yellow LED  2CDC 252 233 F0205  green LED  red LED  yellow LED  Open-circuit principle       Closed-circuit principle       T V  T V  Hysteresis  Measured value Threshold min  Current and voltage monitoring relays, single-phase Function diagrams 2CDC110004C0209.pdf   88 11/26/2013   4:50:25 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/20  2 A1 A2 A1 11 15 B1 B2 B3 A2 11 15 12 16 14 18 14 18 12 16 C B1 B2 B3 C 2CDC 252 204 F0005 A1-A2  Control supply voltage B1-C  Measuring range 1:     3-30 mA or 0.3-1.5 A B2-C  Measuring range 2:     10-100 mA or 1-5 A B3-C  Measuring range 3:     0.1-1 A or 3-15 A 11 15 -12 16 /14 18   Output contacts -   open-circuit  principle Connection diagram CM-SRS.1, CM-SRS.2 A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B1 B2 B3 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B1 B2 B3 C 2CDC 252 205 F0005 A1-A2  Control supply voltage B1-C  Measuring range 1:     3-30 mA or 0.3-1.5 A B2-C  Measuring range 2:     10-100 mA or 1-5 A B3-C  Measuring range 3:     0.1-1 A or 3-15 A 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28  open-circuit  principle A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B1 B2 B3 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B1 B2 B3 C 2CDC 252 205 F0005 A1-A2  Control supply voltage B1-C  Measuring range 1:     3-30 mA bzw. 0.3-1.5 A B2-C  Measuring range 2:     10-100 mA bzw. 1-5 A B3-C  Measuring range 3:     0.1-1 A bzw. 3-15 A 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28  open-or      closed  circuit  principle Connection diagram CM-SRS.M A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B1 B2 B3 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B1 B2 B3 C 2CDC 252 205 F0005 Connection diagram CM-SFS.2 A1-A2  Control supply voltage B1-C  Measuring range 1:     3-30 mA or 0.3-1.5 A B2-C  Measurign range 2:     10-100 mA or 1-5 A B3-C  Measuring range 3:     0.1-1 A or 3-15 A 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28  open-or      closed  circuit  principle 2CDC 252 272 F0005 DIP switch functions CM-SRS.1, CM-SRS.2 1 ON  Undercurrent  monitoring   OFF  Overcurrent  monitoring OFF = Default closed open Position 4 1 2 3 ON OFF I I 2CDC 252 273 F0005 DIP switch functions CM-SRS.M 1 ON  Undercurrent  monitoring   OFF  Overcurrent  monitoring 2 ON  Closed-circuit  principle   OFF  Open-circuit  principle 3  ON  Latching function activated    OFF  Latching function not activated OFF = Default closed open 2x1 c/o 1x2 c/o Position 4 1 2 3 ON OFF 2CDC 252 274 F0005 DIP switch function CM-SFS.2 1 ON  OFF-delay   OFF  ON-delay 2 ON  Closed-circuit  principle   OFF  Open-circuit  principle 3  ON  Latching function activated    OFF  Latching function not activated 4  ON  2x1 c/o contact    OFF  1x2 c/o contacts OFF = Default closed open V V Position 4 1 2 3 ON OFF 2CDC 252 276 F0005 DIP switch functions CM-ESS.M 1 ON  Undervoltage  monitoring     OFF  Overvoltage  monitoring 2 ON  Closed-circuit  principle   OFF  Open-circuit  principle 3  ON  Latching function activated      OFF  Latching function not activated OFF = Default A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B C 2CDC 252 207 F0005 A1-A2  Control supply voltage B-C  Measuring ranges:     3-30 V; 6-60 V;     30-300 V; 60-600 V 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28   Open- or closed circuit     principle Connection diagram CM-ESS.M Current and voltage monitoring relays, single-phase Connection diagrams, DIP switches 2CDC110004C0209.pdf   89 11/26/2013   4:50:25 PM

2/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 closed open 2x1 c/o 1x2 c/o Position 4 1 2 3 ON OFF 2CDC 252 274 F0005 DIP switch functions CM-EFS.2 A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B C 2CDC 252 207 F0005 Connection diagram CM-EFS.2 A1-A2  Control Supply voltage B-C  Measuring ranges:     3-30 V; 6-60 V;    30-300 V; 60-600 V 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28   open- or closed circuit principle A1 A2 A1 11 15 B A2 11 15 12 16 14 18 14 18 12 16 C B C 2CDC 252 206 F0005 Connection diagram CM-ESS.1, CM-ESS.2 A1 A2 21 25 22 26 24 28 A1 11 15 21 25 B 24 28 22 26 A2 11 15 12 16 14 18 14 18 12 16 C B C 2CDC 252 207 F0005 A1-A2  Control supply voltage B-C  Measuring ranges:     3-30 V; 6-60 V;    30-300 V; 60-600 V 11 15 -12 16 /14 18   Output contacts -  21 25 -22 26 /24 28  open-circuit  principle A1-A2  Control supply voltage B-C Measuring  ranges:      3-30 V; 6-60 V;    30-300 V; 60-600 V 11 15 -12 16 /14 18   Output contacts -    open-circuit  principle 2CDC 252 275 F0005 DIP switch functions CM-ESS.1, CM-ESS.2 1 ON  Undervoltage  monitoring   OFF  Overvoltage  monitoring OFF = Default Current and voltage monitoring relays, single-phase Connection diagrams, DIP switches 1 ON  ON-delay     OFF  OFF-delay 2 ON  Closed-circuit  principle   OFF  Open-circuit  principle    3  ON  Latching function activated      OFF  Latching function not activated 4  2 x 1 c/o contact    1 x 2 c/o contacts OFF = Default 2CDC110004C0209.pdf   90 11/26/2013   4:50:26 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/22  2 Current monitoring relays, single-phase Technical data - Current monitoring relays Type CM-SRS.1 CM-SRS.2 CM-SRS.M CM-SFS.2 Input circuit - Supply circuit A1-A2 Rated control supply voltage U s A1-A2 110-130 V AC A1-A2 220-240 V AC A1-A2 24-240 V AC/DC Rated control supply voltage U s  tolerance -15...+10 % Rated frequency AC versions 50/60 Hz AC/DC versions 50/60 Hz or DC Current / power consumption see data sheets Power failure buffering time 20 ms Transient overvoltage protection Varistors Input circuit - Measuring circuit B1/B2/B3-C Monitoring function over- or undercurrent monitoring  configurable over- and under- current monitoring Measuring method True RMS measuring principle Measuring inputs CM-SxS.x1 CM-SxS.x2 Terminal connection B1-C B2-C B3-C B1-C B2-C B3-C Measuring ranges AC/DC 3-30 mA 10-100 mA 0.1-1 A 0.3-1.5 A 1-5 A 3-15 A  2) Input resistance 3.3  ⏲ 1  ⏲ 0.1  ⏲ 0.05  ⏲ 0.01  ⏲ 0.0025  ⏲ Pulse overload capacity t 1 s 500 mA 1 A 10 A 15 A 50 A 100 A Continous capacity 50 mA 150 mA 1.5 A 2 A 7 A 17 A Threshold value(s) adjustable within the indicated  measuring range Setting accuracy of threshold value 10 % Repeat accuracy (constant parameters)  0.07 % of full scale Hysteresis related to the threshold value 3-30 % adjustable 5 % fixed Measuring signal frequency range DC / 15 Hz - 2 kHz Rated measuring signal frequency range DC / 50-60 Hz Maximum response time AC: 80 ms / DC: 120 ms Accuracy within the control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Timing circuit Start-up delay T S none 0 or 0.1-30 s adjustable Tripping delay T V none 0 or 0.1-30 s adjustable Repeat accuracy (constant parameters) Ȁ0.07 % of full scale Accuracy within the control supply voltage tolerance - ͬt ͨ 0.5 % Accuracy within the temperature range - ͬt ͨ 0.06 % / °C Indication of operational states Control supply voltage U/T: green LED  V : control supply voltage applied,   X : start-up delay T S  active,   W : tripping delay T V  active Measured value I: red LED  V : overcurrent,   W : undercurrent Relay status R: yellow LED V : relay energized, no latching function  Z : relay energized, active latching function  Y : relay de-energized, active latching function Output circuits 11(15)-12(16)/14(18), 21(25)-22(26)/24(28) - Relays Kind of output 1 c/o contact 2 c/o contacts 1x2 c/o contacts or 2x1 c/o contact configurable Operating principle open-circuit principle  1) open- or closed-circuit principle configurable  1) Contact material AgNi Rated operational voltage U e IEC/EN 60947-1 250 V Minimum switching voltage / minimum switching current 24 V / 10 mA Maximum switching voltage / maximum switching current 250 V AC / 4 A AC Rated  operational current I e   (IEC/EN 60947-5-1) AC12 (resistive)  at 230 V 4 A AC15 (inductive)  at 230 V 3 A DC12 (resistive)  at 24 V 4 A DC13 (inductive)  at 24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power   (Make/Break) at B 300 3600/360 VA Mechanical lifetime 30x10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1x10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 6 A fast-acting 10 A fast-acting 6 A fast-acting n/o contact 10 A fast-acting 1)   Open-circuit principle: output relay energizes if the measured value exceeds  b  / falls below  a  the adjusted threshold value    Closed-circuit principle: output relay de-energizes if measured value exeeds  b  / falls below  a  the adjusted threshold value 2)   In case of measured currents 10 A, lateral spacing has to be min. 10 mm 2CDC110004C0209.pdf   91 11/26/2013   4:50:26 PM

2/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Type CM-SRS.1 CM-SRS.2 CM-SRS.M CM-SFS.2 General data MTBF on request Duty time 100% Dimensions  (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight net weight depending on device, see ordering details gross weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units 10mm (0.39in) at measured current   10 A  2) Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size Screw connection technology Easy Connect Technology (Push-in) fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - Environmental data Ambient temperature range operation / storage -20...+60 °C / -40...+85 °C Damp heat (IEC 60068-2-30) 55 °C, 6 cycles Vibration (sinusoidal) (IEC/EN 60255-21-1) Class 2 Shock (IEC/EN 60255-21-2) Class 2 Isolation data Rated insulation voltage   (VDE 0110, IEC 60947-1, IEC/EN 60255-5) supply / measuring   circuit / output 600 V supply / output 1/2 250 V Rated impulse withstand voltage U imp    (IEC/EN 60947-1, IEC/EN 60255-5) supply / measuring  circuit / output 6 kV 1.2/50 μs supply / output 1/2 4 kV 1.2/50 μs Pollution degree (VDE 0110, IEC 664, IEC/EN 60255-5) 3 Overvoltage category (VDE 0110, IEC 664, IEC/EN 60255-5) III Standards Product standard IEC/EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 electrical fast transient / burst IEC/EN 61000-4-4 Level 3 surge IEC/EN 61000-4-5 Level 3 conducted disturbances, induced by radio-fre-quency fields IEC/EN 61000-4-6 Level 3 Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22; EN 55022 Class B high-frequency conducted IEC/CISPR 22; EN 55022 Class B Current monitoring relays, single-phase Technical data - Current monitoring relays 2CDC110004C0209.pdf   92 11/26/2013   4:50:26 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/24  2 Voltage monitoring relays, single-phase Technical data - Voltage monitoring relays Type CM-ESS.1 CM-ESS.2 CM-ESS.M CM-EFS.2 Input circuit - Supply circuit A1-A2 Rated control supply voltage U s A1-A2 110-130 V ACA1-A2 220-240 V ACA1-A2 24-240 V AC/DC Rated control supply voltage U s  tolerance -15...+10 % Rated frequency AC versions 50/60 Hz AC/DC versions 50/60 Hz or DC Current / power consumption see data sheet Power failure buffering time 20 ms Transient overvoltage protection Varistors Input circuit - Measuring circuit B-C Monitoring function over- or undervoltage monitoring  configurable over- and undervolta-ge monitoring  configurable Measuring method True RMS measuring principle Measuring inputs CM-ExS Terminal connection B-C B-C B-C B-C Measuring range AC/DC 3-30 V 6-60 V 30-300 V 60-600 V Input resistance 600 k ⏲ 600 k ⏲ 600 k ⏲ 600 k ⏲ Pulse overload capacity t 1 s 800 V 800 V 800 V 800 V Continous capacity 660 V 660 V 660 V 660 V Threshold value(s) adjustable within the indicated measuring range Setting accuracy of threshold value 10 % Repeat accuracy (constant parameters) Ȁ0.07 % of full scale Hysteresis related to the threshold value 3-30 % adjustable 5 % fixed Measuring signal frequency range DC / 15 Hz - 2 kHz Rated measuring signal frequency range DC / 50-60 Hz Maximum response time AC: 80 ms / DC: 120 ms Accuracy within the control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Transient overvoltage protection Varistors Timing circuit Delay time T V none 0 or 0.1-30 s adjustable Repeat accuracy (constant parameters) Ȁ0.07 % of full scale Accuracy within the control supply voltage tolerance - ͬt ͨ 0.5 % Accuracy within the temperature range - ͬt ͨ 0.06 % / °C Indication of operational states Control supply voltage U/T: green LED  V : control supply voltage applied  W : tripping delay T V  active Measured value U: red LED  V : overvoltage,   W : undervoltage Relay status R: yellow LED V : relay energized, no latching function  Z : relay energized, active latching function  Y : relay de-energized, active latching function Output circuits  Kind of output 1 c/o contact 2 c/o contacts 1x2 c/o contacts or 2x1 c/o contact  configurable Operating principle open-circuit principle  1) open- or closed-circuit principle configurable  1) Contact material AgNi Rated operational voltage U e IEC/EN 60947-1 250 V Minimum switching voltage / minimum switching current 24 V / 10 mA Maximum switching voltage / maximum switching current 250 V AC / 4 A AC Rated  operational current I e  (IEC/EN 60947-5-1) AC12 (resistive)  at 230 V 4 A AC15 (inductive)  at 230 V 3 A DC12 (resistive)  at 24 V 4 A DC13 (inductive)  at 24 V 2 A 1)  Open-circuit principle: output relay energizes if the measured value exceeds  d  / falls below  c  the adjusted threshold value     Closed-circuit principle: output relay de-energizes if measured value exeeds  d  / falls below  c  the adjusted threshold value 2CDC110004C0209.pdf   93 11/26/2013   4:50:26 PM

2/25   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Voltage monitoring relays, single-phase Technical data - Voltage monitoring relays Type CM-ESS.1 CM-ESS.2 CM-ESS.M CM-EFS.2 AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power   (Make/Break) at B 300 3600/360 VA Mechanical lifetime 30x10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1x10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 6 A fast-acting 10 A fast-acting 6 A fast-acting n/o contact 10 A fast-acting General data MTBF on request Duty time 100% Dimensions (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight net weight depending on device, see ordering details gross weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size Screw connection technology Easy Connect Technology (Push-in) fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - Isolation data Rated insulation voltage   (VDE 0110, IEC 60947-1, IEC/EN 60255-5) supply / measuring  circuit / output 600 V supply / output 1/2 250 V Rated impulse withstand voltage U imp   (IEC/EN 60947-1, IEC/EN 60255-5) supply / measuring  circuit / output 6 kV 1.2/50 μs supply / output 1/2 4 kV 1.2/50 μs Pollution degree  (VDE 0110, IEC 664, IEC/EN 60255-5) 3 Overvoltage category (VDE 0110, IEC 664, IEC/EN 60255-5) III Standards Product standard IEC/EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 radiated, radio-frequency,  electromagnetic field IEC/EN 61000-4-3 Level 3 electrical fast transient / burst IEC/EN 61000-4-4 Level 3 surge IEC/EN 61000-4-5 Level 3 conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22; EN 55022 Class B high-frequency conducted IEC/CISPR 22; EN 55022 Class B 2CDC110004C0209.pdf   94 11/26/2013   4:50:26 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/26  2 Current and voltage monitoring relays, single-phase Notes 2CDC110004C0209.pdf   95 11/26/2013   4:50:27 PM

2/27   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Product group picture 2CDC110004C0209.pdf   96 11/26/2013   4:50:27 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/28  2 Three-phase monitoring relays Table of contents Three-phase monitoring relays Product group picture  27 Table of contents  28 Benefits and advantages, Applications  29 Operating controls  30 Selection table singlefunctional  31 Selection table multifunctional  32 Ordering details - Singlefunctional   33 Ordering details - Multifunctional  34 Function diagrams  35 Connection diagrams, DIP switches  39 DIP switches, Rotary switches  40 Technical data  41 2CDC110004C0209.pdf   97 11/26/2013   4:50:28 PM

2/29   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Extended functionality ABB’s new generation of three-phase monitoring relays feature  additional functions making the application field for the devices  considerably larger. Selectable phase sequence monitoring The phase sequence monitoring can be switched off by means of a rotary switch or a DIP switch. This enables monitoring of three-phase mains where phase sequence is not relevant for the  application, for example in case of motors with forward and reverse rotation, heating applications, etc. Automatic phase sequence correction The automatic phase sequence correction is activated by means of a DIP switch. With activated phase sequence correction, it is  ensured that for any non-fixed or portable equipment, e.g.  construction  machinery, the cor-rect phase sequence is always applied to the  input terminals of the load. For details regarding the wiring, please see function description / diagrams. Structure of the type designation CM-_ _ x.yz x: width of enclosure y: Control supply voltage / measuring range 1 110, 115, 120, 127 V supply systems (phase-neutral) 2 220, 230, 240 V supply systems (phase-neutral) 3 200, 208, 220, 230, 240, 257, 260 V supply systems  (phase-phase) 4 440, 460 V supply systems (phase-phase) 5 480, 500 V supply systems (phase-phase) 6 575, 600 V supply systems (phase-phase) 7 660, 690 V supply systems (phase-phase) 8 200, 400 V supply systems (phase-phase) z: Rated frequency / output circuit 1 50/60 Hz – 1x2 c/o 2 50/60 Hz – 1x2 or 2x1 c/o 3 50/60/400 Hz – 1x2 oder 2x1 c/o Three-phase monitoring relays Benefits and advantages, Applications Phase unbalance monitoring If the supply by the three-phase system is unbalanced due to uneven dis-tribution of the load, the motor will convert a part of the energy into reactive power. This energy gets lost unexploited; also the motor is exposed to hig-her thermal stress. Other thermal protection devices fail to detect continuing unbalances which can lead to damage or destruction of the motor. The CM range three-phase monitors with phase unbalance monito-ring can reliably detect this critical situation. Phase sequence Changing the phase sequence during operation or a wrong phase sequence prior to startup causes a change of the rotational direction of the connected device. Generators, pumps or fans rotate in the wrong direction and the installation is no longer working properly. Especially for moveable equipment, such as construction machinery, phase sequence detection prior to the startup process is highly reasonable. Phase loss In case of phase loss, undefined stats of the installation are likely to occur. E.g. the startup process of motors is disturbed. All three-phase monitors of the ABB CM range detect a phase loss as soon as the voltage of one phase drops below 60% of its nominal value. Voltage monitoring All electric devices can be damaged when operated continuously in a net-work with out-of-range voltages. For example, safe starting is not ensured in case of undervoltage. Also, the switching state of a contactor is not clearly defined when operated in a „forbidden“ voltage range. This can lead to undefined states of the installtion and cause damage or destruction of valuable parts. Characteristics of the CM range three-phase monitors   ½   Adjustable phase unbalance threshold value  1)   ½   Adjustable ON-delay/OFF-delay time  1)   ½   Dual frequency measuring 50/60 Hz   ½   Powered by the measuring circuit   ½   1 n/o contact, 1 or 2 c/o contacts   ½   LEDs for the indication of operational states   ½   Multifunctional and single-functional devices   ½   Phase failure detection   ½   Phase sequence monitoring  1)   ½   Over- and undervoltage monitoring (fixed or adjustable) 1)   ½   Wide-range operating voltage guarantees world-wide operation   ½   Approvals / Marks    A   C D   K E     2)  /  a b 1)  depending on device type 2)  Applicable in rail application following the latest standards for rail applications: NF F  16-101/102 (I2/F2 classified), EN 45545 (Hazard Level 3), DIN 5510, EN 50155,  IEC 60571. Further information is available in our rail segment brochure 2CD-C110084B0201. 2CDC110004C0209.pdf   98 11/26/2013   4:50:28 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/30  2 Three-phase monitoring relays Operating controls 4 1 2 3 5 1   Adjustment of the hysteresis U for overvoltage 2   Adjustment of the threshold value U for undervoltage 3   Indication of operational states R/T: red LED – Relay status / timing F1: yellow LED – Fault message F2: yellow LED – Fault message 4   Adjustment of the threshold value Asym. for phase unbalance 5   Adjustment of the tripping delay T v   6   DIP switches (see DIP switch functions on page 2/40) A ON-delayB OFF-delayl Phase sequence monitoring deactivatedk Phase sequence monitoring activatedm Phase sequence correction activatedn Phase sequence correction deactivatedi 2x1 c/o (SPDT) contactj 1x2 c/o (SPDT) contacts 1   Adjustment of the hysteresis U for overvoltage  2   Adjustment of the threshold value Asym. for phase unbalance 3   Indication of operational states R/T: red LED – Relay status / timing F1: yellow LED – Fault message F2: yellow LED – Fault message 4   Adjustment of the tripping delay T v 5   Adjustment of the hysteresis U for undervoltage 6   DIP switches (see DIP switch functions on page 2/40) A ON-delayB OFF-delayl Phase sequence monitoring deactivatedk Phase sequence monitoring activatedm Phase sequence correction activatedn Phase sequence correction deactivatedi 2x1 c/o (SPDT) contactj 1x2 c/o (SPDT) contacts 1 3 2 4 5 6 S-Range Housing N-Range Housing 2CDC110004C0209.pdf   99 11/26/2013   4:50:28 PM

2/31   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Selection table singlefunctional Or der number 1SVR 550 881 R9400 1SVR 550 882 R9500 1SVR 550 870 R9400 1SVR 550 871 R9500 1SVR 550 824 R9100 1SVR 730 824 R9300 1SVR 740 824 R9300 1SVR 730 784 R2300 1SVR 740 784 R2300 1SVR 730 784 R3300 1SVR 740 784 R3300 1SVR 730 794 R1300 1SVR 730 794 R3300 1SVR 740 794 R3300 1SVR 730 794 R2300 1SVR 740 794 R2300  1SVR 730 774 R1300 1SVR 740 774 R1300 1SVR 730 774 R3300 1SVR 740 774 R3300 Rated control supply  voltage U s T ype CM-PBE CM-PBE CM-PVE CM-PVE CM-PFE CM-PFS.S CM-PFS.P CM-PSS.31S CM-PSS.31P CM-PSS.41S CM-PSS.41P CM-PVS.31S CM-PVS.41S CM-PVS.41P CM-PVS.81S CM-PVS.81P CM-P AS.31S CM-P AS.31P CM-P AS.41S CM-P AS.41P Phase to Phase 160-300 V AC ½ ½ ½ 200-400 V AC ½ ½ 200-500 V AC ½ ½ 208-440 V AC ½ 300-500 V AC ½ ½ ½ ½ 320-460 V AC ½ ½ 350-580 V AC380 V AC ½ ½ 380-440 V AC ½ ½ 400 V AC ½ ½ Phase to Neutral 185-265 V AC ½ 220-240 V AC ½ Rated frequency 50/60 Hz ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Suitable for monitoring Single-phase mains ½ ½ Three-phase mains ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Monitoring function Phase failure ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Phase sequence ½ ½ ½ sel sel sel sel sel sel sel sel sel ½ ½ ½ ½ Automatic phase sequence correction Overvoltage ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Undervoltage ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Unbalance ½ ½ ½ ½ Neutral  1) ½ ½ Thresholds fix fix fix fix fix fix fix fix fix fix fix fix adj adj adj adj adj adj adj adj Timing functions for tripping delay ON delay fix fix sel sel sel sel On and OFF delay  fix fix fix fix fix adj adj adj adj adj adj adj adj adj Connection type Push-in terminals ½ ½ ½ ½ ½ ½ Double-chamber cage connection terminals ½ ½ ½ ½ ½ ½ ½ adj: adjustable sel: selectable 1)  The external conductor voltage towards the neutral conductor is measured. 2CDC110004C0209.pdf   100 11/26/2013   4:50:29 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/32  2 Three-phase monitoring relays Selection table multifunctional adj: adjustable sel: selectable Or der number 1SVR 730 885 R1300 1SVR 740 885 R1300 1SVR 730 885 R3300 1SVR 740 885 R3300 1SVR 730 884 R1300 1SVR 740 884 R1300 1SVR 730 884 R3300 1SVR 740 884 R3300 1SVR 730 885 R4300 1SVR 740 885 R4300 1SVR 730 884 R4300 1SVR 740 884 R4300 1SVR 750 487 R8300 1SVR 760 487 R8300 1SVR 750 488 R8300 1SVR 760 488 R8300 1SVR 750 489 R8300 1SVR 760 489 R8300 Rated control supply  voltage U s T ype CM-MPS.11S CM-MPS.11P CM-MPS.21S CM-MPS.21P CM-MPS.31S CM-MPS.31P CM-MPS.41S CM-MPS.41P CM-MPS.23S CM-MPS.23P CM-MPS.43S CM-MPS.43P CM-MPN.52S CM-MPN.52P CM-MPN.62S CM-MPN.62P CM-MPN.72S CM-MPN.72P Phase to Phase 160-300 V AC ½ ½ 300-500 V AC ½ ½ ½ ½ 350-580 V AC ½ ½ 450-720 V AC ½ ½ 530-820 V AC ½ ½ Phase to Neutral 90-170 V AC ½ ½ 180-280 V AC ½ ½ ½ ½ Rated frequency 50/60 Hz ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 50/60/400 Hz ½ ½ ½ ½ Suitable for monitoring Single-phase mains ½ ½ ½ ½ ½ ½ Three-phase mains ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Monitoring function Phase failure ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Phase sequence sel sel sel sel sel sel sel sel adj adj adj adj adj adj adj adj adj adj Automatic phase sequence correction adj adj adj adj adj adj adj adj adj adj Overvoltage ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Undervoltage ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Unbalance ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Neutral  1) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) Thresholds adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj Timing functions for tripping delay On and OFF delay  adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj adj Connection type Push-in terminals ½ ½ ½ ½ ½ ½ ½ ½ ½ Double-chamber cage connection terminals ½ ½ ½ ½ ½ ½ ½ ½ ½ 1)  The external conductor voltage towards the neutral conductor is measured. 2)  Interrupted neutral monitoring 2CDC110004C0209.pdf   101 11/26/2013   4:50:30 PM

2/33   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Ordering details - Singlefunctional  Description Only reliable and continuous monitoring of a three-phase network guarantees the trouble-free  and economic operation of machines and installations. Ordering details Rated control  supply voltage = measuring voltage Monitoring function Neutral moni-toring Type Order  code Price 1 pce Weight(1 pce)kg (lb) 3x380-440 V AC,  220-240 V AC Phase failure detection (Single- and three-phase) Q CM-PBE  1) 1SVR550881R9400 0.08 (0.17) 3x380-440 V AC CM-PBE 1SVR550882R9500 0.08 (0.17) 3x320-460 V AC, 185-265 V AC Over- / under-voltage and phase failure detection (Single- and three-phase) Q CM-PVE  1) 1SVR550870R9400 0.08 (0.17) 3x320-460 V AC CM-PVE 1SVR550871R9500 0.08 (0.17) 3x208-440 V AC Phase sequence monitoring and phase failure detection (Three-phase) CM-PFE  2) 1SVR550824R9100 0.08 (0.17) 2CDC 251 063 V0011 2CDC 251 064 V0011 2CDC 251 064 V0011 CM-PAS.31P CM-PSS.41P CM-PBE 1)  The version with neutral monitoring is also suitable for monitoring single-phase mains. For this, all three external conductors (L1,L2,L3)  have to be jumpered and connected as one single conductor. 2)  For applications where a reverse fed voltage 60% is expected, we recommend to use our three-phase monitoring relays for unbalance  CM-PAS.xx S: screw connectionP: push-in / easy connect Ordering details Rated control  supply voltage = measuring voltage Monitoring function Type  Order code Price 1 pce Weight(1 pce)kg (lb) 3x200-500 V AC Phase sequence moni-toring and phase failure detection (Three-phase) CM-PFS.S  1SVR730824R9300 0.127 (0.280) CM-PFS.P 1SVR740824R9300 0.119 (0.262) 3x380 V AC Over- / undervoltage with fixed threshold values ± 10 % CM-PSS.31S 1SVR730784R2300 0.132 (0.291) CM-PSS.31P 1SVR740784R2300 0.123 (0.271) 3x400 V AC CM-PSS.41S 1SVR740784R3300 0.132 (0.291) CM-PSS.41P 1SVR730784R3300 0.123 (0.271) 3x160-300 V AC Over- and undervol-tage with adjustable threshold values (Three-phase) CM-PVS.31S 1SVR730794R1300 0.141 (0.311) CM-PVS.31P 1SVR740794R1300 0.132 (0.291) 3x300-500 V AC CM-PVS.41S 1SVR730794R3300 0.139 (0.306) CM-PVS.41P 1SVR740794R3300 0.131 (0.289) 3x200-400 V AC CM-PVS.81S 1SVR730794R2300 0.136 (0.300) CM-PVS.81P 1SVR740794R2300 0.128 (0.282) 3x160-300 V AC Phase unbalance (Three-phase) CM-PAS.31S 1SVR730774R1300 0.133 (0.293) CM-PAS.31P 1SVR740774R1300 0.124 (0.273) 3x300-500 V AC CM-PAS.41S 1SVR730774R3300 0.132 (0.291) CM-PAS.41P 1SVR740774R3300 0.123 (0.271) 2CDC110004C0209.pdf   102 11/26/2013   4:50:30 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/34  2 Three-phase monitoring relays Ordering details - Multifunctional Ordering details Rated control  supply voltage = measuring voltage DIP switch Monitoring function Neutral moni-toring Type Order  code Price 1 pce Weight(1 pce)kg (lb) 90-170 V AC A B k l Multifunctional (Three-phase phase failure detection, Phase sequence monitoring, overvoltage, undervoltage, Phase unba-lance) Q CM-MPS.11S 1SVR730885R1300 0.148 (0.326) CM-MPS.11P 1SVR740885R1300 0.137 (0.302) 180-280 V AC CM-MPS.21S 1SVR730885R3300 0.146 (0.322) CM-MPS.21P 1SVR740885R3300 0.135 (0.298) 3x160-300 V AC CM-MPS.31S 1SVR730884R1300 0.142 (0.313) CM-MPS.31P 1SVR740884R1300 0.133 (0.293) 3x300-500 V AC CM-MPS.41S 1SVR730884R3300 0.140 (0.309) CM-MPS.41P 1SVR740884R3300 0.132 (0.291) 180-280 V AC A B k l m n i j Multifunctional (Three-phase phase failure detection, Phase sequence monitoring, overvoltage, undervoltage, Phase unba-lance) Q CM-MPS.23S 1SVR730885R4300 0.149 (0.328) CM-MPS.23P 1SVR740885R4300 0.138 (0.304) 3x300-500 V AC CM-MPS.43S 1SVR730884R4300 0.148 (0.327) CM-MPS.43P 1SVR740884R4300 0.137 (0.302) 3x350-580 V AC A B k l m n i j CM-MPN.52S 1SVR750487R8300 0.230 (0.507) CM-MPN.52P 1SVR760487R8300 0.226 (0.498) 3x450-720 V AC CM-MPN.62S 1SVR750488R8300 0.229 (0.505) CM-MPN.62P 1SVR760488R8300 0.225 (0.496) 3x530-820 V AC CM-MPN.72S 1SVR750489R8300 0.224 (0.494) CM-MPN.72P 1SVR760489R8300 0.220 (0.485) 2CDC 251 065 V0011 2CDC 251 062 V0011 CM-MPS.23P CM-MPN.52P A  ON-delayed B  OFF-delayed k  Phase sequence    monitoring  activated  l  Phase sequence    monitoring  deactivated m  Phase sequence    correction  activated  n  Phase sequence    correction  deactivated i  2x1 c/o (SPDT) contactsj  1x2 c/o (SPDT) contacts S: screw connectionP: push-in / easy connect 2CDC110004C0209.pdf   103 11/26/2013   4:50:31 PM

2/35   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Function diagrams L1, L2, L3, N 13-14 L1, L2, L3, N L1, L2, L3, N L1, L2, L3, N L1, L2, L3, N L1, L2 L3 N t s L1, L2, N L3 t v L2, L3, N L1 t s t s t v 2CDC 252 045 F0203 R: yellow LED Measuring value t s  = Start-up delay fixed 500 ms t v  = Tripping delay fixed 150 ms L1, L2, L3 13-14 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L2 L3 t s L1, L2 L3 t v L1, L2 L3 t s t s t v 2CDC 252 046 F0203 R: yellow LED Measuring value t s  = Start-up delay fixed 500 ms t v  = Tripping delay fixed 150 ms Function diagrams - Phase failure detection CM-PBE with   neutral without   neutral Function diagrams - Phase failure under- / overvoltage detection CM-PVE with   neutral without   neutral L1, L2, L3, N 13-14  U max U max  - 5 % U min  + 5 % U min t s t s t s t v t v t s t v 2CDC 252 047 F0203 R: yellow LED Measuring value L1, L2, L3 13-14  U max U max  - 5 % U min  + 5 % U min t s t s t s t v t v t s t v 2CDC 252 048 F0203 R: yellow LED Measuring value t s  = Start-up delay fixed 500 ms t v  = Tripping delay fixed 500 ms If all phases (and the neutral) are present, the output relay energizes after the start-up delay t s   is complete. If a phase  failure occurs, the  tripping delay t v  starts. When timing is complete, the output relay de- energizes. As soon as the voltage returns to the tolerance range, timing of t s  starts. When timing is complete, the  output relay re-ener- gizes automatically. The yellow LED glows when the output relay is energized. If all phases (and the neutral) are present with correct voltage, the output relay energizes after the start-up delay t s  is complete. If the  voltage exceeds or falls below the fixed threshold value or if a phase failure occurs, the tripping delay t v  starts. When timing is complete,  the output relay de-energizes. As soon as the voltage returns to the tolerance range, timing of t s  starts. When timing is complete, the out- put relay re-energizes automatically. The yellow LED glows when the output relay is energized. Function diagram - Phase failure detection, phase sequence monitoring CM-PFE L1, L2, L3 11-12 11-14 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L3, L2 L1, L2 L3 t s t v t s t v t s 2CDC 252 061 F0208 R: yellow LED Measuring value t s  = Start-up delay fixed 500 ms t v  = Tripping delay fixed 500 ms  If all phases are present with the correct phase sequence, the output relay energizes after the start-up delay t s  is complete. If a phase fai- lure or a phase sequence error occurs, the tripping delay t v  starts.  When timing is complete, the output relay de-energizes. The yellow LED glows when the output relay is energized. In case of motors which continue running with only two phases, the CM-PFE detects phase failure if the reverse fed voltage is less than 60 % of the originally applied voltage. ATTENTIONIf several CM-PFS units are placed side by side and the control supply voltage is higher than 415 V, spacing of at least 10 mm has to be kept between the individual units. Function diagram - Phase failure detection, phase sequence monitoring CM-PFS L1, L2, L3 11-12 11-14 21-22 21-24 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L3, L2 L1, L2 L1 L3 L2, L3 t s 2CDC 252 013 F0208 R: yellow LED Measuring value t s  = start-up delay fixed 500 ms If all phases are present with the correct phase sequence, the output relay energizes after the start-up delay t s  is complete. If a phase fai- lure or a phase sequence error occurs, the output relay de-energizes  instantaneous. The yellow LED glows when the output relay is energized. In case of motors which continue running with only two phases, the CM-PFS detects phase failure if the reverse fed voltage is less than 60 % of the originally applied voltage. 2CDC110004C0209.pdf   104 11/26/2013   4:50:31 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/36  2 Three-phase monitoring relays Function diagrams K1 K1 K1 K3 H1 L1L2L3 N 16 28 A1 25 26 15 18 K2 A2 A1 A2 2CDC 252 086 F0b07 -K3 L1 -F1 1 2 95 96 97 98 L2 3 4 L3 5 6 12 34 56 -K2 -F2 12 34 56 1 3 5 2 4 6 M 3 ~ W1 V1 U1 -M1 2CDC 252 087 F0b07 CM-PSS.xx, CM-PVS.xx, CM.PAS.xx, CM-MPS.xx, CM-MPN.xx Phase sequence monitoring and phase failure detection Applying control supply voltage begins the fixed start-up delay t S . When  t S  is complete and all phases are present with correct voltage, the out- put relays energize and the yellow LED R/T glows.  Phase sequence monitoring If phase sequence monitoring is activated, the output relays de- energize as soon as a phase sequence error occurs. The fault is displayed by alternated flashing of the LEDs F1 and F2. The output relays re-energize automatically as soon as the phase sequence is cor-rect again.  Phase failure detection The output relays de-energize instantaneous if a phase failure  occurs. The fault is indicated by lightning of LED F1 and flashing of LED F2. The output relays re-energize automatically as soon as the voltage returns to the tolerance range. 25-26 25-28 L1, L2, L3 15-16 15-18 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L2, L3 L1, L3, L2 L1, L2 L1 L3 L2, L3 t s 2CDC 252 094 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t s  = start-up delay fixed 200 ms L1, L2, L3 15-16 15-18 t S2 t S1 t S1 L1, L2, L3 L1, L2, L3 L1, L3, L2 L1, L2 L3 25-26 25-28 t S2 2CDC 252 085 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t S1  = start-up delay of R1 fixed 250 ms t S2  = start-up delay of R2 fixed 200 ms CM-MPS.x3, CM-MPN.x2 Automatic phase sequence correction This function can be selected only if phase sequence monitoring is acti-vated k and operating mode 2x1 c/o (SPDT) contact j is selected.Applying control supply voltage begins the fixed start-up delay t S1 .  When t S1  is complete and all phases are present with correct voltage,  output relay R1 energizes. Output relay R2 energizes when the fixed start-up delay t S2  is complete and all phases are present with correct  phase sequence. Output relay R2 remains de-energized if the phase sequence is incorrect. If the voltage to be monitored exceeds or falls below the set threshold values for phase unbalance, over- or undervoltage or if a phase failure occurs, output relay R1 de-energizes and the LEDs F1 and F2 indicate the fault. Output relay R2 is responsive only to a false phase sequence. In con-junction with a reversing contactor combination, this enables an automatic correction of the rotation direction. See circuit diagrams on the right. CM-MPS.11, CM-MPS.21, CM-MPS.23 Interrupted neutral monitoring The interruption of the neutral in the main to be monitored is detected by means of phase unbalance evaluation. Determined by the system, in case of unloaded neutral, i.e.  symmetrical load between all three phases, it may happen that an interruption of the neutral will not be detected. If the star point is displaced by asymmetrical load in the three-phase main, an interrupted neutral will be detected. Control circuit diagram (K1 = CM-MPS.xx or CM-MPN.xx) Power circuit diagram Displacement of the star point 2CDC110004C0209.pdf   105 11/26/2013   4:50:31 PM

2/37   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 ON-delay A, 2x1 c/o contact i OFF-delay B, 2x1 c/o contact i OFF-delay B, 1x2 c/o contacts j ON-delay A, 1x2 c/o contacts j CM-PSS.xx 1) , CM-PVS.xx 2) , CM-MPS.xx 2) , CM-MPN.xx 2)   Over- and undervoltage monitoring  j Applying control supply voltage begins the fixed start-up delay t S . When  t S  is complete and all phases are present with correct voltage and with  correct phase sequence, the output relays energize and the yellow LED R/T glows.  Type of tripping delay = ON-delay If the voltage to be monitored exceeds or falls below the fixed 1)  or set 2)   threshold value, the output relays de-energize after the set tripping delay t V  is complete. The LED R/T flashes during timing and turns off as  soon as the output relays de-energize. The output relays re-energize automatically as soon as the voltage returns to the tolerance range, taking into account a fixed hysteresis of 5 % and the LED R/T glows. Type of tripping delay = OFF-delay If the voltage to be monitored exceeds or falls below the fixed 1)  or set 2)   threshold value, the output relays de-energize instantaneously and the LED R/T turns off. As soon as the voltage returns to the  tolerance range, taking into account a fixed hysteresis of 5 %, the output relays re-energize  automatically after the set tripping delay t V  is complete. The LED R/T  flashes during timing and turns steady when timing is  complete. L1, L2, L3 15-16 15-18 25-26 25-28 U U - 5 % U + 5 % U ts tv tv tv 2CDC 252 007 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay L1, L2, L3 15-16 15-18 25-26 25-28 U U - 5 % U + 5 % U ts tv tv tv 2CDC 252 006 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay CM-MPS.x3, CM-MPN.x2  Over- and undervoltage monitoring  i Applying control supply voltage begins the fixed start-up delay t S . When  t S  is complete and all phases are present with correct  voltage and with  correct phase sequence, the output relays energize. The yellow LED R/T glows as long as at least one output relay is  energized. Type of tripping delay = ON-delay If the voltage to be monitored exceeds or falls below the set threshold value, output relay R1 (overvoltage) or output relay R2  (undervoltage) de-energizes after the set tripping delay t V  is  complete. The LED R/T  flashes during timing. The corresponding output relay re-energizes automatically as soon as the voltage returns to the tolerance range, taking into  account a fixed hysteresis of 5 %.  Type of tripping delay = OFF-delay If the voltage to be monitored exceeds or falls below the set threshold value, output relay R1 (overvoltage) or output relay R2  (undervoltage) de-energizes instantaneously. As soon as the voltage returns to the tolerance range, taking into  account a fixed hysteresis of 5 %, the corresponding output relay re-energizes automatically after the set tripping delay t V  is complete. The  LED R/T flashes during timing. L1, L2, L3 15-16 15-18 U U - 5 % U + 5 % U ts tv tv tv 25-26 25-28 2CDC 252 090 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay 25-26 25-28 L1, L2, L3 15-16 15-18 U U - 5 % U + 5 % U ts tv tv tv 2CDC 252 091 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay Three-phase monitoring relays Function diagrams 2CDC110004C0209.pdf   106 11/26/2013   4:50:31 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/38  2 Three-phase monitoring relays Function diagrams CM-PAS.xx, CM-MPS.xx, CM-MPN.xx Phase unbalance monitoring Applying control supply voltage begins the fixed start-up delay t S . When t S   is complete and all phases are present with correct voltage and with cor-rect phase sequence, the output relays energize and the yellow LED R/T glows. Type of tripping delay = ON-delay If the voltage to be monitored exceeds or falls below the set phase unba-lance threshold value, the output relays de-energize after the set tripping delay tV is  complete. The LED R/T flashes during timing and turns off as soon as the output relays de-energize. The output relays re-energize automatically as soon as the voltage  returns to the tolerance range, taking into account a fixed hysteresis of 20 % and the LED R/T glows. Type of tripping delay = OFF-delay  If the voltage to be monitored exceeds or falls below the set phase unba-lance threshold value, the output relays de-energize  instantaneously and the LED R/T turns off. As soon as the voltage  returns to the  tolerance range, taking into account a fixed hysteresis of 20 %, the output relays re-energize automatically  after the set tripping delay t V  is  complete. The LED R/T flashes during timing  and turns steady when timing is  complete. 25-26 25-28 L1, L2, L3 15-16 15-18 ts tv tv tv L1, L2, L3 L1, L2 L3 2CDC 252 093 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value Unbalance Unbalance - Hysteresis Unbalance + Hysteresis Unbalance t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay L1, L2, L3 15-16 15-18 L1, L2, L3 L1, L2 L3 ts tv tv tv 25-26 25-28 2CDC 252 092 F0207 F1: red LED F2: red LED R/T: yellow LED Measuring value Unbalance Unbalance - Hysteresis Unbalance + Hysteresis Unbalance t s  = start-up delay fixed 200 ms t v  = adjustable tripping delay OFF-delay B ON-delay A CM-PSS.xx, CM-PSV.xx, CM-PAS.xx, CM-MPS.xx, CM-MPN.xx LED functions Function R/T:   yellow LED F1:   red LED F2:   red LED Control supply voltage applied, output relay energized V - - Tripping delay t V  active W - - Phase failure - V W Phase sequence - W alternating Overvoltage - V - Undervoltage - - V Phase unbalance - V V Interruption of the neutral - V W Adjustment error  1) W W W 1)  Possible misadjustments of the front-face operating controls: Overlapping of the threshold values: An overlapping of the threshold values is given, if the threshold value for overvoltage is set to a smaller value than the threshold value for  undervoltage. DIP switch 3 = OFF and DIP switch 4 = ON: Automatic phase sequence  correction is activated and selected operating mode is 1x2 c/o contacts DIP switch 2 and 4 = ON: Phase sequence detection is deactivated and the automatic phase sequence correction is actived CM-PSS.xx, CM-PSV.xx, CM-PAS.xx, CM-MPS.xx, CM-MPN.xx Type of tripping delay The type of tripping delay A / B can be adjusted via a rotary   (CM-PxS.xx) or a DIP switch (CM-MPx.xx).    Switch position ON-delay A:  In case of a fault, the de-energizing of the output relays and the respective fault message are suppressed for the adjusted tripping delay t V .   Switch position OFF-delay B:   In case of a fault, the output relays de-energize instantaneously and a fault message is displayed and stored for the length of the adjusted tripping delay t V . Thereby, also momentary undervoltage conditions are  recognized. 2CDC110004C0209.pdf   107 11/26/2013   4:50:32 PM

2/39   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Connection diagrams 1SVC 110 000 F0117 L1-L2-L3  Control supply voltage =     Measuring  voltage 11-12/14 Output  contact    Closed-circuit  principle Connection diagram CM-PFE Connection diagram  CM-PFS L1 L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 L1 16 15 L1, L2, L3  Control supply voltage =     measuring  voltage 15-16/18  Output contacts -  25-26/28 closed-circuit  principle Connection diagram  CM-PVS.x1, CM-PSS.x1, CM-PAS.x1 L1 L2 28 26 15 25 L3 L3 15 16 18 26 28 25 L2 L1 16 18 L1, L2, L3  Control supply voltage =     measuring  voltage 15-16/18  Output contacts -  25-26/28 closed-circuit  principle Connection diagram CM-MPN.x2 1SVC 110 000 F 0118 L1-L2-L3  Control supply voltage =     Measuring  voltage 11 15 -12 16  /14 18 ,   Output contact -  21 25 -22 26 /24 28  Closed-circuit  principle 1SVC 110 000 F 0112 1SVC 110 000 F 0113 L1, L2, L3, (N)  Control supply voltage =    Measuring  voltage 13-14    Output contact -    closed-circuit  principle Connection diagrams  CM-PBE, CM-PVE with neutral without neutral L1 N L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 N L1 16 15 L1 L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 L1 16 15 Connection diagram CM-MPS.x3 L1, L2, L3, (N)  Control supply voltage =    measuring  voltage 15-16/18  Output contacts -  25-26/28 closed-circuit  principle L1 N L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 N L1 16 15 L1 L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 L1 16 15 L1, L2, L3, (N)  Control supply voltage =    measuring  voltage 15-16/18  Output contacts -  25-26/28 closed-circuit  principle Connection diagram  CM-MPS.x1 2CDC 252 038 F0b08 2CDC 252 036 F0b08 2CDC 252 037 F0b08 2CDC 252 037 F0b08 2CDC 252 037 F0b08 2CDC 252 036 F0b08 2CDC110004C0209.pdf   108 11/26/2013   4:50:32 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/40  2 Three-phase monitoring relays DIP switches, Rotary switches Rotary switch "Function" CM-PSS ON-delay  with phase sequence monitoring OFF-delay  with phase sequence monitoring ON-delay  without phase sequence monitoring OFF-delay  without phase sequence monitoring Rotary switch "Function" CM-PVS ON-delay  with phase sequence monitoring OFF-delay  with phase sequence monitoring ON-delay  without phase sequence monitoring OFF-delay  without phase sequence monitoring Position 1  2  ON OFF Position 4  1  2  3  ON  OFF  DIP switch functions  CM-MPS.x3 and CM-MPN.x2 1 Timing function 2 Phase sequence monitoring ON OFF ON-delayed OFF-delayed ON OFF deactivated activated 3 Operating principle of output 4 Phase sequence correction ON OFF 2x1 c/o contact 1x2 c/o contacts ON OFF activated deactivated 1)   Output relay R1 is responsive to overvoltage, output relay R2 is responsive to  undervoltage. In case of other faults, both output relays react synchronously. DIP switch functions  CM-MPS.x1 1 Timing function 2 Phase sequence monitoring ON OFF ON-delayed OFF-delayed ON OFF deactivated activated 2CDC 252 041 F0b08 2CDC 252 040 F0b08 2CDC110004C0209.pdf   109 11/26/2013   4:50:32 PM

2/41   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Technical data Type CM-PBE  1) CM-PBE CM-PVE  1) CM-PVE CM-PFE CM-PFS  Supply circuit = measuring circuit L1-L2-L3-N L1-L2-L3 L1-L2-L3-N L1-L2-L3 L1-L2-L3 Rated control supply voltage U S  = measuring voltage 3x380- 440 V AC, 220-240 V C  3x380- 440 V AC 3x320- 460 V AC, 185-265 V AC 3x320- 460 V AC 3x208- 440 V AC 3x200- 500 V AC Power consumption approx. 15 VA Rated control supply voltage U S  tolerance -15...+15 % -15...+10 % -10...+10 % -15...+10 % Rated frequency 50/60 Hz 50/60 Hz (-10...+10 %) 50/60 Hz  Duty time 100 % Measuring circuit L1-L2-L3-N L1-L2-L3 L1-L2-L3-N L1-L2-L3 L1-L2-L3 Monitoring functions phase failure ½ ½ ½ ½ ½ ½ phase sequence - - - - ½ ½ over- / undervoltage - - ½ ½ - - neutral ½ - ½ - - - Measuring ranges 3x380- 440 V AC, 220-240 V AC  3x380- 440 V AC 3x320- 460 V AC, 185-265 V AC 3x320- 460 V AC 3x208- 440 V AC 3x200- 500 V AC Thresholds U min 0.6 x UN fixed  185 V / 320 V fixed  320 V 0.6 x U N U max fixed  265 V / 460 V fixed  460 V Hysteresis related to the threshold value fixed 5 %  (release value = 0.65 x U N ) fixed 5 % - Measuring voltage frequency 50/60 Hz (-10 %...+10 %) 50/60 Hz  Response time 40 ms 80 ms 500 ms Accuracy within the rated control supply voltage tolerance - ͬU ͨ 0.5 % Accuracy within the temperature range - ͬU ͨ 0.06 % / °C Timing circuit Start-up delay t S fixed 500 ms ( Ȁ20 %) fixed 500 ms Tripping t V fixed 150 ms  ( Ȁ20 %) at over-/ undervoltage  fixed 500 ms ( Ȁ20 %) fixed 500 ms - Indication of operational states Relay status R: yellow LED V  Output relay energized Fault message F: red LED Only CM-PFS:  V  Phase failure /  V  Phase sequence error Output circuits 13-14 11-12/14 11(15)-12(16)  / 14(18),  21(25)-22(26)  / 24(28) Kind of output 1 n/o contact 1 c/o contact 2 c/o contacts Operating principle closed-circuit principle  2) Contact material AgCdO AgNi allow, Cd free Rated operational voltage U e   IEC/EN 60947-1 250 V 250 V AC Minimum switching voltage / Minimum switching current - / - Maximum switching voltage 250 V AC, 250 V DC Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V 3 A DC12 (resistive) 24 V 4 A DC13 (inductive) 24 V 2 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve   short-circuit protection n/c contact 10 A fast-acting 6 A fast- acting n/o contact 10 A fast-acting AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300, CM-PFS: B300, pilot duty general purpose (250 V, 4 A, cos phi 0.75) max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power  at B 300 3600/360 VA 1)  Device with neutral monitoring: The external conductor voltage towards the neutral conductor is measured. 2)  Closed-circuit principle: Output relay is de-energized if the measured value exceeds/drops below the adjusted threshold. 2CDC110004C0209.pdf   110 11/26/2013   4:50:32 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/42  2 Type CM-PBE  1) CM-PBE CM-PVE  1) CM-PVE CM-PFE CM-PFS General data Dimensions (W x H x D) 22.5 x 78 x 78.5 mm (0.89 x 3.07 x 3.09 in) CM-PFS: 22.5 x 78 x 100 mm (0.89 x 3.07 x 3.94 in) Weight see data sheet Mounting DIN rail (IEC/EN 60715) Mounting position any Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size fine-strand with wire end ferrule 2 x 0.75-1.5 mm² (2 x 18-16 AWG) 2 x 0.75-2.5 mm²  (2 x 8-14 AWG) fine-strand without wire end ferrule 2 x 1-1.5  mm² (2 x 18-16 AWG) rigid 2 x 0.75-1.5 mm² (2 x 18-16 AWG) 2 x 0.5-4 mm²  (2 x 20-12 AWG) Stripping length 10 mm (0.39 in) 7 mm (0.28 in) Tightening torque 0.6-0.8 Nm Environmental data Ambient temperature range operation / storage -20..+60 °C / -40...+85 °C Environmental testing (IEC 68-2-30) 24 h cycle time, 55 °C, 93 % rel., 96 h - Operational reliability (IEC 68-2-6) 6 g - Mechanical resistance (IEC 68-2-6) 10 g - Climatic category IEC/EN 60721-3-3 - 3K3 Damp heat, cyclic IEC/EN 60068-2-30 CM-PFS: 6 x 24 h cycle, 55 °C, 95 % RH Vibration, sinusoidal IEC/EN 60255-21-1 - Class 2 Shock IEC/EN 60255-21-2 - Class 2 Isolation data Rated insulation voltage U i   (IEC/EN 60947-1, IEC/EN 60664-1) between supply, measu- ring and output circuits 400 V - supply circuit /   output circuit - 600  V output circuit 1 /   output circuit 2 - 300  V Rated impulse withstand voltage U imp   between all isolated circuits  (VDE 0110, IEC 664) 4 kV / 1.2 - 50 μs - supply circuit / output circuit - 6 kV output circuit 1 /   output circuit 2 - 4 kV Basic insulation for rated control supply voltage (IEC/EN 60664-1) supply circuit / output circuit - 600 V AC Protective seperation  (IEC/EN 61140, EN 50178) supply circuit / output circuit - n/a Test voltage (routine test) 2.5 kV, 50 Hz, 1 min. - supply circuit /   output circuit - 2.5 kV, 50 Hz, 1 min. output circuit 1 /   output circuit 2 - 2.5 kV, 50 Hz, 1 min. Pollution degree (IEC/EN 60664-1) 3 Overvoltage category (IEC/EN 60664-1) III Standards Product standard IEC 255-6, EN 60255-6, CM-PFS: IEC/60255-1:2010 Other standards CM-PFS: EN 50178, IEC/EN 60204 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive CM-PFS: 2002/95/EC Electromagnetic compatibility Interference immunity to EN 61000-6-2, CM-PFS: EN 61000-6-1, EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 - 6 kV/ 8 kV radiated, radio-frequency, electromag-netic field IEC/EN 61000-4-3 Level 3 - 10 V/m (1 GHz) / 3 V/m (2 GHz) / 1 V/m (2.7 GHz) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 - 2 kV / 5 kHz surge IEC/EN 61000-4-5 Level 4 - 2 kVL-L conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 - 10 V voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 - Class 3 harmonics and interharmonics IEC/EN 61000-4-13 - Class 3 Interference emission EN 61000-6-4, CM-PFS:  high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B 1)   Device with neutral monitoring: The external conductor voltage towards the neutral conductor is measured. Three-phase monitoring relays Technical data 2CDC110004C0209.pdf   111 11/26/2013   4:50:32 PM

2/43   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Technical data Type CM-PSS.31 CM-PSS.41 CM-PVS.31 CM-PVS.41 CM-PVS.81 CM-PAS.31 CM-PAS.41 Input circuit = Measuring circuit L1, L2, L3 Rated control supply voltage U S  = measuring voltage 3x380 V AC 3x400 V AC 3x160- 300 V AC 3x300- 500 V AC 3x200- 400 V AC 3x160- 300 V AC 3x300- 500 V AC Rated control supply voltage U S  tolerance -15...+10 % Rated frequency 50/60 Hz Frequency range 45-65 Hz Typical current / power consumption 25 mA /  18 VA (380 V AC) 25 mA /  18 VA (400 V AC) 25 mA /  10 VA (230 V AC) 25 mA /  18 VA (400 V AC) 19 mA /  10 VA (300 V AC) 25 mA /  10 VA (230 V AC) 25 mA / 18 VA (400 V AC) Measuring circuit L1, L2, L3 Monitoring functions Phase failure ½ ½ ½ ½ ½ ½ ½ Phase sequence can be switched off ½ ½ Automatic phase sequence  correction - - - - - - - Over- / undervoltage ½ ½ ½ ½ ½ - - Phase unbalance - - - - - ½ ½ Neutral - - - - - - - Measuring range Overvoltage 3x418 V AC 3x440 V AC 3x220- 300 V AC 3x420- 500 V AC 3x300- 400 V AC - - Undervoltage 3x342 V AC 3x360 V AC 3x160- 230 V AC 3x300- 380 V AC 3x210- 300 V AC - - Phase  unbalance - - - - - 2-25 % of average  of phase voltages Thresholds Overvoltage fixed adjustable within measuring range - - Undervoltage fixed adjustable within measuring range - - Phase unbalance (switch-off value) - - - - - adjust.  within  meas.  range Hysteresis related to the threshold value Over- / undervoltage fixed 5 % - Phase unbalance - - - - - fixed  20  % Rated frequency of the measuring signal 50/60 Hz Frequency range of the measuring signal 45-65 Hz Maximum measuring cycle time 100 ms Accuracy within the rated control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Measuring method True RMS Timing circuit Start-up delay t S fixed 200 ms Tripping delay t V  ON- or OFF-delay  0; 0.1-30 s adjustable ON- delay  0; 0.1-30 s adjustable Repeat accuracy (constant parameters) - - - - l w 0.2 % - - Accuracy within the rated control supply voltage tolerance ͬt ͨ 0.5 % Accuracy within the temperature range ͬt ͨ 0.06 % / °C Indication of operational states 1 yellow LED, 2 red LED's Details see function  description / -diagrams Details see operating mode and function description / -diagrams Details see function  description / -diagrams Output circuits 15-16/18, 25-26/28 Kind of output relay, 2 x 1 c/o contact Operating principle closed-circuit principle  1) Contact material AgNi alloy, Cd free Rated operational voltage U e   IEC/EN 60947-1 250 V Minimum switching power 24 V / 10 mA Maximum switching voltage see load limit curve   1)   Closed-circuit principle: Output relay(s) de-energize(s) if measured value exceeds or falls below the adjusted threshold value 2CDC110004C0209.pdf   112 11/26/2013   4:50:33 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/44  2 Three-phase monitoring relays Technical data Type CM-PSS.31 CM-PSS.41 CM-PVS.31 CM-PVS.41 CM-PVS.81 CM-PAS.31 CM-PAS.41 Rated operational current I e  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V  3 A DC12 (resistive) 24 V  4 A DC13 (inductive) 24 V  2 A AC rating (UL 508) Utilization category   (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal   current at B 300 5 A max. making/breaking apparent  power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 6 A fast-actingn/o contact 10 A fast-acting General data MTBF on request Duty time 100% Dimensions (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715),  snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size Screw connection technology Easy Connect Technology (Push-in) fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - Environmental dataAmbient temperature ranges operation / storage -25...+60 °C / -40...+85 °C Damp heat (IEC 60068-2-30) 55 °C, 6 cycles Climatic category 3K3 Vibration (sinusoidal) (IEC/EN 60255-21-1) Class 2 Shock (IEC/EN 60255-21-2) Class 2 Isolation data Rated insulation  voltage U i input circuit / output circuit 600 V output circuit 1 / output circuit 2 300 V Rated impulse withstand voltage U imp  (VDE 0110, IEC/EN 60664) input circuit 6 kV; 1.2/50 μs output circuit 4 kV; 1.2/50 μs Test voltage between all isolated circuits (routine test) 2.5 kV, 50 Hz, 1 s Basic insulation input circuit / output circuit 600 V Protective separation (VDE 0106  part 101 and 101/A, IEC/EN 1140) input circuit /   output circuit - Pollution degree (VDE 0110, IEC/EN 60664) 3 Overvoltage category (VDE 0110, IEC 60664) III Standards Product standard IEC/EN 60255-6, EN 50178 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electromagnetic compatibility Interference immunity to EN 61000-6-1, EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, elec-tromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 2 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances,induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission Class 3 high-frequency radiated IEC/CISPR 22, EN 55022 EN 61000-6-3, EN 61000-6-4 high-frequency conducted IEC/CISPR 22, EN 55022 Class B   2CDC110004C0209.pdf   113 11/26/2013   4:50:33 PM

2/45   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Technical data Type CM-MPS.11 CM-MPS.21 CM-MPS.31 CM-MPS.41 Input circuit = Measuring circuit L1, L2, L3, N L1, L2, L3 Rated control supply voltage U S  = measuring voltage 3x90-170 V AC 3x180-280 V AC 3x160-300 V AC 3x300-500 V AC Rated control supply voltage U S  tolerance -15...+10 % Rated frequency 50/60 Hz Frequency range 45-65 Hz Typical current / power consumption 25 mA / 10 VA(115 V AC) 25 mA / 18 VA (230 V AC) 25 mA / 10 VA (230 V AC) 25 mA / 18 VA (400 V AC) Measuring circuit L1, L2, L3, N L1, L2, L3 Monitoring functions Phase failure ½ ½ ½ ½ Phase sequence can be switched off Automatic phase sequence correction - - - - Over- / undervoltage ½ ½ ½ ½ Phase unbalance ½ ½ ½ ½ Interrupted neutral ½ ½ - - Measuring range Overvoltage 3x120-170 V AC 3x240-280 V AC 3x220-300 V AC 3x420-500 V AC Undervoltage 3x90-130 V AC 3x180-220 V AC 3x160-230 V AC 3x300-380 V AC Phase unbalance 2-25 % of average of phase voltages Thresholds Overvoltage adjustable within measuring range Undervoltage adjustable within measuring range Phase unbalance (switch-off value) adjustable within measuring range Hysteresis related to the threshold value Over- / undervoltage fixed 5 % Phase unbalance fixed 20 % Rated frequency of the measuring signal 50/60 Hz Frequency range of the measuring signal 45-65 Hz Maximum measuring cycle time 100 ms Accuracy within the rated control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Measuring method True RMS Timing circuit Start-up delay t S fixed 200 ms Tripping delay t V ON- or OFF-delay 0; 0.1-30 s adjustable Accuracy within the rated control supply voltage tolerance ͬt ͨ 0.5 % Accuracy within the temperature range ͬt ͨ 0.06 % / °C Indication of operational states Details see function description / -diagrams Output circuits 15-16/18, 25-26/28 Kind of output relay, 1 x 2 c/o contacts Operating principle closed-circuit principle  1) Contact material AgNi alloy, Cd free Rated operational voltage U e   (IEC/EN 60947-1) 250 V Minimum switching power 24 V / 10 mA Maximum switching voltage see load limit curve Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V  3 A DC12 (resistive) 24 V  4 A DC13 (inductive) 24 V  2 A AC rating (UL 508) Utilization category  (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0,1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 6 A fast-actingn/o contact 10 A fast-acting 1)  Closed-circuit principle: Output relay(s) de-energize(s) if measured value exceeds or falls below the adjusted threshold value 2CDC110004C0209.pdf   114 11/26/2013   4:50:33 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/46  2 Type CM-MPS.11 CM-MPS.21 CM-MPS.31 CM-MPS.41 General data MTBF on request Duty time 100% Dimensions (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight Screw connection technology Easy Connect Technology (Push-in) net weight depending on device, see ordering details gross weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size Screw connection technology Easy Connect Technology (Push-in) fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - Environmental data Ambient temperature ranges operation / storage -25...+60 °C / -40...+85 °C Damp heat (IEC 60068-2-30) 55 °C, 6 cycles Climatic category 3K3 Vibration (sinusoidal) (IEC/EN 60255-21-1) Class 2 Shock (IEC/EN 60255-21-2) Class 2 Isolation data Rated insulation  voltage U i input circuit / output circuit 600 V output circuit 1 / output circuit 2 300 V Rated impulse withstand voltage U imp    (VDE 0110, IEC/EN 60664) input circuit 6 kV; 1.2/50 μs output circuit 4 kV; 1.2/50 μs Test voltage between all isolated circuits (routine test) 2.5 kV, 50 Hz, 1 s Basic insulation input circuit / output circuit 600 V Protective separation (VDE 0106 part 101 and 101/A, IEC/EN 61140) input circuit / output circuit yes - Pollution degree (VDE 0110, IEC/EN 60664) 3 Overvoltage category (VDE 0110, IEC 60664) III Standards Product standard IEC/EN 60255-6, EN 50178 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electromagnetic compatibility Interference immunity to EN 61000-6-1, EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency,  electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 2 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emission EN 61000-6-3, EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B Three-phase monitoring relays Technical data 2CDC110004C0209.pdf   115 11/26/2013   4:50:33 PM

2/47   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Three-phase monitoring relays Technical data  Type CM-MPS.23 CM-MPS.43 CM-MPN.52 CM-MPN.62 CM-MPN.72 Input circuit = Measuring circuit L1, L2, L3, N L1, L2, L3 Rated control supply voltage U S  = measuring voltage 3x180-280 V AC 3x300-500 V AC 3x350-580 V AC 3x450-720 V AC 3x530-820 V AC Rated control supply voltage U S  tolerance -15...+10 % Rated frequency 50/60/400 Hz 50/60 Hz Frequency range 45-440 Hz 45-65 Hz Typical current / power consumption 5 mA / 4 VA (230 V AC) 5 mA / 4 VA (400 V AC) 29 mA / 41 VA (480 V AC) 29 mA / 52 VA (600 V AC) 29 mA / 59 VA (690 V AC) Measuring circuit L1, L2, L3, N L1, L2, L3 Monitoring functions Phase failure ½ ½ ½ ½ ½ Phase sequence can be switched off Automatic phase sequence correction configurable Over- / undervoltage ½ ½ ½ ½ ½ Phase unbalance ½ ½ ½ ½ ½ Interrupted neutral ½ - - - - Measuring range Overvoltage 3x240-280  V AC 3x420-500 V AC 3x480-580 V AC 3x600-720 V AC 3x690-820 V AC Undervoltage 3x180-220  V AC 3x300-380 V AC 3x350-460 V AC 3x450-570 V AC 3x530-660 V AC Phase unbalance 2-25 % of average of phase voltages Thresholds Overvoltage adjustable within measuring range Undervoltage adjustable within measuring range Phase unbalance (switch-off value) adjustable within measuring range Hysteresis related to the threshold value Over- / undervoltage fixed 5 % Phase unbalance fixed 20 % Rated frequency of the measuring signal 50/60/400 Hz 50/60 Hz Frequency range of the measuring signal 45-440 Hz 45-65 Hz Maximum measuring cycle time 100 ms Accuracy within the rated control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Measuring method True RMS Timing circuit Start-up delay t S  and t S2 fixed 200 ms Start-up delay t S1 fixed 250 ms Tripping delay t V  ON- or OFF-delay 0; 0.1-30 s adjustable Accuracy within the rated control supply voltage tolerance ͬt ͨ 0.5 % Accuracy within the temperature range ͬt ͨ 0.06 % / °C Indication of operational states Details see function description / -diagrams Output circuits 15-16/18, 25-26/28 Kind of output relay, 2 x 1 or 1 x 2 c/o contacts configurable Operating principle closed-circuit principle  1) Contact material AgNi alloy, Cd free Rated operational voltage U e   IEC/EN 60947-1 250 V Minimum switching power 24 V / 10 mA Maximum switching voltage see load limit curve Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V  3 A DC12 (resistive) 24 V  4 A DC13 (inductive) 24 V  2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0,1 x 10 6  switching cycles Max. fuse rating to achieve  short-circuit protection n/c contact 6 A fast-acting 10 A fast-acting n/o contact 10 A fast-acting   1)   Closed-circuit principle: Output relay(s) de-energize(s) if measured value exceeds or falls below the adjusted threshold value 2CDC110004C0209.pdf   116 11/26/2013   4:50:34 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/48  2 Three-phase monitoring relays Technical data Type CM-MPS.23 CM-MPS.43 CM-MPN.52 CM-MPN.62 CM-MPN.72 General data MTBF on request Duty time 100% Dimensions (W x H x D) product dimensions 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) packaging dimensions 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight depending on device, see ordering details Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Material of housing UL 94 V-0 Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size Screw connection technology Easy Connect Technology (Push-in) fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) - Environmental data Ambient temperature ranges operation / storage -25...+60 °C / -40...+85 °C Damp heat (IEC 60068-2-30) 55 °C, 6 cycles Climatic category 3K3 Vibration (sinusoidal) (IEC/EN 60255-21-1) Class 2 Shock (IEC/EN 60255-21-2) Class 2 Isolation data Rated insulation  voltage U i input circuit / output circuit 600 V 1000 V output circuit 1 / 2 300 V Rated impulse withstand voltage U imp    (VDE 0110, IEC/EN 60664) input circuit 6 kV; 1.2/50 μs 8 kV; 1.2/50 μs output circuit 4 kV; 1.2/50 μs Test voltage (routine test) between isolated output circuits 2.5 kV, 50 Hz, 1 s input circuit and isolated output circuits 2.5 kV, 50 Hz, 1 s 4 kV, 50 Hz, 1 s Basic insulation input circuit / output circuit 600 V 1000 V Protective separation (VDE 0106 part 101 and 101/A, IEC/EN 61140) input circuit /   output circuit - Pollution degree (VDE 0110, IEC/EN 60664) 3 Overvoltage category (VDE 0110, IEC 60664) III Standards Product standard IEC/EN 60255-6, EN 50178 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electromagnetic compatibility Interference immunity to EN 61000-6-1, EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency,  electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 2 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-N) Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emission EN 61000-6-3, EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B 2CDC110004C0209.pdf   117 11/26/2013   4:50:34 PM

2/49   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Product group picture 2CDC110004C0209.pdf   118 11/26/2013   4:50:34 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/50  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Table of contents Grid feeding monitoring relays - Voltage and frequency monitoring  functions Product group picture  49 Table of contents  50 Benefits and advantages, applications  51 Operating controls - CM-UFD.Mxx  52 Operating controls - CM-UFS.1  53 Applications 54 Ordering and selection  55 Functional diagrams - CM-UFS.1  56 Connection diagrams  57 Technical data - CM-UFD.Mxx  58 Technical data - CM-UFS.1  63 2CDC110004C0209.pdf   119 11/26/2013   4:50:36 PM

2/51   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Benefits and advantages, Applications Characteristics CM-UFD.M21   ½   Monitoring of three-phase mains for grid feeding   ½   Type-tested in accordance with VDE AR-N 4105   ½   Two-channel measuring circuit and two processors to ensure single- fault tolerance   ½   Over- and undervoltage, 10 minutes average value as well as over- and  underfrequency monitoring   ½   Two-level threshold settings for over-/undervoltage/-frequency configu- rable according to ‘BDEW guideline for generating plants connected to the medium voltage grid’   ½   Vector shift detection configurable   ½   Measured values, thresholds and settings shown on the display   ½   All threshold values adjustable as absolute values   ½   Default setting according to VDE AR-N 4105   ½   True RMS measuring principle   ½   2 control inputs for feedback signal of subsequent section switch   ½   Monitoring of subsequent section switch configurable   ½   Tripping delay (0.05-130.00 s) for each single threshold adjustable   ½   Alarm memory for up to 99 entries (incl. cause of alarm, measured  value, relative timestamp)   ½  Test function   ½  Simulation mode   ½   Code lock and mechanical sealing possible   ½   5 digital outputs (transistor outputs) for signalling the cause of alarm to  a superior control system   ½   2 c/o (SPDT) contacts   ½   105 mm (4.13 in) width   ½   LEDs for the indication of operational states   ½  Standby mode   ½   Optimized for use with generators   ½   Automatic restart after a failure in the feedback loop Characteristics CM-UFD.M22   ½   Monitoring of voltage and frequency in single- and three-phase mains  2-wire, 3-wire or 4-wire   ½   Type tested in accordance to CEI 0-21   ½   Over- and undervoltage, 10 minutes average value as well as over- and  underfrequency monitoring   ½   Two-level threshold settings for over-/undervoltage and frequency   ½   ROCOF (rate of change of frequency) monitoring configurable   ½   Integrated management of redundancy function (acc.   CEI 0-21, mandatory in plants with P 20 kW)   ½   Measured values, thresholds and settings shown on the display   ½   All threshold values adjustable as absolute values   ½   Default setting according to CEI 0-21   ½   True RMS measuring principle   ½   High measurement accuracy   ½   3 control inputs for remote trip, feedback signal, and external signal   ½   Tripping delay for each threshold adjustable   ½   Interrupted neutral detection   ½   Error memory for up to 99 entries (incl. cause of error, measured value,  relative timestamp)   ½  Autotest function   ½   Password setting protection   ½   3 c/o (SPDT) contacts   ½   LEDs for the indication of operational states Characteristics CM-UFS.1   ½   Monitoring of three-phase mains for grid feeding   ½   Type-tested in accordance with DIN V VDE V 0126-1-1: February 2006    ½   Neutral conductor connection configurable   ½   Can also be used to monitor single-phase mains   ½   Threshold value for the 10 minutes average value adjustable   (110-115% of U s )   ½   Start-up delay t S1  prior to first grid connection and after a short-term  interruption, 30 s fixed    ½   Restart delay t S2 , 30 s fixed   ½   Powered by the measuring circuit   ½   True RMS measuring principle   ½   2 c/o (SPDT) contacts   ½   3 LEDs for the indication of operational states 2CDC110004C0209.pdf   120 11/26/2013   4:50:36 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/52  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Operating controls - CM-UFD.Mxx 1  Button Test 2   Indication of operational states Q1: red LED - overvoltage Q2: red LED - undervoltage Q3: red LED - overfrequency Q4: red LED - underfrequency Q5: red LED - error, if PR1 or PR2 activated  1) 3   'M: red LED - vector shift 4   11: yellow LED - 1st c/o (SPDT) contact energized   21: yellow LED - 2nd c/o (SPDT) contact energized 5  Display (4-digits) Voltage, 10 minutes average value, frequency or vector shift value, alarm and error messages 6   Indication of time Time: yellow LED - a time delay is displayed 7   Indication of device mode 8   Button Set / Reset  Ź 9   Button Up / Down  Ÿź 10  Indication of operational states L1: yellow LED - kind of measured value L2: yellow LED - kind of measured value L3: yellow LED - kind of measured value N: yellow LED - kind of measured value 11  Status indication of device locking and sealable lock button Red LED - device is locked 1)  if PR3 or PR4 activated, 2nd threshold referring to LED Q1-Q4. 1 3 2 4 56 7 8 9 10 11 1 2 3 1  Display R1 R2 R3 - relay status; in this case R3 is de-energized FB - status feedback loop Y0-Y1; in this case FB is closed EXT – status input external signal; in this case input is closed REM – status remote trip input; in this case input is closed 2   Indication of operational states U/T: green LED – supply voltage applied / flashing = timing active F: red LED - failure 3  Keypad ESC: escape / return to previous menu ^ : up / value increase › : down / value decrease OK: enter / confirm selection CM-UFD.M21 CM-UFD.M22 2CDC110004C0209.pdf   121 11/26/2013   4:50:36 PM

2/53   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Operating controls - CM-UFS.1 1 4 2 3 1   Adjustment of the threshold value for the 10 minutes average value 2   Indication of operational states R/T: yellow LED - relay status, timing F1: red LED - fault message F2: red LED - fault message 3   Selection of neutral conductor, connected or not 4  Marker label CM-UFS.1 2CDC110004C0209.pdf   122 11/26/2013   4:50:37 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/54  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Applications Example of application - CM-UFD.M21 L1L2L3N K1 ) K2 A1 ͨ6 A A2 11 14 22 24 21 12 Y2 Y1 Y0 L2 L1 L3 N A B K1 K2 A B Low voltage grid Inverter(s)Generator(s)Power plant Optional use of n/o contacts, automatic recognition For example, remote disconnection via ripple control receiver in series with Expansion of existing installation: in series with where applicable, a transformer ) A B 2CDC 252 013 F0212 Example of application - CM-UFS K1 K2 L1 N L2 L3 15 18 26 28 25 16 CM-UFS.x U f L1L2L3N Low voltage grid Inverter(s) Generator(s) Power plant Externalswitch-off conditions Coordination of short-circuit protection, welding free May also be the inverter output. In this case, apply the signal of relay R2 to the relevant input   2CDC 252 022 F0209 Example of single-phase application CM-UFD.M22 Contactor as DDI  1) L1L2L3N K1 K2 ͨ6 A DG DDI  ብ ቦ ቢ ቤ ቢ ባ Y0 Y2 34 38 Y3 32 36 24 28 22 26 14 18 12 16 Y1 A2 A1 21 25 11 15 31 35 L3 L2 L1 N Low voltage grid Inverter(s)Generator(s)Power plant ቢ  Feedback loop DDI ባ  Input external signal ቤ  Input remote trip / remote off ብ  Switching device DG ቦ  Switching device DDI where applicable, a transformer Example of three-phase application CM-UFD.M22 Contactor as DDI  1) , breaker as DG  2t) L1L2L3N K1 U CB1 DG DDI  ͨ6 A ብ ቦ ቢ ቤ ቢ ባ ቧ ቨ Y0 Y2 34 38 Y3 32 36 24 28 22 26 14 18 12 16 Y1 A2 A1 21 25 11 15 31 35 L3 L2 L1 N M Low voltage grid Inverter(s)Generator(s)Power plant ቢ  Feedback loop DDI ባ  Input external signal ቤ  Input remote trip / remote off ብ  Switching device DG ቦ  Switching device DDI ቧ  Undervoltage release DG breaker ቨ  Motor drive for circuit breaker where applicable, a transformer 2CDC 252 004 F0213 2CDC 252 005 F0213 1) 1) 2) 2) 1)  DDI acc. to CEI 0-21 2)  DG acc. to CEI 0-21 2CDC110004C0209.pdf   123 11/26/2013   4:50:37 PM

2/55   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 2CDC 251 003 S0012 2CDC 251 005 S0013 2CDC 251 014 S0009 CM-UFD.M21 CM-UFD.M22 CM-UFS.1 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Ordering and selection Description Only reliable and continuous monitoring of a three-phase network guarantees the trouble-free  and economic operation of machines and installations. Ordering details Rated control supply voltage =  measuring voltage Type Order  code Price 1 pce Weight(1 pce)kg (lb) 24-240 V AC/DC CM-UFD.M21 1SVR510730R0300 0.225 (0.496) 24-240 V AC/DC CM-UFD.M22 1SVR560730R3400 0.283 (0.624) 3 x 400 V AC (L-L) / 230 V AC (L-N) CM-UFS.1 1SVR630736R0300 0.14 (0.31) Or der number 1SVR 510 730 R0300 1 S V R  5 6 0 7 3 0 R 3 4 0 0 1SVR 630 736 R0300 T ype CM-UFD.M21 CM-UFD.M22 CM-UFS.1 Rated control supply voltage U s 24-240 V AC/DC ½ ½ 3 x 400 V AC (L-L) / 230 V AC (L-N) ½ Rated frequency DC and 50/60 Hz respectively ½ 50 Hz ½ DC or 50 Hz ½ Suitable for monitoring Single-phase mains ½ Three-phase mains ½ ½ ½ Monitoring function Over-/undervoltage ½ ½ ½ Over-/underfrequency ½ ½ ½ ROCOF (rate of change of frequency) ½ 10 minutes average value ½ ½ ½ Phase failure ½ Vector shift ½ Thresholds adj adj adj 2CDC110004C0209.pdf   124 11/26/2013   4:50:38 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/56  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Function diagrams - CM-UFS.1 10 minutes average value monitoring Applying control supply voltage begins the fixed start-up delay t S1 .  When t S1  is complete and all phases are present with correct voltage  and frequency, the output relays energize. The voltages of the individual phases are measured over a period of 10 minutes and the average value is calculated. If the 10 minutes average value of a phase exceeds the set threshold value, the output relays de-energize instantaneously. The fault is indicated by LEDs. As soon as the 10 minutes average value drops again below the set threshold value, the output relays reenergize instantaneously. Function of the yellow LED The yellow LED is flashing during timing and turns steady as soon as the output relays are energized. Phase failure monitoring Applying control supply voltage begins the fixed start-up delay t S1 .  When t S1  is complete and all phases are present with correct voltage  and frequency, the output relays energize. They de-energize instantaneously if a phase failure occurs. The fault is indicated by LEDs. As soon as all 3 phases are present again, the output relays re-energize automatically after the fixed restart delay t S2  is complete. Over- and undervoltage monitoring Applying control supply voltage begins the fixed start-up delay t S1 .  When t S1  is complete and all phases are present with correct voltage  and frequency, the output relays energize. If the voltage to be monitored exceeds or falls below the fixed threshold value, the output relays de-energize instantaneously. The fault type is indicated by LEDs. As soon as the voltage returns to the tolerance range, taking into account a fixed hysteresis of 5 %, the output relays re-energize after the fixed restart delay t S2  is complete. L1, L2, L3 (N) 15-16, 25-26 15-18, 25-28 U U - Hyst. U + Hyst. U tS1 tS2 tS2 tS2 2CDC 252 016 F0209 F1: red LED F2: red LED R/T: yellow LED Measuring value tS1 = Start-up delay prior to first grid connection and after a short-term interruption,          30 s fixedtS2 = Restart delay, 30 s fixed L1, L2, L3 (N) 15-16, 25-26 15-18, 25-28 f f - Hyst. f + Hyst. f tS1 tS2 tS2 tS2 2CDC 252 020 F0209 F1: red LED F2: red LED R/T: yellow LED Measuring value tS1 = Start-up delay prior to first grid connection and after a short-term interruption,          30 s fixedtS2 = Restart delay, 30 s fixed L1, L2, L3 (N) 15-16, 25-26 15-18, 25-28 U U - Hyst. t S1 2CDC 252 002 F0209 F1: red LED F2: red LED R/T: yellow LED Measuring value t S1  = Start-up delay prior to first grid connection and after a short-term interruption,          30 s fixed L1, L2, L3 (N) 15-16, 25-26 15-18, 25-28 L1, L2, L3 L1, L2, L3 L1, L2 L3 tS1 tS2 2CDC 252 018 F0209 F1: red LED F2: red LED R/T: yellow LED Measuring value tS1 = Start-up delay prior to first grid connection and after a short-term interruption,          30 s fixedtS2 = Restart delay, 30 s fixed Over- and underfrequency monitoring Applying control supply voltage begins the fixed start-up delay t S1 . When  t S1  is complete and all phases are present with correct voltage and fre- quency, the output relays energize. If the frequency to be monitored exceeds or falls below the fixed threshold value, the output relays deenergize instantaneously. The fault type is indi-cated by LEDs. As soon as the frequency returns to the tolerance range, taking into account a fixed hysteresis, the output relays re-energize after the fixed restart delay t S2  is complete. 2CDC110004C0209.pdf   125 11/26/2013   4:50:38 PM

2/57   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Connection diagrams Electrical connection - CM-UFD.M21 A1 A1 A2 U  , U , U , f , f ,  ͬϕ   A2 Y0 Y1 Y2 L1 L2 L3 N A2 Q1Q2 Q3 Q4 Q5 12 11 14 22 21 24 V Q L3 N 11 12 14 22 24 21 L2 L1 ͬ ϕ 1 ͬ ϕ 2 2CDC 252 002 F0012 A1-A2  L1, L2, L3, N 11-12/14 21-22/24 Y0-Y1 Y0-Y2 Dj1-Dj2 VQ Q1 Q2 Q3 Q4 Q5 Control supply voltage Measuring input 1st c/o (SPDT) contact 2nd c/o (SPDT) contact 1st input contact for feedback signal 2nd input contact for feedback signal Vector shift detection Jumper = vector shift detection disabled Supply voltage of digital outputs Digital output for overvoltage Digital output for undervoltage Digital output for overfrequency Digital output for underfrequency Digital output for: error, if PR1 or PR2 activated if PR3 or PR4 activated, 2nd threshold referring to LED Q1-Q4 L1 N L2 28 25 26 18 L3 L3 15 16 18 26 28 25 L2 N L1 16 15 2CDC 252 036 F0b08 Electrical connection - CM-UFS.1 Y0 Y2 34 38 Y3 32 36 24 28 22 26 14 18 12 16 Y1 A2 A1 21 25 11 15 31 35 L3 L2 L1 N A1-A2 Y0-Y1 Y0-Y2 Y0-Y3 L1, L2, L3, N 11 15 -12 16 /14 18 21 25 -22 26 /24 28 31 35 -32 36 /34 38 Control supply voltage Control input for feedback signal Control input for external signal Control input for remote trip Measuring input 1st c/o (SPDT) contact 2nd c/o (SPDT) contact 3rd c/o (SPDT) contact L1, L2, L3, N  Control supply voltage = Measuring voltage 15-16/18  Output contacts - 25-26/28 closed-circuit  principle 2CDC 253 023 F0013 Electrical connection - CM-UFD.M22 2CDC110004C0209.pdf   126 11/26/2013   4:50:38 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/58  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFD.Mxx Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated Type CM-UFD.M21 CM-UFD.M22 Input circuit - Supply circuit A1-A2 Rated control supply voltage U s   24-240 V AC/DC Rated control supply voltage U s  tolerance -15...+20 % -15…+10 % Rated frequency DC and 50/60 Hz respectively DC or 50 Hz Frequency range AC 40-70 Hz 40-60 Hz Typical current / power consumption 24 V DC 92 mA / 2.2 W 64 mA / 1.5 W 230 V AC 25 mA / 5.7 VA 6.4 mA / 1.5 VA Power failure buffering time 5 ms 200 ms, according to LVFRT (Low Voltage Fault Ride Through) Measuring circuit L1, L2, L3 (N) L1-N, L2-N, L3-N or L-L Monitoring functions over-/undervoltage U,,, U, / U_, U__ yes, can be switched off - over-/underfrequency F,,, F, / F_, F__ yes, can be switched off - 10 minutes average value per phase UM yes, can be switched off - vector shift v5r yes, can be switched off - overvoltage av. (59 S1) - ½ overvoltage (59 S2) - ½ undervoltage (27 S1) - ½ undervoltage (27 S2) - ½ overfrequency (81 S1) - ½ underfrequency (81 S1) - ½ overfrequency (81 S2) - ½ underfrequency (81 S2) - ½ ROCOF - ½ configurable Neutral - ½ activated, if L-N Measuring ranges over-/undervoltage U,,, U, / U_, U__ 10-310 V AC (L1, L2, L3, N) - 15-530 V AC (L1, L2, L3) - - - over-/underfrequency F,,, F, / F_, F__ 40-70 Hz - vector shift v5r 0…+45° - voltage (4-wire system L1, L2, L3-N) - 0-312 V AC (3-wire system L1,L2,L3) - 0-540 V AC (2-wire system L-N) - 0-312 V AC frequency - 40-60 Hz Threshold values  over-/undervoltage, 10 minutes average value   U,,, U, / U_, U__, UM 15-300 V AC, adjustable in 0.1 V steps (  100 V) / in 1 V steps (  100 V) (L1, L2, L3, N) - 15-520 V AC, adjustable in 0.1 V steps (  100 V) / in 1 V steps (  100 V) (L1, L2, L3) - - over-/underfrequency F,,, F, / F_, F__ 45-65 Hz, adjustable in 0.01 Hz steps - vector shift v5r 2-20 °, adjustable in 0.1° steps - overvoltage med. (59 S1) CM-UFD.M22: adjustable, 1.00-1.30   Us in 0.01   Us steps overvoltage (59 S2) CM-UFD.M22: adjustable, 1.00-1.20   Us in 0.01   Us steps undervoltage (27 S1) CM-UFD.M22: adjustable, 0.20-1.00   Us in 0.01   Us stepsundervoltage (27 S2) CM-UFD.M22: adjustable, 0.05-1.00   Us in 0.01   Us steps overfrequency (81 S1) CM-UFD.M22: adjustable, 50-54 Hz in 0.1 Hz steps underfrequency (81 S1) CM-UFD.M22: adjustable, 46-50 Hz in 0.1 Hz steps overfrequency (81 S2) CM-UFD.M22: adjustable, 50-54 Hz in 0.1 Hz steps underfrequency (81 S2) CM-UFD.M22: adjustable, 46-50 Hz in 0.1 Hz steps ROCOF adjustable, 0.1-1 Hz/s, in 0.1 Hz/s steps Hysteresis related to the threshold value over-/undervoltage,   10 minutes average value   H,,, H, / H_, H__, HM 1.0-99.9 V, adjustable in  0.1 V steps - over-/underfrequency H,,, H, / H_, H__ 0.05-10.00 Hz, adjustable in  0.05 Hz steps - Overvoltage - 0.95-0.97   U s Undervoltage - 1.03-1.05   U s Overfrequency - 0.997-0.999   f n underfrequency - 1.001-1.003   f n Accuracy of measurements voltage measurement L1,L2,L3,N ± 0.6 % of measured value - voltage measurement L1,L2,L3 ± 0.8 % of measured value - frequency measurement ± 0.04 Hz ± 1 digit - Voltage - ≤ 2 % Frequency - ± 20 mHz Delay times - ≤ 5 % ± 20 ms Display accuracy  100 V: ± 1 digit (1 V) -  100 V: ± 1 digit (0.1 V) - Rated frequency of measuring signal 50/60 Hz 50 Hz Frequency range of the measuring signal 40-70 Hz 40-60 Hz 2CDC110004C0209.pdf   127 11/26/2013   4:50:38 PM

2/59   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFD.Mxx Type CM-UFD.M21 CM-UFD.M22 Measuring principle True RMS overvoltage U,,, U,  65 ms adjustable, 0.05-600 s in 0.05 steps, ±3 % ±20 ms undervoltage U_, U__  65 ms overfrequency F,,, F,  65 ms underfrequency F_, F__  65 ms 10 minutes average value per phase UM depending on the voltage jump - vector shift v5r  50 ms - Measuring cycle at 50 Hz ROCOF - 640 ms Reaction time neutral interruption -  150 ms Accuracy within the rated control supply voltage tolerance ΔU ≤ 0.1 %  - Accuracy within the temperature range ΔU ≤ 0.15 % / °C ΔU ≤ 0.02 % / °C Input circuit - Feedback circuits Y10-Y11, Y20-Y21, Y30-Y31 Y0, Y1, Y2, Y3 Number 2 3 Kind of inputs (Y0-Y1) feedback contact of section  switch 1 DDI feedback, trip and release monitoring times adjustable (Y0-Y2) feedback contact of section  switch 2 external signal (Y0-Y3) - remote trip Electrical isolation from supply voltage yes from the measuring circuit no from the relay outputs yes Type of triggering volt-free triggering Max. switching current in the control circuit 4 mA 6 mA Max. cable length at the control input 5 m 10 m No-load voltage at the control inputs  35 V DC 22-26 V DC (V0-V1, V2, V3) Feedback time section switch 0.5-99 s, adjustable in steps of 0.1 s 20 ms Control circuit vector shift detection (only CM-UFD.M21) 'M1-'M2 Type of triggering volt-free triggering Electrical isolation from the supply voltage yes from the measuring circuit no from the relay outputs yes from the transistor outputs yes Control input, control function jumpered = vector shift detection de-activatedopen = vector shift detection activated (additional configuration in the software is necessary) Max. switching current in the control circuit 4 mA Max. cable length at the control input 5 m No-load voltage at the control inputs  35 V DC Timing circuits CM-UFD.M21 CM-UFD.M22 Start-up delay (prior to first grid connection) see 'adjustable OFF-delay' d o f - Start-up delay, R1 (prior to first grid connection or re-connection after interruption) - adjustable, 1.00-600.00 s in 0.05 s steps Restart delay (after a short-term interruption 3 s) 5 s (fixed) - Restart delay, R1 - adjustable, 0.05-600.00 s in 0.05 s steps Start-up delay, R2 (prior to first grid connection or re-connection after interruption) - 1 s, fixed ON-delay, R3 - adjustable, 0.00-10.00 s in 0.05 s steps On-time, R3 - adjustable, 0.05-10.00 s in 0.05 s steps Trip window, feedback loop Y1 - adjustable, 0.05-0.50 s in 0.05 s steps Release window, feedback loop Y1 - adjustable, 0.05-10.00 s in 0.05 s steps Tripping delay ON-and/or OFF-delay confi-gurable adjustable, 0.05-600.00 s in 0.05 s steps ROCOF error time - adjustable, 0.05-600.00 s in 0.05 s steps Adjustment range of the ON-delay over-/undervoltage, over-/  underfrequency dAL 0.05-130.00 s, adjustable in 0.01 s steps - Tolerance of the ON-delay 0.1 % ± 5 ms - Adjustment range of the OFF-delay over-/undervoltage, over-/  underfrequency doF 0 ( 200 ms)-999 s, adjustable in 1 s steps - vector shift doF 3-240 s, adjustable in   1 s steps - Tolerance of the OFF-delay 0.1 % ± 105 ms - Delayed activation of the vector shift detection dEon   2-20 s, adjustable in 1 s steps  (Delay is effective just once after switching on or restart) - Accuracy within the rated control supply voltage tolerance Δt ≤ 0.01 %  Δt ≤ 0.5 % ± 20 ms Accuracy within the temperature range Δt ≤ 0.0001 % / °C Δt ≤ 1 % ± 20 ms 2CDC110004C0209.pdf   128 11/26/2013   4:50:39 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/60  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFD.Mxx Relay outputs  Kind of outputs 11-12/14 Relay, 1st c/o (SPDT) contact - 21-22/24 Relay, 2nd c/o (SPDT) contact - 2 x 1 c/o (SPDT) contact - 11-12/14 (15-16/18) - relay, 1st c/o (SPDT) contact, trip delay for DDI 21-22/24 (25-26/28) - relay, 2nd c/o (SPDT) contact, redundancy relay for DG 31-32/34 (35-36/38) - relay, 3rd c/o (SPDT) contact, closing commander for breaker motor, also sync. with relay 1 Operating principle 11-12/14 closed-circuit principle21-22/24 - open- or closed-circuit  principle configurable 31-32/34 - Contact material AgNi AgNi allow, Cd free Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage / minimum switching current 12 V / 10 mA Maximum switching voltage / maximum switching current 400 V AC / 6A see load limit curves Rated operational current I e (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A 4 A AC15 (inductive) 230 V  1.5 A 3 A DC12 (resistive) 24 V  6 A 4 A DC13 (inductive) 24 V  2 A 2 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime at AC12, 230 V AC, 6 A 1 x 10 6  switching cycles 50 x 10³ switching cycles Maximum fuse rating to achieve short-circuit protection n/c contact 6 A, operating class gG/gL 10 A fast tripping n/o contact 6 A, operating class gG/gL 10 A fast tripping Conventional thermal current I th  (IEC/EN 60947-1) 6 A 5 A Transistor outputs (only CM-UFD.M21) Number 5 Rated operational voltage U e 24 V DC Operational voltage range 4.5-27 V DC Residual ripple 5 % Current state "0" max. 0.1 mA / outputstate "1" max. 20 mA / output Electrical isolation from the supply voltage yes from the measuring circuit yes from the relay outputs yes from the inputs of the feedback  contacts yes Maximum fuse rating to achieve short-circuit protection  100 mA fast-acting General data CM-UFD.M21 CM-UFD.M22 MTBF on request Repeat accuracy (constant parameters) -  ±0.5 % Duty time 100% Dimensions (W x H x D) product dimensions 105 x 90 x 69 mm   (4.13 x 3.54 x 2.72 in) 108 x 90 x 67 mm  (4.25 x 3.54 x 2.64 in) packaging dimensions 175 x 107 x 130 mm   (6.89 x 4.21 x 5.12 in) 121 x 99 x 71 mm  (4.76 x 3.90 x 2.80 in) Weight net weight 0.225 kg (0.496 lb) 0.283 kg (0.624 lb) gross weight 0.343 kg (0.756 lb) 0.334 kg (0.736 lb) Mounting DIN rail (IEC/EN 60715) TH 35-7.5 and  TH 35-15, snap-on mounting without any tool Mounting position any Minimum distance to other units vertical not necessary horizontal not necessary Material of housing - PA666FR Degree of protection housing / terminals IP30 / IP20 IP20 Electrical connection CM-UFD.M21 CM-UFD.M22 Wire size fine-strand with wire end ferrule 1 x 0.5 - 2.5 mm²   (1 x 20 - 14 AWG) 1 x 0.25-4 mm²  (1 x 24-12 AWG),  2 x 0.25-0.75 mm²  (2 x 24-18 AWG) fine-strand without wire end ferrule 1 x 0.5 - 2.5 mm²   (1 x 20 - 14 AWG) 1 x 0.2-4 mm²  (1 x 24-12 AWG),  2 x 0.2-1.5 mm²  (2 x 24-16 AWG) rigid 1 x 0.5 - 4 mm² (1 x 20 - 12  AWG) 1 x 0.2-0.6 mm²  (1 x 24-10 AWG),  2 x 0.2-1.5 mm²  (2 x 24-16 AWG) Stripping length 7 mm (0.28 in) 8 mm (0.314 in) Tightening torque 0.5 Nm (4.42 lb.in) 0.5-0.6 Nm (4.4-5.3 lb.in) 2CDC110004C0209.pdf   129 11/26/2013   4:50:39 PM

2/61   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Isolation data Rated insulation voltage U i  (IEC/EN 60947-1,  IEC/EN 60664-1, VDE 0110-1) supply / measuring / output circuits 300 V 600 V output 1 / output 2 / output 3 300 V 300 V Rated impulse withstand voltage U imp    (IEC/EN 60947-1, IEC/EN 60664-1, VDE 0110-1) supply / measuring / output circuits 4 kV 6 kV; 1.2/50 μs output 1 / output 2 / output 3 4 kV 4 kV; 1.2/50 μs Basic insulation acc. rated control supply voltage (IEC/EN 60664-1, VDE 0110-1) supply / measuring / output circuits 300 V 600 V output 1 / output 2 / output 3 300 V 300 V Protective seperation acc. rated voltage  (VDE 0106 part 101 and 101/A1; IEC/EN 61440) supply / measuring / output circuits - 250 V output 1 / output 2 / output 3 - 250 V Test voltage, routine test (IEC/EN 60255-5, IEC/EN 61010-1) supply / measuring / output circuits 3.82 kV DC 2.2 kV, 50 Hz, 1s output 1 / output 2 / output 3 3.82 kV DC 2.2 kV, 50 Hz, 1s Test voltage, type test (CEI 0-21) supply / measuring / output circuits - 5 kV, 50 Hz, 1s output 1 / output 2 / output 3 - 4 kV, 50 Hz, 1s Pollution degree (IEC/EN 60664-1, VDE 0110-1) 2 3 Overvoltage category (IEC/EN 60664-1, VDE 0110-1) II IV Environmental data Ambient temperature ranges operation -20...+55 °C -20...+60 °C storage -20…+70 °C -20...+80 °C transport -20…+70 °C -20...+80 °C Damp heat, cyclic (IEC 60068-2-30) 55 °C, 6 cycles 6 x 24 h cycle, 55 °C, 95 % RH Climatic category (EN 50178)  3K3 3K5 (w/o condensation,  w/o icing) Vibration, sinusoidal (IEC/EN 60255-21-1) Class 1 Class 2 Shock (IEC/EN 60255-21-2) Class 1 Class 2 Standards / Directives Product standard IEC/EN 60255 IEC/EN 60255-1 Application standards VDE-AR-N 4105, BDEW CEI 0-21: 2012-06 + CEI 0-12; V1: 2012-12 + A70 Terna Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC 2011/65/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2. CM-UFD.M22: CEI 0-21 Tab.11 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 CM-UFD.M22: Level 3, 10 V/m   CM-UFD.M21:  Level 3, 10 V/m (80-1000 MHz) Level 2, 3 V/m (1400-2000 MHz) Level 1, 1 V/m (2000-2700 MHz) electrical fast transient / burst  IEC/EN 61000-4-4 Level 4, 4 kV / 5 kHz Level 3, 2 kV / 5 kHz surge IEC/EN 61000-4-5 Level 3, 1 kV L-L, 2kV L-earth Level 3, installation class 3, supply and measuring input 1 kV L-L, 2 kV L-earth conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V  Interference emission IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFD.Mxx 2CDC110004C0209.pdf   130 11/26/2013   4:50:39 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/62  2 Type CM-UFS.1 Input circuit - Supply circuit L1, L2, L3 L-N Rated control supply voltage U S  = measuring voltage 3  x 400 V AC 3  x 230 V AC Rated control supply voltage tolerance U S -20...+20 % Control supply voltage range 3 x 300-500 V AC 3 x 180-280 V AC Rated frequency 50 Hz Frequency range 45-55 Hz Typical current / power consumption 23 mA / 16 VA Power failure buffering time min. 20 ms Input circuit - Measuring circuit Monitoring functions Phase failure ½ Over-/ undervoltage ½ Over-/ underfrequency ½ 10 minutes average value ½ Measuring range Voltage range 3 x 320-460 V AC 3 x 184-264.5 V AC Frequency range 45-55 Hz Thresholds Overvoltage 115 % of U s , fixed Undervoltage 80 % of U s , fixed Overfrequency 50.2 Hz fixed Underfrequency 47.5 Hz fixed 10 minutes average value 110-115% of U s , adjustable Hysteresis related to the threshold value Over-/ undervoltage 5 % fixed Over-/ underfrequency 20 mHz fixed Rated frequency of the measuring signal 50 Hz Frequency range of the measuring signal 45-55 Hz Maximum measuring cycle time 50 ms Maximum reaction time (time between fault detection and change of switching status of the relay) Over-/ undervoltage   120 ms Over-/ underfrequency   100 ms 10 minutes average value without delay Accuracy within the rated control supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Measuring method True RMS Timing circuit Start-up delay t S1  prior to grid connection after a short interruption 30 s fixed Restart delay t S2   30 s fixed Accuracy within the rated control supply voltage tolerance ͬt ͨ 0,5 % Accuracy within the temperature range ͬt ͨ 0.06 % / °C Indication of operational states 1 yellow LED, 2 red LEDsDetails see operation mode and function description/diagrams Output circuits 15-16/18, 25-26/28 Kind of output Relay, 1 x 2 c/o (SPDT) contacts Operation principle closed-circuit principle  1) Contact material AgNi alloy, Cd free Rated operational voltage U e  (IEC/EN 60947-1) 250 V Minimum switching voltage / switching current 24 V / 10 mA Maximum switching voltage / switching current see load limit curve Rated operational current I e     (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V  3 A DC12 (resistive) 24 V  4 A DC13 (inductive) 24 V  2 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6   switching cycles Max. fuse rating to achieve   short-circuit protection n/c contact 6 A fast-actingn/o contact 10 A fast-acting 1)   Closed-circuit principle: Output relay(s) de-energize(s) if measured value exceeds or falls below the adjusted threshold value Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFS.1 2CDC110004C0209.pdf   131 11/26/2013   4:50:39 PM

2/63   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Type CM-UFS.1 General data MTBF on request Duty time 100% Repeat accuracy (constant parameters)   ȗ 50 Dimensions (W x H x D) product dimensions 22.5 x 78 x 100 mm (0.89 x 3.07 x 3.94 in) Weight gross weight 0.140 kg (0.31 lb) Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical / horizontal not necessary / not necessary Degree of protection housing / terminals IP50 / IP20 Electrical connection Wire size fine-strand with(out) wire end ferrule 2 x 0.75 - 2.5 mm² (2 x 18-14 AWG) rigid 2 x 0.5 - 4 mm² (2 x 20-12 AWG) Stripping length 7 mm (0.28 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) Environmental data Ambient temperature range operation / storage -25...+60 °C / -40...+85 °C Damp heat, cyclic (IEC/EN 60068-2-30) 2 x 12 h cycle, 55 °C, 95 % RH Climatic category (IEC/EN 60721-3-1) 3K3 Vibration (sinusoidal) (IEC/EN 60255-21-1) Class 2 Shock (IEC/EN 60255-21-2) Class 2 Isolation data Rated impulse withstand voltage U i input circuit / output circuit 600 V output circuit 1 / 2 300 V Rated impulse withstand voltage U imp    (VDE 0110, IEC/EN 60664) input circuit 6 kV; 1.2/50 μs output circuit 4 kV; 1.2/50 μs Test voltage between all isolated circuits (routine test) 2.5 kV, 50 Hz, 1 s Basic insulation input circuit / output circuit 600 V Protective separation  (VDE 0160 Part 101 and 101/A,  IEC/EN 61140) input circuit / output circuit yes Pollution degree (VDE 0110, IEC/EN 60664) 3 Overvoltage category (VDE 0110, IEC 60664) III Standards Product standard IEC/EN 60255-6, DIN V VDE V 0126-1-1: February 2006 IEC/EN 60255-6, Guideline for connections to ENEL distribution network Ed. 2.1, January 2011 Further standards EN 50178, EN 61727 Low Voltage Directive 2006/95/EC EMV-Directive 2004/108/EC RoHS-Directive 2002/95/EC Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency,  electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 2 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L, L-N) conducted disturbances, induced by radio- frequency fields IEC/EN 61000-4-6 Level 3 (10 V) harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emission IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 50022 Class B high-frequency conducted IEC/CISPR 22, EN 50022 Class B Grid feeding monitoring relays -  Voltage and frequency monitoring functions Technical data - CM-UFS.1 2CDC110004C0209.pdf   132 11/26/2013   4:50:39 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/64  2 Grid feeding monitoring relays -  Voltage and frequency monitoring functions Notes 2CDC110004C0209.pdf   133 11/26/2013   4:50:40 PM

2/65   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Product group picture 2CDC110004C0209.pdf   134 11/26/2013   4:50:40 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/66  2 Insulation monitoring relays for unearthed supply systems Table of contents Insulation monitoring relays for unearthed supply systems Product group picture  63 Table of contents  64 Benefits and advantages  65 Benefits and advantages, applications  66 Operating controls  67 Selection table  68 Insulation monitoring in IT systems  69 Ordering details  70 Operating state indication, Connection diagrams, DIP switches  71 Connection diagrams, DIP switches  72 Technical data   73 Technical data CM-IVN  76 2CDC110004C0209.pdf   135 11/26/2013   4:50:41 PM

2/67   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Benefits and advantages Insulation monitoring relays for unearthed pure AC systems: Characteristics   ½   For monitoring the insulation resistance of unearthed IT systems:   up to U n  = 400 V AC   ½   According to IEC/EN 61227-8 "Electrical safety in low voltage   distribution systems up to 1000 V AC and 1500 V DC –  Equipment for testing, measuring or monitoring of protective measures – Part 8: Insulation monitoring devices for IT systems"   ½   Rated control supply voltage 24–240 V AC/DC   ½   Superimposed DC signal   ½   One measuring range 1–100 k :   ½   Precise adjustment of the threshold value in 1 k : steps   ½   Interrupted wire detection   ½   Fault storage/latching configurable by control input   ½   1 c/o (SPDT) contact, closed-circuit principle   ½   22.5 mm [0.89 in] width   ½   3 LEDs for status indication   ½   For monitoring the insulation resistance of unearthed IT systems up to  U n = 250 V AC and 300 V DC or U n = 400 V AC and 600 V DC   ½   According to IEC/EN 61227-8 "Electrical safety in low voltage   distribution systems up to 1000 V AC and 1500 V DC –  Equipment for testing, measuring or monitoring of protective measures – Part 8: Insulation monitoring devices for IT systems" 1)   ½   CM-IWN.4,5,6: Specifically for applications with high system leakage  capacitances, for example in photovoltaic environments   ½   Rated control supply voltage 24-240 V AC/DC   ½   Prognostic measuring principle with superimposed square   wave signal   ½   1 or 2 measuring ranges (1-100 k : or 1-100 k: + 2-200 k:)   ½   1 or 2 (configurable) c/o contacts 1)   ½   Precise adjustmemt of the measuring value in 1 or 2 k : steps   ½   (non-volatile) fault storage, configurable latching, interrupted   wire protection, open- or closed-circuit principle selectable 1)   ½   22.5 or 45 mm width   ½   3 LEDs for status indication 1)  depending on devices Additional characteristics for CM-IWN.1,4,5,6:   ½   One (1 x 2 c/o) or two (2 x 1 c/o) threshold values R an 1/R1 1 ) (final  switch-off) and R an 2/R2 2)  (prewarning) configurable 3)   ½   Precise adjustment of the threshold values in 1 kΩ steps (R1) and 2 kΩ  steps (R2)   ½   Interrupted wire detection configurable   ½   Non-volatile fault storage configurable   ½ Open- or closed-circuit principle configurable 1)  CM-IWN.6 does not meet the requirements of IEC/EN 61557-8 regarding the respon- se time t an . 2)  term acc. to IEC/EN 61557-8 3)  R2 only active with 2 x 1 c/o configuration Insulation monitoring relays for unearthed AC, DC or mixed AC/DC systems: Characteristics 2CDC 251 017 V0012 2CDC 251 009 V0012 2CDC 251 020 V0012 CM-IWS.2 CM-IWS.1 CM-IWN.1 2CDC110004C0209.pdf   136 11/26/2013   4:50:41 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/68  2 Insulation monitoring relays for unearthed supply systems Benefits and advantages, Applications Application / monitoring function CM-IWx The CM-IWx serve to monitor insulation resistance in accordance with  IEC 61557-8 in unearthed IT AC systems, IT AC sytems with galvanically connected DC circuits, or unearthed IT DC systems. The insulation resis-tance between system lines and system earth is measured. If this falls below the adjustable threshold values, the output relay(s) energize or de-energize. The CM-IWS.x can monitor control circuits (single-phase) and main circuits (3-phase). Supply systems with voltages U n = 0-400 V AC  (45-65 Hz), U n =0-250 V AC (15-400 Hz) or 0-300 V DC can be directly  connected. For systems with voltages above 400 V AC the insulation monitoring relay with or without the coupling unit CM-IVN can be used. Application / monitoring function CM-IWN.x The CM-IWN.x serves to monitor insulation resistance in accordance with IEC 61557-8 in unearthed IT  AC systems, IT AC systems with galvanically connected DC circuits, or unearthed IT DC systems. The insulation resis-tance between system lines and system earth is measured. If this falls below the adjustable threshold values, the output relays switch into the fault state. The device can monitor control circuits (single-phase) and main circuits (3-phase). Supply systems with voltages U n  = 0-400 V AC (15-400  Hz) or 0-600 V DC can be directly connected to the measuring inputs and their insulation resistance being monitored. For systems with voltages above 400 V AC and 600 V DC  the coupling unit CM-IVN can be used for the expansion of the CM-IWN.x voltage range. Expansion of assortment for the requirements of decentral eletrical energy sources ABB‘s insulation monitoring relays from the CM-IWN range provide higher system leakage capacitances which are necessary especially for solar applications. This expanded product range covers the requirements of decentral eletrical sources (e.g. photovoltaic systems).  The range of system leakage capacitances is 20 - 2000 μF. Application / monitoring function CM-IVN The coupling unit CM-IVN is designed to extend the nominal voltage range of the insulation monitoring relay CM-IWN.1 up to 690 V AC and 1000 V DC. The coupling unit can be connected to the system to be monitored by means of the terminals VL+ and VL-. The terminal Vw has to be connected to the earth potential. The terminals L+, V1+, L-, V1-, VS and VE have to be connected to the CM-IWN.1 as shown in the connection diagrams below. Supply systems with voltages Un = 0-690 V AC (15-400 Hz) or 0-1000 V DC can be connected. Measuring principle CM-IWS.2 A superimposed DC measuring signal is used for measurement. From the superimposed DC measuring voltage and its resultant current the value of the insulation resistance of the system to be monitored is calculated. Measuring principle CM-IWN.x, CM-IWS.1 A pulsating measuring signal is fed into the system to be monitored and the insulation resistance is calculated. This pulsating measuring signal alters its form depending on the insulation resistance and system leakage capacitance. From this altered form the change in the insulation resistance is forecast. When the forecast insulation resistance corresponds to the insulation resistance calculated in the next measurement cycle and is smaller than the set threshold value, the output relay de-energizes. This measuring princiiple is also suitable for the detection of symmetrical insula-tion faults. 2CDC110004C0209.pdf   137 11/26/2013   4:50:41 PM

2/69   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Operating controls 4 1 2 3 1   Test and reset button 2   Configuration and setting Front-face rotary switches for threshold value adjustment: R.1 for R1 tens figures: 0, 10, 20, 30, 40, 50, 60, 70, 80, 90 kΩ in ten kΩ steps R.2 for R1 units figures: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 kΩ in one kΩ steps 3   Indication of operational states U: green LED - control supply voltage F: red LED - fault message R: yellow LED - relay status 4   Marker label for devices without DIP switches 1   Front-face rotary switches to adjust the threshold value: R1.1 for R1 tens figure: 0, 10, 20, 30, 40, 50, 60, 70, 80, 90 kΩ in ten kΩ steps R1.2 for R1 units figure: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 kΩ in one kΩ steps R2.1 for R2 tens figure: 0, 20, 40, 60, 80, 100, 120, 140, 160, 180 kΩ in twenty kΩ steps R2.2 for R2 units figure: 2, 4, 6, 8, 10, 12, 14, 16, 18, 20 kΩ in two kΩ steps 2   Test and reset button 3   Indication of operational states U: green LED – control supply voltage F1: red LED – fault message F2: yellow LED – relay status 4   DIP switches (see DIP switch functions) 1 2 3 4 2CDC110004C0209.pdf   138 11/26/2013   4:50:42 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/70  2 Insulation monitoring relays for unearthed supply systems Insulation monitoring in IT systems L1 L2L3 N PE M A1 11 S2 S3 21 S1 L+ V 12 14 A2 V1- V1+ 22 24 L- K Consumer 3~ w CM-IWN.x In electricity supply systems, an earthing system defines the electrial potential of the conductors relative to that of the earth’s conductive sur-face. The choice of earthing system has implications for the safety and electromagnetic compatibility of the power supply. Note that regulati-ons for earthing (grounding) systems vary considerably among different countries. The international standard IEC 60364 distinguishes three families of earthing arrangements, using the two-letter codes TN, TT and IT. The first letter indicates the connection between earth and the power-supply equipment (generator or transformer):  T: direct connection of a point with earth (Latin: terra) I:  no point is connected with earth (insulation),   except perhaps via a high impendance The second letter indicates the connection between earth and the electrical device being supplied: T: direct connection of a point with earth N:  direct connection to neutral at the origin of installation,   which is connected to the earth IT supply systems The IT system is supplied either by an isolation transformer or a voltage source, such as battery or a generator. In this system no active conductor is directly connected to earth potential. The advantage of this is that only a small fault current can flow in case of an insulation fault. This current is essentially caused by the leakage capacitance of the system.  The fuse of the system or MCB does not respond, thus maintaining the voltage supply and therefore operation even in case of a phase-to-earth fault.  The high reliability of an IT system is guaranteed thanks to continous insulation monitoring. The insulation monitoring device recognizes insulation faults as they develop, and immediately reports that the value has fallen below the minimum. This prevents operational interruptions caused by a second more severe insulation fault. 2CDC110004C0209.pdf   139 11/26/2013   4:50:43 PM

2/71   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Selection table Or der number 1SVR 730 670 R0200 1SVR 740 670 R0200 1SVR 730 660 R0100 1SVR 740 660 R0100 1SVR 750 660 R0200 1SVR 760 660 R0200 1SVR 750 660 R0300 1SVR 760 660 R0300 1SVR 750 660 R0400 1SVR 760 660 R0400 1SVR 750 660 R0500 1SVR 760 660 R0500 T ype CM-IWS.2S CM-IWS.2P CM-IWS.1S CM-IWS.1P CM-IWN.1S CM-IWN.1P CM-IWN.4S CM-IWN.4P CM-IWN.5S CM-IWN.5P CM-IWN.6S CM-IWN.6P Rated control supply voltage U s 24 - 240 VAC/DC ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Measuring voltages 250 V AC (L-PE) ½ ½ 400 V AC (L-PE) ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 690 V AC (L-PE) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) 300 V DC (L-PE)  ½ ½ 600 V DC (L-PE) ½ ½ ½ ½ ½ ½ ½ ½ 1000 V DC (L-PE) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) ½  1) Measuring range 1 - 100 kΩ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 2 - 200 kΩ ½ ½ ½ ½ ½ ½ ½ ½ System leakage capacitance, max. 10 μF ½ ½ ½ ½ 20 μF ½ ½ 500 μF ½ ½ 1000 μF ½ ½ 2000 μF ½ ½ Output 1 c/o ½ ½ ½ ½ 1 x 2 c/o or 2 x 1 c/o ½ ½ ½ ½ ½ ½ ½ ½ Operating principle Open-circuit principle ½ ½ ½ ½ Open- or closed-circuit principle adjustable ½ ½ ½ ½ ½ ½ ½ ½ Test Front face button or control input ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Reset Front-face button or control input ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Fault storage / latching configurable ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Non volatile storage configurable ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Interrupted wire detection ½ ½ ½ ½ ½ ½ ½ ½ Threshold values configurable 1 1 1 1 2 2 2 2 2 2 2 2 1)  With coupling unit CM-IVN screw version CM-IVN.S: 1SVR750669R9400 push-in version CM-IVN.P: 1SVR760669R9400 2CDC110004C0209.pdf   140 11/26/2013   4:50:43 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/72  2 Insulation monitoring relays for unearthed supply systems Ordering details Description The high reliability of an IT system is guaranteed thanks to continuous insulation monitoring.  An insulation monitoring device recognizes insulation faults as they develop, and immediately  reports that the value has fallen below the minimum. This prevents operational interruption  caused by a second, more severe insulation fault.  ABB developed a totally new range of insulation monitors for AC, DC or mixed AC/DC IT Sys- tems up to 690 V AC or 1000 V DC. With only 4 devices most standard applications can be  served. Additionally a version for solar applications with increased earth leakage capacitance  has been added. Ordering details Rated control supply voltage = measuring voltage Nominal vol-tage  U n  of  the distribu-tion system to be monitored System leakage capaci-tance, max. Adjust-ment range of the specified response value R an   (threshold) Type Order  code Price 1 pce Weight(1 pce)  kg (lb) 24-240 V AC/DC 0-250 V AC /0-300 V DC 10 μF 1-100 k : CM-IWS.1S 1SVR730660R0100 0.148 (0.326) CM-IWS.1P 1SVR740660R0100 0.137 (0.302) 24-240 V AC/DC 0-400 V AC 10 μF 1-100 k : CM-IWS.2S 1SVR730670R0200 0.141 (0.311) CM-IWS.2P 1SVR740670R0200 0.130 (0.287) 24-240 V AC/DC 0-400 V AC / 0-600 V DC 20 μF 1-100 k :  2-200 k :  (activated / de-activated by DIP-switch) CM-IWN.1S 1SVR750660R0200 0.241 (0.531) CM-IWN.1P 1SVR760660R0200 0.217 (0.478) 24-240 V AC/DC 0-400 V AC / 0-600 V DC 500 μF CM-IWN.4S 1SVR750660R0300 0.241 (0.531) CM-IWN.4P 1SVR760660R0300 0.217 (0.478) 24-240 V AC/DC 0-400 V AC / 0-600 V DC 1000 μF CM-IWN.5S 1SVR750660R0400 0.241 (0.531) CM-IWN.5P 1SVR760660R0400 0.217 (0.478) 24-240 V AC/DC 0-400 V AC / 0-600 V DC 2000 μF CM-IWN.6S 1SVR760660R0500 0.241 (0.531) CM-IWN.6P 1SVR760660R0500 0.217 (0.478) Ordering details - Coupling unit Rated control supply voltage = measuring voltage Nominal voltage  U n   of the distribution system to be moni-tored Type Order  code Price 1 pce Weight(1 pce)  kg (lb) Passive device, no control  supply voltage needed 0-690 V AC /  0-1000 V DC CM-IVN.S 1SVR750669R9400 0.179 (0.395) CM-IVN.P 1SVR760669R9400 0.165 (0.364) 2CDC 251 017 V0012 2CDC 251 009 V0012 2CDC 251 020 V0012 2CDC 252 027 V0012 CM-IWS.2 CM-IWS.1 CM-IWN.1 CM-IVN S: screw connectionP: push-in / easy connect 2CDC110004C0209.pdf   141 11/26/2013   4:50:44 PM

2/73   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Operational state LED U  (green) LED F  (red) LED R  (yellow) Start-up W OFF OFF No fault V OFF 1) Prewarning V W W Insulation fault (below threshold value) V V 1) KE/ w  wire interruption V U 1) L+/L- wire interruption during system start-up / test function W  /  X T 1) System leakage capacitance too high / invalid measurement result V T 1) Internal system fault 1) X 1) Setting fault  2) W W W Test function X OFF 1) No fault after fault storage  3)  V 4) X Operational state LED U  (green) LED F  (red) LED R  (yellow) Start-up W OFF OFF No fault V OFF V Insulation fault (below threshold value) V V OFF Invalid measuring result V T OFF KE/ w  wire interruption (only CM-IWS.1) V U OFF CM-IWS.1: System leakage capaci-tance too high / invalid measurement result V T OFF CM-IWS.2: Invalid measurement result V T OFF Internal system fault OFF X OFF Test function X OFF OFF No fault after fault storage  3)  V 4) X LEDs, status information and fault messages CM-IWN.x LEDs, status information and fault messages CM-IWS.x Insulation monitoring relays for unearthed supply systems Operating state indication, Connection diagrams, DIP switches Connection diagram CM-IWS.2 A1S1 S2 S3 11 w L A2 w A1 R   w A2 L 14 12 12 14 11 2CDC 252 102 F0009 A1-A2 S1-S3 S2-S3 L    w  11-12/14 Control supply voltage Remote test Remote reset Measuring circuit/input, system connection Measuring circuit/input, earth connections Output relay, closed-circuit principle Connection diagram CM-IWS.1 Connection diagram CM-IWN.1, 4, 5, 6 Connection diagram CM-IVN A1S1 S2 S3 KE 11 w L- L+ A2 KE w L- A1 R   w A2 L+ 14 12 12 14 11 2CDC 252 103 F0009 A1-A2 S1-S3 S2-S3 L+, L–    w , KE   11-12/14 Control supply voltage Remote test Remote reset Measuring circuit/input, system connection Measuring circuit/input, earth connections Output relay, closed-circuit principle A1-A2 S1-S3 S2-S3 L+, L–  w , KE  VS, V1+, V1- 11-12/14 21-22/24 Control supply voltage Remote test Remote reset Measuring circuit/input, system connection Measuring circuit/input, earth connections Connections for the coupling unit (if used) Output relay 1, open- or closed-circuit principle Output relay 2, open- or closed-circuit principle VE Connection to CM-IWN.x -  w VS Connection to CM-IWN.x - VS L+ Connection to CM-IWN.x - L+ V1+ Connection to CM-IWN.x - V1+ L- Connection to CM-IWN.x - L- V1- Connection to CM-IWN.x - V1- VL+, VL-  Measuring circuit / Measuring inputConnection to the system V w Measuring circuit / Measuring inputConnection to earth 2CDC 252 104 F0009 2CDC 252 010 F0013 A1 11 S2 S3 21 S1 w L+ VS 12 14 A2 V1- V1+ KE w L- A1 R  w A2 L+ 22 24 L- KE 12 14 11 22 24 21 VL+  VL- VL- VL+ V w L- L+ L+ VE V1- L- V1- V1+ V1+ VS ON OFF (default) DIP switch 1  Operating principle of the output relays  Closed-circuit principle gIf closed-circuit principle is selected, the output relays de-energize in case a fault is occuring. In non-fault state the relays are energized. Open-circuit principle hIf open-circuit principle is selected, the output relays energize in case a fault is occuring. In non-fault state the relays are de-energized. DIP switch 2  Non-volatile fault storage Fault storage activated (latching) fIf the fault storage function is activated, the output relays remain in tripped position until a reset is done either by the front-face button or by the remote reset connection S2-S3. This function is non-volatile. Fault storage de-activated (non latching) eIf the fault storage function is de-activated, the output relays switch back to their original position as soon as the insulation fault no longer exists. DIP switch 3  Interrupted wire detection Interrupted wire detection activated uWith this configuration, the CM-IWN.1 moni-toring relays the wires connected to w and KE for interruptions. Interrupted wire detection de-activated v With this configuration the inter-rupted wire detection is de-activated. DIP switch 4 2 x 1 c/o, 1 x 2 c/o 2 x 1 c/o (SPDT) contact iIf operating principle 2 x 1 c/o contact is selected, the output relay R1 (11-12/14) reacts to threshold value R1 (final switch-off) and the output relay R2 (21-22/24) reacts to threshold value R2 (prewarning) 1 x 2 c/o (SPDT) contacts jIf operating principle 1 x 2 c/o contacts is selected, both output relays R1 (11-12/14) and R2 (21-22/24) react synchronously to threshold value R1. Settings of the threshold value R2 have no effect on the operation. 2CDC 252 050 F0b09 Position 4 1 2 3 ON OFF i u f g h e v j DIP switches of  CM-IWN.1, 4, 5, 6 1)  Depending on the configuration. 2)  Possible faulty setting: The threshold value for final switch-off is set at a higher value than the threshold value for prewarning 3)  The device has triggered after an insulation fault. The fault has been stored and the insulation resistance has returned to a higher value than the threshold value plus hysteresis. 4)  Depending on the fault 2CDC110004C0209.pdf   142 11/26/2013   4:50:44 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/74  2 Insulation monitoring relays for unearthed supply systems Technical data  in combination with CM-IVN ±1.5 k : Data at T a  = 25 °C and rated values, unless otherwise indicated CM-IWS.2 CM-IWS.1 CM-IWN.1, 4, 5, 6 Input circuit - Supply circuit A1 - A2 Rated control supply voltage U s 24-240 V AC/DC Rated control supply voltage tolerance -15...+10 % Typical current / power consumption 24 V DC  30 mA / 0.7 VA 35 mA / 0.9 VA 55 mA / 1.3 VA 115 V AC 12 mA / 1.4 VA 17 mA / 2.0 VA 20 mA / 2.3 VA 230 V AC 12 mA / 2.8 VA 14 mA / 3.2 VA 15 mA / 3.5 VA Rated frequency f s DC or 15-400 Hz Frequency range AC 13.5-440 Hz Power failure buffering time min. 20 ms Input circuit - Measuring circuit L,  w L+, L-,  w , KE L+, L-,  w , KE Monitoring function insulation resistance monitoring of IT systems (IEC/EN 61557-8) Measuring principle superimposed DC voltage prognostic measuring principle with superim-posed square wave signal Nominal voltage U n  of the distribution system to be monitored 0-400 V AC 0-250 V AC /  0-300 V DC 400 V AC /  0-600 V DC Voltage range of the distribution system to be monitored 0-460 V AC  (tolerance +15 %) 0-287.5 V AC / 0-345 V DC (tolerance +15 %) 0-460 V AC /  0-690 V DC  (tolerance +15 %) Rated frequency f N  of the distribution system to be monitored 50-60 Hz DC or 15-400 Hz DC or 15-400 Hz System leakage capacitance C e max. 10 μF CM-IWN.1: 20 μFCM-IWN.4: 500 μFCM-IWN.5 1000 μFCM-IWN.6: 2000 μF Tolerance of the rated frequency f N 45-65 Hz 13.5-440 Hz 13.5-440 Hz Extraneous DC voltage U fg  (when connected to an AC system) max. none 290 V DC 460 V DC Number of possible response / threshold values 1 2 Adjustment range of the specified response value R an  (threshold) min.-max. 1-100 k : – min.-max. R1 – 1-100 k : min.-max. R2 – 2-200 k :  (activated / de-activa-ted by DIP-switch) Adjustment resolution 1 k : R1 1 k : 1 k : R2 – 2 k : Tolerance of the adjusted threshold value /  Relative percentage uncertainty A  at -5...+45 °C, U n  = 0-115 %, U s  = 85-110 %, f N , f s , C e  = 1μF at 1-10 k :  R F ±0.5 k : – at 10-100 k :  R F ±6 % – at 1-15 k :  R F – ±1  k : at 15-200 k :  R F – ±8  % Hysteresis related to the threshold value 25 %; min. 2 k : Internal impedance Z i at 50 Hz 135 k : 100 k : 155 k : Internal DC resistance R i 185 k : 115 k : 185 k : Measuring voltage U m 15 V 22 V 24 V Tolerance of measuring voltage U m +10 % Measuring current I m max. 0.1 mA 0.3 mA 0.15 mA Response time t an pure AC system 0.5 x R an  and C e  = 1 μF max. 10 s DC system or AC system with connected rectifiers – max. 15 s Repeat accuracy (constant parameters)  0.1 % of full scale Accuracy of R a  (measured value) within the rated control supply voltage tolerance  0.05 % of full scale Accuracy of R a  (measured value) within the operation  temperature range at 1-10 k :  R F 5 W / K at 10-100 k :  R F 0.05 % / K – at 10-200 k :  R F – 0.05 % / K Transient overvoltage protection ( w  - terminal) Z-diode avalanche diode Input circuit - Control circuits S1 - S2 - S3 Control inputs - volt free S1-S3 remote testS2-S3 remote reset Maximum switching current in the control circuit 1 mA Maximum cable length to the control inputs 50 m - 100 pF/m [164 ft - 30.5 pF/ft] Minimum control pulse length 150 ms No-load voltage at the control input ≤ 24 V ± 5 %   ≤ 24 V DC 2CDC110004C0209.pdf   143 11/26/2013   4:50:44 PM

2/75   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Technical data  CM-IWS.2 CM-IWS.1 CM-IWN.1, 4, 5, 6 Indication of operational states Control supply voltage LED U (green) Fault message LED F (red) Relay status LED R (yellow) Output circuits Kind of output relay, 1 c/o (SPDT) contact 2 x 1 or 1 x 2 c/o (SPDT) contactsconfigurable Operating principle closed-circuit principle  1) open- or closedcircuit principle  1) configurable Contact material AgNi alloy, Cd free Rated voltage (VDE 0110, IEC 60947-1) 250 V AC / 300 V DC Min. switching voltage / Min. switching current 24 V / 10 mA Max. switching voltage / Max. switching current see data sheet Rated operational current I e  (IEC/EN 60947-5-1) AC12 (resistive) at 230 V 4 A AC15 (inductive) at 230 V 3 A DC12 (resistive) at 24 V 4 A DC13 (inductive) at 24 V 2 A AC rating (UL 508) Utilization category  (Control Circuit Rating Code) B 300, pilot duty general purpose (250 V, 4 A, cos  I 0.75) max. rated operational voltage 250 V AC max. continuous thermal current  at B 300 4 A max. making/breaking apparent  power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 6 A fast-actingn/o contact 10 A fast-acting Conventional thermal current I th  (IEC/EN 60947-1) 4 A General data Duty time 100 % Dimensions (W x H x D) product dimension 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) 45 x 85.6 x 103.7 mm  (0.89 x 3.37 x 4.08 in) packaging dimenesion 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) 97 x 109 x 30 mm (3.82 x 4.29 x 1.18 in) Weight grossweight CM-IWS.2P:   0.130 kg (0.287 lb)   CM-IWS.2S:   0.141 kg (0.311 lb) CM-IWS.1P:   0.137 kg (0.302 lb) CM-IWS.1S:   0.148 kg (0.326 lb) CM-IWN.xP:   0.217 kg (0.478 lb) CM-IWN.xS:   0.241 kg (0.531 lb) netweight CM-IWS.2P:   0.155 kg (0.342 lb)   CM-IWS.2S:   0.166 kg (0.366 lb) CM-IWS.1P:   0.162 kg (0.357 lb) CM-IWS.1S:   0.173 kg (0.381 lb) CM-IWN.xP:   0.246 kg (0.542 lb) CM-IWN.xS:   0.270 kg (0.595 lb)   Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical not necessary horizontal 10 mm (0.39 in) at U n   240 V not necessary 10 mm (0.39 in)at U n   400 V Material of housing UL 94 V-0 Degree of protection housing / terminal IP50 / IP20 Electrical connection Screw connection technology Easy Connect Technology  (Push-in) Wire size fine-strand with(out) wire end ferrule 1 x 0.5-2.5 mm 2  (1 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) rigid 1 x 0.5-4 mm 2  (1 x 20-12 AWG) 2 x 0.5-2.5 mm 2  (2 x 20-14 AWG) 2 x 0.5-1.5 mm 2  (2 x 20-16 AWG) Stripping length 8 mm (0.32 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) 1)   Closed-circuit principle: Output relay(s) de-energize(s) if a fault is occuring    Open-circuit principle: Output relay(s) energize(s) if a fault is occuring 2CDC110004C0209.pdf   144 11/26/2013   4:50:45 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/76  2 Insulation monitoring relays for unearthed supply systems Technical data CM-IWS.2 CM-IWS.1 CM-IWN.1, 4, 5, 6 Environmental data Ambient temperature ranges operation / storage / transport -25...+60 °C/-40...+85 °C/-40...+85 °C Climatic category IEC/EN 60721-3-3 3K5 (no condensation, no ice formation) Damp heat, cyclic IEC/EN 60068-2-30 6 x 24 h cycle, 55 °C, 95 % RH Vibration, sinusoidal IEC/EN 60255-21-1 Class 2 Shock, half-sine IEC/EN 60255-21-2 Class 2 Isolation data Rated impulse withstand voltage U imp  between all iso- lated circuits  (IEC/EN 60947-1, IEC/EN 60664-1, VDE 0110-1) supply / measuring circuit 6 kV supply / output circuit 6 kV measuring / output circuit 6 kVoutput 1 / output circuit 2 4 kV Pollution degree (IEC/EN 60664-1, VDE 0110-1) 3 Overvoltage category (IEC/EN 60664-1, VDE 0110-1) III Rated insulation voltage U i    (IEC/EN 60947-1, IEC/EN 60664-1, VDE 0110-1) supply / measuring circuit 400 V 300 V 600 V supply / output circuit 300 V supply / measuring circuit 400 V 300 V 600 V output 1 / output circuit 2 - - 300 V Basis isolation for rated control supply voltage  (IEC/EN 60664-1, VDE 0110-1) supply / measuring circuit 400 V AC / 300 V DC 250 V AC / 300 V DC 400 V AC / 600 V DC supply / output circuit 250 V AC / 300 V DC measuring / output circuit 400 V AC / 300 V DC 250 V AC / 300 V DC 400 V AC / 600 V DC output 1 / output 2 250 V AC / 300 V DC Protective separation (IEC/EN 61140) supply / output circuit 250 V AC / 250 V DC supply / measuring circuit 250 V AC / 250 V DCmeasuring / output circuit 250 V AC / 250 V DC Test voltage between all isolated circuits, routine test (IEC/EN 60255-5, IEC/EN 61010-1) supply / output circuit 2.32 kV, 50 Hz, 2 s supply / measuring circuit 2.32 kV, 50 Hz, 2 smeasuring / output circuit 2.2 kV, 50 Hz, 1 s 2.53 kV, 50 Hz, 1 s Standards Product standard IEC/EN 61557-8, IEC/EN 60255-6 Other standards EN 50178 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electromagnetic compability Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2, IEC/EN 61326-2-4 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (1 GHz) / 3 V/m (2 GHz) / 1 V/m (2.7 GHz) electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2 kV / 5 kHz surge IEC/EN 61000-4-5 Level 3, installation class 3, supply circuit and measuring circuit  1 kV L-L, 2 kV L-earth conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 Class 3 harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emissions IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B 2CDC110004C0209.pdf   145 11/26/2013   4:50:45 PM

2/77   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Insulation monitoring relays for unearthed supply systems Technical data CM-IVN Input circuit - Measuring circuit VL+, VL-, Vw Function expansion of the nominal voltage range of the insulation monitoring relay CM-IWN to 690 V AC or 1000 V DC, max. length of connection cable 40 cm Measuring principle see CM-IWN Nominal voltage U n  of the distribution system to be monitored 0-690 V AC / 0-1000 V DC Voltage range of the distribution system to be monitored 0-793.5 V AC / 0-1150 V DC (tolerance +15 %) Rated frequency f N  of the distribution system to be monitored DC or 15-400 Hz Tolerance of the rated frequency f N 13.5-440 Hz System leakage capacitance C e max. identical to that of the insulation monitoring relay used Extraneous DC voltage U fg  (when connected to an  AC system) max. 793.5 V DC Tolerance of the adjusted threshold value /  Relative  percentage uncertainty A at  -5...+ 45 °C, U n  = 0-115  %, U s  = 85-110 %, f N , f s , C e  = 1 μF at 1-15 kΩ R F ±1.5 kΩ at 15-200 kΩ R F ±8 % Internal impedance Z i at 50 Hz 195 kΩ Internal DC resistance R i 200 kΩ Measuring voltage U m 24 V Tolerance of measuring voltage U m  +10  % Measuring current I m 0.15 mA General data MTBF on request Duty time  100 % Dimensions (W x H x D)  45 x 78 x 100 mm (1.78 x 3.07 x 3.94 in) Weight gross weight 0.200 kg (0.441 lb) net weight 0.169 kg (0.373 lb) Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position any Minimum distance to other units vertical not necessary horizontal 10 mm (0.39 in) at U n   600 V Degree of protection IP50 / IP20 Electrical connection Wire size  fine-strand with(out) wire   end ferrule 2 x 0.75-2.5 mm² (2 x 18-14 AWG) rigid 2 x 0.5-4 mm² (2 x 20-12 AWG) Stripping length 7 mm (0.28 in) Tightening torque 0.6-0.8 Nm (5.31-7.08 lb.in) Max. length of connection cable to CM-IWN 40 cm Environmental data Ambient temperature ranges operation / storage / transport -25...+60 °C / -40...+85 °C / -40...+85 °C Climatic category IEC/EN 60721-3-3 3K5 (no condensation, no ice formation) Damp heat, cyclic IEC/EN 60068-2-30 6 x 24 h cycle, 55 °C, 95 % RH Vibration, sinusoidal IEC/EN 60255-21-1 Class 2 Shock, half-sine IEC/EN 60255-21-2 Class 2 Isolation data Rated impulse withstand voltage U imp  between all isolated circuits  IEC/EN 60947-1, IEC/EN 60664-1,VDE 0110-1)  input circuit /  PE 8 kV Pollution degree (IEC/EN 60664-1, VDE 0110-1) 3 Overvoltage category (IEC/EN 60664-1, VDE 0110-1) III Rated insulation voltage U i    (IEC/EN 60947-1, IEC/EN 60664-1,VDE  0110-1) input circuit /  PE 1000 V Test voltage between all isolated circuits, routine test  (IEC/EN 60255-5, IEC/EN 61010-1) input circuit /  PE 3.3 kV, 50 Hz, 1 s Standards Product standard IEC/EN 61557-8, IEC/EN 60255-6 Other standards EN 50178 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electromagnetic compability Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2, IEC/EN 61326-2-4 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (1 GHz) / 3 V/m (2 GHz) / 1 V/m (2.7 GHz) electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2 kV / 5 kHz surge IEC/EN 61000-4-5 Level 3, installation class 3, supply circuit and measuring circuit 1 kV L-L, 2 kV L-earth conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 Level 3 harmonics and interharmonics IEC/EN 61000-4-13 Level 3 Interference emission IEC/EN 61000-6-3, IEC/EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 50022 Class B high-frequency conducted IEC/CISPR 22, EN 50022 Class B 2CDC110004C0209.pdf   146 11/26/2013   4:50:45 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/78  2 Insulation monitoring relays for unearthed supply systems Notes 2CDC110004C0209.pdf   147 11/26/2013   4:50:45 PM

2/79   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Motor load monitoring relays Product picture 2CDC110004C0209.pdf   148 11/26/2013   4:50:46 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/80  2 Motor load monitoring relays Table of contents Motor load monitoring relays Product picture  77 Table of contents  78 Fields of application  79 Ordering details  80 Technical information  81 Technical data  82 2CDC110004C0209.pdf   149 11/26/2013   4:50:47 PM

2/81   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Motor load monitoring relays Fields of application 1SVC 110 000 F 0470 1SVC 110 000 F 0473 1SVC 110 000 F 0471 1SVC 110 000 F 0472 1SVC 110 000 F 0131 1SVC 110 000 F 0132 1SVC 110 000 F 0133 N L3 L2 L1 K1 U V W M 3~ 50-60 Hz N L1 K1 U1 U2 M 1~ 50-60 Hz N L3 L2 L1 K1 U V W M 3~ ~ ~ 50-60 Hz 110-500 V, 15-400 Hz 1SVC 110 000 F 0131 1SVC 110 000 F 0132 1SVC 110 000 F 0133 N L3 L2 L1 K1 U V W M 3~ l k L K 50-60 Hz N L1 K1 U1 U2 M 1~ l k L K 50-60 Hz L3 L2 L1 K1 U V W M 3~ DC AC 110-240 V 15-400 Hz The motor load monitor relay monitors the load states of single-phase and three-phase asynchronous motors.  The evaluation of the phase angle between current and voltage allows a very precise monitoring of the load states.   Main applications   ½  Pump monitoring   ½ Dry-running protection (underload)   ½ Closed valves (overload)   ½ Pipe break (overload)   ½   Heating, air-conditioning, ventilation   ½ Monitoring of filter pollution   ½ V-belt breakage (underload)   ½ Closed shutters/valves (overload)   ½ Air ventilating volume   ½  Agitating machines   ½ High consistency within the tank (overload)   ½ Pollution of the tank (overload)   ½  Transport/Conveyance   ½ Congested conveyor belts (overload)   ½ Jamming of belts (overload)   ½ Material accumulation in spiral conveyors (overload)   ½ Lifting platforms   ½  Machine installation   ½ Wear of tools, e.g. worn saw blades in circular saws, etc.  (overload)   ½ Tool breakage (underload)   ½ V-belt drives (breakage underload)  .............................. 2/103 Compared with other conventional measuring principles (e.g. pressure transducers, current measurement), cos  M monitoring is a more precise  and economical alternative.The motor is used as a sensor for its own load status. Wiring examples (for motor currents  ͨ 20 A) Detected fault - installation is  switched off Starting time delay Filter pollution Detected fault - installation is switched off Starting time delay Starting time delay Detected fault - installation is  switched off V-belt monitoring Starting time delay Detected fault - installation is  switched off Dry-running protection Pump control Response delay Response delay Ventilator monitoring Filter pollution Wiring examples (for motor cur-rents  ͧ 20 A) 2CDC110004C0209.pdf   150 11/26/2013   4:50:47 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/82  2 Motor load monitoring relays Ordering details Description The motor load monitor CM-LWN monitors the load of single-phase and three-phase asyn- chronous motors. The evaluation of the phase angle between current and voltage (cos  M  monitoring) allows a very precise monitoring of the load status.  Ordering details Rated control supply voltage = measuring voltage Current range Type  Order code Price 1 pce Weight(1 pce) kg (lb)  24-240 V AC/DC 0.5-5 A CM-LWN 1SVR450335R0000 0.30 (0.66) 110-130 V AC 1SVR450330R0000 0.30 (0.66) 220-240 V AC 1SVR450331R0000 0.30 (0.66) 380- 440 V AC 1SVR450332R0000 0.30 (0.66) 480-500 V AC 1SVR450334R0000 0.30 (0.66) 24-240 V AC/DC 2-20 A 1SVR450335R0100 0.30 (0.66) 110-130 V AC 1SVR450330R0100 0.30 (0.66) 220-240 V AC 1SVR450331R0100 0.30 (0.66) 380- 440 V AC 1SVR450332R0100 0.30 (0.66) 480-500 V AC 1SVR450334R0100 0.30 (0.66) 1SVR 450 335 F0100 CM-LWN Current transformers see page 2/132. Characteristics   ½  Pump monitoring   ½   Under- and overload monitoring cos  M in one unit   ½   Adjustable starting delay 0.3-30 s   ½   Direct measurement of currents up to 20 A   ½   Adjustable response time delay 0.2-2 s   ½   Single-phase or three-phase monitoring   ½   2 x 1 c/o contact, closed-circuit principle   ½   3 LEDs for status indication 4 1 2 3 5 7 1   Starting delay „Time S“ 2   Response delay „Time R“ 3   Threshold for load limit cos M max 4   Threshold for load limit cos M min 5  Reset button 6   Indication of operational states U: green LED – control supply voltage cos  M max : red LED – cos  M max  exceeded cos  M min : red LED – below cos  M min 7  Marker label 2CDC110004C0209.pdf   151 11/26/2013   4:50:48 PM

2/83   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Motor load monitoring relays Technical information The CM-LWN module monitors the load status of inductive loads.  The primary application is the monitoring of single- or three-phase asynchronous motors (squirrel cage) under varying load conditions. The measuring principle is based on the evaluation of the phase shift ( M) between the voltage and the current in one phase.  The phase difference is nearly inversely proportional to the load. Therefore, cos  M, measured relatively from 0 to 1, measures the relationship of effective  power to apparent power. A value towards 0 indicates low load and a value towards 1 indicates high load.  Threshold values can be set individually for cos  M max  and cos  M min  If the set threshold value is reached, a LED lights up and the relay is de-energized.  If cos  M returns to the acceptable limits (taking into account the hysteresis), the relay is reset to its original state and the LED flashes permanently to indi- cate the occurrence of the trip event. This message can be deleted using the reset button or by switching off the supply.  A time delay (Time S) of 0.3 to 30 s can be set for the starting phase of the motor. It is also possible to set a response delay time (Time R) of 0.2 to 2 s to suppress unwanted tripping due to unavoidable short load changes during normal operation. To guarantee correct operation of the response delay (Time R), the adjusted value for cos  M max  has to be higher than the value for cos  M min  plus the hyste- resis. Consequently, the overload and underload indication must not be active at the same time. Due to the internal electrical isolation of the supply circuit and the measuring circuit, it is also possible to use the device in systems with different supply voltages. T S T S T R T R T R 1SVC 110 000 F0130 2CDC 252 105 F0004 Function diagram - CM-LWN A1-A2   Current in L1 con  M max hysteresis  con  M min  15-18  15-16 25-28 25-26 Reset button Red LED - cos  M min Red LED - cos  M max A1-A2   Rated control supply voltage L1/K-L1/L Measuring    current L1/K-L2-L3   Measuring  voltage 15-16/18  Output contacts - underload (cos  M min )  25-26/28  Output contacts - overload (cos  M max )      closed-circuit  principle Connection diagram CM-LWN 2CDC110004C0209.pdf   152 11/26/2013   4:50:48 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/84  2 Motor load monitoring relays Technical data Type CM-LWN Input circuit - Supply circuit A1-A2 Rated control supply voltage U s  - power  consumption A1-A2 24-240 V AC/DC approx. 8.4 VA/WA1-A2 110-130 V AC approx. 3.6 VAA1-A2 220-240 V AC approx. 3.6 VAA1-A2 380-440 V AC approx. 3.6 VAA1-A2 480-500 V AC approx. 3.6 VA Rated control supply voltage U s  tolerance -15 %...+10 % Rated frequency AC versions 50-60 Hz AC/DC versions 15-400 Hz or DC Duty time 100 % Measuring circuit L1/L-L1/K-L2-L3 Monitoring function Motor load monitoring by cos  M Voltage range L1/K-L2-L3 110-500 V AC single-phase or three-phase Current range L1/L-L1/K 0.5-5 A version 2-20 A version Permissible overload of current input 25 A for 3 s 100 A for 3 s Thresholds cos  M min  and cos  M max  adjustable from 0 to 1 Hysteresis (related to phase angle  M in °) 4°  Frequency of measuring voltage 15-400 Hz Response time  300 ms Timing circuits indication of over-  and undervoltage fault Start-up time (Time S) 0.3-30 s, adjustable Response delay (Time R) 0.2-2 s, adjustable Accuracy within the rated control supply voltage tolerance ͬt ͨ 0.5 % Accuracy within the temperature range ͬt ͨ 0.06 % / °C Indication of operational states Control supply voltage U: green LED below cos  M min cos  M min : red LED cos  M max  exceeded cos  M max : red LED Output circuits 15-16/18,  25-26/28 Kind of output 2 x 1 c/o contact Operational principle closed-circuit principle  1) Contact material AgCdO Rated voltage (VDE 0110, IEC 664-1, IEC 947-1) 250 V Max. switching voltage 400 V AC, 300 V DC Rated operational current I e  (IEC/EN 60947-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V 3 A DC12 (resistive) 24 V 4 A DC13 (inductive) 24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime at AC12, 230 V, 4 A 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c  /  n/o contact 10 A fast-acting / 10 A fast-acting General data Dimensions (W x H x D) 45 mm x 78 mm x 100 mm (1.77 inch x 3.07 inch x 3.94 inch) Mounting position any Degree of protection housing / terminals IP50 / IP20 Ambient temperature range operation / storage -25...+65 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size  fine-strand with wire end ferrule 2 x 2.5 mm 2  (2 x 14 AWG)  Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC, 91/263/EEC, 92/31/EEC, 93/68/EEC, 93/67/EEC Electromagnetic compatibility EN 61000-6-2, EN 61000-6-4 electrostatic discharge  IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field  IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst  IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge  IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields  IEC/EN 61000-4-6 Level 3 (10 V) Operational reliability (IEC 68-2-6) 5 g Mechanical resistance (IEC 68-2-6) 10 g Environmental testing (IEC 68-2-30) 24 h cycle time, 55 °C, 93 % rel., 96 h Isolation data Rating (HD 625.1 S1, VDE 0110, IEC 664-1, IEC 60255-5)Rated insulation voltage between supply- , measuring- and output circuit 250 V, 400 V, 500 V depending on the version Rated impulse withstand voltage between all isolated circuits 4 kV / 1.2 - 50 μs Test voltage between all isolated circuits 2,5 kV, 50 Hz, 1 min. Pollution category 3 Overvoltage category III 1)   Open-circuit principle:  Output relay is energized if the measured value exceeds/drops below the adjusted threshold.    Closed-circuit principle:  Output relay is de-energized if the measured value exceeds/drops below the adjusted threshold. 2CDC110004C0209.pdf   153 11/26/2013   4:50:48 PM

2/85   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Motor control and protection Product group picture 2CDC110004C0209.pdf   154 11/26/2013   4:50:49 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/86  2 Motor control and protection Table of contents Motor control and protection Product group picture  83 Table of contents  84 Benefits and advantages  85 Technical data  86 Notes 88 2CDC110004C0209.pdf   155 11/26/2013   4:50:51 PM

2/87   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Motor control and protection Benefits and advantages Motor protection   ½  Overload, underload   ½  Overvoltage, undervoltage   ½   Blocked rotor, low / high current   ½   Phase failure, imbalance, phase sequence   ½  Earth leakage   ½  Thermistor protection   ½   Limitation of starts per time   ½   One single version with integrated measuring system covers the rated  motor current from 0,24 to 63 A Motor control   ½   Integrated and easy to parametrize motor starter functions like direct,  reverse, star-delta,...   ½   Additionally free programmable logic for application specific control  functions   ½   Expansion modules DX111, DX122 for more I/Os   ½   Expansion modules VI150, VI155 for 3-phase voltage measuring Motor diagnostics   ½   Quick and comprehensive access to all relevant data via fieldbus and/ or operator panel   ½   Current, thermal load   ½  Phase voltages   ½  Power factor   ½  Energy Communication   ½   Communication-independent basic device   ½   Freely selectable fieldbus protocol with FieldBusPlug   ½  Profibus DP   ½  DeviceNet   ½  Modbus RTU   ½   Ethernet Modbus TCP   ½  CANopen Typical application segments   ½   Oil & gas   ½  Cement   ½  Paper   ½  Mining   ½  Steel   ½  Chemical industry UMC100-FBP is a flexible, modular and expandable motor management system for constant-speed low-voltage range motors.  It's most important tasks include motor protection, prevention of plant standstills and the reduction of down time. This is made possible by early information relating to possible motor problems which avoids unplanned plant standstills. Even if a motor trips, quick diagnosis of the cause of the fault serves to reduce downtime. UMC100-FBP combines in a very compact unit: Further information UMC & FBP Catalog  2CDC 190 022 C0205 UMC & FBP Brochure  2CDC 135 011 B0203 2CDC110004C0209.pdf   156 11/26/2013   4:50:51 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/88  2 Motor control and protection Technical data Basic device UMC100-FBP UMC100-FBP allows the connection of one I/O-expansion module DX111 or DX122, and one voltage module VI150  or VI155. Expansion modules are connected via 2-wire bus, the max. distance to UMC100-FBP is 3 m. Main power Voltage max 1000 V AC Frequency 45 to 65 Hz Rated motor current 0.24 to 63 A, without accessories Greater currents with transformer Transformer diameter 11 mm (max 25 mm 2 ) Tripping classes 5, 10, 20, 30, 40 in accordance with EN/IEC 60947-4-1 Short-circuit protection Separate fuse on network side Control unit Supply voltage 24 V DC Reverse polarity protection yes Inputs 6 digital inputs 24 V DC 1 PTC input Outputs 3 relay outputs relay 1 digital output transistor Interfaces 1 for ABB FieldBusPlug 1 for UMC100-PAN control station 1 for expansion module Parametric assignment via fieldbus, control station and / or software Addressing Control station or addressing set LEDs 3 LEDs: green, yellow, red Environment and mechanical data Fastening on DIN busbar (EN50022-35) or with 4 screws x M4 Dimensions (W x H x D) 70 x 105 x 110 mm (incl. FieldBusPlug and control panel) Weight 0.39 kg Terminal cross-section max. 2.5 mm² or 2 x 1.5 mm² Supply voltage 24 V DC Inputs  DX111 8 digital inputs 24 V DC DX122 8 digital inputs 110/230 V AC Outputs 4 relay outputs relay 1 analogue output, 0/4 to 20 mA / 0 to 10 V configurable Fastening on DIN busbar (EN50022-35) Dimensions (W x H x D) 45 x 77 x 100 mm (without terminal block) I/O-expansion modules DX111 / DX122 Expansion modules to increase the number of I/Os of a UMC100-FBP. Easy use of inputs by parametrizing for fault or warn- ing; individual message on operator panel configurable. 2CDC110004C0209.pdf   157 11/26/2013   4:50:51 PM

2/89   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Supply voltage 24 V DC Inputs  VI150 3 analogue inputs 150 - 690 V AC For use in grounded networks Maximum operation altitude 2000 m VI155 3 analogue inputs 150 - 690 V AC For use in all networks Maximum operation altitude 2000 m Outputs 1 relay output Fastening on DIN busbar (EN50022-35) Dimensions (W x H x D) 22.5 x 77 x 100 mm (without terminal block) Supply voltage 24 V DC (+30 % ... -20 %) (19.2 ... 31.2 V DC) including ripple Current consumption Max. 180 mA (at 19.2 ... 31.2 V DC) Pollution degree terminals 3 Total power dissipation max. 3.5 W Short-circuit protection at port 1 ... 4 PTC resistor Reverse polarity protection of supply inputs Yes Voltage expansion modules Measures the 3 phase voltages of a motor. Different versions for use in grounded and ungrounded networks. Ethernet-Modbus TCP interface MTQ22-FBP Ethernet connectivity for up to four UMC100. Supports all network topologies. Motor control and protection Technical data 2CDC110004C0209.pdf   158 11/26/2013   4:50:51 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/90  2 Motor control and protection Notes 2CDC110004C0209.pdf   159 11/26/2013   4:50:52 PM

2/91   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Thermistor motor protection relays Product group picture 2CDC110004C0209.pdf   160 11/26/2013   4:50:52 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/92  2 Thermistor motor protection relays Table of contents Thermistor motor protection relays Product group picture  89 Table of contents  90 Benefits and advantages, Applications  91 Operating controls  92 Selection table thermistor motor protection relays  93 Ordering details  94 Ordering details - PTC temperature sensors C011  95 Technical data  96 Connection diagrams  98 2CDC110004C0209.pdf   161 11/26/2013   4:50:53 PM

2/93   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Thermistor motor protection relays Benefits and advantages, Applications 1SVC 110 000 F0139 Operating principle and fields of application for thermistor motor protection relays The CM range of thermistor motor protection relays are used to control motors equipped with PTC temperature sensors. The PTC temperature sensors are incorporated in the motor windings to measure the motor heating. This enables direct control and  evaluation of the following operating conditions:    ½   heavy duty starting   ½   increased switching frequency   ½  single-phase operation   ½   high ambient temperature   ½  insufficient cooling   ½  break operation   ½  unbalance The relay is independent of the rated motor current, the insulation class and the method of starting.  The PTC sensors are connected in series to the terminals T a  and T b  (or  T a  and T bx  without short-circuit detection). The number of possible PTC  sensors per measuring circuit is limited by the sum of the  individual PTC sensor resistances: R G  = R 1  + R 2  + R N   ͨ 1.5 k⏲.  Under normal operating conditions the resistance is below the response threshold. If only one of the PTC resistors heats up excessively, the out-put relay de-energizes. If the autoreset function is configured, the output relay energizes automatically after cooling down. Devices with manual (push button on front-side) or remote reset  configuration have to be controlled via the control input by the required signal. Further applications: Temperature monitoring of equipment with PTC sensors integrated, such as:   ½   machine rolling bearings,   ½  hot-air ventilators,   ½  oil,   ½  air,   ½   heating installations, etc. Resistance characteristic for one single temperature sensor acc. to DIN 44 081. NAT =  Nominal response   temperature CM-MSE   ½  Auto reset   ½   Connection of several sensors (max. 6 sen- sors conn. in series)   ½   Monitoring of bimetals   ½   1 n/o contact   ½   Excellent cost / performance ratio CM-MSS (1), 1 c/o contact   ½  Auto reset   ½   Connection of several sensors   ½   Monitoring of bimetals   ½   1 c/o contact   ½   2 LEDs for status indication CM-MSS (2), 2 c/o contacts   ½   Fault storage can be switched off   ½   Auto reset configurable   ½  Reset button   ½  Remote reset   ½   Monitoring of bimetals   ½   2 c/o contacts   ½   2 LEDs for status indication CM-MSS (3), 2 c/o contacts, short-circuit monitoring configurable   ½   Fault storage can be switched off   ½   Auto reset configurable   ½  Reset button   ½  Remote reset   ½   Monitoring of bimetals   ½   Short-circuit monitoring of the  sensor circuit  configurable   ½   2 c/o contacts   ½   2 LEDs for status indication CM-MSS (4) + CM-MSS (5), 1-channel   ½   Short-circuit monitoring of the sensor circuit   ½   Wide supply voltage range: 24-240 V AC/DC   ½   Non-volatile fault storage  selectable   ½   Reset and test button   ½  Remote reset   ½   Auto reset configurable   ½   Output contacts: 1 n/c and 1 n/o or 2 c/o  contacts   ½   2 LEDs for status indication CM-MSS (6), 2-channel, single evaluation   ½   Short-circuit monitoring for the sensor  circuits   ½   Wide supply voltage range: 24-240 V AC/DC   ½   2 separate sensor circuits for monitoring of  two motors or one motor with 2 sensor cir-cuits (prewarning and final switch off)   ½  Reset button   ½   Auto reset configurable   ½   Output contacts: 2 x 1 c/o contact   ½   3 LEDs for status indication   ½   Short-circuit monitoring for the sensor circuits   ½   Wide supply voltage range 24-240 V AC/DC   ½   Non-volatile fault storage configurable   ½  Remote reset   ½   Auto reset configurable   ½   Reset and test button   ½   Output contacts: 1 n/c and 1 n/o contact   ½   4 LEDs for status indication CM-MSS (7), 3 sensor circuits, accumulative evaluation   ½   Short-circuit monitoring of the sensor circuit   ½   Wide supply voltage range: 24-240 V AC/DC   ½   Non-volatile fault storage configurable   ½  Remote reset   ½   Auto reset configurable   ½   Reset and test button   ½   Output contacts: 1 n/c, 1 n/o contact   ½   7 LEDs for status indication CM-MSN, 6 sensor circuits, accumulative evaluation accumulative evaluation = if any input exeeds the threshold, the output relay will trip 2CDC110004C0209.pdf   162 11/26/2013   4:50:53 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/94  2 Thermistor motor protection relays Operating controls 1 2 3 1   Reset / Test button 2   Indication of operational states U: green LED – control supply voltage F: red 1-6 LED – fault message 3  Marker label 2CDC110004C0209.pdf   163 11/26/2013   4:50:54 PM

2/95   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Thermistor motor protection relays Selection table thermistor motor protection relays 1)  For CM-MSS (3): configurable via terminals 2)  Auto reset without non-volatile fault storage configurable by permanent jumpering of connection terminals S1-T2 or S1/X1-S2/X2 Or der number 1SVR 550 805 R9300 1SVR 550 800 R9300 1SVR 550 801 R9300 1SVR 430 800 R9100 1SVR 430 800 R9100 1SVR 430 811 R9300 1SVR 430 811 R9300 1SVR 430 811 R0300 1SVR 430 811 R1300 1SVR 430 710 R9300 1SVR 430 711 R0300 1SVR 430 711 R1300 1SVR 430 711 R2300 1SVR 430 720 R0400 1SVR 430 720 R0300 1SVR 430 710 R0200 1SVR 430 720 R0500 1SVR 450 025 R0100 T ype CM-MSE CM-MSS (1) CM-MSS (2) CM-MSS (3) CM-MSS (4) CM-MSS (5) CM-MSS (6) CM-MSS (7) CM-MSN Function Number of sensor circuits 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 3 6 Wire break monitoring ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Short-circuit detection  1) ½ ½ ½ ½ ½ ½ ½ ½ ½ Non-volatile fault storage  2) ½ ½ ½ ½ Operation / Reset Auto reset ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Manual reset ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Remote reset ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Test button ½ ½ ½ ½ ½ Output contacts Operational principle Closed-circuit principle 1 n/o ½ ½ ½ 1 c/o ½ ½ 2 c/o ½ ½ ½ ½ ½ ½ ½ ½ ½ 1 n/o + 1 n/c ½ 1 c/o per sensor circuit ½ 1 n/o + 1 n/c accumulative evaluation ½ ½ Width of housing 22.5 mm ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 45 mm ½ Supply voltages 24 V AC ½ ½ 24 V AC/DC ½ ½ ½ 110-130 V AC ½ ½ ½ 220-240 V AC ½ ½ ½ ½ 380-440 V AC ½ 24-240 V AC/DC ½ ½ ½ ½ ½ 2CDC110004C0209.pdf   164 11/26/2013   4:50:54 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/96  2 Thermistor motor protection relays Ordering details Description The thermistor motor protection relays CM-MSE, CM-MSS and CM-MSN are used to control  motors equipped with PTC temperature sensors. The PTC temperature sensors are incorpo- rated in the motor windings to measure the motor heating. This enables direct control and  evaluation of various operating conditions. Depending on the products also ATEX approvals for  use in hazardous areas are availabe. ABB also offers PTC temperature sensors C011 (according to DIN 44081) which are suitable  for embedding in motor windings. Ordering details Rated control supply voltage = measu-ring voltage Type Order  code Price 1 pce Weight(1 pce)  kg (lb) 24 V AC CM-MSE 1SVR550805R9300 0.11 (0.24) 110-130 V AC 1SVR550800R9300 0.11 (0.24) 220-240 V AC 1SVR550801R9300 0.11 (0.24) 24 V AC/DC  1) CM-MSS (1) 1SVR430800R9100 0.15 (0.33) 220-240 V AC 1SVR430801R1100 0.15 (0.33) 24 V AC/DC  1) CM-MSS (2) 1SVR430810R9300 0.15 (0.33) 24 V AC 1SVR430811R9300 0.15 (0.33) 110-130 V AC 1SVR430811R0300 0.15 (0.33) 220-240 V AC 1SVR430811R1300 0.15 (0.33) 24 V AC/DC  1) CM-MSS (3)  4) 1SVR430710R9300 0.15 (0.33) 110-130 V AC 1SVR430711R0300 0.15 (0.33) 220-240 V AC 1SVR430711R1300 0.15 (0.33) 380-440 V AC 1SVR430711R2300 0.15 (0.33) 24-240 V AC/DC CM-MSS (4)  2) 4) 1SVR430720R0400 0.15 (0.33) CM-MSS (5)  3) 4) 1SVR430720R0300 0.15 (0.33) CM-MSS (6)  4) 1SVR430710R0200 0.15 (0.33) CM-MSS (7)  4) 1SVR430720R0500 0.15 (0.33) CM-MSN  4) 1SVR450025R0100 0.23 (0.51) 2CDC  251 012 F0003 2CDC  251 047 F0004 1SVR 450 025 F0400 CM-MSE CM-MSS (5) CM-MSN 1)  Not electrically isolated 2)   CM-MSS (4): 1-channel 1 n/c, 1 n/o 3)  CM-MSS (5): 1-channel 2 c/o 4)   I 2CDC110004C0209.pdf   165 11/26/2013   4:50:55 PM

2/97   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Thermistor motor protection relays Ordering details - PTC temperature sensors C011 1SVC 110 000 F0531 Temperature sensor characteristics Characteristic data Sensor type C011 Cold-state resistance 50 -100  ⏲ at 25 °C Warm-state resistance ± 5 up to 6 K of rated  response temperature T NF 10 000  ⏲ Thermal time constant, sensor open  1) 5 s Permitted ambient temperature +180 °C Technical data . Rated response temperature  Ȁ tolerance T NF   Ȁ ͬT NF PTC resistance  R from -20 °C to  T NF  - 20 K PTC resistance R 2)  at PTC temperatures of: T NF  -  ͬT NF   (UPTC  ͨ 2.5 V) T NF  +  ͬT NF   (UPTC  ͨ 2.5 V) T NF  + 15 K  (UPTC  ͨ 7.5 V) 70  Ȁ5 °C ͨ 100 ⏲ ͨ 570 ⏲ ͧ 570 ⏲ - 80  Ȁ5 °C 90  Ȁ5 °C ͨ 550 ⏲ ͧ 1330 ⏲ ͧ 4000 ⏲ 100  Ȁ5 °C 110  Ȁ5 °C 120  Ȁ5 °C 130  Ȁ5 °C 140  Ȁ5 °C 150  Ȁ5 °C 160  Ȁ5 °C 170  Ȁ7 °C ͨ 570 ⏲ ͧ 570 ⏲ - 1)  Not embedded in windings.  2)  For triple temperature sensor take values x 3. -20 °C 10 1 10 2 10 3 10 4 T NF  - 20 K T NF  - 5 K T NF T NF  + 5 K T NF  + 15 K R PTC [ ⏲] T PTC  [°C] 2CDC 252 068 F0208 Ordering details Rated response temperature T NF Color coding Type  Order code Price 1 pce Weight(1 pce) kg (lb) 70 °C white-brown C011-70 1) GHC0110003R0001 0.02 (0.044) 80 °C white-white C011-80 1) GHC0110003R0002 0.02 (0.044) 90 °C green-green C011-90 1) GHC0110003R0003 0.02 (0.044) 100 °C red-red C011-100 1) GHC0110003R0004 0.02 (0.044) 110 °C brown-brown C011-110 1) GHC0110003R0005 0.02 (0.044) 120 °C gray-gray C011-120 1) GHC0110003R0006 0.02 (0.044) 130 °C blue-blue C011-130 1) GHC0110003R0007 0.02 (0.044) 140 °C white-blue C011-140 1) GHC0110003R0011 0.02 (0.044) 150 °C black-black C011-150 1) GHC0110003R0008 0.02 (0.044) 160 °C blue-red C011-160 1) GHC0110003R0009 0.02 (0.044) 170 °C white-green C011-170 1) GHC0110003R0010 0.02 (0.044) 150 °C black-black C011-3-150 2) GHC0110033R0008 0.05 (0.11) 1)  Temperature sensor C011, standard version acc. to DIN 44081 2)  Triple temperature sensor C011-3 Description The PTC temperature sensors (temperature-dependent with positive temperature coefficient) are selected by the manufacturer of the motor depending on:   ½   the motor insulation class according to IEC/EN 60034-11,   ½   the special characteristics of the motor, such as the conductor cross-section of the windings, the permissible  overload factor etc.   ½   special conditions prescribed by the user, such as the permissible ambient temperature, risks resulting from  locked rotor, extent of permitted overload etc. One temperature sensor must be embedded in each phase winding. For instance, in case of three-phase squirrel cage motors, three sensors are embedded in the stator windings. For pole-changing motors with one winding (Dahlander connection), 3 sensors are also sufficient. Pole-changing motors with two windings, however, require The sensors are suitable for embedding in motor windings with rated operating voltages of up to 600 V AC. Con-ductor length: 500 mm per sensor.  A 14 V varistor can be connected in parallel to protect the sensors from overvoltage.  Due to their characteristics, the thermistor motor protection relays can also be used with PTC tem-perature sensors of other manufacturers which comply with DIN 44 081 and DIN 44 082 6 sensors. If an additional warning is required before the motor is switched off, separate sensors for a correspon dingly lower temperature must be embedded in the winding. They have to be connected to a second control unit. 2CDC110004C0209.pdf   166 11/26/2013   4:50:55 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/98  2 Thermistor motor protection relays Technical data Type CM-MSE CM-MSS CM-MSN Input circuit Rated control supply voltage U s   power consumption A1-A2 24 V AC approx. 1.5 VA A1-A2 24 V AC/DC approx. 1.1 VA / 0.6 WA1-A2 110-130 V AC approx. 1.5 VAA1-A2 220-240 V AC approx. 1.5 VAA1-A2 380-440 V AC approx. 1.7 VAA1-A2 24-240 V AC/DC approx. 1.4-1.7 W / approx. 3.5-5.7 VA Rated control supply voltage U s  tolerance -15 % ... +10 % Rated frequency  AC: 50-60 Hz / 24-240 V AC/DC versions: 15-400 Hz Duty time 100 % Measuring circuit T1-T2 T1-T2/T2x, 1T1...6T1-T2 1T1...6T1-T2 Monitoring function temperature monitoring by means of PTC sensors Number of senor circuits 1 1, 2 oder 3 (see order. details) 6 Short-circuit monitoring - see ordering details yes Non-volatile fault storage - see ordering details configurable Test function - see ordering details yes Sensor circuit Temperature threshold (relay de-energizes) 2.7-3.7 k ⏲ CM-MSS (1+2): 3050 Ȁ550 ⏲  CM-MSS (3-7): 3.6 k ⏲ Ȁ5 % 3.6 k ⏲ Ȁ5 % Temperature hysteresis (relay energizes) 1.7-2.3 k ⏲ CM-MSS (1+2): 1900 Ȁ400 ⏲  CM-MSS (3-7): 1.6 k ⏲ Ȁ5 % 1.6 k ⏲ Ȁ5 % Short-circuit threshold (relay de-energizes) 18  ⏲ Short-circuit hysteresis (relay energizes) 45  ⏲ Maximum total resistance of sensors connected in series  (cold state) ͨ1.5 k⏲ Maximum sensor cable length for short-circuit detection 2 x 100 m at 0.75 mm 2 , 2 x 400 m at 2.5 mm 2 Response time 100 ms Control circuit for storage and hysteresis function Remote reset   S1-T2 or S1/X1-S2/X2 - n/o contact Maximum no-load voltage - approx. 25 V, 24-240 V; AC/DC versions: 5.5 V Maximum cable length - ͨ 50 m, 100-200 m if shielded Indication of operational states Control supply voltage  U: green LED - V : control supply voltage applied Fault indication  F: red LED - V : output relay de-energized Output circuits 13-14 11-12/14, 21-22/24,  13-14, 21-22 13-14, 21-22 Kind of output 1 n/o contact CM-MSS (1): 1 c/o contact CM-MSS (2,3,5): 2 c/o contacts CM-MSS (4, 7): 1 n/o + 1 n/c CM-MSS (6): 2x1 c/o contact 1 n/o + 1 n/c contact Operational principle closed-circuit principle (output relay de-energizes if the measured value exceeds/drops below the adjusted threshold) Contact  material AgCdO    CM-MSS  (1+2+6):  AgCdO                    CM-MSS (3+4+5+7): AgNi AgNi Rated voltage  (VDE 0110, IEC 664-1, IEC 60947-1) 250 V Maximum switching voltage 250 V Rated operational current I e    (IEC/EN 60947-5-1) AC12 (resistive) at 230 V 4 A AC15 (inductive) at 230 V 3 A DC12 (resistive) at 24 V 4 ADC13 (resistive) at 24 V 2 A (1.5 A - n/c contact 1) ) AC rating (UL 508) Utilization category (Control Circuit Rating Code) max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B300 3600/360 VA Mechanical lifetime 30 (10  1)  ) x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c contact 10 A fast-acting 4 A (10 A 1) ) fast-acting 10 A fast-acting n/o contact 10 A fast-acting 6 A (10 A 1) ) fast-acting 10 A fast-acting General data Dimensions (W x H x D) 22.5 x 78 x 78.5 mm  (0.89 x 3.07 x 3.09 in) 22.5 x 78 x 100 mm  (0.89 x 3.07 x 3.94 in) 45 x 78 x 100 mm  (1.77 x 3.07 x 3.94 in) Weight approx. 0.11 kg (0.24 lb) approx. 0.15 kg (0.33 lb) approx. 0.23 kg (0.51 lb) Mounting position any Degree of protection   housing / terminals IP50 / IP20 Ambient temperature range operation -20...+60 °C -25...+65 °C  storage -40...+85 °C Mounting DIN rail (IEC/EN 60715) 1)   1SVR 430 710 R 0200, 1SVR 430 8xx R xxxx 2CDC110004C0209.pdf   167 11/26/2013   4:50:55 PM

2/99   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Thermistor motor protection relays Technical data,  Type CM-MSE CM-MSS CM-MSN Electrical connection Wire size  fine strand with wire end ferrule 2 x 1.5 mm 2  (2 x 16 AWG) 2 x 2.5 mm 2  (2 x 14 AWG) fine strand without  wire end ferrule 2 x 0.75-1.5 mm 2    (2 x 18-16 AWG) 2 x 0.75-2.5 mm 2    (2 x 18-14 AWG) rigid 2 x 1-1.5 mm 2    (2 x 18-16 AWG) 2 x 0.5-4 mm 2    (2 x 20-12 AWG) Stripping length 2 x 0.75-1.5 mm 2    (2 x 18-16 AWG) 2 x 0.5-4 mm 2    (2 x 20-12 AWG) Tightening torque 10 mm (0.39 inch) 7 mm (0.28 inch) Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC, 91/263/EEC, 92/31/EEC, 93/68/EEC, 93/67/EEC Electromagnetic compatibility EN 61000-6-2, EN 61000-6-4 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient /burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 3/4 (1/2 kV) conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Operational reliability (IEC 68-2-6) 6 g 4 g 5 g Resistance to vibration (IEC 68-2-6) 10 g 6 g 10 g Environmental testing (IEC 68-2-30 ) 24 h cycle time, 55 °C, 93 % rel., 96 h Isolation data Rated voltage between supply, measuring and output circuit 250 V Rated impulse withstand voltage between all isolated circuits 4 kV / 1.2 - 50 μs Test voltage between all isolated circuits 2.5 kV, 50 Hz, 1 min. Pollution degree 3 Overvoltage category III CM-MSE CM-MSS(1) CM-MSS(2) CM-MSS(3) CM-MSS(6) CM-MSS(7) CM-MSN CM-MSS (4) CM-MSS (5) 1SVC 110 000 F0141 1SVC 110 000 F0141 2CDC 252 123 F0b07 X1 T2 S1 M L1 L2 L3 3 ȁ T2 T1 ϑ  ϑ  ϑ 1SVC 110 000 F0144 1SVC 110 000 F0145 jumper =  no storage S1/X1 S2/X2 T2 T1 L1 L2 L3 2CDC 252 044 F0004 1SVC 110 000 F0146 S1-T2 jumpered = no storage 1SVC 110 000 F0147 1T1-T2 Sensor circuits 2T1-T2  3T1-T2  S1-T2  Remote reset jumpered = no storage 1SVC 110 000 F0521 2CDC110004C0209.pdf   168 11/26/2013   4:50:55 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/100  2 Thermistor motor protection relays Connection diagrams A1 A1 13 14 14 A2 A2 T1 13 T2 T1 T2 1SVC 110 000 F0140 A1-A2  Rated control supply voltage T1-T2 Sensor  circuit 13-14  Output contact - Closed-circuit principle CM-MSE CM-MSS(1) CM-MSS(2) CM-MSS(3) CM-MSS(6) CM-MSS(7) CM-MSN A1 A1 14 14 12 12 A2 A2 11 11 T1 T2 T1 T2 1SVC 110 000 F0142 A1-A2    Rated control supply voltage T1-T2   Sensor  circuit 11-12/14  Output contact - Closed-circuit principle A1 A1 14 14 12 12 A2 24 22 S1 A2 11 11 24 22 21 T1 X1 T2 21 T1 T2 1SVC 110 000 F519 A1-A2    Rated control supply voltage T1-T2   Sensor  circuit S1-T2    Remote reset X1-T2 jumper = no storage 11-12/14  Output contacts -  21-22/24 Closed-circuit  principle A1-A2    Rated control supply voltage S1-T2    Remote reset jumper = without storage T1-T2x    measuring circuit without short-circuit monitoring T1-T2    measuring circuit with short-circuit monitoring 11-12/14  Output contacts -  21-22/24 Closed-circuit  principle A1 A1 14 14 12 12 A2 S1 22 24 A2 11 11 24 22 21 T2x T1 T2 21 T1 T2 1SVC 110 000 F0143 A1 T2 T1 S1 13 14 21 22 A2 T1 13 A1 21 T2 A2 14 22 S1 2CDC 252 016 F0004 CM-MSS (4) A1-A2  Rated control supply voltage T1-T2   Sensor circuit S1-T2   Remote reset 13-14  Output contacts -  21-22 Closed-circuit  principle T1 11 A1 21 T2 12 A2 14 22 24 S1/X1S2/X2 ϑ A1 11 21 S2/X2 T1 T2 S1/X1 12 14 22 24 A2 2CDC 252 147  F0b06 CM-MSS (5) A1-A2  Rated control supply voltage T1-T2   Sensor circuit S1/X1-S2/X2 Reset 11-12/14  Output contacts -  21-22/24 Closed-circuit  principle 1SVC 110 000 F0148 A1-A2    Rated control supply voltage 11-12/14,  Output contacts -  21-22/24 Closed-circuit  principle 1T1-T2   Sensor circuit  2T1-T2 1SVC 110 000 F0149 A1-A2   Rated control supply voltage 13-14  Output contacts -  21-22   Closed-circuit principle 1SVC 110 000 F0150 A1-A2   Rated control supply voltage 13-14  Output contacts -  21-22   Closed-circuit principle 2CDC110004C0209.pdf   169 11/26/2013   4:50:56 PM

2/101   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Product group picture 2CDC110004C0209.pdf   170 11/26/2013   4:50:56 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/102  2 Temperature monitoring relays Table of contents Temperature monitoring relays Product group picture  99 Table of contents  100 Benefits and adv antages, Applications  101 Operating controls  102 Selection 103 Ordering details  104 Function diagrams  105 Overview, functional description and diagrams  106 Connection diagrams, Resistance thermometer sensors  107 Technical data - CM-TCS.xx  108 Technical data - C51x  110 2CDC110004C0209.pdf   171 11/26/2013   4:50:58 PM

2/103   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Benefits and advantages, Applications Characteristics CM-TCS   ½   Adjustable sensor type: PT100   ½   Functionality like overtemperature monitoring, undertemperature moni- toring, temperature window monitoring configurable   ½   All configurations and adjustments by front-face operating elements    ½   Precise adjustment with direct reading scales   ½   One or two threshold values   ½   Hysteresis 2...20 % adjustable   ½   Operating temperature range -40...+60 °C   ½   1 x 2 c/o or 2 x 1 c/o configurable   ½   Open- or closed-circuit principle configurable   ½   Short-circuit monitoring and interrupted wire detection   ½   22.5 mm (0.89 in) width   ½   LEDs for status indication Characteristics C512 + C513   ½   Adjustable sensor types: PT100, PT1000, KTY83, KTY84,  NTC-B57227-K333-A1   ½   Measuring principle for 2-wire and 3-wire sensors   ½   Temperature monitor for 1-3 sensor circuits   ½   Adjustable over-, undertemperature monitoring or range moni- toring function   ½  2 thresholds   ½   Hysteresis for both thresholds (1-99 Kelvin)   ½   Adjustable time delay from 0-999 s affects to both thresholds   ½   Storage function selectable via external signal (Y1-Y2)   ½   Non volatile storage of parameter settings   ½   1 n/o (for wire-break and short-circuit detection) and 2 c/o   ½   Multifunctional digital display   ½   3 LEDs for status indication   ½   Open- or closed-circuit principle selectable   ½   45 mm wide housing with 24 terminals C513   ½   Temperature monitor for 1-3 sensor circuits   ½   In the 3-sensor version the status of the single  sensors is displayed if the temperature exceeds or falls below the threshold. This way it can be easily determined which one of the connected sensors has exceeded or dropped below either one or both threshold values. C512   ½   Temperature monitor for 1 sensor circuit Functional description The temperature monitoring relays CM-TCS monitor overtemperature, undertemperature, or temperatures between two threshold values (window monitoring) with PT100 sensor. As soon as the temperature falls below or exceeds the threshold value the output relays change their positions according to the configured functionality and the front-face LEDs display the current status. Regardless of the selected configuration, the device is monitoring its measuring circuit for interrupted wires or short-circuits. Overview The temperature monitoring relays can be used for temperature measure-ment in solid, liquid and gaseous media. The temperature is acquired by the sensor in the medium, evaluated by the device and monitored to determine whether it is within an operating range (range monitoring func-tion) or has exceeded or fallen below a threshold.  2CDC110004C0209.pdf   172 11/26/2013   4:50:58 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/104  2 Temperature monitoring relays Operating controls 4 1 2 3 5 1   Adjustment of the hysteresis for threshold value t1 2   Adjustment of the threshold value t1 3   Indication of operational states U: green LED – status indication of control supply voltage t: red LED – fault message, state of measuring inputR: yellow LED – status indication of the output relays 4   Adjustment of the hysteresis for threshold value t2 5   Adjustment of the threshold value t2 6   DIP switch functions / marker label (on page 2/108) p Overtemperature monitoringq Undertemperature monitoringr Temperature window monitoring activateds Temperature window monitoring de-activatedg Closed-circuit principleh Open-circuit principlei 2 x 1 c/o (SPDT) contactj 1 x 2 c/o (SPDT) contacts S-Range Housing 2CDC110004C0209.pdf   173 11/26/2013   4:50:58 PM

2/105   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Selection New range Or der number 1SVR 730 740 R9100 1SVR 740 740 R9100 1SVR 730 740 R0100 1SVR 740 740 R0100 1SVR 730 740 R9200 1SVR 740 740 R9200 1SVR 730 740 R0200 1SVR 740 740 R0200 1SVR 730 740 R9300 1SVR 740 740 R9300 1SVR 730 740 R0300 1SVR 740 740 R0300 1SAR 700 016 R0005 1SAR 700 016 R0010 1SAR 700 016 R0010 T ype CM-TCS.21S CM-TCS.21P CM-TCS.11S CM-TCS.11P CM-TCS.22S CM-TCS.22P CM-TCS.12S CM-TCS.12P CM-TCS.23S CM-TCS.23P CM-TCS.13S CM-TCS.13P C512-24 C512-W C513-W Rated control supply voltage U s 24 V AC/DC ½ ½ ½ ½ ½ ½ ½ 24-240 V AC/DC ½ ½ ½ ½ ½ ½ ½ ½ Technology analogue ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ digital ½ ½ ½ Sensor circuits (2 or 3 wire) number of temperature sensors 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 number of thresholds 2 2 2 2 2 2 2 2 2 2 2 2 2 2 3 Sensor type PT100 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ PT100, KTY83, KTY84, NTC, PT1000 ½ ½ ½ Measuring temperature range -50...+50 °C ½ ½ ½ ½ 0...+100 °C ½ ½ ½ ½ 0...+200 °C ½ ½ ½ ½ -50...+500 °C ½ ½ ½ Monitoring function overtemperature ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ undertemperature ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ window temperature ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Operating principle open or closed principle ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ Output contacts n/o 1 1 1 c/o 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2CDC110004C0209.pdf   174 11/26/2013   4:50:59 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/106  2 Temperature monitoring relays Ordering details Description Acquisition, messaging and regulation of temperatures of solid, liquid and gaseous media in  processes and machines via PT100, PT1000, KTY83, KTY84 or NTC sensors. ABB offers different temperature monitoring relays to meet the needs of your application: Ordering details - Temperature monitoring relays C51x range with display and digital setup Rated control sup-ply voltage Measuringrange Type  2) Order code Price 1 pce Weight(1 pce) kg (lb) 24 V AC/DC -50...+500 °C  1) C512-24 1SAR700100R0005 0.32 (0.71) 24-240 V AC/DC C512-W 1SAR700100R0010 0.33 (0.73) 24-240 V AC/DC C513-W 1SAR700110R0010 0.34 (0.75) Ordering details - Replaceable cover marking for digital devices Use for Language Type  Order code Price 5 pces Weight(1 pce) kg (lb) C512 German C512-D 1SVR700101R0100 C512 English C512-E 1SVR700102R0100 C513 German C513-D 1SVR700111R0100 C513 English C513-E 1SVR700112R0100 2CDC 251 031 V0012 1SVC 110 000 F0557   CM-TCS C512, C513 1)  The measuring range depends on the used sensor type:   ½  PT100:  -50...+500 °C     ½   PT1000: -50...+500  °C   ½  NTC:  +80...+160 °C (Typ Siemens Matsushita B57272-A333-A1 - 100 °C: 1,8 k :, 25 °C: 32,762 k:)   ½  KTY84:  -40...+300 °C   ½  KTY83:  -50...+175 °C  3)  PT100 sensors, PT1000, KTY83, KTY84, NTC-B57227-K333-A1, 2 or 3 wire connection, 2 thresholds, multifunctional display  Open- or closed-circuit principle adjustable, 1 n/o, 2 c/o contacts Ordering details - Temperature monitoring relays PT100 sensors, 2 or 3 wire connection, 2 thresholds adjustable Rated control supply voltage Measuringrange Type Order  code Price 1 pce Weight(1 pce) kg (lb) 24-240 V AC/DC -50...+50 °C CM-TCS.11S  1SVR730740R0100 0.151 (0.333) CM-TCS.11P  1SVR740740R0100 0.140 (0.309) 0...+100 °C CM-TCS.12S  1SVR730740R0200 0.151 (0.333) CM-TCS.12P  1SVR740740R0200 0.140 (0.309) 0...+200 °C CM-TCS.13S  1SVR730740R0300 0.151 (0.333) CM-TCS.13P  1SVR740740R0300 0.140 (0.309) 24 V AC/DC -50...+50 °C CM-TCS.21S  1SVR730740R9100 0.138 (0.304) CM-TCS.21P  1SVR740740R9100 0.127 (0.280) 0...+100 °C CM-TCS.22S  1SVR730740R9200 0.138 (0.304) CM-TCS.22P  1SVR740740R9200 0.127 (0.280) 0...+200 °C CM-TCS.23S  1SVR730740R9300 0.138 (0.304) CM-TCS.23P  1SVR740740R9300 0.127 (0.280) 2CDC110004C0209.pdf   175 11/26/2013   4:50:59 PM

2/107   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Function diagrams CM-TCS - Overtemperature monitoring, 1 x 2 c/o contacts j Undertemperature monitoring, 1 x 2 c/o contacts j Temperature window monitoring, 1 x 2 c/o contacts j Temperature window monitoring, 2 x 1 c/o contact i Undertemperature monitoring, 2 x 1 c/o contact i Overtemperature monitoring, 2 x 1 c/o contact i A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed  open  Threshold  ϑ1 Hysteresis  Measured value U: green LED ϑ: red LED R: yellow LED U: green LED ϑ: red LED R: yellow LED Open-circuit principle       Closed-circuit principle       A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed  open  Hysteresis  Measured value U: green LED ϑ: red LED R: yellow LED U: green LED ϑ: red LED R: yellow LED Open-circuit principle       Closed-circuit principle       Threshold  ϑ2 A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed open Threshold  ϑ1 Hysteresis  Measured value Threshold  ϑ2 Hysteresis Open-circuit principle      U: green LED ϑ: red LED R: yellow LED Closed-circuit principle      U: green LED ϑ: red LED R: yellow LED A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed open Threshold  ϑ1 Hysteresis  Measured value Threshold  ϑ2 Hysteresis Open-circuit principle      U: green LED ϑ: red LED R: yellow LED Closed-circuit principle      U: green LED ϑ: red LED R: yellow LED A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed open Threshold  ϑ1 Hysteresis  Measured value Hysteresis Threshold  ϑ2 Open-circuit principle      U: green LED ϑ: red LED R: yellow LED Closed-circuit principle      U: green LED ϑ: red LED R: yellow LED A1-A2  11-1411-12 21-2421-22 11-1411-12 21-2421-22 closed open Threshold  ϑ1 Hysteresis  Measured value Hysteresis Threshold  ϑ2 Open-circuit principle      U: green LED ϑ: red LED R: yellow LED Closed-circuit principle      U: green LED ϑ: red LED R: yellow LED 2CDC 252 008 F0209 2CDC 252 010 F0209 2CDC 252 012 F0209 2CDC 252 013 F0209 2CDC 252 011 F0209 2CDC 252 009 F0209 With this configuration, settings via t2 have no influence on the operating function (t2 disabled). Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied.  If the measured value exceeds the adjusted threshold value t1, the output relays energize. If the measured  value drops again below the adjusted threshold value t1 minus the adjusted hysteresis, the output relays  de-energize. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. With this configuration, settings via t1 have no influence on the operating function (t1 disabled). Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied. If the measured value drops below the adjusted threshold value t2, the output relays energize. If the measured value exceeds again the adjusted threshold value t2 plus the adjusted hysteresis, the output relays de-energize. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied. If the measured value exceeds the adjusted threshold value t1 or drops below the adjusted threshold value t2, the output relays energize. If the measured value drops again below the adjusted threshold value t 1  minus the adjusted hysteresis  or exceeds again the adjusted threshold value t2 plus the adjusted hysteresis, the output relays de-energize. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied. If the measured value exceeds the adjusted threshold value t1 or drops below the adjusted threshold value t2, output relay R1 (  t1) or R2 (  t2) respectively energizes. If the measured value drops again below the adjusted threshold value t1 minus the adjusted hysteresis or exceeds again the adjusted threshold value t2 plus the adjusted hysteresis, output relay R1 ( t1) or R2 ( t2) respectively de-energizes. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied. If the measured value drops below the adjusted threshold value t1, output relay R1 (prewarning) energizes. If the measured value drops below the adjusted threshold value t2, output relay R2 (final switch-off) energizes. If the measured value exceeds again the adjusted threshold value t2 plus the adjusted hysteresis, output relay R2 (final switch-off) de-energizes. If the measured value exceeds the adjusted threshold value t1 plus the adjusted hysteresis, output relay R1 (prewarning) de-energizes. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. Open-circuit principle: If the measured value is correct, the output relays remain de-energized when control supply voltage is applied. If the measured value exceeds the adjusted threshold value t2, output relay R2 (prewarning) energizes. If the measured value exceeds the adjusted threshold value t1, output relay R1 (final switch-off) energizes. If the measured value drops again below the adjusted threshold value t1 minus the adjusted hysteresis, output relay R1 (final switch-off) de-energizes. If the measured value drops below the adjusted threshold value t2 minus the adjusted hysteresis, output relay R2 (prewarning) de-energizes. Closed-circuit principle: The behavior is inverse to the one with open-circuit principle. 2CDC110004C0209.pdf   176 11/26/2013   4:50:59 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/108  2 DIP switches CM-TCS Position 4  1  2  3  ON  OFF  i g r p q s h j ON OFF (default) DIP switch 1 Monitoring principle Overtemperature monitoring  p If overtemperature monitoring is selected, the CM-TCS recognizes temperatures above the selected threshold and trips the output relay according to the selected operating principle. Undertemperature monitoring  q If undertemperature monitoring is selected, the CM-TCS recognizes temperatures below the selected threshold and trips the output relay according to the selected operating principle. DIP switch 2 Temperature window monitoring Temperature window monitoring activated  r If temperature window monitoring is selected, the CM-TCS monitors over- and undertemperature. If temperature window monitoring is acti-vated, DIP switch 1 is disabled. Temperature window monitoring de-activated  s Temperature window monitoring is de-selected. DIP switch 3 Operating principle of the output relays Closed-circuit principle  g If closed-circuit principle is selected, the output relays are energized. They de-energize if a fault is occuring. Open-circuit principle  h If open-circuit principle is selected, the output relays are deenergized. They energize if a fault is occuring. DIP switch 4 2 x 1 c/o contact, 1 x 2 c/o contacts 2 x 1 c/o (SPDT) contact  i If operating principle 2 x 1 c/o contact is selected, the output relay R1 (11-12/14) reacts to threshold value t 1  and the output relay R2 (21- 22/24) reacts to threshold value t 2 . 1 x 2 c/o (SPDT) contacts  j If operating principle 1 x 2 c/o contacts is selected, both output relays R1 (11-12/14) and R2 (21-22/24) react synchronously to one threshold value.Overtemperature monitoring: Settings of the threshold value t 2  have no  effect on the operation.Undertemperature monitoring: Settings of the threshold values t 2  have  no effect on the operation. Characteristic curves of resistance sensors -100            0            100         200          300         400          500 5000 4000 3000 2000 1000 0 NTC KTY83 KTY84 PT1000 PT100 Resistance in  ⏲ Temperature in °C 2CDC 252 076 F0207 t t t Us K1 K2 1 2 t t t Us K1 K2 1 2 t t t Us K 2 K 1 1 J 2 J t t t Us K1 K2 1 2 t t t Us K1 K2 1 2 t t Us - Y1 Y2 K1 t K2 1 2 1SVC 110 000 F0191 1SVC 110 000 F0192 1SVC 110 000 F0195 1SVC 110 000 F0196 t t t Us K 2 K 1 1 J 2 J 1SVC 110 000 F0193  1SVC 110 000 F0194 1SVC 110 000 F0197 Function principle with storage function  - C512/C513 using overtemperature with closed-circuit principle as an example Range monitoring   - C512/C513 absolute limit hysteresis Overtemperature - C512/C513 Open-circuit principle Open-circuit principle Closed-circuit principle Closed-circuit principle Closed-circuit principle Undertemperature - C512/C513 Open-circuit principle Temperature monitoring relays Overview, Functional description and diagrams Functional description Digital tripping devices Once the temperature has reached the set threshold of  X1, output relay  K1 changes its switching state after the set time delay t has elapsed (K2 reacts in the same way for  X2). Function diagrams 2CDC110004C0209.pdf   177 11/26/2013   4:50:59 PM

2/109   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Connection diagrams, Resistance thermometer sensors A2 A1 K1 15 16 18 K2 25 28 K3 33 34 26 Y2 Y1 1T11T21T3 2T12T22T3 3T13T23T3 Memory Ready 1 2 A2 A1 T1 K1 15 16 T2T3 18 K2 25 28 K3 33 34 26 Y2 Y1 Memory Ready 1 2 2CDC 252 025 F0010 1SVC 110 000 F0202 CM-TCS C512 C513 Connection diagrams Connection of resistance thermometer sensors A1-A2  Control supply voltage  11-12/14  Output relay R1 21-22/24  Output relay R2 T1, T2, T3  Measuring input, connection PT100 A1-A2  Rated control suppy    voltage 15-16/18 Output contacts 25-26/28 33-34 T1-T3 Sensor  connection Y1-Y2 Connection  for     storage  bridge A1-A2  Rated control suppy    voltage 15-16/18 Output contacts 25-26/28 33-34 1T1-1T3  Sensor connection 1 2T1-2T3  Sensor connection 2 3T1-3T3  Sensor connection 3 Y1-Y2  Connection for    storage  bridge A 1 11 21 T3 24 T2 T1 22 14 12 A2 T1 T2 T3 11 21 A1 A2 12 14 22 24 T2 PT100 T3 T1 T2 PT100 T3 T1 2CDC 252  021 F0010 2CDC 252  022 F0010 Temperature error (depending on the line length and conductor cross section for PT100 sensors at an ambient temperature of 20 °C, in K) 2-wire measurement When using 2-wire temperature sensors the sensor resistance and the wire resistance are added together. The resulting systematic errors must be taken into account when adjus-ting the tripping device.  Error caused by the line The error resulting from the line resistance amounts to approx. 2.5 Kelvin/Ohm. If the resistance of the line is not known and it is not possible to measure it, the error caused by the line can be estimated using the fol-lowing table. 3-wire measurement To minimize the influence of the wire resistance, a three-wire connection is usually used.  By means of the additional wire two measuring circuits  are created. One of these two circuits is used for reference. This way, the tripping device  Electrical isolation A jumper must be connected bet-ween the terminals T2 and T3. The following table can be used for PT100 sensors to determine the temperature errors caused by the line length. When using resistance sensors with two-wire connection a bridge must be inserted between terminals T2 and T3. can calculate and take into account the wire resistance automatically. Line length in m Wire size mm 2 0.50 0.75 1 1.5 010255075100200500 0.01.84.59.013.618.136.391.6 0.01.23.06.09.012.124.260.8 0.00.92.34.56.89.018.145.5 0.00.61.53.04.56.012.130.2 2CDC 252 019 F0010 2CDC 252 020 F0010 Electrical isolation Protective searation acc. to IEC/EN 61140; EN 50178 2CDC110004C0209.pdf   178 11/26/2013   4:51:00 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/110  2 Temperature monitoring relays Technical data - CM-TCS.xx Type CM-TCS.11/12/13 CM-TCS.21/22/23 Input circuit Rated control supply voltage U s A1-A2 24-240 V AC/DC 24 V AC/DC Rated control supply voltage U s  tolerance -15...+10 % Typical current / power / consumption   24 V DC 33 mA / 0.8 VA 18 mA / 0.45 VA 115 V AC 12.5 mA / 1.5 VA n/a 230 V AC 13 mA / 2.9 VA n/a Rated frequency  AC 15-400 Hz 50/60 Hz Frequency range  AC 13.5-440 Hz 45-65 Hz Power failure buffering time  min. 20 ms Measuring circuit T1, T2, T3 Sensor type PT100 Connection of the sensor  2-wire yes, jumper between T2-T33-wire yes, use terminal T1, T2, T3 Monitoring function overtemperature, undertemperature or window monitoring Threshold values adjustable within the measuring range CM-TCS.x1 -50…+50 °CCM-TCS.x2 0…+100 °CCM-TCS.x3 0…+200 °C Number of possible thresholds 2 Tolerance of the adjusted threshold value typ. ±5 % of the range end value Hysteresis related to the threshold value 2-20 % of threshold value, min. 1 °C Measuring principle continuous current Typical current in the sensor circuit 0.8 mA Maximum current in sensor circuit 0.9 mA Interrupted wire detection yes, indicated via LED status Short-circuit detection yes, indicated via LED status Accuracy within the rated control supply voltage tolerance  0.2 °C / or   0.01 %/K Accuracy within the temperature range  0.2 °C / or   0.01 %/K Repeat accuracy (constant parameters)  0.2 % of full scale Maximum measuring cycle 320 ms Output circuit Kind of output    2 x 1 or 1 x 2 c/o (SPDT) contacts configurable Operating principle open- or closed-circuit principle configurable  1) Contact material AgNi alloy, Cd free Rated operational voltage (IEC/EN 60947-1) 250 V AC / 300 V DC Minimum switching voltage / Minimum switching current 24 V / 10 mA Maximum switching voltage / Maximum switching current see ‘Load limit curves' Rated operating current I e  (IEC/EN 60947-1-5) AC12 (resistive) 230 V 4 A AC15 (inductive 230 V 3 A DC12 (resistive) 24 V 4 A DC13 (inductive) 24 V 2 A AC Rating (UL508) utilization category B 300, pilot duty general purpose (250 V, 4 A, cos  M 0.75) maximum rated operational voltage 250 V AC maximum continuous thermal current at B 300 4 A maximum making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Maximum fuse rating to achieve short-circuit protection   n/c contact 6 A fast-actingn/o contact 10 A fast-acting Conventional thermal current I th  acc. IEC/EN 60947-1 4 A General data Dimensions (W x H x D) 22.5 x 85.6 x 103.7 mm (0.89 x 3.37 x 4.08 in) Mounting position any Screw connection technology Easy Connect Technology (push-in) Weight net weight CM-TCS.1x 0.151 kg (0.333 lb) 0.140 kg (0.309 lb) CM-TCS.2x 0.138 kg (0.304 lb) 0.127 kg (0.280 lb) gross weight CM-TCS.1x 0.176 kg (0.388 lb) 0.165 kg (0.364 lb) CM-TCS.2x 0.163 kg (0.360 lb) 0.152 kg (0.335 lb) Degree of protection  enclosure / terminals IP50 / IP20 Ambient temperature range operation -40...+60 °C storage/transport -40...+85 °C Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool 1)   Closed-circuit principle: Output relay(s) de-energize(s) if measured value exceeds or falls below the adjusted threshold value 2CDC110004C0209.pdf   179 11/26/2013   4:51:00 PM

2/111   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Temperature monitoring relays Technical data - CM-TCS.xx Type CM-TCS.11/12/13 ) CM-TCS.21/22/23 Electrical connection Wire size  Screw connection technology Easy Connect Technology (Push-in) fine-strand without wire  end ferrule A1, A2, 11, 12, 14, 21, 22, 24 1 x 0.5-2.5 mm² (1 x 20-14 AWG) 2 x 0.5-1.5 mm² (2 x 20-16 AWG) 2 x 0.5-1.5 mm² (2 x 20-16 AWG)connection with lever T1, T2, T3 1 x 0.2-2.5 mm² (1 x 24-14 AWG) 2 x 0.2-1.5 mm² (2 x 24-16 AWG) 2 x 0.2-1.5 mm² (2 x 24-16 AWG)connection with lever fine-strand with wire  end ferrule A1, A2, 11, 12, 14, 21, 22, 24 1 x 0.5-2.5 mm² (1 x 20-14 AWG) 2 x 0.5-1.5 mm² (2 x 20-16 AWG) 2 x 0.5-1.5 mm² (2 x 20-16 AWG)connection: push-in T1, T2, T3 1 x 0.2-2.5 mm² (1 x 24-14 AWG) 2 x 0.2-1.5 mm² (2 x 24-16 AWG) 2 x 0.2-1.5 mm² (2 x 24-16 AWG)insulated ferrule (DIN 46228-4-E):connection: push-inferrule (DIN 46228-1-A):  0.5 mm², connection with lever ͧ 0.5 mm², connection: push-in rigid A1, A2, 11, 12, 14, 21, 22, 24 1 x 0.5-4 mm² (1 x 20-12 AWG)2 x 0.5-2.5 mm² (2 x 20-14 AWG) 2 x 0.5-1.5 mm² (2 x 20-16 AWG)connection: push-in T1, T2, T3 1 x 0.2-4 mm² (1 x 24-12 AWG) 2 x 0.2-2.5 mm² (2 x 24-14 AWG) 2 x 0.2-1.5 mm² (2 x 24-16 AWG)  0.5 mm², connection with lever ͧ 0.5 mm², connection: push-in Stripping length 8 mm (0.32 in) Tightening torque 0.5 mm² 0.5 Nm (4.43 lb.in) - ͧ 0.5 mm² 0.6 - 0.8 Nm (5.31 - 7.08 lb.in) - Standards Product standard IEC/EN 60255-6: 2008 Other standards EN 50178, IEC/EN 60204 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Environmental data Ambient temperature ranges operation/storage/ transport -40...+60°C/-40...+85°C/-40...+85°C Climatic category 3K5 (no condensation, no ice formation) Damp heat, cyclic 6 x 24 h cycle, 55 °C, 95 % RH Vibration, sinusoidal Class 2 Shock Class 2 Isolation data Rated impulse withstand voltage U imp  between all  isolated circuits  (IEC/EN 60947-1, IEC/EN 60664-1) supply circuit /   measuring circuit 4 kV - supply circuit / output circuits 4 kV measuring circuit / output circuits 4 kV output circuit 1 / output circuit 2 4 kV Pollution degree (IEC/EN 60664-1) 3 Overvoltage category (IEC/EN 60664-1) III Rated insulation voltage U i    (IEC/EN 60947-1, IEC/EN 60664-1) supply circuit / measuring circuit 300 V - supply circuit / output circuits 300 V measuring circuit / output circuits 300 V output circuit 1 / output circuit 2 300 V Basis isolation for rated control supply voltage (IEC/EN 60664-1) supply circuit / measuring circuit 250 V AC / 300 V DC - supply circuit / output circuits 250 V AC / 300 V DC measuring circuit / output circuits 250 V AC / 300 V DC output circuit 1 / output circuit 2 250 V AC / 300 V DC Protective separation (IEC/EN 61140, EN 50178) supply circuit / measuring circuit 250 V AC / 250 V DC - supply circuit / output circuits 250 V AC / 300 V DC 250 V AC / 250 V DC measuring circuit / output circuits 250 V AC / 300 V DC 250 V AC / 250 V DC Test voltage between all isolated circuits, routine test (IEC/EN 60255-5, IEC/EN 61010-1) supply circuit / measuring circuit 2.0 kV, 50 Hz, 1 s - supply circuit / output circuits 2.0 kV, 50 Hz, 1 s measuring circuit / output circuits 2.0 kV, 50 Hz, 1 s Test voltage between all isolated circuits, type test (IEC/EN 60255-5) supply circuit / measuring circuit 4.0 kV, 50 Hz, 1 s - supply circuit / output circuits 4.0 kV, 50 Hz, 1 s measuring circuit / output circuits 4.0 kV, 50 Hz, 1 s Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2, IEC/EN 61326-2-4 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (1 GHz) / 3 V/m (2 GHz) / 1 V/m (2.7 GHz) electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2 KV / 5 kHz surge IEC/EN 61000-4-5 Level 3, installation class 3, supply circuit and measuring circuit 1 kV L-L, 2 kV  L-earth conducted disturbances, induced by radio-fre-quency fields IEC/EN 61000-4-6 Level 3, 10 V voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 Class 3 harmonics and interharmonics IEC/EN 61000-4-13 Class 3 Interference emission EN 61000-6-3, EN 61000-6-4 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B 2CDC110004C0209.pdf   180 11/26/2013   4:51:00 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/112  2 Temperature monitoring relays Technical data - C51x Type C512 C513 Input circuit Rated control supply voltage U s A1-A2 24 V AC/DC - A1-A2 24-240 V AC/DC Power consumption    AC  7 VA DC  4 W Rated control supply voltage U S  tolerance -15...+10 % Rated frequency  AC Sensor circuit Sensor type PT100, PT1000, KTY83, KTY84, NTC Sensor current  PT100 typ. 1 mA PT1000, KTY83, KTY84, NTC typ. 0.2 mA Wire-break detection yes (not for NTC) Short-circuit detection yes 3-wire connection yes (2-wire connection of sensors with terminals T2 and T3 bridged) Measuring circuit Setting accuracy at T a  = 20 °C (T 20 )  ±2 K ± 1 digit Accuracy within the temperature range 0.05 °C / °C deviation from T 20 Response time 500 ms Hysteresis settings  temperature 1 1-99 kelvintemperature 2 1-99 kelvin Tripping delay 0-999 s Output circuit Kind of output 2 c/o + 1n/o 2 c/o + 1 n/o Rated operating current I e  (IEC/EN 60947-1-5)    AC12 (resistive) 230 V n/a AC15 (inductive) 230 V 3 A  DC12 (resistive) 24 V 1 A DC13 (inductive) 24 V 0.1 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC15 at 3 A) 0.1 x 10 5  switching cycles  Max. fuse rating to achieve short-circuit protection 4 A, operating class gL/gG General data Dimensions (W x H x D) 45 x 105.9 x 86 mm (1.77 x 4.17 x 3.39 in) Tightening torque 0.8-1.2 Nm Mounting position any Degree of protection  enclosure / terminals IP 40 / IP 20 Ambient temperature range  operation -25...+60 °C storage -40...+80 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size  rigid 1 x 4 mm² (1 x 12 AWG), 2 x 2.5 mm² (2 x 14 AWG) fine-strand with wire end ferrule 1 x 2.5 mm² (1 x 14 AWG), 2 x 1.5 mm² (2 x 16 AWG) Standards Environmental conditions IEC 60721-3-3 Low Voltage Directive IEC 60947-5-1, VDE 0660 Electromagnetic compatibility Interference immunity EN 61000-6-2 Interferenece emission EN 61000-6-4 Vibration resistance (IEC 68-2-6) 5-26 Hz / 0.75 mm Shock resistance (IEC 68-2-27) 15 g / 11 ms Isolation data Rated insulation voltage 300 V AC Pollution degree 3 2CDC110004C0209.pdf   181 11/26/2013   4:51:00 PM

2/113   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Product group picture 2CDC110004C0209.pdf   182 11/26/2013   4:51:00 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/114  2 Liquid level monitors and controls Table of contents Liquid level monitors and controls Product group picture  111 Table of contents  112 Benefits and advantages  113 Operating controls  114 Ordering details  115 Ordering details - Accessories  116 Function diagrams  117 Connection diagrams  119 Application examples  120 Application examples  121 Technical data  122 2CDC110004C0209.pdf   183 11/26/2013   4:51:02 PM

2/115   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Benefits and advantages   ½   Monitoring of pump systems for dry running (ENE MIN) and overflow (ENE MAX)   ½   Connection of 2 electrodes possible at C and MIN/MAX   ½   3 supply voltage versions   ½   Optimal price/performance ratio   ½   1 n/o contact: Open-circuit principle for CM-ENE MIN, Closed-circuit principle for CM-ENE MAX   ½   LED for status indication   ½   Monitoring and control of liquid levels (when draining or filling liquids in tanks)   ½   Monitoring and control of mixture ratios (conductivity of liquids)   ½   Adjustable response sensitivity 5-100 k ⏲   ½   4 supply voltage versions 24 - 415 V AC   ½   Version with protective separation acc. to VDE 0160  J   ½  Cascadable   ½   1 c/o contact or 1 n/o and 1 n/c contact   ½   2 LEDs for status indication   ½   Monitoring and control of liquid levels    ½   Selectable function "fill" or "drain"   ½   Adjustable response sensitivity 5-100 k ⏲   ½   Cascadable   ½   1 c/o contact   ½   2 LEDs for status indication   ½   Monitoring and control of liquid levels (when emptying or filling liquids in tanks)   ½   Monitoring and control of mixture ratios (conductivity of liquids)   ½   3 response sensitivities from 250  ⏲ - 500 k⏲ in one unit   ½   5 supply voltage versions 24 V AC/DC - 415 V AC   ½   Selectable ON- or OFF-delay 0.1-10 s   ½   2 c/o contacts   ½   2 LEDs for status indication CM-ENE MIN/MAX CM-ENN CM-ENN UP/DOWN CM-ENS CM-ENS UP/DOWN   ½   Liquid level relay with 5 electrode inputs   ½   Level control with integrated overflow and dry-running protection   ½   Adjustable response sensitivity 5-100 k ⏲   ½   Cascadable   ½   1 c/o contact and 2 n/c contacts as alarm outputs   ½   4 LEDs for status indication 2CDC110004C0209.pdf   184 11/26/2013   4:51:02 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/116  2 Liquid level monitors and controls Operating controls 4 1 1 2 2 3 3 CM-ENS CM-ENN 1   „Sens.“ - sensitivity potentiometer for adjusting the response sensitivity 2   Indication of operational states R: yellow LED - relay status U: green LED -control supply voltage 3  Marker label 1   „Function.“ - function selector switch: „UP“- fi ll „DOWN“ - drain 2   „Sens.“ - potentiometer for adjusting the  response sensitivity 3   Indication of operational states R: MIN/MAX: yellow LED - relay status MIN/MAX U: green LED - control supply voltage R AL1: yellow LED - relay status AL1 R AL2: yellow LED - relay status AL2 4  Marker label 2CDC110004C0209.pdf   185 11/26/2013   4:51:02 PM

2/117   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Ordering details Description ABB‘s liquid level monitoring relays for regulation and control of liquid levels and ratios of mix- tures of conductive fluids. The assortment includes single function and multifunction monitoring relays which can be  used for overflow and dry-running protection, for filling and draining applications, for max and  min alarm or any combination of such functions. Furthermore a wide range of accessories is  available  Ordering details Rated control supply voltage Type  Order code Price 1 pce Weight(1 pce) kg (lb) 24 V AC CM-ENE MIN 1SVR550855R9500 0.15 (0.33) 110-130 V AC 1SVR550850R9500 0.15 (0.33) 220-240 V AC 1SVR550851R9500 0.15 (0.33) 24 V AC CM-ENE MAX 1SVR550855R9400 0.15 (0.33) 110-130 V AC 1SVR550850R9400 0.15 (0.33) 220-240 V AC 1SVR550851R9400 0.15 (0.33) 24 V AC CM-ENS 1SVR430851R9100 0.15 (0.33) 110-130 V AC 1SVR430851R0100 0.15 (0.33) 220-240 V AC 1SVR430851R1100 0.15 (0.33) 380-415 V AC 1SVR430851R2100 0.15 (0.33) 220-240 V AC  1) 1SVR430851R1300 0.15 (0.33) 24 V AC CM-ENS UP/DOWN 1SVR430851R9200 0.15 (0.33) 110-130 V AC 1SVR430851R0200 0.15 (0.33) 220-240 V AC 1SVR430851R1200 0.15 (0.33) 24-240 V AC/DC CM-ENN 1SVR450055R0000 0.30 (0.66) 24 V AC 1SVR450059R0000 0.30 (0.66) 110-130 V AC 1SVR450050R0000 0.30 (0.66) 220-240 V AC 1SVR450051R0000 0.30 (0.66) 380-415 V AC 1SVR450052R0000 0.30 (0.66) 24 V AC CM-ENN UP/DOWN 1SVR450059R0100 0.15 (0.33) 110-130 V AC 1SVR450050R0100 0.15 (0.33) 220-240 V AC 1SVR450051R0100 0.15 (0.33) 380-415 V AC 1SVR450052R0100 0.15 (0.33) 1SVR 550 851 F9500 1SVR550 851 F9400 1SVR 430 851 F1100 1SVR 450 055 F0000 CM-ENE MIN CM-ENE MAX CM-ENS CM-ENN 1)  Version with protective separation acc. to VDE 0160, 1 n/o, 1 n/c Suitable for Not suitable for spring water acids, bases chemically pure water ethylene glycol drinking water liquid fertilizers fuel concentrated alcohol sea water milk, beer, coffee oils paraffin sewage non-concentrated  alcohol explosive areas (liquid gas) lacquers Liquid level monitors are 2CDC110004C0209.pdf   186 11/26/2013   4:51:03 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/118  2 Liquid level monitors and controls Ordering details - Accessories 127 6.8 0.268 1SVC 110 000 F0478 1SVR 450 056 F6000 1SVC 110 000 F 0477 1SVC 110 000 F 0476 1SVC 110 000 F 0475 1SVC 110 000 F 0479 1SVC 110 000 F 0522 L ➛ ➛ 1" thread Compact support CM-KH-3 for 3 bar electrodes sealing ring 1" counter nut CM-GM-1 (order code: 1SVR 450 056 R8000) (optional) distance plate CM-AH-3 (order code: 1SVR 4 450 056 R7000) (optional) Suspension electrode CM-HE Steel electrode (X14CrMoS17) with sleeve (Hostalen GC 7260) suitable up to 60°C max. M16 screwed cable gland screw-in bar electrodes with M4 thread (available as an option, see below)   ½   Ideally suited for use with liquid level relays CM-ENS and CM-ENN   ½   Wire connection by screw terminals   ½   Pull relief by M16 screwed cable glands   ½   Temperature range up to 90 °C   ½   Food safe material (PPH)   ½   Screw-in electrodes (M4 thread)   ½   Distance plate (CM-AH-3) and locking nut (CM-GM-1) optionally  available as an accessory  spanner size 36 electrodes distance plate CM-AH-3 counter nut CM-GM-1 M4 thread Compact support CM-KH-3 (Dimensions in mm) Counter nut CM-GM-1 Distance plate CM-AH-3 Technical data compact support Type of mounting:  G 1" thread  Mounting position:  any  Enclosure material:  PPH  Sealing: NBR  70  Temperature range:  90 °C max.   Pressure:  10 bar max.  (60 °C)  Screw-in bar electrodes for compact support CM-KH-3 Thread M4 Material: stainless steel 304, high-grade steel 14301 During project engineering the compatibility of the electrode material with the medium to be supervised is to be examined! Description Type Order  code Price Pkg qty Weight (1 pce) kg (lb) Compact support for 3 bar electrodes CM-KH-3 1SVR450056R6000 1 0.06 (0.132) Distance plate for 3 bar electrodes CM-AH-3 1SVR450056R7000 0.06 (0.132) Counter nut for 1“ thread CM-GM-1 1SVR450056R8000 0.06 (0.132) Lenght Type Order  code Price Pkg qty Weight (1 pce) kg (lb) 300 mm CM-SE-300 1SVR450056R0000 1 0.08 (0.176) 600 mm CM-SE-600 1SVR450056R0100 0.08 (0.176) 1000 mm CM-SE-1000 1SVR450056R0200 0.08 (0.176) CM-HE CM-HE 1SVR402902R0000 0.08 (0.176) 2CDC110004C0209.pdf   187 11/26/2013   4:51:03 PM

2/119   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Function diagrams 1SVC 110 000 F 0164 "DOWN" "UP" 11-1411-12 Max. Min. C 11-1411-12 A1-A2 Function diagram - CM-ENS UP/DOWN If a metal tank is used, the ground reference electrode C is not required. In this case the cable can be connected directly to the metal surface of the tank. 1SVC 110 000 F 0170 AL2MAXMINAL1C 21-22 31-32 11-1411-12 11-14 11-12 "DOWN" "UP" A1-A2 Function diagram - CM-ENN UP/DOWN The CM-ENS monitors levels of conductive liquids and is used for example for liquid level control in pump systems. It can be used for filling or draining tanks for example. It is also suitable for monitoring the conductivity of liquids. The measuring principle is based on the resistance change sensed by sin-gle-pole electrodes. After the supply voltage is applied to the terminals  A1 and A2, the output relay is de-energized. The probes must be connected to C, MAX, MIN. The output relay energizes if the liquid exceeds the maximum level (C and MAX wet) and de-energizes if the liquid level is below the mini-mum level (MAX and MIN dry). Basedau m on the measuring circuit there will be a response delay of approx. 250 ms at maximum sensitivity.  Different levels in one tank can be controlled by up to 5 CM-ENS without interfering with each other. 1SVC 110 000 F 0155 Max. Min. C 11-14 11-12 A1-A2 Function diagram - CM-ENS The CM-ENS UP/DOWN monitors levels of conductive liquids and other media, and is used e.g. for liquid level control in pump systems.  The measuring principle is based on the resistance change sensed by single-pole electrodes. The output relay functions fill (UP) or drain (DOWN) can be selected on a front-face selector switch. If the "UP" function  is selected, the output relay is energized until the MAX electrode becomes wet. Then it is de-energized and not re-energized until the MIN electrode becomes dry. If the "DOWN" function is selected, the output relay is energized as soon as the MAX electrode becomes wet. It remains energized until the liquid level has dropped below the MIN electrode. The electrodes can be connected to more than one CM-ENS unit without interference. The CM-ENN UP/DOWN monitors levels of conductive liquids and media and is used e.g. for liquid level control in pump systems. The measuring prin-ciple is based on the resistance change sensed by single-pole electrodes. The function of the output relay 11-12/14 can be selected by a selector switch on the front of the unit to fill "UP" or drain "DOWN". If the "UP" function is selected, the output relay is energized until the MAX electrode becomes wet. Then it is de-energized and not re-energized until the MIN electrode becomes dry.If the "DOWN" function is selected, the output relay is energized as soon as the MAX electrode becomes wet. It remains energized until the liquid level has dropped below the MIN electrode. The electrode inputs AL1 and AL2 energize/de-energize the correspopnding output relays RAL1 (21-22) and RAL2 (31-32). AL1 opens if contact RAL1 (21-22) is wet. AL2 closes if contact RAL2 (31-32) is wet. This way, two additional alarm outputs for exceeding or dropping below the normal level can be implemented in addition to the filling levels MAX and MIN. 2CDC110004C0209.pdf   188 11/26/2013   4:51:03 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/120  2 Liquid level monitors and controls Function diagrams 1SVC 110 000 F 0151 1SVC 110 000 F 0152 Function diagram - CM-ENE MIN A1-A2 13-14 MIN   C Function diagram CM-ENE MAX A1-A2 13-14 MIN   C 1SVC 110 000 F 0167 1SVC 110 000 F 0168 MAX MIN C  Circuit with 2 electrodes t A  = ON-delay, t R  = OFF-delay Circuit with 3 electrodes or or 15/18 15/16  A1-A2  MAX MIN C  15/18 15/16  A1-A2  Function diagrams - CM-ENN The liquid level relays CM-ENE MIN and CM-ENE MAX are used to moni-tor levels of conductive liquids, for example in pump control systems for dry-running or overflow monitoring.  The measuring principle is based on the occurring resistance change when moisting single-pole electrodes. The single-pole electrodes (see also section Accessories) are connected to the terminals C and MIN or MAX.  If the supply voltage is applied to A1-A2 and the electrodes are wet, the output relay of the CM-ENE MIN is energized and the output relay of the CM-ENE MAX is de-energized.  The output relay of the CM-ENE MIN de-energizes if the electrodes are no longer wet. The output relay of the CM-ENE MAX energizes if the electro-des are no longer wet. The CM-ENN monitors levels of conductive liquids and is used for example for liquid level monitoring in pump control systems, for dry-running protec-tion of submersible pumps or overflow monitoring of tanks. It is also suitable for conductivity monitoring of liquids. The measuring principle is based on the resistance change sensed by single-pole electrodes (wet or dry).  Instead of electrodes, other sensors or transducers can also be used if their output quantities are different resistance values. The measuring, out-put and supply circuits are electrically isolated for potential separation and to prevent electrical interference.  Due to the integrated ON- or OFF-delay, it is possible to set up time-dependent liquid controls using only two electrodes (C, MAX). Different liquid levels in one tank can be controlled by up to 5 CM-ENN (AC version) without mutual interference. 2CDC110004C0209.pdf   189 11/26/2013   4:51:03 PM

2/121   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Connection diagrams 1SVC 110 000 F 0158 Connection diagram CM-ENS 12 14 A2 C A1 MAX 11 MIN MIN 11 MAX C A2 A1 12 14 2CDC 252 042 F0003 A1 - A2   Rated control supply voltage C    Ground reference electrode MAX   Maximum  level MIN   Minimum  level 11-12/14  Output contacts - open-      circuit or closed-circuit     principle  selectable Connection diagram CM-ENS UP/DOWN 1SVC 110 000 F 0169 A1-A2    Rated control supply voltage C    Ground reference  electrode MIN    Min. level electrode MAX    Max. level electrode 15-16/18  Output contacts -  25-26/28 open-circuit  principle Connection diagram CM-ENN 1SVC 110 000 F 0153 1SVC 110 000 F 0154 A1-A2  Rated control supply voltage C  Ground reference  electrode MIN Minimum  level 13-14  Output contact -open-circuit principle A1-A2  Rated control supply voltage C  Ground reference electrode MAX Max.  level  13-14  Output contact -closed-circuit principle Connection diagram CM-ENE MIN Connection diagram CM-ENE MAX A1-A2  Rated control supply voltage C  Ground reference electrode MAX Maximum  level MIN Minimum  level 11 15 -12 16 /14 18   Output contacts - open-circuit   principle 1SVC 110 000 F 0172 A1-A2    Rated control supply voltage C    Ground reference electrode MIN    Minimum level electrode MAX    Maximum level electrode  AL1    Alarm electrode 1  AL2    Alarm electrode 2 11-12/14  Output contacts -  21-22    open-circuit or closed-circuit  31-32   principle  selectable Connection diagram CM-ENN UP/DOWN 2CDC110004C0209.pdf   190 11/26/2013   4:51:04 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/122  2 1SVC 110 000 F 0494 1SVC 110 000 F 0495 1SVC 110 000 F 0496 Application examples CM-ENE MIN/MAX CM-ENE MIN CM-ENE MAX CM-ENE MIN und CM-ENE MAX Liquid level monitors and controls Application examples 1SVC 110 000 F 0159 1SVC 110 000 F 0160 1SVC 110 000 F 0156 1SVC 110 000 F 0157 Cascading The electrode inputs can be intercon-nected as required,  which ensures simple monitoring of different liquid levels. Redundancy Redundant liquid level monito-ring or control can be implemented by connecting the electrodes to two units.  This makes the application much safer. Application examples CM-ENS fill  drain  1SVC 110 000 F 0159 1SVC 110 000 F 0160 1SVC 110 000 F 0160 1SVC 110 000 F 0161 1SVC 110 000 F 0162 Liquid level control - fill - switch  position "UP" Liquid level control - drain -  switch position "DOWN" Application examples CM-ENS UP/DOWN Cascading of electrodes The electrode inputs can be interconnected as required, which ensures simple monito-ring of different liquid levels. Redundancy Redundant liquid level moni-toring or control can be implemented by connecting the electrodes to two units.  This makes the application much safer. 2CDC110004C0209.pdf   191 11/26/2013   4:51:04 PM

2/123   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Application examples 1SVC 110 000 F 0165 1SVC 110 000 F 0166 fill drain Application examples CM-ENN For commissioning, set both potentiometers (response sensitivity = R value and ON-delay = time value) to the minimum value (5) and select a suitable resistance range (sector).  After all electrodes have been wetted by the liquid being monitored, turn the sensitivity potentiometer towards maximum value (100) until the relay energizes. If the relay does not energize, select a higher  ⏲ value (sector) on the device and proceed as before. Then it has to be che- cked if the relay de-energizes properly as soon as the electrodes C and MIN are no longer wet. Liquid levels higher than the maximum level electrode can be obtained by setting an ON-delay (TA = 0.1...10 s). Liquid levels lower than the minimum level electrode can be obtained by setting an OFF-delay time (TR = 0.1...10 s), e.g. for emptying tanks. 1SVC 110 000 F 0159 1SVC 110 000 F 0160 1SVC 110 000 F 0171 Application example CM-ENN UP/DOWN Cascading of electrodes The electrode inputs can be interconnected as required, which ensures simple monitoring of different liquid levels. Redundancy Redundant liquid level monito-ring or control can be implemented by connecting the electrodes to two units.  This makes the application much safer.   Electrode Relay    LED AL1  not wet  RAL1 (21-22)  closed  off AL1 wet  RAL1  (21-22)  open  on AL2 wet  RAL2  (31-32)  closed  off AL2  not wet  RAL2 (31-32)  open  on Supply voltage  RAL1 (21-22)    failure   RAL2  (31-32)  closed  off Reserve pump for emptying Pump control ("UP" or "DOWN") Reserve pump for filling 2CDC110004C0209.pdf   192 11/26/2013   4:51:05 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/124  2 Liquid level monitors and controls Technical data Type CM-ENE MIN CM-ENE MAX Supply circuit Rated control supply voltage U S  -  power consumption A1-A2 24 V AC approx. 1.5 VA A1-A2 110-130 V AC approx. 1.2 VA A1-A2 220-240 V AC approx. 1.4 VA Rated control supply voltage U S  tolerance -15...+15 % Rated frequency 50-60 Hz Duty time 100 % Measuring circuit MIN-C, MAX-C Monitoring function dry-running protection overflow protection Response sensitivity 0-100 k ⏲, not adjustable Maximum electrode voltage 30 V AC Maximum electrode current 1.5 mA Electrode supply line max. cable capacity 3 nF max. cable length 30 m Timing circuit Time delay - Tripping delay fixed approx. 200 ms Indication of operational states Output relay energized R: yellow LED Output circuits 13-14 Kind of output 1 n/o contact Operational principle  1) open-circuit principle closed-circuit principle Contact material AgCdO Rated operational voltage U e    (IEC/EN 60947-1) 250 V Mininimum switching voltage / minimum switching current - / - Maximum switching voltage 250 V Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive)  230 V 4 A AC15 (inductive)  230 V 3 A DC12 (resistive)  24 V  4 A DC13 (inductive)  24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.3 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection  n/c contact -n/o contact 10 A fast-acting General data Dimensions (W x H x D) 22.5 x 78 x 78.5 mm (0.89 x 3.07 x 3.09 in) Mounting position any Degree of protection enclosure / terminals IP50 / IP20 Ambient temperature range operation / storage -20...+60 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size fine-strand with wire-end ferrule 2 x 0.75-1.5 mm 2  (2 x 18-16 AWG) fine-strand without wire-end ferrule 2 x 1-1.5 mm 2  (2 x 18-16 AWG) rigid 2 x 0.75-1.5 mm 2  (2 x 18-16 AWG) Stripping length 10 mm (0.39 inch) Tightening torque 0.6-0.8 Nm Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility  EN 61000-6-2, EN 61000-6-4 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Resistance to vibration (IEC 68-2-6) 6 g Mechanical resistance (IEC 68-2-6) 10 g Isolation data Rat. insulation volt. betw. supply, meas. & output circuit (VDE 0110, IEC 60947) 250 V  Rated impulse withstand voltage between all isolated circuits (VDE0 110, IEC 664) 4 kV / 1.2-50 μs Test voltage between all isolated circuits 2.5 kV, 50 Hz, 1 min. Pollution category (VDE 0110, IEC 664, IEC 255-5) 3 / C Overvoltage category (VDE 0110, IEC 664, IEC 255-5) III / C Environmental testing (IEC 68-2-30) 24 h cycle time, 55 °C, 93 % rel., 96 h 1)   Open-circuit principle:  Output relay energizes if the measured value exceeds/drops below the adjusted threshold.    Closed-circuit principle:  Output relay de-energizes if the measured value exceeds/drops below the adjusted threshold. 2CDC110004C0209.pdf   193 11/26/2013   4:51:05 PM

2/125   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Liquid level monitors and controls Technical data Type CM-ENS CM ENS UP/DOWN Supply circuit Rated control supply voltage U S  -  power consumption A1-A2 24 V AC 24 V AC A1-A2 110-130 V AC approx. 1.5 VA 110-130 V AC approx. 4 VA A1-A2 220-240 V AC approx. 1.5 VA 220-240 V AC approx. 4 VA A1-A2 380-415 V AC approx. 1.5 VA Rated control supply voltage U S  tolerance -15...+10 % Rated frequency 50-60 Hz Duty time 100 %  Measuring circuit MAX-MIN-C Monitoring function liquid level control Response sensitivity 5-100 k :, adjustable Maximum electrode voltage 30 V AC Maximum electrode current 1 mA Electrode supply line max. cable capacity 10 nF max. cable length 100 m  Timing circuit Time delay - Tripping delay approx. 250 ms Indication of operational states Control supply voltage U: green LED Output relay energized R MA X/MIN: yellow LED Alarm relay AL1 - R AL1: yellow LED Alarm relay AL2 - R AL2: yellow LED Output circuits 11-12/14, 21-22, 31-32 Kind of output 1 c/o contact, 1 n/o + 1 n/c contact  2) Operational principle  1) open-circuit principle open- and closed-circuit principle Contact material AgCdo Rated operational voltage U e    (IEC/EN 60947-1) 250 V Minimum switching voltage / minimum switching current - / - Maximum switching voltage 250 V Rated operational current I e  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A AC15 (inductive) 230 V 3 A DC12 (resistive) 24 V  4 A DC13 (inductive)  24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 106 switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.3 x 106 switching cycles Max. fuse rating to achieve short-circuit protection n/c  /  n/o contact   10 A fast-acting / 10 A fast-acting General data Dimensions (W x H x D) 22.5 x 70 x 100 mm (0.89 x 3.07 x 3.94 in) Mounting position any Degree of protection enclosure / terminals IP50 / IP20 Ambient temperature range operation / storage -20...+60 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size fine-strand with wire end ferrule 2 x 2.5 mm2 (2 x 14 AWG) StandardsProduct standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility  - electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Resistance to vibration (IEC 68-2-6) 4 g Mechanical resistance (IEC 68-2-6) 6 g Isolation data Rated insulation voltage between supply, measuring and output circuit  (VDE 0110, IEC 60947) 250 V Rated impulse withstand voltage between all isolated circuits (VDE0 110, IEC 664) 4 kV / 1.2 - 50 μs Test voltage between all isolated circuits 2,5 kV, 50 Hz, 1 min. Pollution category (VDE 0110, IEC 664, IEC 255-5) 3 / C Overvoltage category (VDE 0110, IEC 664, IEC 255-5) III / C Environmental testing (IEC 68-2-30) 24 h cycle time, 55 °C, 93 % rel., 96 h 1)   Open-circuit principle:  Output relay energizes if the measured value exceeds/drops below the adjusted threshold.    Closed-circuit principle:  Output relay de-energizes if the measured value exceeds/drops below the adjusted threshold.  2)   1SVR 430 851 R1300 (version with safe isolation) 2CDC110004C0209.pdf   194 11/26/2013   4:51:06 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/126  2 Type CM-ENN UP/DOWN CM-ENN Supply circuit Rated control supply voltage U S  - power consumption A1-A2 24 V AC 24 V AC A1-A2 110-130 V AC approx. 1.5 VA 110-130 V AC approx. 2.5 VA A1-A2 220-240 V AC approx. 1.5 VA 220-240 V AC approx. 3 VA A1-A2 380-415 V AC approx. 1.5 VA 380-415 V ACapprox. 4 VA A1-A2 24-240 V AC/DC approx. 2 VA/W Rated control supply voltage U S  tolerance -15...+10 % Rated frequency 50-60 Hz 50-60 Hz oder DC Duty time 100 % Measuring circuit MAX-MIN-C Monitoring function liquid level control Response sensitivity adjustable adjustable 5-100 k ⏲ 250  ⏲ - 5 k⏲ 2.5-50 k⏲ 25-500 k ⏲ Maximum electrode voltage 30 V AC 20 V AC Maximum electrode current 1 mA 8 mA 2 mA 0.5 mA Electrode supply line max. cable capacity 10 nF 200 nF 20 nF 4 nF max. cable length 100 m  1000 m 100 m 20 m Timing circuit Time delay - 0.1-10 s, adjustable, ON- or OFF-delay Tripping delay approx. 250 ms - Indication of operational states Control supply voltage U: green LED Output relay energized R MA X/MIN: yellow LED R: yellow LED Output circuits 11-12/14, 21-22, 31-32 15-16/18, 25-26/28 Kind of output 1 c/o + 2 n/c contacts 2 c/o contacts Operational principle  1) open-circuit principle open- and closed-circuit principle Contact material AgCdO Rated operational voltage U e  IEC/EN  60947-1 250 V 400 V Minimum switching voltage / minimum switching current - / - Maximum switching voltage 250 V 400 V Rated operational current I e  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 4 A 5 A AC15 (inductive) 230 V 3 A DC12 (resistive) 24 V  4 A 5 A DC13 (inductive) 24 V 2 A 2.5 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime (AC12, 230 V, 4 A) 0.3 x 10 6  switching cycles 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection  n/c  /  n/o contact 4 A fast-acting / 6 A fast-acting General data Diemensions (W X H X D) 45 x 78 x 100 mm (1.77 x 3.07 x 3.94 in) Mounting position any Degree of protection enclosure / terminals IP50 / IP20 Ambient temperature range operation / storage -25...+65 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size fine-strand with wire end ferrule 2 x 2.5 mm 2  (2 x 14 AWG) Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility  - electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 4 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Resistance to vibration (IEC 68-2-6) 5 g Mechanical resistance (IEC 68-2-6) 10 g Isolation data Rated insulation voltage between supply, measuring and output circuit (VDE 0110, IEC 60947) 250 V 500 V Rated impulse withstand voltage between all isolated circuits (VDE0 110, IEC 664) 4 kV / 1.2 - 50 μs Test voltage between all isolated circuits 2,5 kV, 50 Hz, 1 min. Pollution category (VDE 0110, IEC 664, IEC 255-5) 3 / C Overvoltage category (VDE 0110, IEC 664, IEC 255-5) III / C Environmental testing (IEC 68-2-30) 24 h cycle time, 55 °C, 93 % rel., 96 h 1)   Open-circuit principle:  Output relay energizes if the measured value exceeds/drops below the adjusted threshold.    Closed-circuit principle:  Output relay de-energizes if the measured value exceeds/drops below the adjusted threshold. Liquid level monitors and controls Technical data 2CDC110004C0209.pdf   195 11/26/2013   4:51:06 PM

2/127   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Contact protection relays Product group picture 2CDC110004C0209.pdf   196 11/26/2013   4:51:06 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/128  2 Contact protection relays Table of contents Contact protection relays Product group picture  125 Table of contents  126 Benefits, advantages and operating controls  127 Ordering details  128 Technical information  129 Technical data  130 2CDC110004C0209.pdf   197 11/26/2013   4:51:08 PM

2/129   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Contact protection relays Benefits and advantages, Operating controls Characteristics CM-KRN   ½   Protects and reduces load from sensitive control contacts    ½   Adjustable ON-delay 0.05-30 s   ½   Acts as two-position switch   ½   Stores switch positions   ½   Electrically isolated circuits   ½   2 c/o contacts   ½   2 LEDs for status indication 1  Connection diagram 2   Indication of operational states R: yellow LED - relay status U: green LED - control supply voltage 3  Marker label 1 2 3 2CDC110004C0209.pdf   198 11/26/2013   4:51:08 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/130  2 Description Contact protection relay: The CM-KRN protects sensitive control contacts from excessive load. It can be used with lat- ching function or without. Bounce time of control contacts can be bypassed by the adjustable  response delay time. Use for contact protection.  Ordering details Rated control supply voltage Timing circuit Type  Order code Price Weight(1 pce) kg (lb) 24 V AC 0.05-30 s CM-KRN 1SVR450089R0000 0.30 (0.66) 110-130 V AC 1SVR450080R0000 0.30 (0.66) 220-240 V AC 1SVR450081R0000 0.30 (0.66) 380-415 V AC 1SVR450082R0000 0.30 (0.66) 24 V AC 1SVR450099R0000 0.30 (0.66) 110-130 V AC 1SVR450090R0000 0.30 (0.66) 220-240 V AC 1SVR450091R0000 0.30 (0.66) 24 V AC/DC 1) 1SVR450099R1000 0.30 (0.66) 2CDC 251 001 S0013 CM-KRN Contact protection relays Ordering details 1)  Not electrically isolated 2CDC110004C0209.pdf   199 11/26/2013   4:51:08 PM

2/131   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Contact protection relays Technical information 1SVC 110 000 F 0173 1SVC 110 000 F 0174 1SVC 110 000 F 0176 1SVC 110 000 F 0175 Function diagram - CM-KRN Use, applications A1-A2    Rated control supply voltage Measuring circuits: Y1-Y2   "On-Off"  input  (max. switch-on       resistance 6-10 k ⏲, min. switch-off     resistance  15-20  k ⏲) Y1-Y3 "  Set"  input  (max. switch-      on resistance 6-10 k ⏲) Y1-Y4   "Reset"  input  (max. switch-off     resistance  15-20  k ⏲) 15-16/18  Output contacts - 25-26/28 open-circuit  principle  A1/A2  Y1/Y2  Y1/Y3  Y1/Y4  15/18  15/16  25/28  25/26 Operation via 3-wire proximity sensors NPN On; relay energizes, Y1/Y3 or Y2 Off; relay de-energizes, Y1/Y4 or Y2 Actuators with 2 contacts and one common point can be connected to 2 separate CM-KRN units. Connect the common point of contacts to terminals Y2 of the two CM-KRN units. Connection diagram CM-KRN Use for contact protection. The con-tact to be protected is connected to terminals Y1 and Y2. Use for contact protection with latching capacity The output relay energizes after contact Y1-Y3 has been closed for at least 20 ms. It remains energized until contact Y1-Y4 closes. The switching posi-tions are stored. The relay is suitable for load reduction purposes for devices with minimum and maximum contacts. The CM-KRN can be ope-rated via 3-wire proximity sensors for switching of higher power. The supply circuit, the control circuit and the out-put circuit are electrically isolated against each other 2CDC110004C0209.pdf   200 11/26/2013   4:51:08 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/132  2 Type CM-KRN Supply circuit A1-A2 Rated control supply voltage U S  - power consumption A1-A2 24 V AC - approx. 3.5 VAA1-A2 24 V AC/DC - approx. 3.5 VAA1-A2 110-130 V AC - approx. 3,5 VAA1-A2 220-240 V AC - approx. 3.5 VAA1-A2 380-415 V AC - approx. 3.5 VA Rated control supply voltage U S  tolerance -15...+10 %  Rated frequency 50-60 Hz Duty time 100 % Timing circuit ON-delay time 0.05-1 s, 1.5-30 s OFF-delay time max. 50 ms Measuring circuit / contact circuit Y1-Y2/Y3/Y4 Measuring input  contact protection without latching Y1-Y2 contact protection with latching Y1-Y3/Y4 Threshold Y1-Y2/Y3 6-10 k ⏲ Threshold-Hysteresis Y1-Y2/Y4 15-20 k ⏲ No-load voltage at the measuring input ͨ 10 V DC Contact time for latching (CM-KRN without timing circuit) min. 20 ms Switching current at the measuring input 3 mA Maximum applied voltage at the measuring input ͨ ±30 V (contact voltage) Indication of operational states  Control supply voltage U: green LED V : control supply voltage applied Relay status R: yellow LED V : output relay energized Output circuit 15-16/18, 25-26/28 Kind of output relay, 2 c/o contacts Operating principle  1) open-circuit principle Rated operational voltage (VDE 0110, IEC 60947-5-1) 400 V Rated switching voltage 400 V AC Rated operational current I e    (IEC/EN 60947-5-1) AC12 (resistive)  230 V 5 A AC15 (inductive)  230 V 3 A DC12 (resistive)  24 V 5 A DC13 (inductive)  24 V 2.5 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 30 x 10 6  switching cycles Electrical lifeteime (AC12, 230 V, 5 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c  /  n/o contact 10 A fast-acting / 10 A fast-acting General data Dimensions (W x H x D) 45 x 78 x 100 mm (1.77 x 3.07 x 3.94 in) Mounting position any Degree of protection enclosure / terminals  IP20 / IP50 Ambient temperature range operation / storage -25...+65 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size fine-strand with wire end ferrule 2 x 2.5 mm 2  (2 x 14 AWG) Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility Interference immunity toelectrostatic discharge IEC/EN 61000-4-2 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 10 V/m electrical fast transient / burst IEC/EN 61000-4-4 2 kV / 5 kHz surge IEC/EN 61000-4-5 2 kV symmetrical conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 10 V Isolation data Rated insulation voltage (IEC 60947-1) 400 V Rated impulse withstand voltage U imp  (IEC 644-6) 4 kV Pollution category (IEC 255-5, IEC 664) 3 Overvoltage category (IEC 255-5, IEC 664) III 1)   Open-circuit principle: Output relay is energized if the measured value exceeds/drops below the adjusted threshold. Contact protection relays Technical data 2CDC110004C0209.pdf   201 11/26/2013   4:51:09 PM

2/133   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Sensor interface relays Product group picture 2CDC110004C0209.pdf   202 11/26/2013   4:51:09 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/134  2 Sensor interface relays Table of contents Sensor interface relays Product group picture  131 Table of contents  132 Benefits, advantages and operating controls  133 Ordering details  134 Technical information  135 Technical data  136 2CDC110004C0209.pdf   203 11/26/2013   4:51:10 PM

2/135   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Sensor interface relays Benefits and Advantages, Operating controls 1   Indication of operational states U: green LED - control supply voltage R1: red LED - relay status R1 R2: red LED - relay status R2 2   Rotary switch for sensor type selection 3  Marker label 1 2 3 Characteristics CM-SIS   ½  High efficiency   ½  Low heating   ½   Wide range of supply voltage   ½   Constant output voltage 24 V DC   ½   Protective separation acc. to EN 50178 (VDE 0160)   ½   Short-circuit and overload proof   ½   Input protected by internal fuse   ½   2 x 1 c/o contact   ½   3 LEDs for status indication 2CDC110004C0209.pdf   204 11/26/2013   4:51:10 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/136  2 Description Senior interface relay: The CM-SIS is used to supply 2- or 3-wire NPN or PNP sensors with power and to evaluate  their switching signals. Two sensors of the types NPN or PNP can be connected simultane- ously. Selection is done via the front-face rotary switch. Ordering details Rated control supply voltage Type  Order code Price Weight(1 pce) kg (lb) 110-240 V AC / 105-260 V DC 1) CM-SIS 1SVR430500R2300 0.22 (0.48) 2CDC 251 002 S0013 CM-SIS Sensor interface relays Ordering details 1)  Protective separation, short circuit and overload proof  2CDC110004C0209.pdf   205 11/26/2013   4:51:11 PM

2/137   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Sensor interface relays Technical information A1 I1 A2A1 I2 A2 11 12 14 24 22 21 1SVC 110 000 F 0480 2CDC 252 026 F 0003 1SVC 110 000 F 0482 1SVC 110 000 F 0481 1SVC 110 000 F 0483 1SVC 110 000 F 0484 Function diagram - CM-SIS L - N    Rated control     supply  voltage I1    Sensor input 1 I2    Sensor input 2 L+ - L-    Output voltage       24 V DC / 0.5 A 11-12/14  Output contacts - 21-22/24 Open-circuit  principle Connection of 2-wire sensors Connection of 3-wire sensors Connection diagram CM-SIS The CM-SIS (terminals L+, L-) sup-plies the connected sensors with voltage (24 V DC), the maximum power supply current is 0.5 A. The supply voltage and the sensor inputs are electrically isolated from the sup-ply circuit. To ensure maximum safety when using these sensors, the prin-ciple of protective separation has been included. Each sensor input signal energizes the corresponding output relay wit-hout delay. The relay is energized as soon as a threshold current is excee-ded at input I1 or I2. Sensor leakage currents of up to 8 mA don`t affect the evaluation. The threshold value is about 9 mA. If the threshold value at input I1 or I2 is exceeded the corres-ponding relay R1 or R2 energizes and the corresponding LED lights up. The wide-range supply voltage input of CM-SIS allows its application in nearly all supply systems. The CM-SIS is also suitable for other applications, for example it is also possible to connect PTC or NTC resistors instead of PNP or NPN sen-sors or to operate the SIS directly by switching contacts.  2CDC110004C0209.pdf   206 11/26/2013   4:51:11 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/138  2 Sensor interface relays Technical data Type CM-SIS Input circuit Supply voltage L-N AC 110-240 V AC (-15...+10 %) DC 110-240 V (max. 105-260 V DC) Frequency, AC supply 47-440 Hz Supply voltage failure bridging time 10 ms min. at 100 % load Current consumption max. 0.35 A at 115 V AC 0.27 Aat 230 V AC 0.14 A Inrush current at 25°C ( ͨ 2 ms) 33 A  Internal input fuse 800 mA slow-acting Measuring circuit L+, L- / I1, I2 Sensor voltage L+ L- 24 V DC ± 3% Sensor current / power  max. 0.5 A / 12 W Residual ripple  max. 100 mV pp Deviation with load change statical max. ± 0.5 % load change dynamical 10-90 % max. .5 % change of the input voltage max. ± 0.5 % Short-circuit protection overcurrent switch-off with automatic restart Overload protection excess temperature and overcurrent switch-off Reset after thermal overload switch-off automatic reset after cooling down Sensor type connection possibilities I1, I2 2- or 3-wire connection, NPN or PNP selectable by front-face switch Input resistance approx. 2.5 k ⏲ Threshold value for relays R1, R2 U emitter-collector  2,3 V (I1, I2  8 mA)  Maximum switching frequency approx. 20 Hz Output circuit 11-12/14, 21-22/24 Kind of output 2 relays, 1 c/o contact each Operating principle open-circuit principle  1) Rated operational voltage 250 V Maximum switching voltage 250 V AC Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive)  230 V 4 A AC15 (inductive)  230 V 3 A DC12 (resistive)  24 V 4 A DC13 (inductive)  24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 10 x 10 6  switching cycles Electrical lifetime 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c  / n/o contact 6 A fast-acting / 10 A fast-acting Indication of operational states Control supply voltage U: green LED V : control supply voltage applied Relay status R1 R1: yellow LED V : threshold value at input I1 exceeded Relay status R2 R2: yellow LED V : threshold value at input I2 exceeded General data Efficiency at rated load approx. 84 % (at 230 V AC) Ambient temperature range operation / storage 0...+55 °C / -25...+75 °C Dimensions (W x H x D) 22.5 x 78 x 100 mm (0.89 x 3.07 x 3.94 in) Mounting position horizontally Mounting DIN rail (IEC/EN 60715) Minimum distance to other units left-hand side 10 mm (0.39 in), vertical distance 50 m (1.97 in) Electrical connection Wire size 2 x 2,5 mm 2  (2 x 14 AWG) Standards Product standard IEC 255-6, EN 60255-6 Electrical safety IEC(EN) 60255-5, EN 50178 (VDE 0160), EN60950, UL 508, CSA 22.2 Electrical isolation protective separation between L+,L-, I1,I2, and L,N,11,12,14,21,22,24 Electromagnetic compatibility Interference immunity to EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 4 (4 kV) surge IEC/EN 61000-4-5 Inst. class 3 (2 kV) conducted disturbances, induced by  radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference immunity to EN 50081-2 radiated noise EN 55011, class B Input current harmonics no limitation Isolation data Insulation testing 2.5 kV AC (routine test), 3 kV AC (type test) Degree of pollution 2 Overvoltage category II 1)   Open-circuit principle: Output relay is energized if the measured value exceeds/drops below the adjusted threshold. 2CDC110004C0209.pdf   207 11/26/2013   4:51:11 PM

2/139   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Cycle monitoring relay with watchdog function Product group picture 2CDC110004C0209.pdf   208 11/26/2013   4:51:11 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/140  2 Cycle monitoring relay with watchdog function Table of contents Cycle monitoring relay with watchdog function Product group picture  137 Table of contents  138 Benefits, advantages and operating controls  139 Ordering details  140 Technical information  141 Technical data  142 2CDC110004C0209.pdf   209 11/26/2013   4:51:13 PM

2/141   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Cycle monitoring relay with watchdog function Benefits and Advantages, Operating controls Characteristics   ½   Cycle monitor for monitoring the function   of programmable logic controllers or industrial pcs   ½   4 selectable cycle   monitoring time ranges from 0.5 to 1000 ms   ½   24 V DC supply   ½   1 c/o contact   ½   2 LEDs for status indication 1   Setting the lower threshold value of cycle monitoring time 2  Connection diagram 3   Indication of operational states F: red LED - cycle error U: green LED - control supply voltage 4  Marker label 1 2 3 4 2CDC110004C0209.pdf   210 11/26/2013   4:51:13 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/142  2 Cycle monitoring relay with watchdog function Ordering details The cycle monitoring relay CM-WDS (watchdog) observes if a regularly intermittent pulse is ap- plied to its pulse input “I“. It is, for example, possible to connect the output of a programmable  logic controller (plc), which is set and reset regularly (e. g. once each cycle). The connected  cycle pulse must be generated by suitable programming of the plc/ipc. Now, the CM-WDS  monitors if the cycle time of the plc/ipc program is smaller than the cycle monitoring time set- ted by means of the front-face selector switch “time value (ms)“. The output relay 11-12/14 of the CM-WDS energizes and the red LED is switched off, if there  are minimum 8 successive regular pulses on input “I“. When the pulse signal stays out or is  not regular, the output relay de-energizes and the red LED is illuminated. In case the monitoring time is too short or too long, this can be adjusted by a modified pro- gramming of the plc/ips or by modified setting of the monitoring time “time value (ms)“.  A fault recognized and stored with the CM-WDS can be reset by an H-impulse (0-1-transition)  on the reset input “R(9)“, so that the cycle monitoring is again released. The reset impulse can  be generated by means of a reset button or by suitable programming of the controller (plc/ipc). Ordering details Rated control supply voltage Type  Order code Price 1 pce Weight(1 pce) kg (lb) 24 V DC CM-WDS 1SVR430896R000 0.15 (0.33) 2CDC 251 011 S0012 CM-WDS Description 2CDC110004C0209.pdf   211 11/26/2013   4:51:13 PM

2/143   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 Cycle monitoring relay with watchdog function Technical information 1 2 3 4 5 6 7 8 B C 1 2 3 4 5 6 7 8 t 2 t 2 t 1 A B C 1 8 ... B ... 2CDC 252 045 F0211 2CDC 252 061 F0003 2CDC 252 062 F0003 A1(+) I R 12(2) (0) A2(0) R(9) I(8) D(3) 11(4) 14(1) A1 A2 11 12 14 D A1(+) I R 12(2) (0) A2(0) R(9) I(8) D(3) 11(4) 14(1) A1 A2 11 12 14 D SPS / IPC Reset L+ L- H1 H2 O 5.3  A1/A2 Interrogation  window I  R red LED  11/1411/12  A = Cycle  monitor B  =  Cycle is correct, no cycle error C  =  Cycle failure 1: pulse monitoring window     Cycle failure 2: pulse stays out t   = 300  ms   A1/A2    Rated control supply voltage   I    Cycle pulse input  R    Reset  input  11-12/14  Output  relay   D    Protected output (freewheeling diode) Application The CM-WDS is designed for the external moni-toring of the correct function of programmable logic controllers (plc) and industrial pcs (ipc). Function diagram - CM-WDS Example of application - circuit diagram Connection diagram CM-WDS 2CDC110004C0209.pdf   212 11/26/2013   4:51:13 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/144  2 Cycle monitoring relay with watchdog function Technical data Type CM-WDS Input circuit A1-A2 Rated control supply voltage U S  - power consumption  24 V DC - approx. 1 W Tolerance of the rated control supply voltage U S -30 % - +30 % Duty time 100 % Measuring circuit I Monitoring function cycle monitoring Measuring voltage 24 V DC Current consumption at the measuring input approx. 5 mA Setting range of cycle monitoring time selectable: 0.5-150 ms, 0.5-260 ms, 0.5-500 ms, 0.5-1000 ms Response time approx. 0.5-1000 ms Accuracy within the supply voltage tolerance ͬU ͨ 0.5 % Accuracy within the temperature range ͬU ͨ 0.06 % / °C Timing circuit ON-delay approx. 2.2-10 s Indication of operational states Control supply voltage U: green LED Output relay de-energized / cycle error F: red LED Output circuit 11-12/14 Kind of output 1 c/o Operating principle Closed-circuit principle  1) Contact material AgCdo Rated operational voltage U e   IEC/EN 60947-1 250 V Minimum switching voltage / Minimum switching currentMaximum switching voltage 250 V AC, 250 V DC Rated operational current I e  (IEC/EN 60947-5-1) AC12 (resistive)  230 V 4 A AC15 (inductive)  230 V 3 A DC12 (resistive)  24 V 4 A DC13 (inductive)  24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Mechanical lifetime 10 x 10 6  switching cycles Electrical lifeteime (AC12, 230 V, 4 A) 0.1 x 10 6  switching cycles Max. fuse rating to achieve short-circuit protection n/c  / n/o contacts 10 A fast-acting / 10 A fast-acting General data Dimensions (W x H x D) 22.5 x 78 x 100 mm (0.89 x 3.07 x 3.94 in) Mounting position any Degree of protection  enclosure / terminals IP50 / IP20 Ambient temperature range operation / storage -20...+60 °C / -40...+85 °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size fine-strand with wire end ferrule 2 x 2.5 mm 2  (2 x 14 AWG) Standards Product standard IEC 255-6, EN 60255-6 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Operational reliability (IEC 68-2-6) 4 g Mechanical shock resistance (IEC 68-2-6) 6 g Electromagnetic compatibility Interference immunity to EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (2 kV / 5 kHz) surge IEC/EN 61000-4-5 Level 3 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission EN 61000-6-4 Isolation data Rated insulation voltage between supply-, control- and output circuit (VDE 0110, IEC 60947-1) 250 V Rated impulse withstand between all isolated circuits (VDE 0110, IEC 664) 4 kV / 1.2-50 μs Test voltage between all isolated circuits 2.5 kV, 50 Hz, 1 min Pollution degree (VDE 0110, IEC 664, IEC 255-5) 3/C Overvoltage category (VDE 0110, IEC 664, IEC 255-5) III Environmental tests (IEC 68-2-30) 24 h cycle, 55 °C, 93 % rel. 96 h 1)   Closed-circuit principle: Output relay de-energizes if a cycle error occurs 2CDC110004C0209.pdf   213 11/26/2013   4:51:14 PM

2/145   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 General technical data, Accessories, Current transformers Notes 2CDC110004C0209.pdf   214 11/26/2013   4:51:14 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/146  2 General technical data, Accessories, Current transformers Table of contents General technical data, Accessories, Current transformers Table of contents  144 Technical diagrams - CM-range  145 Dimensional drawings  147 Ordering details - CM-range accessories  149 2CDC110004C0209.pdf   215 11/26/2013   4:51:14 PM

2/147   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 DC load (resistive) AC load (resistive) Contact lifetime Derating factor F for inductive AC load DC load (resistive) AC load (resistive) CM-N (45 mm)  Load limit curves CM-S (22.5 mm), CM-E (22.5 mm), CM-UFD.M22 Contact lifetime Derating factor F for inductive AC load cos  ϕ F  2CDC 252 192 F0205  0.5  0.1 0.2 0.3 0.4  0.5 0.6 0.7  0.8 0.9  1.0  0.6  0.7  0.8  0.9  1.0 300  200  100  80 60  50  40 30  20  10  1 2 4  6  10  I A  V  2CDC 252 193 F0205  V  0.1 0.2  0.5  300  200  100  80 60  50  40 30  20  10  1 2 4  6  10  I A  V  2CDC 252 194 F0205  V  0.1 0.2  0.5  cos  ϕ F  2CDC 252 192 F0205  0.5  0.1 0.2 0.3 0.4  0.5 0.6 0.7  0.8 0.9  1.0  0.6  0.7  0.8  0.9  1.0 1 2 4 6 10 10 20 30 40 50 60 80 100 200 300 400 AC current [A] resistive load AC voltage [V] 2CDC 252 157 F0206 0.1 0.2 0.5 4 3 2 1 10 5 10 4 10 6 5 6 7 8 2CDC 252 156 F0206 Switching current [A] Switching cycles 250 V ACresistive load Switching current [A] 250 Vresistive load Switching cycles 2CDC 252 148 F0206 1 2 4 6 10 10 20 30 40 50 60 80 100 200 300 400 0.1 0.2 0.5 AC current [A] resistive load AC voltage [V] 2CDC 252 158 F0206 General technical data, Accessories, Current transformers Technical diagrams - CM-range 2CDC110004C0209.pdf   216 11/26/2013   4:51:14 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/148  2 General technical data, Accessories, Current transformers Technical diagrams - CM-range Load limit curves CM-UFD.M21 300  200  100  80 60  50  40 30  20  10  1 2 4  6  10  I A  V  U  0.1 0.2 0.5 resistive load 2CDC 252 010 F0212   AC load (resistive)  300  200  100  80 60  50  40 30  20  10  1 2  5 10  I A  V  U  0.1 0.2 0.5 resistive load 2CDC 252 011 F0212   DC load (resistive)     10 4 2 4 6 8 10 12 14 16 10 5 10 6 10 7 Switching current [A] 250 V ACresistive load Switching cycles 2CDC 252 012 F0212   Contact lifetime 2CDC110004C0209.pdf   217 11/26/2013   4:51:15 PM

2/149   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 General technical data, Accessories, Current transformers Dimensional drawings 0.039 1SVC 110 000 F 0177 C512C513 ‡ 5 ... 6 mm / PZ2 0,8 ... 1,2 Nm7 ... 10.3 lb·in 1 x 0,5 ... 4,0 mm²2 x 0,5 ... 2,5 mm² 2 x 0,5 ... 1,5 mm²1 x 0,5 ... 2,5 mm² — AWG 2 x 20 ... 14 10 10 10 a b c d C512, C513 65 36 82,6 105,9 6 b a 86 28,8 c d 2 0 1 6 45 7,2 2, 8 6 5, 1 9 7 3x 5, 8 1 1 7 3x 5, 8 3 1 2CDC 252 288 F0005 1SVC 110 000 F0423 CM-S 22.5 mm CM-N 45 mm CM-E   22.5 mm Measuring and monitoring relays CM range old housing Measuring and monitoring relays CM range new housing C512/C513  45 mm CM-xxN 1SVR 750 xxx xxx, 1SVR 760 xxx xxx 45 mm CM-xxS 1SVR 730 xxx xxx, 1SVR 740 xxx xxx 22.5 mm Dimensions in mm Temperature monitoring relays 2CDC 252 022 F0011 2CDC 252 010 F0011 114.5    4.51” 45.0    1.77” 85.6     3.37” 104.8    4.13” 107.0   4.21” 113.4    44.65” 22.5    0.89” 85.6     33.70” 103.7    40.83” 105.9    41.69” 2CDC110004C0209.pdf   218 11/26/2013   4:51:15 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/150  2 General technical data, Accessories, Current transformers Dimensional drawings Dimensional drawing CM-UFD.M21 Dimensional drawing CM-UFD.M22 2CDC 252 008 F0012 2CDC 252 008 F0013 48    1.89” 45    1.77” 90    3.54” 3    0.12” 61.8    2.43” 16.5    0.65” 105    4.13” 58    2.28” 90     3.54” 108    4.25” 67    2.64” 2CDC110004C0209.pdf   219 11/26/2013   4:51:15 PM

2/151   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 2 2CDC 252 187 F0005 4,5 62,5 60 10 11,5 22,5 .177” 2.46” 2.36” .394” .886” .453” 20 3A11 8 .315” .787” 2CDC 252 186 F0005 2CDC 252 185 F0005 22,5 68,5 7 3,5 .886” 2.70 ” .138” .275” front-to-back size 107 1SVC 110 000 F 0180 ADP.01 MAR.01 Sealable cover COV.01 Sealable cover COV.02 Accessories General technical data, Accessories, Current transformers Ordering details - CM-range accessories Ordering details Descrip-tion For type Width in mm for devices Type Order  code Price pce Pkg  qty Weight(1 pce)g (oz) Adapter for screw mounting CM-SCM-S.S/P 22.5 ADP.01 1SVR430029R0100 1 18.4 (0.65) CM-NCM-N.S/P 45 ADP.02 1SVR440029R0100 1 36.7 (1.30) Marker label CM-S, CM-NCM-S.S/PCM-N.S/P without DIP switches MAR.01 1SVR366017R0100 10 0.19 (0.007) CM-S, CM-N with DIPswitches MAR.02 1SVR430043R0000 10 0.13 (0.005) CM-S.S/PCM-N.S/P with DIPswitches MAR.12 1SVR730006R0000 10 0.152 ( 0.335) Sealable transparent cover CM-S 22.5 COV.01 1SVR430005R0100 1 5.2 (0.18) CM-N 45 COV.02 1SVR440005R0100 1 7.7 (0.27) CM-S.S/P 22.5 COV.11 1SVR730005R0100 1 4.0 (0.129) CM-N.S/P 45 COV.12 1SVR750005R0100 1 7 (0.247) 2CDC110004C0209.pdf   220 11/26/2013   4:51:15 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   2/152  2 General technical data, Accessories, Current transformers Ordering details - CM-range accessories 2CDC 251 002 F0005 2CDC 251 003 F0005 CM-CT k l K-P 1 ‡26 a abcde 10,5 mm12,5 mm20,5 mm25,5 mm30,5 mm 0.41 inch0.49 inch0.81 inch1.00 inch1.20 inch 31  1.22“ 6,5  0.26“ 75,5  2.97“ 78,5  3.09“ 61  2.36“ 48  1.89“ 35  1.38“ a b c d e bc de 40  1.57“ 30  1.18“ 47  1.85“62  2.40“ 60  2.36“ 2CDC 252 153 F0b06 2CDC 251 159 F0b06 CM-CT with mounted accessories Plug-in current transformers CM-CT   Without primary conductor though with foot angle, insulating protective cap and bar fastening screws   Primary / rated current from 50 A to 600 A   Secondary current of 1 A or 5 A  Class  1 Operating principle / circuit diagram Dimensional drawing K/P1 k/S1 l/S2 L/P2 load  2CDC 252 001 F0206  CM-CT-A mounted on DIN rail Ordering details Rated primary current Secondary current Burden class Type  Order code Price pce Weight(1 pce)g (oz) 50 A 1 A 1 VA / 1 CM-CT 50/1 1SVR450116R1000 0.31 (0.683) 75 A 1.5 VA / 1 CM-CT 75/1 1SVR450116R1100 0.31 (0.683) 100 A 2.5 VA / 1 CM-CT 100/1 1SVR450116R1200 0.276 (0.608) 150 A 2.5 VA / 1 CM-CT 150/1 1SVR450116R1300 0.32 (0.705) 200 A 2.5 VA / 1 CM-CT 200/1 1SVR450116R1400 0.222 (0.489) 300 A 5 VA / 1 CM-CT 300/1 1SVR450117R1100 0.29 (0.639) 400 A 5 VA / 1 CM-CT 400/1 1SVR450117R1200 0.27 (0.595) 500 A 5 VA / 1 CM-CT 500/1 1SVR450117R1300 0.29 (0.639) 600 A 5 VA / 1 CM-CT 600/1 1SVR450117R1400 0.24 (0.529) 50 A 5 A 1 VA / 1 CM-CT 50/5 1SVR450116R5000 0.3 (0.661) 75 A 1.5 VA / 1 CM-CT 75/5 1SVR450116R5100 0.31 (0.683) 100 A 2.5 VA / 1 CM-CT 100/5 1SVR450116R5200 0.31 (0.683) 150 A 2.5 VA / 1 CM-CT 150/5 1SVR450116R5300 0.28 (0.617) 200 A 5 VA / 1 CM-CT 200/5 1SVR450116R5400 0.29 (0.639) 300 A 5 VA / 1 CM-CT 300/5 1SVR450117R5100 0.252 (0.556) 400 A 5 VA / 1 CM-CT 400/5 1SVR450117R5200 0.26 (0.573) 500 A 5 VA / 1 CM-CT 500/5 1SVR450117R5300 0.208 (0.459) 600 A 5 VA / 1 CM-CT 600/5 1SVR450117R5400 0.21 (0.463) Ordering details - Accessories Description Type Order  code Price 10 pces Weight(1 pce)g (oz) Snap-on fastener for DIN rail mounting of CM-CT CM-CT A 1SVR450118R1000 0.009 (0.02) 2CDC110004C0209.pdf   221 11/26/2013   4:51:15 PM

3/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Primary switch mode power supplies Product group picture 2CDC110004C0209.pdf   222 11/26/2013   4:51:16 PM

3 Primary switch mode power supplies Table of contents    2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/2  Primary switch mode power supplies Table of contents   3/2 Overview   3/3 Approvals and marks   3/4 Selection table - Single-phase   3/5 Selection table - Three-phase, CP-ASI   3/6 CP-D range   3/7 Table of contents   3/8 Benefits and advantages   3/9 Ordering details   3/10 Technical data   3/11 Technical diagrams   3/15 Dimensional drawings   3/16 CP-E range   3/17 Table of contents   3/18 Benefits and advantages   3/19 Ordering details   3/20 Technical data   3/21 Technical diagrams, Wiring instructions   3/29 Technical diagrams, Dimensional drawings   3/30 CP-T range   3/31 Table of contents   3/32 Benefits and advantages   3/33 Ordering details   3/34 Technical data   3/35 Technical diagrams, Dimensional drawings   3/39 Technical diagrams   3/40 CP-S and CP-C   3/41 Table of contents   3/42 Benefits and advantages   3/43 Operating control   3/44 Ordering details   3/45 Technical data   3/46 Technical diagrams, Dimensional drawings   3/50 Redundancy units   3/51 Ordering details   3/51 Technical data   3/52 Dimensional drawings   3/56 CP-ASI range   3/57 Table of contents   3/58 Benefits and advantages   3/59 Ordering details   3/60 Technical data   3/61 Technical diagrams   3/63 Dimensional drawings   3/64 CP-B range   3/65 Table of contents   3/66 Benefits and advantages   3/67 Ordering details   3/68 Technical data   3/69 Technical data, Technical diagrams   3/70 Dimensional drawings   3/71 Electronic protection devices EPD24   3/73 2CDC110004C0209.pdf   223 11/26/2013   4:51:17 PM

3/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Primary switch mode power supplies Overview Application manual For today’s applications, e.g. in control engineering, it is essential to make  the right decision regarding the selection and planning of the power supply  unit. Incorrect dimensioning or incorrect connection of a power supply unit  can seriously affect the safety and/or availability of the entire installation. ABB’s “Power Supply Units” application manual provides a general over- view of switch mode power supply units, thus helping you to choose the  ideal power supply unit and avoid problems during engineering and com- missioning. The manual generally shows and explains the fundamental  CP-D The CP-D range of power supply units in MDRC design (modular DIN rail  components) fits into all domestic installation and distribution panels. CP-E The CP-E range offers enhanced functionality while the number of different  types has been considerably reduced. Now all power supply units can be  operated at an ambient temperature of up to +70 °C. CP-T The CP-T range of three-phase power supply units is ABB’s youngest  member of the power supply family. CP-S The CP-S range is ABB’s standard range, a high-end power supply unit  optimised for serial applications. CP-C The CP-C range’s pluggable function modules adapt these power supply  units exactly to your application’s needs. Of course, all ABB power supply  units feature primary switch mode technology – environmentally sound and  cost-efficiency. This represents the highest level of innovative industrial  electronics. characteristics of and the differences between power supply units, and  provides a detailed introduction to the ABB product range on the basis of  the selection criteria. Finally, it describes and explains application examp- les for engineering. The manual is available in English and German.  English Version:   2CDC 114 048 M0203  German Version:   2CDC 114 048 M0103 Modern power supply units are a vital component in most areas of energy management and automation technology. ABB as your global partner in these  areas pays the utmost attention to the resulting requirements. Innovation is the key to a substantial enlargement of our power supply product program: 2CDC110004C0209.pdf   224 11/26/2013   4:51:17 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/4  3 ½ existing  ˽ pending CP-D Approvals CP-D 12/0.83 CP-D 12/2.1 CP-D 24/0.42 CP-D 24/1.3 CP-D 24/2.5 CP-D 24/4.2 CP-D RU A UL 508, CAN/CSA C22.2 No.107.1 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) H UL 1310, CAN/CSA C22.2 No.223  (Class 2 Power Supply) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) H UL 60950, CAN/CSA C22.2 No.60950 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) D GOST ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) E CCC ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) Marks a CE ½ ½ ½ ½ ½ ½ ½ b C-Tick ˽ ˽ ˽ ˽ ˽ ˽ ½ existing  ˽ pending CP-E CP-T Approvals CP-E 5/3.0 CP-E 12/2.5 CP-E 12/10.0 CP-E 24/0.75 CP-E 24/1.25 CP-E 24/2.5 CP-E 24/5.0 CP-E 24/10.0 CP-E 24/20.0 CP-E 48/0.62 CP-E 48/1.25 CP-E 48/5.0 CP-E 48/10.0 CP-RUD CP-T 24/5.0 CP-T 24/10.0 CP-T 24/20.0 CP-T 24/40.0 CP-T 48/5.0 CP-T 48/10.0 CP-T 48/20.0 A UL 508, CAN/CSA C22.2 No.107.1 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) H UL 1310, CAN/CSA C22.2 No.223  (Class 2 Power Supply) ½ ½ ½ ½ ½ ½ ½ H ANSI/ISA-12.12  (Class I, Div. 2, hazardous locations) CAN/CSA C22.2 No. 213 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ H UL 60950, CAN/CSA C22.2 No.60950 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) D GOST ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) E CCC ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) GB4943, GB9254, GB17625.1 ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ˽ ˽ ˽ ˽ ˽ ˽ ˽ ½ existing  ˽ pending CP-S CP-C CP-A CP-B Approvals CP-S 24/5.0 CP-S 24/10.0 CP-S 24/20.0 CP-C 24/5.0 CP-C 24/10.0 CP-C 24/20.0 CP-C MM CP-A RU CP-A CM CP-B 24/3.0 CP-B 24/10.0 CP-B 24/20.0 CP-B EXT .2 A UL 508, CAN/CSA C22.2 No.107.1 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ ½ ½ ½ A UL 1604 (Class I, Div. 2, hazardous loca-tions), CAN/CSA C22.2 No.213 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) H UL 60950, CAN/CSA C22.2 No.60950 ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) ½ 1) D GOST ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) ½ 2) K CB scheme ½ ½ ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ˽ 1)  Approvals refer to the rated input voltage U in . 2)  May have been replaced by EAC during the availability of this catalog edition. Primary switch mode power supplies Approvals and marks 2CDC110004C0209.pdf   225 11/26/2013   4:51:17 PM

3/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Or der number 1SVR 427 041 R1000 1SVR 427 043 R1200 1SVR 427 041 R0000 1SVR 427 043 R0100 1SVR 427 044 R0200 1SVR 427 045 R0400 1SVR 427 033 R3000 1SVR 427 032 R1000 1SVR 427 035 R1000 1SVR 427 030 R0000 1SVR 427 031 R0000 1SVR 427 032 R0000 1SVR 427 034 R0000 1SVR 427 035 R0000 1SVR 427 036 R0000 1SVR 427 030 R2000 1SVR 427 031 R2000 1SVR 427 034 R0000 1SVR 427 035 R2000 1SVR 427 014 R0000 1SVR 427 015 R0100 1SVR 427 016 R0100 1SVR 427 024 R0000 1SVR 427 025 R0000 1SVR 427 026 R0000 Single phase CP-D CP-E CP-S CP-C Rated output voltage 5 V DC Ŷ 12 V DC Ŷ Ŷ Ŷ Ŷ 24 V DC Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ 48 V DC Ŷ Ŷ Ŷ Ŷ Rated output current 0.42 A Ŷ 0.625 A Ŷ 0.75 A Ŷ 0.83 A Ŷ 1.25 A Ŷ Ŷ 1.3 A Ŷ 2.1 A Ŷ 2.5 A Ŷ Ŷ Ŷ 3 A Ŷ 4.2 A Ŷ 5 A Ŷ Ŷ Ŷ Ŷ 10 A Ŷ Ŷ Ŷ Ŷ Ŷ 20 A Ŷ Ŷ Ŷ Rated output power 10 W Ŷ Ŷ 15 W Ŷ 18 W Ŷ 30 W Ŷ Ŷ Ŷ Ŷ Ŷ 60 W Ŷ Ŷ Ŷ 100 W Ŷ 120 W Ŷ Ŷ Ŷ Ŷ 240 W Ŷ Ŷ Ŷ Ŷ 480 W Ŷ Ŷ Ŷ Ŷ Rated input  voltage 100 - 240 V AC Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ 115/230 V AC auto select Ŷ Ŷ Ŷ Ŷ 115 - 230 V AC Ŷ Ŷ 110 - 240 V AC Ŷ Ŷ Ŷ Ŷ 110 - 120 V AC Ŷ Ŷ 220 - 240 V AC Ŷ Ŷ DC input voltage range 120 - 370 V DC Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ 90 - 375 V DC Ŷ Ŷ Ŷ Ŷ Ŷ 210 - 370 V DC Ŷ Ŷ Ŷ Ŷ 100 - 350 V DC Ŷ Ŷ Ŷ Ŷ 220 - 350 V DC Ŷ Ŷ Features Power reserve design Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Adjustable output voltage Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Integrated input fuse Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Short circuit stable Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Fold forward  behavior (U/I) Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Fold back behavior (hiccup) Ŷ Ŷ Power factor correction pas pas pas act pas act act act act Ambient temp. rating  -25°C (-40°C) to 70°C Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Parallel connection Ŷ Ŷ 3 Ŷ Ŷ Ŷ 3 3 3 Ŷ Ŷ 3 3 5 5 5 5 5 5 Serial connection Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ 2 Ŷ Ŷ Ŷ 2 2 2 Ŷ Ŷ 2 2 Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Primary switch mode power supplies Selection table - Single-phase 2CDC110004C0209.pdf   226 11/26/2013   4:51:17 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/6  3 Or der number 1SVR 427 054 R0000 1SVR 427 055 R0000 1SVR 427 056 R0000 1SVR 427 057 R0000 1SVR 427 054 R2000 1SVR 427 055 R2000 1SVR 427 056 R2000 1SVR 427 090 R0280 1SVR 427 090 R0400 1SVR 427 095 R0400 1SVR 427 090 R0800 Three phase AS-Interface CP-T CP-ASI Rated output voltage 24 V DC Ŷ Ŷ Ŷ Ŷ 30.5 V DC Ŷ Ŷ Ŷ Ŷ 48 V DC Ŷ Ŷ Ŷ Rated output current 2.8 A Ŷ 3 A Ŷ Ŷ 5 A Ŷ Ŷ 8 A Ŷ 10 A Ŷ Ŷ 20 A Ŷ Ŷ 40 A Ŷ Rated output power 85 W Ŷ 120 W Ŷ 122 W Ŷ Ŷ 240 W Ŷ Ŷ 244 W Ŷ 480 W Ŷ Ŷ 960 W Ŷ Ŷ Rated input  voltage 85-132 V AC, 184-264 V AC Ŷ Ŷ Ŷ 3 x 400 - 800 V AC Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ DC input voltage range 18-32.4 V DC Ŷ 480 - 820 V DC Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Features Adjustable output voltage Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Integrated input fuse Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Short circuit stable Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Fold forward  behavior (U/I) Ŷ Ŷ Ŷ Ŷ Ŷ Fold back behavior (hiccup) Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Power factor correction Ambient temp. rating -25°C  (-40°C) to 70°C Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Ŷ Serial connection 2 2 2 2 2 2 Suited for AS-Interfaces Ŷ Ŷ Ŷ Ŷ Primary switch mode power supplies Selection table - Three-phase, CP-ASI 2CDC110004C0209.pdf   227 11/26/2013   4:51:19 PM

3/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-D range Product group picture 2CDC110004C0209.pdf   228 11/26/2013   4:51:19 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/8  3 CP-D range Table of contents CP-D range Product group picture   3/7 Table of contents   3/8 Benefits and advantages   3/9 Ordering details   3/10 Technical data   3/11 Technical diagrams   3/15 Dimensional drawings   3/16 2CDC110004C0209.pdf   229 11/26/2013   4:51:19 PM

3/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 2CDC 271 027 F0007 2CDC 276 032 F0007 2CDC 276 033 F0007 Characteristics   ½  Output voltages 12 V, 24 V DC   ½  Adjustable output voltages (devices 10 W)   ½  Output currents 0.42 A / 0.83 A / 1.3 A / 2.1 A / 2.5 A / 4.2 A   ½  Power range 10 W, 30 W, 60 W, 100 W   ½  Wide range input 100-240 V AC (90-264 V AC, 120-375 V DC)   ½  High efficiency of up to 89 %   ½  Low power dissipation and low heating   ½  Free convection cooling (no forced cooling with ventilators)   ½  Ambient temperature range during operation -40 °C...+70 °C   ½  Open-circuit, overload and short-circuit stable   ½  Integrated input fuse   ½  U/I characteristic (fold-forward behaviour at overload –   no  switch-off)   ½  LEDs for status indication   ½  Light-grey housing in RAL 7035   ½  Approvals / Marks   (depending on device, partly pending): A, H, D, E / a, b Width and structural form With their width between 18 to 90 mm only, the CP-D range switch mode power supplies are ideally suited for installation in distribution panels. Wide range input Optimised for world-wide applications: The CP-D power supplies can be supplied with 90-264 V AC or 120-375 V DC. Adjustable output voltage The CP-D range types 10 W feature a continuously adjustable output  voltage. Thus, they can be  optimally adapted to the application, e.g.  compensating the voltage drop caused by a long line length. Benefits 1 1 2 2 3 3 CP-D range Benefits and advantages 4 1 2 3 5 1   OUTPUT ++/--: terminals - output 2   INPUT L, N: terminals - input 3   Indication of operational states DC ON: green LED - output voltage applied DC LOW: red LED - output voltage too low 4  Circuit diagram  5   OUTPUT Adjust: potentiometer - adjustment of output voltage 2CDC110004C0209.pdf   230 11/26/2013   4:51:19 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/10  3 Description The CP-D range of modular power supply units in MDRC design (modular DIN rail compo- nents) is ideally suited for installation in distribution panels. This range offers devices with   output voltages of 12 V DC and 24 V DC at output currents of 0.42 A to 4.2 A. Thanks to a  high thermal efficiency corresponding to low power and heat dissipation, the devices can be  operated without forced cooling. All devices feature the U/I output characteristic (fold forward  behaviour). All power supply units in the CP-D range are approved according to all relevant  international standards. Ordering details Input voltage range Rated output voltage  / current Type Order  code Price 1 pce Weight(1 pce)kg (lb) 90-264 V AC/ 120-375 V DC 12 V DC / 0.83 A CP-D 12/0.83 1SVR427041R1000 0.06  (0.13) 90-264 V AC/ 120-375 V DC 12 V DC / 2.1 A CP-D 12/2.1 1SVR427043R1200 0.19  (0.41) 90-264 V AC/ 120-375 V DC 24 V DC / 0.42 A CP-D 24/0.42 1SVR427041R0000 0.06  (0.13) 90-264 V AC/ 120-375 V DC 24 V DC / 1.3 A CP-D 24/1.3 1SVR427043R0100 0.19  (0.41) 90-264 V AC/ 120-375 V DC 24 V DC / 2.5 A CP-D 24/2.5 1SVR427044R0200 0.25  (0.56) 90-264 V AC/ 120-375 V DC 24 V DC / 4.2 A CP-D 24/4.2 1SVR427045R0400 0.32  (0.71) 2CDC 271 024 F0007 2CDC 271 025 F0007 2CDC 271 028 F0007 CP-D 12/0.83, CP-D 24/0.42 CP-D 12/2.1, CP-D 24/1.3 CP-D 24/2.5 CP-D range Ordering details 2CDC110004C0209.pdf   231 11/26/2013   4:51:20 PM

3/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-D 12/0.83 CP-D 12/2.1 Input circuit - supply circuit L, N Rated input voltage U in 100-240 V AC Input voltage range 90-264 V AC / 120-375 V DC Frequency range AC 47-63 Hz Typical input current /  typical power consumption at 110 V AC 200 mA / 12.68 W 502 mA / 31.14 W at 230 V AC 128.3 mA / 13.01 W 277 mA / 31.2 W Inrush current limiting at 230 V AC 30 A (max. 3 ms) 50 A (max. 3 ms) Power failure buffering time min. 30 ms Internal input fuse 1 A slow-acting / 250 V AC 2 A slow-acting / 250 V AC Power factor correction (PFC) no Indication of operational states Output voltage DC ON: green LED V : output voltage applied DC LOW: red LED V : output voltage too low Output circuit +, - ++, -- Rated output voltage 12 V DC Tolerance of the output voltage ±1 % Adjustment range of the output voltage - 12-14 V DC Rated output power 10 W 30 W Rated output current I r T a   ͨ 60 °C 0.83 A 2.1 A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C Maximum  deviation with load change statical max. 1 % change of output voltage within the input voltage range max. 1 % Control time 1 ms Starting time after applying the supply voltage at I r 1000 ms Rise time at rated load typ. 1 ms Residual ripple and switching peaks BW = 20 MHz 50 mV Parallel connection yes, using CP-D RU Series connection yes, to increase voltage Resistance to reverse feed 18 V / 1 s Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output U/I characteristic curve Short-circuit protection continuous short-circuit stability Short-circuit behaviour continuation with output power limiting Current limiting at short circuit typ. 1.4 A typ. 5.9 A Overload protection output power limiting Overvoltage protection 15-16.5 V DC No-load protection continuous no-load stability Starting of capacitive loads unlimited General data Efficiency typ. 78 % typ. 82 % Duty time 100 % Dimensions (W x H x D) 18 x 91 x 57.5 mm (0.71 x 3.58 x 2.26 in) 53 x 91 x 57.5 mm (2.09 x 3.58 x 2.26 in) Weight 0.066 kg (0.13 lb) 0.196 kg (0.41 lb) Material of housing plastic Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP20 / IP20 Protection class II CP-D range Technical data 2CDC110004C0209.pdf   232 11/26/2013   4:51:20 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/12  3 Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-D 12/0.83 CP-D 12/2.1 Electrical connection - Input circuit / Output circuit Wire size fine-strand with wire end ferrule 0.2-1.5 mm 2  (24-16 AWG) 0.2-2.5 mm 2  (24-14 AWG) rigid 0.2-2.5 mm 2  (26-12 AWG) 0.2-2.5 mm 2  (24-12 AWG) Stripping length 4-5 mm (0.16-0.2 in) 7 mm (0.28 in) Tightening torque 0.6 Nm (5 lb.in) 0.7 Nm (6 lb.in) Environmental data Ambient temperature range operation -40…+70 °C rated load -40…+60 °C storage -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 4 x 24 cycles, 40 °C, 95 % RH Vibration (sinusoidal) (IEC/EN 60068-2-6) 50 m/s 2 , 10 Hz - 2 kHz Shock (half-sine) (IEC/EN 60068-2-27) 40 m/s 2 , 22 ms Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) ll Standards Product standard EN 61204 Low Voltage Directive 2006/95/EC EMC Direcitve 2004/108/EC Electrical safety UL 508, UL 60950-1, EN 60950-1 Protective low voltage SELV (EN 60950-1) Electromagnetic compatibility Interference immunity to EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4 (4 kV / 8 kV) Level 4 (4 kV / 15 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV) surge IEC/EN 61000-4-5 Level 3 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B „Approvals and marks“ on page 3/4. CP-D range Technical data 2CDC110004C0209.pdf   233 11/26/2013   4:51:20 PM

3/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-D range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-D 24/0.42 CP-D 24/1.3 CP-D 24/2.5 CP-D 24/4.2 Input circuit - supply circuit L, N Rated input voltage U in 100-240 V AC Input voltage range 90-264 V AC /120-375 V DC Frequency range AC 47-63 Hz Typical input current /  typical power consumption at 110 V AC 184 mA / 11.62 W 600 mA / 37.92 W 1120 mA / 69.3 W 1800 mA / 117.3 W at 230 V AC 120.6 mA / 12 W 344 mA / 38.16 W 660 mA / 70.1 W 900 mA / 114.4 W Inrush current limiting at 230 V AC 30 A (max. 3 ms) 50 A (max. 3 ms) 60 A (max. 3 ms) Power failure buffering time min. 30 ms min. 60 ms Internal input fuse 1 A slow-acting / 250 V AC 2 A slow-acting /  250 V AC 3.15 A slow-acting / 250 V AC Power factor correction (PFC) no Indication of operational states Output voltage DC ON: green LED V : output voltage applied DC LOW: red LED V : output voltage too low Output circuit +, - ++, -- Rated output voltage 24 V DC Tolerance of the output voltage ±1 % Adjustment range of the output voltage - 24-28 V DC Rated output power 10 W 30 W 60 W 100 W Rated output current I r T a   ͨ 60 °C: 0.42 A T a   ͨ 60 °C: 1.3 A T a   ͨ 55 °C: 2.5 A T a   ͨ 60 °C: 4.2 A Derating of the output current 60 °C  T a   ͨ 70 °C:  2.5 %/°C 60 °C  T a   ͨ 70 °C:  2.5 %/°C 55 °C  T a   ͨ 70 °C:  2.5 %/°C 60 °C  T a   ͨ 70 °C:  2.5 %/°C Maximum  deviation with load change statical max. 1 % change of output voltage within the input voltage range max. 1 % Control time 1 ms Starting time after applying the supply voltage at I r 1000 ms Rise time at rated load typ. 1 ms Residual ripple and switching peaks BW = 20 MHz 50 mV Parallel connection yes, using CP-D RU Series connection yes, to increase voltage Resistance to reverse feed 35 V / 1 s Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output U/I characteristic curve Short-circuit protection continuous short-circuit stability Short-circuit behaviour continuation with output power limiting Current limiting at short circuit typ. 0.78 A typ. 4.2 A typ. 6.05 A typ. 11.5 A Overload protection output power limiting Overvoltage protection 30-33 V DC No-load protection continuous no-load stability Starting of capacitive loads unlimited General data Efficiency typ. 80 % typ. 83 % typ. 86 % typ. 89 % Duty time 100 % Dimensions (W x H x D) 18 x 91 x 57.5 mm (0.71 x 3.58 x  2.26 in) 53 x 91 x 57.5 mm (2.09 x 3.58 x  2.26 in) 71 x 91 x 57.5 mm (2.80 x 3.58 x  2.26 in) 89.9 x 91 x 57,5 mm (3.54 x 3.58 x  2.26 in) Weight 0.066 kg (0.13 lb) 0.196 kg (0.41 lb) 0.252 kg (0.55 lb) 0.386 kg / (0.72 lb) Material of housing plastic Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP20 / IP20 Protection class II 2CDC110004C0209.pdf   234 11/26/2013   4:51:20 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/14  3 CP-D range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-D 24/0.42 CP-D 24/1.3 CP-D 24/2.5 CP-D 24/4.2 Electrical connection - Input circuit / Output circuit Wire size fine-strand with wire end ferrule 0.2-1.5 mm 2    (24-16 AWG) 0.2-2.5 mm 2  (24-14 AWG) rigid 0.2-2.5 mm 2    (26-12 AWG) 0.2-2.5 mm 2  (24-12 AWG) Stripping length 4-5 mm (0.16-0.2 in) 7 mm (0.28 in) Tightening torque 0.6 Nm (5 lb.in) 0.7 Nm (6 lb.in) Environmental data Ambient temperature range operation -40…+70 °C rated load -40…+60 °C -40…+55 °C -40…+60 °C storage -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 4 x 24 cycles, 40 °C, 95 % RH Vibration (sinusoidal) (IEC/EN 60068-2-6) 50 m/s 2 , 10 Hz - 2 kHz Shock (half-sine) (IEC/EN 60068-2-27) 40 m/s 2 , 22 ms Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC 4 kV AC 3 kV AC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) ll Standards Product standard EN 61204 Low Voltage Directive 2006/95/EC EMC Direcitve 2004/108/EC Electrical safety UL 508, UL 60950-1, EN 60950-1 Protective low voltage SELV (EN 60950-1) Electromagnetic compatibility Interference immunity to EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4   (4 kV / 8 kV) Level 4  (4 kV / 15 kV) Level 4  (4 kV / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV) surge IEC/EN 61000-4-5 Level 3 (2 kV L-L) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   235 11/26/2013   4:51:21 PM

3/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-D range Technical diagrams CP-D except CP-D 24/2.5 CP-D 24/2.5 CP-D 12/0.83 CP-D 12/2.1 CP-D 24/0.42 CP-D 24/1.3 CP-D 24/2.5 CP-D 24/4.2 Characteristic curve of output at T a  = 25 °C  -10 0 10 20 30 40 50 60 70 10 20 30 40 50 60 70 80 90 100 2CDC 272 018 F0207 P out  [%] T a  [°C] -10 0 10 20 30 40 50 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] 2CDC 272 018 F0207 0 10 2 3 4 5 6 7 8 9 10 11 12 2CDC 272 019 F0207 U out  [V] I out  [A] 0.5 0.25 0.75 1 1.25 0 10 2 3 4 5 6 7 8 9 10 11 12 2CDC 272 020 F0207 U out  [V] I out  [A] 0.5 1 1.5 2 2.5 3 4 3.5 0 20 4 6 8 10 12 14 16 18 20 22 24 2CDC 272 021 F0207 U out  [V] I out  [A] 0.125 0.25 0.5 0.625 0.375 0.875 0.75 0 20 4 6 8 10 12 14 16 18 20 22 24 2CDC 272 022 F0207 U out  [V] I out  [A] 0.5 1 1.5 2 2.5 3 0 20 4 6 8 10 12 14 16 18 20 22 24 2CDC 272 023 F0207 U out  [V] I out  [A] 0.5 1 1.5 2 2.5 3 4 3.5 0 20 4 6 8 10 12 14 16 18 20 22 24 1 2 3 4 5 6 8 7 2CDC 272 030 F0207 U out  [V] I out  [A] Characteristic curve of temperature at rated output voltage 2CDC110004C0209.pdf   236 11/26/2013   4:51:21 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/16  3 CP-D range Dimensional drawings CP-D 24/4.2 CP-D 12/2.1, CP-D 24/1.3 CP-D 24/2.5 CP-D 12/0.83, CP-D 24/0.42 Dimensional drawings  dimensions in mm 18,0 [0.71”] 67,0 [2.64”] 44,5 [1.75”] 91,0 [3.58”] 32,1 [1.26”] 57,5 [2.26”] 49,0 [1.93”] 2CDC 272 011 F0b07 67,0 [2.64”] 44,5 [1.75”] 32,1 [1.26”] 57,5 [2.26”] 49,0 [1.93”] 91,0 [3.58”] 53,0 [2.09”] 2CDC 272 012 F0b07 67,0 [2.64”] 44,5 [1.75”] 32,1 [1.26”] 57,5 [2.26”] 49,0 [1.93”] 91,0 [3.58”] 71,0 [2.80”] 2CDC 272 013 F0b07 67,0 [2.64”] 44,5 [1.75”] 32,1 [1.26”] 57,5 [2.26”] 49,0 [1.93”] 91,0 [3.58”] 89,9 [3.54”] 2CDC 272 014 F0b07 2CDC110004C0209.pdf   237 11/26/2013   4:51:21 PM

3/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Product group picture 2CDC110004C0209.pdf   238 11/26/2013   4:51:21 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/18  3 CP-E range Table of contents CP-E range Product group picture   3/17 Table of contents   3/18 Benefits and advantages   3/19 Ordering details   3/20 Technical data   3/21 Technical diagrams, Wiring instructions   3/29 Technical diagrams, Dimensional drawings   3/30 2CDC110004C0209.pdf   239 11/26/2013   4:51:22 PM

3/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 2CDC 276 008 F0006 2CDC 276 008 F0006 2CDC 271 006 F0003 2CDC 276 009 F0006 Characteristics   ½ Output voltages 5 V, 12 V, 24 V, 48 V DC   ½  Adjustable output voltages   ½  Output currents 0.625 A / 0.75 A / 1.25 A / 2.5 A / 3 A /  5 A / 10 A / 20 A   ½  Power range 15 W, 18 W, 30 W, 60 W, 120 W, 240 W, 480 W   ½  High efficiency of up to 90 %   ½  Low power dissipation and low heating   ½  Free convection cooling (no forced cooling with ventilators)   ½  Ambient temperature range during operation -40...+70 °C   ½  Open-circuit, overload and short-circuit stable   ½  Integrated input fuse   ½  U/I characteristic curve on devices 18 W (fold-forward behaviour at overload – no switch-off)   ½  Redundancy units offering true redundancy   ½  LED(s) for status indication   ½  Signalling output/contact for output voltage OK  Transistor on 24 V devices 18 W and 120 W  Solid-state on 24 V devices  ͧ 120 W   ½  Approvals / Marks (depending on device, partly pending): A, H, D, E / a, b Signalling output/contact The CP-E range 24 V devices 18 W offer an output/contact for  monitoring of the output  voltage and remote diagnosis. Wide range input Optimised for world-wide applications: The CP-E power supplies can be supplied within a wide range of AC or DC voltage. Redundancy units For decoupling of parallelized power supply units  ͨ 40 V. Thus, true re- dundancy can be  achieved.  Further information about redundancy unit on page 51. Adjustable output voltage The CP-E range types feature a continuously adjustable output voltage. Thus, they can be  optimally adapted to the application, e.g. compensa-ting the voltage drop caused by a long line length. Benefits 1 1 2 2 3 3 4 4 CP-E range Benefits and advantages 4 1 2 3 5 1   INPUT L, N, PE: terminals - input 2  Circuit diagram 3   single/parallel: sliding switch - adjustment   of single or parallel operation 4   Indication of operational states DC ON: green LED - green LED - output voltage OK DC LOW: red LED - output voltage too low 5   OUTPUT L+, L+, L-, L-: terminals - output   OUTPUT Adjust: potentiometer - adjustment of output voltage 2CDC110004C0209.pdf   240 11/26/2013   4:51:22 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/20  3 Description This range offers types with output voltages from 5 V DC to 48 V DC at output currents of  0.625 A to 20 A. The high thermal efficiency of up to 90 %, corresponding to very low power  and heat dissipation, allows operation without forced cooling. The functionality has been en- hanced while the number of different types has been considerably reduced. Of course all power supplies of the CP-E range are approved in accordance with all relevant  international standards. Ordering details - CP-E  100 W Input voltage range Rated output  voltage  / current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  90-264 V AC / 120-375 V DC 5 V DC / 3 A CP-E 5/3.0 1SVR427033R3000 0.15  (0.33) 85-264 V AC / 90-375 V DC 12 V DC / 2.5 A CP-E 12/2.5 1SVR427032R1000 0.29 (0.64) 90-132 V AC, 180-264 V AC / 210-375 V DC 12 V DC / 10 A CP-E 12/10.0 1SVR427035R1000 1.00 (2.20) 90-264 V AC / 120-375 V DC 24 V DC / 0.75 A CP-E 24/0.75 1SVR427030R0000 0.15  (0.33) 85-264 V AC / 90-375 V DC 24 V DC / 1.25 A CP-E 24/1.25 1SVR427031R0000 0.29 (0.64) 85-264 V AC / 90-375 V DC 24 V DC / 2.5 A CP-E 24/2.5 1SVR427032R0000 0.36 (0.79) Ordering details - CP-E  ͧ 120 W Input voltage range Rated output  voltage  / current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  90-132 V AC, 180-264 V AC / 210-375 V DC 24 V DC / 5 A CP-E 24/5.0 1SVR427034R0000 1.00 (2.20) 90-132 V AC, 180-264 V AC / 210-375 V DC 24 V DC / 10 A CP-E 24/10.0 1SVR427035R0000 1.36 (3.01) 90-264 V AC / 120-375 V DC 24 V DC / 20 A CP-E 24/20.0 1SVR427036R0000 1.90 (4.18 85-264 V AC / 90-375 V DC 48 V DC / 0.625 A CP-E 48/0.62 1SVR427030R2000 0.29 (0.64) 85-264 V AC / 90-375 V DC 48 V DC / 1.25 A CP-E 48/1.25 1SVR427031R2000 0.36(0.79) 90-132 V AC, 180-264 V AC / 210-375 V DC 48 V DC / 5 A CP-E 48/5.0 1SVR427034R2000 1.36  (3.01) 90-264 V AC / 120-375 V DC 48 V DC / 10 A CP-E 48/10.0 1SVR427035R2000 1.90 (4.19) 2CDC 271 013 F0006 2CDC 271 028 F0008 2CDC 271 017 F0006 CP-E 12/2.5 CP-E 48/5.0 CP-E 24/0.75 CP-E range Ordering details 2CDC110004C0209.pdf   241 11/26/2013   4:51:22 PM

3/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 5/3.0 CP-E 12/2.5 CP-E 12/10.0 Input circuit L, N Rated input voltage U in 100-240 V AC 115 / 230 V AC  auto select Input voltage range 90-264 V AC /  120-375 V DC 85-264 V AC /  90-375 V DC 90-132 V AC,  180-264 V AC / 210-375 V DC Frequency range AC 47-63 Hz Typical input current at 115 V AC 335 mA 560 mA 2.2 A at 230 V AC 210 mA 330 mA 0.83 A Typical power consumption 19.8 W 35.9 W 143 W Inrush current limiting at 115 V AC 10 A (max. 3 ms) 20 A (max. 3 ms) 24 A (max. 5 ms) at 230 V AC 18 A (max. 3 ms) 40 A (max. 3 ms) 48 A (max. 5 ms) Discharge current input / output 0.25 mA input / PE 3.5 mA Power failure buffering time at 115 V AC min. 20 ms min. 20 ms min. 25 ms at 230 V AC min. 75 ms min. 30 ms min. 30 ms Internal input fuse 2 A slow-acting / 250 V AC 3.15 A slow-acting /  250 V AC Power factor correction (PFC) no yes, passive, 0.7 Indication of operational states Output voltage green LED OK:  V :   output voltage OK OUTPUT OK:  V :   output voltage OK OUTPUT OK:  V :   output voltage OK red LED LOW:  V :   output voltage too low - OUTPUT LOW:  V :   output voltage too low Output circuit L+,L- L+, L+, L-, L- Rated output voltage 5 V DC 12 V DC Tolerance of the output voltage 0...+1 % Adjustment range of the output voltage 4.5-5.75 V DC 12-14 V DC 11.4-14.5 V DC Rated output power 15 W 30 W 120 W Rated output current I r T a   ͨ 60 °C 3.0 A 2.5 A 10 A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C 2.5 %/°C Maximum deviation with load change statical ±2 % ±0.5 % ±1 % (single mode)±5 % (parallel mode) change of output voltage within the input  voltage range ±1 % ±0.5 % ±0.5 % Control time 2 ms Starting time after applying the supply voltage at I r max. 1 s with 3500 μF - max. 2 s - with 7000 μF max. 1.5 s - max. 1.5 s Rise time at rated load max. 150 ms with 3500 μF - max. 500 ms - with 7000 μF max. 500 ms - max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks BW = 20 MHz 50 mV Parallel connection yes, to enable redundancy configurable, to  increase power,up to 3 devices, min. 0.1 I r  - max. 0.9 I r Series connection yes, to increase voltage yes, to increase voltage, max. 2 devices Resistance to reverse feed 1 s - max. 7.5 V DC 1 s - max.18 V DC max. 18 V DC Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output Hiccup-mode U/I characteristic curve Short-circuit protection continuous short-circuit proof Short-circuit behaviour Hiccup-mode continuation with output power limiting Overload protection output power limiting No-load protection continuous no-load stability Starting of capacitive loads 7000 μF 3500 μF 7000 μF 2CDC110004C0209.pdf   242 11/26/2013   4:51:23 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/22  3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 5/3.0 CP-E 12/2.5 CP-E 12/10.0 General data Power dissipation typ. 5 W typ. 5.6 W typ. 24 W Efficiency typ. 75 % typ. 84 % typ. 84 % Duty time 100 % Dimensions (W x H x D) 22.5 x 90 x 114 mm (0.89 x 3.54 x 4.49 in) 40.5 x 90 x 114 mm (1.59 x 3.54 x 4.49 in) 63.2 x 123.6 x 123.6 mm (2.49 x 4.87 x 4.87 in) Weight 0.144 kg (0.317 lb) 0.287 kg (0.633 lb) 0.888 kg (1.958 lb) Material of housing Plastic Metal Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP20 / IP20 Protection class I Electrical connection - input circuit / output circuit Wire size fine-strand with wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) 0.2-4 mm² (24-11 AWG) fine-strand without wire end ferrule 0.2-6 mm² (24-10 AWG) rigid Stripping length 6 mm (0.24 in) 8 mm (0.31 in) Tightening torque input / output 0.6 Nm (5 lb.in) 1.0 Nm (9 lb.in) /  0.62 Nm (5.5 lb.in) Environmental data Ambient temperature range operation -20…+70 °C -40…+70 °C -35…+70 °C rated load -20...+60 °C -40...+60 °C -35...+60 °C storage -20…+85 °C -40…+85 °C -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 RH, % without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 10-500 Hz, 2 G, along X, Y, Z each axis, 60 min. for each axis Shock (half-sine) (IEC/EN 60068-2-27) 15 G, 11 ms, 3 axes, 6 faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) II Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 60950-1,  UL 60950-1, UL 508 EN 60950-1, UL 60950-1, UL 508,  EN 61558-1, EN 61558-2-17; EN 60204-1 Protective low voltage SELV (EN 60950) Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV / 2,5 kHz)   Level 4 (4 kV / 5 kHz)   surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m) voltage dips, short interruptions and voltag variations IEC/EN 61000-4-11 dip:  95 % 10 ms / 30 % 500 ms interruptions:  95 % 5000 ms   Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions IEC/EN 61000-3-2 Class D Class A Class D „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   243 11/26/2013   4:51:23 PM

3/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 24/0.75 CP-E 24/1.25 CP-E 24/2.5 Input circuit L, N Rated input voltage U in 100-240 V AC Input voltage range 90-264 V AC / 120-375 V DC 85-264 V AC / 90-375 V DC Frequency range AC 47-63 Hz Typical input current at 115 V AC 335 mA 560 mA 1060 mA at 230 V AC 210 mA 330 mA 590 mA Typical power consumption 22.8 W 36.7 W 69.2 W Inrush current limiting at 115 V AC 10 A (max. 3 ms) 20 A (max. 3 ms) 20 A (max. 3 ms) at 230 V AC 18 A (max. 3 ms) 40 A (max. 3 ms) 40 A (max. 3 ms) Discharge current input / output 0.25 mA input / PE 3.5 mA Power failure buffering time at 115 V AC min. 20 ms min. 20 ms at 230 V AC min. 75 ms min. 30 ms Internal input fuse 2 A slow-acting / 250 V AC Power factor correction (PFC) no Indication of operational states Output voltage green LED OK:  V :   output voltage OK OUTPUT OK:  V :  output voltage OK red LED LOW:  V :   output voltage too low - - Output circuit L+,L- L+, L+, L-, L- Rated output voltage 24 V DC Tolerance of the output voltage 0 ... +1 % Adjustment range of the output voltage 21.6-28.8 V DC 24-28 V DC Rated output power 18 W 30 W 60 W Rated output current I r T a   ͨ 60 °C 0.75 A 1.25 A 2.5 A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C Signalling output for output voltage OK DC OK - transistor Maximum deviation with load change statical ±2 % ±0.5 % change of output voltage within the input  voltage range ±1 % ±0.5 % Control time 2 ms Starting time after applying the supply voltage at I r max. 1 s with 3500 μF - max. 2 s - with 7000 μF max. 1.5 s - max. 1.5 s Rise time at rated load max. 150 ms with 3500 μF - max. 500 ms - with 7000 μF max. 500 ms - max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks BW = 20 MHz 50 mV Parallel connection yes, to enable redundancy Series connection yes, to increase voltage Resistance to reverse feed 1 s - max. 35 V DC Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output Hiccup-mode U/I characteristic curve Short-circuit protection continuous short-circuit proof Short-circuit behaviour Hiccup-mode continuation with output power limiting Overload protection output power limiting No-load protection continuous no-load stability Starting of capacitive loads 7000 μF 3500 μF 7000 μF 2CDC110004C0209.pdf   244 11/26/2013   4:51:23 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/24  3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 24/0.75 CP-E 24/1.25 CP-E 24/2.5 General data Power dissipation typ. 4.45 W typ. 5.5 W typ. 8.8 W Efficiency typ. 77 % typ. 86 % typ. 89 % Duty time 100 % Dimensions (W x H x D) 22.5 x 90 x  114 mm  (0.89 x 3.54 x 4.49 in) 40.5 x 90 x 114 mm  (1.59 x 3.54 x 4.49 in) Weight 0.143 kg (0.315 lb) 0.270 kg (0.60 lb) 0.331 kg (0.73 lb) Material of housing Plastic Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP20 / IP20 Protection class I Electrical connection - input circuit / output circuit Wire size fine-strand with wire end ferrule 0.2-2.5 mm2 (24-14 AWG) fine-strand without wire end ferrule rigid Stripping length 6 mm (0.24 in) Tightening torque input / output 0.6 Nm (5 lb.in) Environmental data Ambient temperature range operation -20…+70 °C -40…+70 °C rated load -20…+60 °C -40…+60 °C storage -20…+85 °C -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 % RH, without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 10-500 Hz, 2 G, along X, Y, Z each axis, 60 min. for each axis Shock (half-sine) (IEC/EN 60068-2-27) 15 G, 11 ms, 3 axes, 6 faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) II Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 50178, EN 60950-1, UL 60950-1, UL 508 EN 60950-1, UL 60950-1, UL 508, EN 61558-1, EN 61558-2-17; EN 60204-1 Protective low voltage SELV (EN 60950) Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV / 2.5 kHz)   Level 4 (4 kV / 5 kHz)   surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV)  conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m) voltage dips, short interruptions and voltag variations IEC/EN 61000-4-11 dip:  95 % 10 ms /  30 % 500 ms, interruptions:  95 % 5000 ms Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions IEC/EN 61000-3-2 Class D Class A „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   245 11/26/2013   4:51:23 PM

3/25   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 24/5.0 CP-E 24/10.0 CP-E 24/20.0 Input circuit L, N Rated input voltage U in 115 / 230 V AC auto select 115-230 V AC Input voltage range 90-132 V AC,  180-264 V AC / 210-375 V DC 90-132 V AC,  180-264 V AC / 210-375 V DC 90-264 V AC, 120-375 V DC Frequency range AC 47-63 Hz Typical input current at 115 V AC 2.2 A 4.0 A 4.9 A at 230 V AC 0.83 A 1.55 A 2.5 A Typical power consumption 140 W 270 W 539 W Inrush current limiting at 115 V AC 24 A (max. 5 ms) 30 A (max. 5 ms) 25 A (max. 5 ms) at 230 V AC 48 A (max. 5 ms) 60 A (max. 5 ms) 50 A (max. 5 ms) Discharge current input / output 0.25 mA input / PE 3.5 mA Power failure buffering time at 115 V AC min. 25 ms at 230 V AC min. 30 ms Internal input fuse 3.15 A slow-acting / 250 V AC 6.3 A slow-acting / 250 V AC 10 A slow-acting / 250 V AC Power factor correction (PFC) yes, passive, 0.7 yes, active  115 V AC: 0.99 230 V AC: 0.97 Indication of operational states Output voltage green LED OUTPUT OK:   V :  output voltage OK red LED OUTPUT LOW:  V :  output voltage too low Output circuit L+, L+, L-, L- Rated output voltage 24 V DC Tolerance of the output voltage 0...+1 % Adjustment range of the output voltage 22.5-28.5 V DC Rated output power 120 W 240 W 480 W Rated output current I r T a   ͨ 60 °C 5 A 10 A - T a   ͨ 55 °C - - 20  A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C - 55 °C T a   ͨ 70 °C - - 2.5  %/°C Signalling contact for output voltage OK 13-14 solid-state (max. 60 V DC, 0.3 A) Minimum fuse rating to achieve short-circuit protection 13-14 ͧ 60 V DC, ͨ 0.3 A fast-acting Maximum deviation with load change statical ±1 % (single mode), ±5 % (parallel mode) change of output voltage within the input  voltage range ±0.5 % Control time 2 ms Starting time after applying the supply voltage at I r max. 1 s with 3500 μF max. 1.5 s - - with 7000 μF - max. 1.5 s Rise time at rated load max. 150 ms with 3500 μF max. 500 ms - - with 7000 μF - max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks BW = 20 MHz 50 mV 100 mV Parallel connection configurable, to  increase power, up to 3 devices, min. 0.1 I r  - max. 0.9 I r Series connection yes, to increase voltage, max. 2 devices Resistance to reverse feed max. 35 V DC Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output U/I characteristic curve Short-circuit protection continuous short-circuit proof Short-circuit behaviour continuation with output power limiting Overload protection output power limiting No-load protection continuous no-load stability Starting of capacitive loads 3500 μF 7000 μF 2CDC110004C0209.pdf   246 11/26/2013   4:51:24 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/26  3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 24/5.0 CP-E 24/10.0 CP-E 24/20.0 General data Power dissipation typ. 20 W typ. 35 W typ. 63 W Efficiency typ. 86 % typ. 89 % typ. 89 % Duty time 100 % Dimensions (W x H x D) 63.2 x 123.6 x 123.6 mm (2.49 x 4.87 x 4.87 in) 83 x 123.6 x 123.6 mm  (3.27 x 4.87 x 4.87 in) 175 x 123.6 x 123.6 mm (6.89 x 4.87 x 4.87 in) Weight 0.882 kg (1.945 lb) 1.334 kg (2.941 lb) 1.850 kg (4.079 lb) Material of housing Metal Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP20 / IP20 Protection class I Electrical connection - input circuit / output circuit Wire size fine-strand with wire end ferrule 0.2-4 mm² (24-11 AWG) fine-strand without wire end ferrule 0.2-6 mm² (24-10 AWG) rigid Stripping length 8 mm (0.31 in) Tightening torque input / output 1.0 Nm (9 lb.in) / 0.62 Nm (5.5 lb.in)    Environmental data Ambient temperature range operation -35…+70 °C -40…+70 °C rated load -35…+60 °C -40…+60 °C -40…+55 °C storage -40…+85 °C -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 %RH, without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 10-500 Hz, 2 G, along X, Y, Z each axis, 60 min. for each axis Shock (half-sine) (IEC/EN 60068-2-27) 15 G, 11 ms, 3 axes, 6 faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC signalling contact / PE 0.5 kV DC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) II Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 60950-1, UL 60950-1, UL 508, EN 61558-1, EN 61558-2-17; EN 60204-1 Protective low voltage SELV (EN 60950) Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV / 5 kHz)  Level 4 (4 kV / 2.5 kHz)    surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m) voltage dips, short interruptions and voltag variations IEC/EN 61000-4-11 dip:  95 % 10 ms / 30 % 500 ms interruptions:  95 % 5000 ms   Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions Class D „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   247 11/26/2013   4:51:24 PM

3/27   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 48/0.62 CP-E 48/1.25 CP-E 48/5.0 CP-E 48/10.0 Input circuit L, N Rated input voltage U in 100-240 V AC 115 / 230 V AC auto select 115-230 V AC Input voltage range 85-264 V AC / 90-375 V DC 90-132 V AC,  180-264 V AC / 210-375 V DC 90-264 V AC, 120-375 V DC Frequency range AC 47-63 Hz Typical input current at 115 V AC 560 mA 1060 mA 4.0 A 4.9 A at 230 V AC 330 mA 590 mA 1.55 A 2.5 A Typical power consumption 35.7 W 69.0 W 267 W 528 W Inrush current limiting at 115 V AC 20 A (max. 3 ms) 20 A (max. 3 ms) 30 A (max. 5 ms) 25 A (max. 5 ms) at 230 V AC 40 A (max. 3 ms) 40 A (max. 3 ms) 60 A (max. 5 ms) 50 A (max. 5 ms) Discharge current input / output 0.25 mA input / PE 3.5 mA Power failure buffering time at 115 V AC min. 20 ms min. 25 ms min. 25 ms at 230 V AC min. 30 ms Internal input fuse 2 A slow-acting /  250 V AC 6.3 A slow-acting /  250 V AC 10 A slow-acting /  250 V AC Power factor correction (PFC) no yes, passive, 0.7 yes, active 115 V AC: 0.99 230 V AC: 0.97 Indication of operational states Output voltage green LED OUTPUT OK:   V :  output voltage OK red LED - - OUTPUT LOW:   V :   output voltage too low Output circuit L+, L+, L-, L- Rated output voltage 48 V DC Tolerance of the output voltage 0...+1 % Adjustment range of the output voltage 48-55 V DC 47-56 V DC Rated output power 30 W 60 W 240 W 480 W Rated output current I r T a   ͨ 60 °C 0.625 A 1.25 A 5 A - T a   ͨ 55 °C - - - 10  A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C - 55 °C T a   ͨ 70 °C - - - 2.5  %/°C Signalling output for output voltage OK DC OK - - - - Maximum deviation with load change statical ±0.5 % ±1 % (single mode) ±5 % (parallel mode) change of output voltage within the input  voltage range ±0.5 % ±0.5 % Control time 2 ms Starting time after applying the supply voltage at I r max. 1 s with 3500 μF max. 2 s - - - with 7000 μF - max. 1.5 s max. 1.5 s Rise time at rated load max. 150 ms with 3500 μF max. 500 ms - - - with 7000 μF - max. 500 ms max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks BW = 20 MHz 50 mV 100 mV Parallel connection yes, to enable redundancy configurable, to  increase power, up to 3 devices, min. 0.1 I r  - max. 0.9 I r Series connection yes, to increase voltage yes, to increase voltage,  max. 2 devices Resistance to reverse feed 1 s - max. 63 V DC Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output U/I characteristic curve Short-circuit protection continuous short-circuit proof Short-circuit behaviour continuation with output power limiting Overload protection output power limiting No-load protection continuous no-load stability Starting of capacitive loads 3500 μF 7000 μF unlimited 7000 μF 2CDC110004C0209.pdf   248 11/26/2013   4:51:24 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/28  3 CP-E range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-E 48/0.62 CP-E 48/1.25 CP-E 48/5.0 CP-E 48/10.0 General data Power dissipation typ. 4.9 W typ. 7.8 W typ. 32 W typ. 60 W Efficiency typ. 86 % typ. 89 % typ. 90 % Duty time 100 % Dimensions (W x H x D) 40.5 x 90 x 114 mm (1.59 x 3.54 x 4.49 in) 83 x 123.6 x  123.6 mm  (3.27 x 4.87 x 4.87 in) 175 x 123.6 x  123.6 mm (6.89 x 4.87 x 4.87 in) Weight 0.264 kg (0.582 lb) 0.316 kg (0.697 lb) 1.322 kg (2.915 lb) 1.839 kg (4.054 lb) Material of housing Plastic Metal Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection housing / terminals IP/20 / IP20 Protection class I Electrical connection - input circuit / output circuit Wire size fine-strand with wire end ferrule 0.2-2.5 mm² (24-14 AWG) 0.2-4 mm² (24-11 AWG) fine-strand without wire end ferrule 0.2-6 mm² (24-10 AWG) rigid Stripping length 6 mm (0.24 in) 8 mm (0.31 in) Tightening torque input / output 0.6 Nm (5 lb.in) 1.0 Nm (9 lb.in) / 0.62 Nm (5.5 lb.in)    Environmental data Ambient temperature range operation -40…+70 °C rated load -40…+60 °C -40…+55 °C storage -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 % RH, without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 10-500 Hz, 2 G, along X, Y, Z each axis, 60 min. for each axis Shock (half-sine) (IEC/EN 60068-2-27) 15 G, 11 ms, 3 axes, 6 faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit 3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC Pollution degree 2 Overvoltage category (UL/IEC/EN 60950-1) II Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 60950-1, UL 60950-1, UL 508, EN 61558-1, EN 61558-2-17; EN 60204-1 Protective low voltage SELV (EN 60950) Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV / 5 kHz)   Level 4 (4 kV / 2.5 kHz)  surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V/m)  power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m)               voltage dips, short interruptions and voltag variations IEC/EN 61000-4-11 dip:  95 % 10 ms /  30 % 500 ms, interruptions:  95 % 5000 ms   Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions Class A Class D „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   249 11/26/2013   4:51:24 PM

3/29   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-E range Technical diagrams, Wiring instructions U out  [V]  I out  [A]  1.25 1.35 1.45 1.55 1.65 1.75 1.85 1.95 2.05 2.15 2CDC 272 006 F0b07 U out  [V]  I out  [A]  2.75 2.85 2.95 3.05 3.15 3.25 3.35 3.45 3.55 3.65 2CDC 272 007 F0b07 U out  [V]  I out  [A]  2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 1 3 5 7 9 11 13 15 2CDC 272 008 F0b07 U out  [V]  I out  [A]  1.73 1.81 1.89 1.97 2.05 1.33 1.41 1.49 1.57 1.65 10 20 30 40 50 60 70 2CDC 272 010 F0b07 CP-E 24/1.25 CP-E 24/2.5 CP-E 12/2.5 CP-E 48/0.62 CP-E 48/1.25 U out  [V]  I out  [A]  0.865 0.905 0.945 0.985 1.025 0.665 0.705 0.745 0.785 0.825 10 20 30 40 50 60 70 2CDC 272 009 F0b07 U out  [V]  I out  [A]  4 6 8 10 14 16 12 2 2 4 6 8 10 12 14 2CDC 272 005 F0b08 CP-E 12/10.0 U out  [V]  I out  [A]  2 3 4 5 7 8 6 1 4 8 12 16 20 24 28 2CDC 272 006 F0b08 CP-E 24/5.0 U out  [V]  I out  [A]  4 6 8 10 14 16 12 2 4 8 12 16 20 24 28 2CDC 272 007 F0b08 CP-E 24/10.0 U out  [V]  I out  [A]  8 12 16 20 28 32 24 4 4 8 12 16 20 24 28 2CDC 272 008 F0b08 CP-E 24/20.0 CP-E 48/10.0 CP-E 48/5.0 U out  [V]  I out  [A]  2 3 4 5 7 8 6 1 8 16 24 32 40 48 56 2CDC 272 009 F0b08 U out  [V]  I out  [A]  4 6 8 10 14 16 12 2 8 16 24 32 40 48 56 2CDC 272 010 F0b08 CP-E 24/1.25, CP-E 24/2.5 Output curve at T a  = 25 °C Wiring instructions DC OK L- L- DC OK 2CDC 272 017 F0207 Relay R L   700  ⏲ 5 V Signal 2.2 k ⏲ 0.5 W 5.1 V 0.3 W 2CDC110004C0209.pdf   250 11/26/2013   4:51:25 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/30  3 Temperature behaviour at T a  = 25 °C CP-E range Technical diagrams, Dimensional drawings CP-E 12/10.0, CP-E 24/5.0 CP-E 5/3.0, CP-E 24/0.75 CP-E 12/2.5, CP-E 24/1.25, CP-E 48/0.62, CP-E 24/2.5, CP-E 48/1.25, CP-E 24/10.0, CP-E 48/5.0 CP-E 24/20.0, CP-E 48/10.0 2CDC 272 015 F0211 2CDC 272 016 F0211 2CDC 272 017 F0211 2CDC 272 018 F0211 -35 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] -20 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] -40 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] -40 55 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] CP-E 5/3.0,  CP-E 24/0.75 CP-E 12/2.5, CP-E 24/1.25, CP-E 24/2.5,  CP-E 48/0.62, CP-E 48/1.25 CP-E 12/10.0,  CP-E 24/5.0 CP-E 24/20.0,  CP-E 48/10.0 CP-E 24/10.0,  CP-E 48/5.0 175,0  [6.89“] 123,6   [4.87“] 116,6  [4.59“] 123,6  [4.87“] 83,0  [3.27“] 123,6   [4.87“] 63,2  [2.49“] 123,6   [4.87“] 22.5     0.89“ 114     4.49“ 90     3.54“ 40.5    1.59” 90      3.54” 2CDC 272  021 F0011 2CDC 272  013 F008 Dimensional drawings   dimensions in mm 2CDC110004C0209.pdf   251 11/26/2013   4:51:25 PM

3/31   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-T range Product group picture 2CDC110004C0209.pdf   252 11/26/2013   4:51:25 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/32  3 CP-T range Table of contents CP-T range Product group picture   3/31 Table of contents   3/32 Benefits and advantages   3/33 Ordering details   3/34 Technical data   3/35 Technical diagrams, Dimensional drawings   3/39 Technical diagrams   3/40 2CDC110004C0209.pdf   253 11/26/2013   4:51:26 PM

3/33   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-T range Benefits and advantages Characteristics    ½ Rated output voltages 24 V, 48 V DC   ½ Output voltage adjustable via front-face rotary potentiometer “OUTPUT Adjust”   ½ Rated output currents 5 A, 10 A, 20 A, 40 A   ½ Rated output powers 120 W, 240 W, 480 W, 960 W   ½ Three-phase or two-phase operation (see derating note)   ½ Supply range 3 x 400 – 500 V AC (3 x 340 – 575 V AC, 480 – 820 V DC)   ½ Typical efficiency of 93 %   ½ Low power dissipation and low heating   ½ Free convection cooling (no forced cooling with ventilators)   ½ Ambient temperature range during operation -40...+70 °C  1)   ½ Open-circuit, overload and short-circuit stable   ½ Integrated input fuse   ½ Redundancy unit CP-A RU offering true redundancy, available as  accessory   ½  LEDs for status indication   ½ Signalling contact "13-14" (solid state) for output voltage OK   ½ Approvals / marks (depending on device, partly pending): A, H D,    E / a , b Signalling output The devices of the CP-T series offer a solid state output for function  monitoring and remote diagnostics. Wide input range Wide range input optimized for world-wide applications:  The CP-T power supplies can be used in 340 - 575 V AC or 480 - 820 V DC supply systems. Adjustable output voltage The CP-T range feature a continuously adjustable output voltage. Thus, they can be optimally adapted to the application, e.g. compensating the voltage drop caused by a long line length. Benefits 1 1 2 2 1)   480 W variants: -30...+70°C 2CDC 271 043 S0009 2CDC 271 043 S0009 4 1 23 5 1  Circuit diagram 2   Indication of operational states DC ON: green LED - green LED - output voltage OK DC LOW: red LED - output voltage too low 3   single/parallel: sliding switch - adjustment   of single or parallel operation 4   Configuration of single or parallel operation 5  Signalling contact OUTPUT 13-14: terminals - signalling contact A solid-state output indicates the error-free operation of the output  voltage.   OUTPUT L+, L+, L-, L-: terminals - output 7   INPUT L1, L2, L3, PE: terminals - input 7 2CDC110004C0209.pdf   254 11/26/2013   4:51:26 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/34  3 CP-T range Ordering details 2CDC 271 043 S0009 2CDC 271 045 S0009 2CDC 271 047 S0009 CP-T 24/5.0 CP-T 24/10.0, CP-T 48/5.0 CP-T 24/20.0, CP-T 48/10.0 Description The CP-T range of three-phase power supply units is the youngest member of ABB‘s power  supply family. In terms of design and functionality, the new range perfectly supplements the  existing products and extends the range appropriately. The devices can be supplied with a  three-phase voltage as well as with two-phase mains. Here, ABB offers power supply units  with 24 V DC and 48 V DC outputs with 5 A, 10 A, 20 A and 40 A and efficiency of up to 92 %.  As in the case of all products, they are designed for an ambient temperature of up to 70 °C. All  products can be supplied within an AC supply voltage range between 340 to 575 V AC and a  DC supply voltage range between 480 to 820 V DC. Ordering details Input voltage range Rated output voltage  / current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  340-575 V AC / 480-820 V DC 24 V DC / 5 A CP-T 24/5.0 1SVR427054R0000 0.80 (1.77) 340-575 V AC / 480-820 V DC 24 V DC / 10 A CP-T 24/10.0 1SVR427055R0000 1.05 (2.31) 340-575 V AC / 480-820 V DC 24 V DC / 20 A CP-T 24/20.0 1SVR427056R0000 1.75 (3.86) 340-575 V AC / 480-820 V DC 24 V DC / 40 A CP-T 24/40.0 1SVR427057R0000 3.20 (7.05) 340-575 V AC / 480-820 V DC 48 V DC / 5 A CP-E 48/5.0 1SVR427054R2000 1.05 (2.31) 340-575 V AC / 480-820 V DC 48 V DC / 10 A CP-E 48/10.0 1SVR427055R2000 1.75 (3.86) 340-575 V AC / 480-820 V DC 48 V DC / 20 A CP-E 48/20.0 1SVR427056R2000 3.40 (7.50) 2CDC110004C0209.pdf   255 11/26/2013   4:51:27 PM

3/35   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-T range Technical data Data at T a  = 25 °C, U in  = 3 x 400 V AC and rated values, unless otherwise indicated Type CP-T 24/5.0 CP-T 24/10.0 CP-T 24/20.0 CP-T 24/40.0 Input circuit L1, L2, L3 Rated input voltage U in 3 x 400-500 V AC Input voltage range 340-575 V AC 480-820 V DC Frequency range AC 47-63 Hz Typical input current 0.36 A 0.65 A 1.1 A 1.72 A Typical power consumption 135 W 270 W 538 W 1058 W Inrush current limiting 10 A 20 A 30 A Power failure buffering time min. 20 ms min. 15 ms Internal input fuse per phase 2 A / 600 V AC T 3.15 A / 500 V AC T 5 A / 500 V AC Recommended backup fuse  3 pole miniature circuit breaker ABB Type S203 Power factor correction (PFC) Yes, passive Discharge current towards PE  3.5 mA input / output  0.25 mA Indication of operational states Output voltage OUTPUT OK: green LED   output voltage OK OUTPUT LOW: red LED   output voltage too low Output circuit L+, L+, L-, L- Rated output voltage 24 V DC Tolerance of the output voltage 0...+1 % Adjustment range of the output voltage 22.5-28.5 V DC Rated output power 120 W 240 W 480 W 960 W Rated output current I r  Ta  d 60 °C 5 A 10 A 20 A 40 A Derating of the output current 60 °C Ta  d 70 °C 2.5 %/°C 3.5 %/°C Signalling contact  for output voltage OK 13-14 solid state (max. 60 V DC, 0.3 A) Threshold 17.6-19.4 V Insulation voltage 500 V DC Mininum fuse rating to achieve short-circuit protection 13-14 ͧ 60 V DC, ͨ 0.3 A fast-acting Maximum deviation with load change statical ±1 % ±1 % (single mode) - ± 5 % (parallel mode) change of output voltage   within the input voltage range ± 0.5 % Control time at nominal load  2 ms Starting time after applying  the supply voltage  at I r max. 1 s with 3500 μF max. 1.5 s Rise time at nominal load max. 150 ms with 3500 μF max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks  BW = 20 MHz 100 mV 80 mV Parallel connection not supported configurable, to increase  power, up to 2 devices,  min. 0.1 I r  - max 0.9 I r )   to increase power, up to 2 devices,min. 0.1 I r  - max.  0.9 I r  use active   current balancing Series connection not supported yes, to increase voltage, max. 2 devices Resistance to reverse feed approx. 35 V Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output combined U/I characteristic curve  and hiccup mode U/I- or Hiccup-mode adjustable hiccup /  fold back  behavior Short-circuit protection continuous short-circuit proof Short-circuit behaviour current limiting Overload protection hiccup mode No-load protection continuous no-load stability Overtemperature protection yes, automatic recovery after temperature went down Starting of capacitive loads 3500 μF 7000 μF 7000 μF 7000 μF 2CDC110004C0209.pdf   256 11/26/2013   4:51:28 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/36  3 CP-T range Technical data Data at T a  = 25 °C, U in  = 3 x 400 V AC and rated values, unless otherwise indicated Type CP-T 24/5.0 CP-T 24/10.0 CP-T 24/20.0 CP-T 24/40.0 General data Efficiency typ. 89 % typ. 90 % typ. 92 % Duty time 100% Dimensions (W x H x D) 74.3 x 124 x 118.8 mm(2.92 x 4.88 x 4.68 in) 89 x 124 x 118.8 mm(3.5 x 4.88 x 4.68 in) 150 x 124 x 118.8 mm(5.91 x 4.88 x 4.68 in) 275.8 x 124 x 118.8 mm(10.86 x 4.88 x 4.68 in) Weight 0.78 kg (1.72 lb) 1.045 kg (2.30 lb) 1.657 kg (3.653 lb) 3.275 kg (7.220 lb) Material of housing Metal Mounting DIN rail (IEC EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units    horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection   housing / terminals  IP20 / IP20 Protection class I Electrical connection - input circuit / output circuit / signalling circuit Wire size fine-strand with wire end ferrule 0,2-4 mm² (24-11 AWG) fine-strand without wire end ferrule 0,2-6 mm² (24-10 AWG) rigid 0,2-6 mm² (24-10 AWG) Stripping length 8 mm (0.31 in) Tightening torque input / output 1 Nm (9 lb.in) / 0.6 Nm (5.5 lb.in) 1 Nm (9 lb.in) /  1.8 Nm (15.6 lb.in) Environmental data  Ambient temperature range  operation   -40...+70 °C -30…+70 °C -40...+70 °C rated load -40...+60 °C -30…+60 °C -40...+60 °C storage -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 % without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 2 g, 10-500 Hz, 2G, each along X, Y, Z axes 60 min / cycle Shock (half-sine) (IEC/EN 60068-2-27) 15 g, 11 ms, 3 axes, 6 faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit  3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC signalling output /  PE 0.5 kV DC Pollution degree 2 Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 60950-1, UL 60950-1, UL 508, EN 61558-1, EN 61558-2-17; EN 60204-1 Protective low voltage SELV Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field                     IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4  (4 kV / 2.5 kHz) Level 4 (4 kV / 5 kHz) surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) conducted disturbances, induced by radio-frequency fields              IEC/EN 61000-4-6 Level 3 (10 V) power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m) voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 dips:  95 % 0.5 ms /  30 % 0.5 ms, interruptions:  95 % 250 ms Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions IEC/EN 61000-3-2 Class A „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   257 11/26/2013   4:51:28 PM

3/37   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-T range Technical data Data at T a  = 25 °C, U in  = 3 x 400 V AC and rated values, unless otherwise indicated Type CP-T 48/5.0 CP-T 48/10.0 CP-T 48/20.0 Input circuit L1, L2, L3 Rated input voltage U in 3 x 400-500 V AC Input voltage ranget 340-575 V AC 480-820 V DC Frequency range AC 47-63 Hz  Typical input current 0.65 A 1.1 A 1.72 A Typical power consumption 264 W 535 W 1050 W Inrush current limiting 20 A 30 A Power failure buffering time min. 20 ms min. 15 ms Internal input fuse per phase 2 A / 600 V AC T3.15 A / 500 V AC T 5 A / 500 V AC Power factor correction (PFC) yes, passive Discharge current towards PE  3.5 mA input / output  0.25 mA Indication of operational states Output voltage OUTPUT OK: green LED  output voltage OK OUTPUT LOW: red LED  output voltage too low Output circuit L+, L+, L-, L- Rated output voltage 48 V DC Tolerance of the output voltage 0...+1 % Adjustment range of the output voltage 47-56 V DC Rated output power 240 W 480 W 960 W Rated output current I r  T a   ͨ 60 °C 5 A 10 A 20 A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C 3.5 %/°C Maximum deviation with load change statical ±1 % (single mode) ± 5 % (parallel mode) change of output voltage within the   input voltage range ±0.5 % Control time at rated load  2 ms Starting time after applying the supply voltage  at I r max. 1 s with 7000 μF max. 1.5 s Rise time at rated load max. 150 ms with 7000 μF max. 500 ms Fall time max. 150 ms Residual ripple and switching peaks  BW = 20 MHz 100 mV 80 mV Parallel connection configurable, to increase  power, up to 2 devices,  min. 0.1 I r  - max 0.9 I r )   to increase power, up to 2 devices, min. 0.1 I r  - max.  0.9 I r  use active current  balancing Series connection yes, to increase voltage, max. 2 devices Resistance to reverse feed approx. 35 V approx. 63 V approx. 63 V Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output combined U/I and hiccup mode U/I or hiccup mode,  configurable hiccup mode /  fold back behavior Short-circuit protection continuous short-circuit proof Short-circuit behaviour current limiting Overload protection hiccup mode No-load protection continuous no-load stability Over temperature protection yes, automatic recovery after temperature went down Starting of capacitive loads 7000 μF 2CDC110004C0209.pdf   258 11/26/2013   4:51:28 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/38  3 CP-T range Technical data Data at T a  = 25 °C, U in  = 3 x 400 V AC and rated values, unless otherwise indicated Type CP-T 48/5.0 CP-T 48/10.0 CP-T 48/20.0 General data Efficiency typ. 91 % typ. 93 % Duty time 100% Dimensions (W x H x D) 89 x 124 x 118.8 mm(3.5 x 4.88 x 4.68 in) 150 x 124 x 118.8 mm(5.91 x 4.88 x 4.68 in) 275.8 x 124 x 118.8 mm(10.86 x 4.88 x 4.68 in) Weight 1.045 kg (2.30 lb) 1.657 kg (3.653 lb) 3.275 kg (7.22 lb) Material of housing Metal Mounting DIN rail (IEC EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units  horizontal / vertical 25 mm / 25 mm (0.98 in / 0.98 in) Degree of protection   housing / terminals  IP20 / IP20 Protection class I Electrical connection - input circuit / output circuit Wire size fine-strand with wire end ferrule 0.2-4 mm² (24-11 AWG) 0.2-4 mm² (24-11 AWG) / 0.5-10 mm² (20-8 AWG) fine-strand without wire end ferrule 0.2-6 mm² (24-10 AWG) rigid Stripping length 8 mm (0.31 in) Tightening torque input / output 1 Nm (9 lb.in) / 0.6 Nm (5.5 lb.in) 1 Nm (9 lb.in) /  1.8 Nm (15.6 lb.in) Environmental data  Ambient temperature range  operation   -40…+70 °C -30…+70 °C -40…+70 °C rated load -40…+60 °C -30…+60 °C -40…+60 °C storage -40…+85 °C -40…+85 °C -40…+85 °C Damp heat (cyclic) (IEC/EN 60068-2-30) 95 % without condensation Vibration (sinusoidal) (IEC/EN 60068-2-6) 10-500 Hz, 2G, each along X, Y, Z axes 6 min / cycle Shock (half-sine) (IEC/EN 60068-2-27) 15G, 11 ms, 3 axes, 6 Faces, 3 times for each face Isolation data Rated insulation voltage U i input circuit / output circuit  3 kV AC input / PE 1.5 kV AC output / PE 0.5 kV AC; 0.71 kV DC Pollution degree 2 Standards Product standard EN 61204-3 Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2002/95/EC Electrical safety EN 60950-1, UL 60950-1, UL 508, EN 61558-1, EN 61558-2-17;  EN 60204-1 Protective low voltage SELV Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4 (air discharge 15 kV / contact discharge 8 kV) radiated, radio-frequency, electromagnetic field  IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 4 (4 kV / 5 kHz) surge IEC/EN 61000-4-5 L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) power frequency magnetic fields IEC/EN 61000-4-8 Level 4 (30 A/m) voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 dips: 95 % 0.5 ms / 30 % 0.5 ms interruptions:  95 % 250 ms Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions IEC/EN 61000-3-2 Class A „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   259 11/26/2013   4:51:29 PM

3/39   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-T range Technical diagrams, Dimensional drawings CP-T 24/5.0 CP-T 24/20.0 Hiccup mode CP-T 48/10.0 U/I curve CP-T 24/10.0 CP-T 24/40.0 CP-T 48/10.0 Hiccup mode CP-T 24/20.0 U/I curve CP-T 48/5.0 CP-T 48/20.0 CP-T 24/20.0, CP-T 48/10.0 CP-T 24/10.0, CP-T 48/5.0 CP-T 24/40.0, CP-T 48/20.0 Output curve at T U  = 25 °C CP-T 24/5.0 Dimensional drawings  dimensions in mm 2CDC 272 032 F0x09 2CDC 272 035 F0x09 2CDC 272 038 F0x09 2CDC 272 033 F0x09 2CDC 272 027 F0211 2CDC 272 039 F0x09 2CDC 272 034 F0x09 2CDC 272 037 F0x09 2CDC 272 028 F0211 1 2 3 4 5 6 7 8 4 8 12 16 20 24 28 U out  [V] I out  [A] Hiccup mode @ 3 x 400V supply @ 3 x 500V supply 4 8 12 16 20 24 28 32 4 8 12 16 20 24 28 U out  [V] I out  [A] @ 3 x 400V supply @ 3 x 500V supply Hiccup mode 2 4 6 8 10 12 14 16 8 16 24 32 40 48 56 U out  [V] I out  [A] @ 3 x 400V supply @ 3 x 500V supply 2 4 6 8 10 12 14 16 4 8 12 16 20 24 28 U out  [V] I out  [A] Hiccup mode @ 3 x 400V supply @ 3 x 500V supply 8 16 24 32 40 48 56 64 4 8 12 16 20 24 28 U out  in V 72 80 I out  in A Hiccup modeafter 5-10 s overload U/I @ 3 x 400 V supply 2 4 6 8 10 12 14 16 8 16 24 32 40 48 56 U out  [V] I out  [A] @ 3 x 400V supply @ 3 x 500V supply Hiccup mode 4 8 12 16 20 24 28 32 4 8 12 16 20 24 28 U out  [V] I out  [A] @ 3 x 400V supply @ 3 x 500V supply 1 2 3 4 5 6 7 8 8 16 24 32 40 48 56 U out  [V] I out  [A] Hiccup mode @ 3 x 400V supply @ 3 x 500V supply 4 8 12 16 20 24 28 32 8 16 24 32 40 48 56 U out  in V 36 40 I out  in A Hiccup modeafter 5-10 s overload U/I @ 3 x 400 V supply 2CDC 272 021 F0009 2CDC 272 022 F0009 89  3,5‘‘ 131   5,16‘ ‘ 124   4,88‘ ‘ 2CDC 272 023 F0009 150  5,91‘‘ 131   5,16‘ ‘ 124   4,88‘ ‘ 2CDC 272 024 F0009 131   5.16‘ ‘ 275.8  10.86‘‘ 124   4.88‘ ‘ Technical diagrams  dimensions in mm 2CDC110004C0209.pdf   260 11/26/2013   4:51:29 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/40  3 CP-T range Technical diagrams CP-T 24/40.0, CP-T 48/20.0 CP-T 24/20.0, CP-T 48/10.0 CP-T 24/5.0, CP-T 24/10.0, CP-T 48/5.0 Temperature curve at rated load 2CDC 272 026 F0211 2CDC 272 030 F0211 2CDC 272 025 F0211 -40 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] -30 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] -40 60 70 10 20 30 40 50 60 70 80 90 100 P out  [%] T a  [°C] 2CDC110004C0209.pdf   261 11/26/2013   4:51:29 PM

3/41   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-S and CP-C Product group picture 2CDC110004C0209.pdf   262 11/26/2013   4:51:29 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/42  3 CP-S and CP-C Table of contents CP-S and CP-C range Product group picture   3/41 Table of contents   3/42 Benefits and advantages   3/43 Operating control   3/44 Ordering details   3/45 Technical data   3/46 Technical diagrams, Dimensional drawings   3/50 2CDC110004C0209.pdf   263 11/26/2013   4:51:30 PM

3/43   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-S and CP-C Benefits and advantages 2CDC 273 056 F0004 2CDC 273 046 F0004 2CDC 273 058 F0004 2CDC 273 057 F0004 Characteristics CP-S and CP-C range   ½ Output current 5 A, 10 A and 20 A   ½ Integrated power reserve of up to 50 %   ½ 5 A and 10 A devices with pluggable connecting terminals   ½ Approvals / marks (depending on device, partly pending)   A ,  H ,  D ,   K , /  a ,   b CP-S range   ½ 10 A and 20 A device with front-face selector switch to adjust  rated   input voltage range: 110-120 V AC or 220-240 V AC   ½ Output voltage fixed at 24 V DC   ½ Parallel operation for redundancy CP-C range   ½ Wide range input 110-240 V AC  (85-264 V AC, 100-350 V DC)   ½ Output voltage adjustable within a range of  22-28 V DC   ½ Parallel operation for increased capacity and redundancy   ½ Power factor correction (PFC) acc. to EN 61000-3-2   ½ Function module pluggable onto the front side Messaging module CP-C MM:   ½ LED for status indication   ½ Relay outputs "Input OK" and "Output OK"   ½ REMOTE ON/OFF function to switch on and off the power    supply  externally   ½ Output voltage monitoring is only possible in decoupled    parallel  operation Integrated power reserve The new CP-S and CP-C range power supplies feature an integrated power reserve of up to 50 %. No oversized electricity supply is needed, especially under heavy load conditions. Pluggable connecting terminals Extended flexibility in operation due to pluggable connecting  terminals (this feature is not offered on all devices). Pluggable function modules The CP-C range power supplies can be equipped with pluggable modules to add additional functions (e.g. messaging module). Thus, the power sup-plies can be ideally adapted to the relevant application. Adjustable output voltage The CP-C range types feature a continuously adjustable output voltage from 22 to 28 V. Thus, they can be optimally adapted to the application, e.g. compensating the voltage drop caused by long line length. Benefits 1 1 2 2 3 3 4 4 2CDC110004C0209.pdf   264 11/26/2013   4:51:31 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/44  3 CP-S and CP-C Operating control 4 4 1 1 2 2 3 3 5 1   OUTPUT L+, L-: terminals - output 2   Indication of operational states OUTPUT OK: green LED - output voltage OK 3  OUTPUT Adj.: rotary potentiometer - adjustment of output voltage 4  Circuit diagram 5   INPUT L, N, PE: terminals - input 1   OUTPUT L+, L-: terminals - output 2   Indication of operational states OUTPUT OK: green LED - output voltage OK 3  Circuit diagram 4   INPUT L, N, PE: terminals - input 2CDC110004C0209.pdf   265 11/26/2013   4:51:31 PM

3/45   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-S and CP-C Ordering details Description The power supply units in the CP-S and CP-C range are ABB’s high-end solutions. Designed  with an integrated 50 % power reserve and an efficiency of approximately 89 % these are the  perfect products for all complex, highly reliable applications. All the devices cover the U-I out- put characteristic and are built with thermal protection which switches off in case of overhea- ting. In particular, the devices of the CP-C range feature a much broader functionality, including  active power factor correction and pluggable function modules.  These products are designed to trip MCB‘s in the 24VDC output circuit. Coordination tables  are available. Ordering details - CP-S Input voltage range Rated output  voltage / current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  85-264 V AC / 110-350 V DC 24 V DC / 5 A CP-S 24/5.0 1SVR427014R0000 0.96 (2.11) 85-132 V AC, 184-264 V AC /  220-350 V DC 24 V DC / 10 A CP-S 24/10.0 1SVR427015R0100 1.07 (2.35) 85-132 V AC, 184-264 V AC /  220-350 V DC 24 V DC /  20 A CP-S 24/20.0 1SVR427016R0100 2.83 (6.23) Ordering details - CP-C Input voltage range Rated output  voltage / current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  85-264 V AC / 110-350 V DC 24 V DC / 5 A CP-C 24/5.0 1SVR427024R0000 0.96 (2.11) 85-264 V AC / 110-350 V DC 24 V DC / 10 A CP-C 24/10.0 1SVR427025R0000 1.34 (2.95) 85-264 V AC / 110-350 V DC 24 V DC / 20 A CP-C 24/20.0 1SVR427026R0000 3.15 (6.94) 2CDC 271 061 F0004 2CDC 271 065 F0004 2CDC 271 063 F0004 CP-S 24/5.0 CP-C 24/10.0 CP-S 24/20.0 Description Type Order  code Price 1 pce Weight(1 pce)kg (lb)  Messaging module for CP-C range power supplies CP-C MM 1SVR427081R0000 0.065 (0.14) 2CDC110004C0209.pdf   266 11/26/2013   4:51:31 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/46  3 CP-S and CP-C Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-C 24/5.0   CP-S 24/5.0 CP-C 24/10.0  CP-S 24/10.0 CP-C 24/20.0  CP-S 24/20.0 Input circuit - supply circuit L, N Rated input voltage U in CP-C 110-240 V AC CP-S  switch position 115 110-240 V AC 110-120 V AC switch position 230 220-240 V AC Input voltage range CP-C 85-264 V AC / 100-350 V DC  1) CP-S switch position 115 85-264 V AC /   100-350 V DC  1) 85-132 V AC switch position 230 184-264 V AC / 220-350 V DC  1) Frequency range AC 47-63 Hz Typical input current CP-S and CP-C at 110-240 V AC 2.2-1.2 A 2.6-1.2 A 5.5-2.5 A CP-S at 110-120 V AC - 4.2-4.0 A 9.0-8.0 A CP-S at 220-240 V AC - 2.4-2.2 A 4.5-4.0 A Typ. power consumption 135 W 269 W 538 W Inrush current limiting / I 2 t ( cold start) CP-C  23 A / approx. 0.9 A 2 s  33 A / approx. 0.2 A 2 s  40 A / approx. 1.9 A 2 s CP-S 40 A / approx. 1.8 A 2 s  70 A / approx. 8 A 2 s Power failure buffering time min. 100 ms min. 40 ms min. 40 ms Transient overvoltage protection varistors Internal input fuse  (apparatus protection, not accessible) 4 A (slow-acting) 6.3 A (slow-acting) 12 A (fast-acting) Power factor correction (PFC) CP-C yes, active CP-S no Indication of operational states Output voltage OUTPUT OK: green LED V : output voltage OK Output circuit L+, L+, L-, L- : short-circuit, no-load and overload proof Rated output voltage 24 V DC Tolerance of the output voltage CP-C ±1 % CP-S -1...+5 % Adjustment range of the output  voltage CP-C 22-28 V DC, default setting 24 V ±0.5 % CP-S fixed Rated output power 120 W 240 W 480 W Rated output current T a   ͨ 60 °C 5 A 10 A 20 A Peak output current (power reserve)  T a   ͨ 40 °C typ. ͨ 7.25 A typ.  ͨ 12.25 A typ.  ͨ 22.5 A Derating 60 °C T a   ͨ 70 °C 2.5 % per Kelvin temperature increase Deviation with  CP-C  load change statical 10-90 % typ.  ±0.05 % CP-S load change statical 10-90 % typ.  ±0.1 % load change dynamical 10-90 % typ.  ±3 % change of the input voltage of ±10 %  typ.  ±0.05 % Control time typ.  1 ms Starting time after applying  supply voltage CP-C  200 ms 200 ms typ.  200 ms CP-S 250 ms typ.  300 ms Rise time 10-90 % CP-C typ.  30 ms typ.  4 ms typ.  12 ms CP-S typ.  5 ms typ.  15 ms Residual ripple and switching peaks BW = 20 MHz  typ.  50 mV PP Parallel connection yes, up to 5 devices, to enable redundancy and to increasepower, current not symmetrical (CP-S only redundancy) Series connection yes, to increase voltage, for decoupling refer to the application manual Resistance to reverse feed approx. 35 V DC Output circuit - No-load, overload and short-circuit behaviour see also U/I- and I/T-characteristic curves Characteristic curve of output U/I characteristic curve with power reserve Current limiting at short circuit approx. 11 A approx. 19 A approx. 25 A Short-circuit protection continuous short-circuit stability Overload protection thermal protection Starting of capacitive loads unlimited General data Power dissipation typ.  15 W typ. 29 W typ. 58 W Efficiency typ. 89 % Discharge current for PE 3.5 mA MTBF CP-C 500.000 h CP-S 350.000 h Dimensions (W x H x D) 56.5 (60  2) ) x 130 x 135.5 mm  (2.22 (2.36  2) ) x 5.12 x 5.35 in) 90 (93.5  2) ) x 130 x 135.5 mm  (3.54 (3.68  2) ) x 5.12 x 5.35 in) 200 (203.5  2) ) x 130 x 135.5 mm  (7.87 (8.01  2) ) x 5.12 x 5.35 in) Weight CP-C approx. 0.96 kg (2.12 lb) approx. 1.34 kg (2.95 lb) approx. 3.15 kg (6.94 lb) CP-S approx. 1.07 kg (2.36 lb) approx. 2.83 kg (6.23 lb) Minimum distance to other units horizontal / vertical 10 mm / 80 mm (0.39 in / 3.15 in) Degree of protection housing / terminals IP20 / IP20 Material of housing housing shell / cover aluminium / zinc-coated sheet steel Protection class (EN 61140) I Mounting DIN rail (IEC/EN 60715), snap-on mounting Mounting position horizontal 2CDC110004C0209.pdf   267 11/26/2013   4:51:32 PM

3/47   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-S and CP-C Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-C 24/5.0   CP-S 24/5.0 CP-C 24/10.0  CP-S 24/10.0 CP-C 24/20.0  CP-S 24/20.0 Electrical connection - Input circuit 3) 3) - Wire size fine-strand with wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) 2.5-10 mm 2  (14-8 AWG) fine-strand without wire end ferrule 0.5-10 mm 2  (20-8 AWG) rigid 0.5-16 mm 2  (20-6 AWG) Stripping length 7 mm (0.28 in) 12 mm (0.47 in) Tightening torque 0.4 Nm 1.2-1.5 Nm Electrical connection - Output circuit 3) 3) - Wire size fine-strand with wire end ferrule 0.12-2.5 mm 2  (26-14 AWG) 2.5-10 mm 2  (14-8 AWG) fine-strand without wire end ferrule 0.5-10 mm 2  (20-8 AWG) rigid 0.5-16 mm 2  (20-6 AWG) Stripping length 8 mm (0.31 in) 12 mm (0,47 in) Tightening torque 0.4 Nm 1.2-1.5 Nm Environmental data Ambient temperature range operation -25...+70 °C rated load 0...+60 °C (without derating) storage -40...+85 °C Damp heat (IEC/EN 60068-2-3) 93 % at +40 °C, no condensation Climatic category (IEC/EN 60721) 3K3 Vibration (IEC/EN 60068-2-6) Shock (IEC/EN 60068-2-27) Isolation data Rated insulation voltage U i    between all isolated circuits  (IEC/EN 60950-1; EN 50178) input / output 300 V input / PE 300 V output / PE 50 V Rated impulse withstand voltage U imp    between all isolated circuits  (IEC/EN 60950-1; EN 50178) input / output 4 kV; 1.2/50 μs input / PE 2.5 kV; 1.2/50 μs output / PE 500 V; 1.2/50 μs Power-frequency withstand  voltage test (test voltage)  (routine test / type test) input / output 1.5 kV AC / 3.0 kV AC input / PE 1.5 kV AC / 3.0 kV AC output / PE 500 V DC / 500 V DC Pollution degree (IEC/EN 60950-1; EN 50178) 2 Overvoltage category (IEC/EN 60950-1; EN 50178) II Standards Product standard IEC/EN 61204 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electrical safety EN 50178, EN 60950, UL 60950, UL 508 Protective low voltage SELV (EN 60950) Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 4 (8 kV / 15 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 4 (4 kV) surge IEC/EN 61000-4-5 Level 4 (2 kV symmetrical, level 3 - 3 kV asymmetrical) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22; EN 55022 Class B high-frequency conducted IEC/CISPR 22; EN 55022 Class B 1)  at U 264 V use additionally an appropriate external fuse 2)  with lateral screw 3)  pluggable connecting terminals, actuate only when power is off „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   268 11/26/2013   4:51:32 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/48  3 CP-S and CP-C Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-C MM Input circuit - Supply circuit Rated input voltage U in 110-240 V AC / 100-350 V DC Input voltage range 70-264 V AC / 80-350 V DC  Power consumption 2.5 VA / 1.5 W Input circuit - Control circuit Kind of triggering volt-free triggering Control input, control function Remote OFF remote off Threshold "Switching-off power supply unit" R  ͨ 1 k⏲ Threshold "Switching-on power supply unit" R  ͧ 10 k⏲ Input current typ. 1 mA (200 mA for 200 μs) Maximum cable length to the control input 25 m - 100 pF/m Measuring circuit - INPUT powered by the input circuit of the power supply unit Monitoring function undervoltage monitoring of input voltage of the power supply unit Thresholds 85 V AC / 90 V DC Hysteresis, related to the threshold value AC: typ. -8 % / DC -30 % Accuracy, tolerance -5 % at AC and DC Maximum measuring cycle typ.  50 ms Measuring circuit - OUTPUT powered by the output circuit of the power supply unit Monitoring function undervoltage monitoring of output voltage of the power supply unit Thresholds 20 V DC Hysteresis, related to the threshold value typ. 5 % Accuracy, tolerance ±1 % Maximum measuring cycle typ.  10 ms Indication of operational states Remote off REMOTE OFF: green LED V : „REMOTE OFF“ input R  ͨ 1k⏲ Status of power supply input Input OK: green LED V : relay „INPUT OK“ energized Status of power supply output OUTPUT OK: green LED V : relay „OUTPUT OK“ energized Output circuits 11-12/14, 21-22/24 Kind of output relays, 2 x 1 c/o contacts Operating principle closed-circuit principle Contact material AgNi Rated voltage (VDE 0110, IEC/EN 60947-1) 250 V Minimum switching voltage / Minimum switching current 24 V / 10 mA Maximum switching voltage / Maximum switching current 250 V / 1 A Rated operating current I e  (IEC/EN 60947-1) AC12 (resistive) at 230 V 1 A AC15 (inductive)  at 230 V 1 A DC12 (resistive) at 24 V 1 A DC13 (inductive)  at 24 V 1 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime 0.1 x 10 6  switching cycles Short circuit proof, maximum fuse rating n/c contact 2 A, gL n/o contact 2 A, gL General data Duty time 100 % Dimensions (W x H x D, when mounted) 56.5 x 54 x 24 mm (2.22 x 2.13 x 0.94 in) Weight 0.065 kg (0.14 lb) Degree of protection housing / terminals IP20 / IP20 Material of housing Plastic Protection class (EN 61140) II Mounting snap-on mounting, without any tool Mounting position plugged onto the power supply unit Electrical connection Wire size fine-strand with wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) fine-strand without wire end ferrule rigid 0.2-4 mm 2  (24-12 AWG) Stripping length 7.5 mm (0.3 inch) Tightening torque 0.4-0.6 Nm 2CDC110004C0209.pdf   269 11/26/2013   4:51:32 PM

3/49   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-S and CP-C Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-C MM Environmental data Ambient temperature range operation -25...+70 °C storage -40...+85 °C Damp heat (IEC/EN 60068-2-3) 93 % at +40 °C, no condensation Climatic category (IEC/EN 60721) 3K3 Vibration (IEC/EN 60068-2-6) Shock (IEC/EN 60068-2-27) Isolation data Rated insulation voltage U i    (IEC/EN 60974-1, EN 50178, VDE 0160) 250 V Protective separation (EN 50178, EN 60950)  supply / measuring circuits / relay outputs yes Rated impulse withstand voltage U imp  between all isolated circuits   (IEC 664, VDE 0110) 4 kV; 1.2/50 μs Test voltage between all circuits (type test) 2.5 kV AC Pollution degree (EN 60950) 2 Overvoltage category (EN 60950) II Standards Product standard IEC/EN 61204 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electrical safety EN 50178, EN 60950, UL 60950, UL 508 Elektromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 and 4 (6 kV / 8 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 4 and 2 (4 kV power input / 1 kV control input) surge IEC/EN 61000-4-5 Level 3 and 2 (4 kV symmetrical power input / 1 kV control input) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level (10 V) Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22; EN 55022 Class B high-frequency conducted IEC/CISPR 22; EN 55022 Class B „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   270 11/26/2013   4:51:32 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/50  3 CP-S and CP-C Technical diagrams, Dimensional drawings U out  [V]  I out  [A]  2CDC 272 003 F0b04 U out  [V]  I out  [A]  2CDC 272 004 F0b04 U out  [V]  I out  [A]  2CDC 272 005 F0b04 CP-S 24/5.0 CP-S 24/5.0, CP-C 24/5.0 CP-C 24/5.0 CP-S 24/10.0 CP-S 24/10.0, CP-C 24/10.0 CP-C 24/10.0 CP-S 24/20.0 CP-S 24/20.0, CP-C 24/20.0 CP-C 24/20.0 U out  [V]  I out  [A]  2CDC 272 026 F0b04 U out  [V]  I out  [A]  2CDC 272 027 F0b04 U out  [V]  I out  [A]  2CDC 272 028 F0b04    144,5 [5.69”] 60,0 [2.36”] 137,0 [5.39”] 130,0 [5.12”] 130,0 [5.12”] 56,5 [2.22”] 93,5 [3.68”] 90,0 [3.54”] 203,5 [8.01”] 200,0 [7.87”] 135,5 [5.33”] 130,0 [5.12”] 2CDC 272 015 F0b07 CP-S 24/5.0  CP-S 24/10.0  CP-S 24/20.0  CP-C 24/5.0  CP-C 24/10.0  CP-C 24/20.0  CP-A RU Technical diagrams Output curve at 25 °C Temperature curve at U out  = 24 V DC Output curve at 25 °C I out  [A]  T a  [°C]  2CDC 272 075 F0204 I out  [A]  T a  [°C]  2CDC 272 006 F0204 I out  [A]  T a  [°C]  2CDC 272 088 F0204 Dimensional drawings  dimensions in mm CP-C MM 54  [2.13”] 56,5  [2.22”] 24 [0.94”] 2CDC 272 016 F0b07 2CDC110004C0209.pdf   271 11/26/2013   4:51:33 PM

3/51   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Redundancy units Ordering details Ordering details Description suitable for decoupling of two CP-24 V DC power supply units or suitable for decoupling of  CP-E power supply units Type Order  code Price 1 pce Weight(1 pce)kg (lb)  2 inputs each up to 20 A and 1 output up to 40 A ͨ 40 V and ͧ 5 A CP-A RU 1SVR427071R0000 0.89 (1.96) Control module for CP-A RU redundancy units - CP-A CM 1SVR427075R0000 0.063 (0.14) 2 inputs each up to 2.5 A and 1 output up to 5 A ͨ 35 V and 5 A CP-RUD 1SVR423418R9000 0.15  (0.33) 2CDC 271 003 F0005 CP-A RU + CP-A CM CP-A RU CP-RUD CP-D RU 2CDC 271 010 F0006   2CDC 271 006 F0003 2CDC 271 010 F0006   Ordering details - CP-D RU for decoupling of two CP-D power supply units Input voltage range Rated input  current Rated output voltage / current Type Order  code Price Weight(1 pce)kg (lb)  9-35 V DC 2 x 5 A 24 V DC / 1 x 10 A CP-D RU 1SVR427049R0000 0.075 (0.165) 2CDC110004C0209.pdf   272 11/26/2013   4:51:33 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/52  3 Redundancy units Technical data Type CP-A RU CP-A RU  in combination with CP-A CM Input circuit - Supply circuit (+/ -, +/ -) Rated input voltage U in 24 V DC Input voltage range per channel 10-28 V DC 13-28 V DC Rated input current I in  per channel 1-20 A Maximum input current per channel 30 A for 300 s Transient overvoltage protection yes Output circuit (++/--) Rated output voltage U out 24 V DC Voltage drop typ. 0.6 V, max. 0.9 V Rated output current I out 1-40 A Output ratings per channel T a  = 60 °C 10-28 V DC / 40 A 13-28 V DC / 40 A T a  = 70 °C 10-28 V DC / 30 A 13-28 V DC / 30 A Derating 60 °C T a   ͨ 70 °C 2.5 % per Kelvin temperature increase Peak output current 60 A for 300 s Resistance to reverse feed 40 V General data Dimensions (W x H x D) 56.5 (60  1) ) x 130 x 135.5 mm; (2.22 (2.36  1) ) x 5.12 x 5.35 in) Weight 0.89 kg (1.96 lb) Minimum distance to other units horizontal / vertical 10 mm / 50 mm (0.39 in / 1.97 in) Degree of protection housing / terminals IP20 / IP20 Material of housing housing shell / cover aluminium / zinc-coated sheet steel Protection class III  2) Mounting DIN rail (IEC/EN 60715) Mounting position horizontal Electrical connection - Input circuit / Output circuit Wire size fine-strand with wire end ferrule 2.5-10 mm 2  (14-8 AWG) fine-strand without wire end ferrule 0.5-10 mm 2  (20-8 AWG) rigid 0.5-16 mm 2  (20-6 AWG) Stripping length 12 mm (0.47 in) Tightening torque 1.2-1.5 Nm Environmental data Ambient temperature range operation -25...+70 °C rated load -25...+60 °C (without derating) storage -40...+85 °C Damp heat (IEC/EN 60068-2-3) 93 % at 40 °C, no condensation Climatic category (IEC/EN 60721) 3K3 Vibration (IEC/EN 60068-2-6) Shock (IEC/EN 60068-2-27) Isolation data Insulation voltage between input / output / housing 500 V AC (routine test) Pollution degree (EN 50178) 2 Standards Product standard IEC/EN 61204 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electrical safety EN 50178, EN 60950, UL 60950, UL 508 Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (air discharge ±8 kV, contact discharge ±6 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient / burst IEC/EN 61000-4-4 Level 3 (±2 kV) surge IEC/EN 61000-4-5 Level 1 (±0.5 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22 / EN 55022 Class B high-frequency conducted IEC/CISPR 22 / EN 55022 Class B 1)  incl. lateral screw 2)  This device is designed for connection to a safety extra-low voltage source. If no safety extra-low voltage is used at the input side, the      lateral screw can be used for grounding of the housing (protection class I). „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   273 11/26/2013   4:51:33 PM

3/53   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Type CP-A CM Input circuit - Supply circuit Rated input voltage U in 24 V DC Input voltage range 13-28 V DC Rated input current at rated sense load and 24 V DC 120 mA Power consumption at 24 V DC approx. 1 W Measuring circuit 11-12/14, 21-22/24 Monitoring function undervoltage monitoring Measuring voltage rated operational voltage Thresholds 14-28 V Hysteresis, related to the threshold value fix: 3-5 % Accuracy, tolerance 10 % of full-scale value Maximum measuring cycle 6 ms Indication of operational states Status of input 1 IN 1: green LED : voltage at input 1 than threshold 1 = no faults present Status of input 2 IN 2: green LED : voltage at input 2 than threshold 2 = no faults present Output status OUT: green LED : U OUT   3 V = no faults present Output circuit +, +, - Kind of output relays, 2 x 1 c/o contact Contact material AgNi Operating principle closed-circuit principle Rated operational voltage U e  (IEC/EN 60947-1, VDE 0110) 250 V Minimum switching voltage / Minimum switching current 24 V / 10 mA Maximum switching voltage / Maximum switching current 250 V / 1 A Rated operational current I e   (IEC/EN 60947-5-1) AC12 (resistive) at 230 V 1 A AC15 (inductive) at 230 V 1 A DC12 (resistive) at 24 V 1 A DC13 (inductive) at 24 V 1 A Mechanical lifetime 30 x 10 6  switching cycles Electrical lifetime 0.1 x 10 6  switching cycles Rating according UL 508 General purpose (GP) 250 V AC 1 A Maximum fuse rating to achieve  short-circuit protection n/o contact 2 A, gL n/c contact 2 A, gL Sense output (+, +, -) 1 SVR 427 075 R0000 Sense output voltage 13-28 V DC Sense output current 0.1 A Maximum fuse rating For applications acc. UL the sense output shall be provided with a listed DC fuse 3 A General data Duty time 100 % Dimensions (W x H x D, when mounted) 56.5 x 54 x 24 mm (2.22 x 2.13 x 0.94 in) Material of housing plastic Weight 0.063 kg (0.14 lb) Degree of protection housing / terminals IP20 / IP20 Protection class II Mounting snap-on mounting, without any tool Mounting position plugged onto the redundancy unit CP-A RU Electrical conection Wire size fine-strand with wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) fine-strand without wire end ferrule rigid 0.2-4 mm 2  (24-12 AWG) Stripping length 7.5 mm (0.3 in) Tightening torque 0.4-0.6 Nm Isolation data Rated insulation voltage U i  (IEC/EN 60947-1, EN 50178, VDE 0160) 250 V Rated impulse withstand voltage U imp  (type test) between all circuits (IEC 664, VDE 0110) 2.5 kV Power-frequency withstand voltage test (routine test) between all circuits 1.2 kV AC Protective separation (EN 50178) between input and output yes Pollution degree 2 Overvoltage category II Environmental data Ambient temperature range operation -25...+70 °C storage -40...+85 °C Damp heat (IEC/EN 60068-2-3) 93 %at 40 °C, no condensation Climatic category (IEC/EN 60721) 3K3 Vibration (IEC/EN 60068-2-6) Shock (IEC/EN 60068-2-27) Redundancy units Technical data 2CDC110004C0209.pdf   274 11/26/2013   4:51:33 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/54  3 Type CP-RUD Input circuit - Supply circuit A: U1+/-U ; B: U2+/-U Rated input voltage U in 24 V DC Input voltage range 5-35 V DC Rated input current I in  per channel 0.5-2.5 A Maximum input current per channel 10 A for 300 s Transient overvoltage protection no Output circuit L+, L+, L+, L-, L-, L- Rated output voltage U out 24 V DC Voltage drop typ. 0.6 V, max. 0.7 V Rated output current I out 0.5-5 A Peak output current 20 A for 150 s Resistance to reverse feed 35 V General data Dimensions (W x H x D) 22.5 x 78 x 100 mm  (0.89 x 3.07 x 4.02 in) Weight 0.135 kg (0.30 lb) Minimum distance to other units horizontal / vertical 10 mm / 10 mm (0.39 in / 0.39 in) Degree of protection housing / terminals IP20 / IP20 Material of housing housing shell / cover plastic / plastic Protection class - Mounting DIN rail (IEC/EN 60715) Mounting position horizontal Electrical connection - Input circuit / Output circuit Wire size fine-strand with wire end ferrule 2 x 0.75-2.5 mm 2  (2 x 18-14 AWG) fine-strand without wire end ferrule rigid 2 x 0.5-4 mm 2  (2 x 20-12 AWG) Stripping length 7 mm (0.28 in) Tightening torque 0.6-0.8 Nm Environmental data Ambient temperature range operation -20...+60 °C rated load -20...+60 °C storage -40...+85 °C Damp heat (IEC/EN 60068-2-3) 93 % at 40 °C, no condensation Climatic category (IEC/EN 60721) - Vibration (IEC/EN 60068-2-6) Shock (IEC/EN 60068-2-27) Isolation data Insulation voltage between input / output / housing - Pollution degree (EN 50178) 2 Standards Product standard Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electrical safety EN 50178 Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3 (air discharge ±8 kV, contact discharge ±6 kV) radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 Level 3 ( Ȁ2 kV) surge IEC/EN 61000-4-5 Level 1 ( Ȁ0.5 kV) conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3 (10 V) Interference emission IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22 / EN 55022 Class B high-frequency conducted IEC/CISPR 22 / EN 55022 Class B 1)  incl. lateral screw 2)  This device is designed for connection to a safety extra-low voltage source. If no safety extra-low voltage is used at the input side, the lateral screw can be used for   grounding of the housing (protection class I). Redundancy units Technical data 2CDC110004C0209.pdf   275 11/26/2013   4:51:34 PM

3/55   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Type CP- D RU Input circuit - Supply circuit IN 1 + + -, IN 2 + + - Rated input voltage U in 24 V DC Input voltage range 9-35 V DC Rated input current I in  per channel 5 A Maximum input current per channel 10 A for 300 s Transient overvoltage protection no Output circuit OUT + + +, - - - Rated output voltage U out 24 V DC Voltage drop typ. 0.5 V Rated output current I out 10 A Resistance to reverse feed 35 V General data MTBF on request Duty time 100 % Dimensions (W x H x D) product dimensions 35 x 91 x 56.5 mm (1.38 x 3.58 x 2.22 in) packaging dimensions 134 x 94 x 48 mm (5.28 x 3.70 x 1.89 in) Weight net weight 0.075 kg (0.165 lb) gross weight 0.130 kg (0.286 lb) Material of housing plastic Mounting DIN rail, snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 25 mm (0.98 in) / 25 mm (0.98 in) Electrical connection - Input circuit / Output circuit Wire size fine-strand with (out) wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) rigid 0.2-2.5 mm 2  (24-12 AWG) Stripping length 7.0 mm (0.28 in) Tightening torque 0.67 Nm (6 Ib.in) Environmental data Ambient temperature range operation -40...+70 °C storage -40...+85 °C Relative humidity RH at 40 °C 20-95 %, no condensation Vibration (IEC/EN 60068-2-6) Mounting by rail:  10-500 Hz, 2 G, along X, Y, Z each axis, 60 min for each axis Shock (IEC/EN 60068-2-27) 15 G, 11 ms, 3 axis, 6 faces, 3 times for each face Standards Product standard IEC/EN 61204-3 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electromagnetic compatibility Interference immunity to EN 55024 electrostatic discharge IEC/EN 61000-4-2 Level 3, air discharge 8 kV, contact discharge 4 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2 kV / 5 kHz conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V Interference emission EN 55022 high-frequency radiated IEC/CISPR 22 / EN 55022 Class B high-frequency conducted IEC/CISPR 22 / EN 55022 Class B Redundancy units Technical data 2CDC110004C0209.pdf   276 11/26/2013   4:51:34 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/56  3 CP-A CM 54  [2.13”] 56,5  [2.22”] 24 [0.94”] 2CDC 272 016 F0b07 2CDC 252 188 F0b05 100  102  109,5 [4.31“] 22,5  [.886“] 78 [3.07“] [4.02“] [3.94“] CP-RUD  144,5 [5.69”] 60,0 [2.36”] 137,0 [5.39”] 130,0 [5.12”] 56,5 [2.22”] 135,5 [5.33”] CP-A RU 2CDC 272 015 F0b07 2CDC272033F0010 CP-D RU 67.0   2.64” 44.5   1.75” 32.1   1.26” 57.5   2.26” 49.0   1.93” 91.0   3.58” 35.0   1.38” + + + - - - O U T + - - + + + IN1 IN2 IN2 IN1 Redundancy units Dimensional drawings 2CDC110004C0209.pdf   277 11/26/2013   4:51:34 PM

3/57   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-ASI range Product group picture 2CDC110004C0209.pdf   278 11/26/2013   4:51:34 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/58  3 CP-ASI range Table of contents CP-ASI Product group picture   3/57 Table of contents   3/58 Benefits and advantages   3/59 Ordering details   3/60 Technical data   3/61 Technical diagrams   3/63 Dimensional drawings   3/64 2CDC110004C0209.pdf   279 11/26/2013   4:51:36 PM

3/59   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-ASI range Benefits and advantages Characterics   ½ Rated output voltage 30.5 V DC for ASI-bus   ½ Rated output current up to 8.0 A   ½ High efficiency of up to 92 %  1)   ½ Infrared addressing mode  2)   ½ Low power dissipation and low heating   ½ Free convection cooling (no forced cooling with ventilators)   ½ Ambient temperature range during operation -10…70 °C  3)   ½ Open-circuit, overload and short-circuit stable   ½ Integrated input fuse   ½ Tool-free mounting on DIN rail as well as demounting   ½ LEDs for the indication of operational states   ½ Approval:  A / Mark:  a 1)  Efficiency is depending on device 2)  Except CP-ASI/4.0 DC/DC 3)  Ambient temperature range CP-ASI/4.0 DC/DC -25…70°C 4)  Approvals are related to rated input voltage U in 4 1 2 3 1   Output +, -, +, -, SHIELD: output terminals 2   Signalling contact 11-12: ground fault signalling terminals 3   Indication of operational states AS-I OK: green LED - output voltage OK 4   Configuration of operation mode Jumper 5   Indication of operational states IR ADDRESSING ON: red LED - infrared addressing mode active 6   Test and reset button 7   Indication of operational states GROUND FAULT: red LED - ground fault detected 8  Circuit diagram 9   Input voltage selector Adjustment of input voltage 10   Input L, N, PE: input terminals 5 6 7 8 9 10 2CDC110004C0209.pdf   280 11/26/2013   4:51:36 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/60  3 CP-ASI range Ordering details Description The CP-ASI power supply range is specifically designed with integrated data decoupling for  the supply of AS-Interface systems. Up to 62 slaves (binary I/O devices) can be supplied with a single two-conductor cable. The configurable IR addressing mode allows the easy assign of new ID addresses by means of  an external infrared programming unit. Ordering details Input Voltage Range  Rated  Output  Voltage  Rated  Output  Current Type Order  code Price 1 pce Weight(1 pce)kg (lb)  85-132 V AC, 184-264 V AC 30.5 V DC 2.8 A CP-ASI/2.8 1SVR427090R0280 0.495 (1.091) 85-132 V AC, 184-264 V AC 30.5 V DC 4.0 A CP-ASI/4.0 1SVR427090R0400 0.653 (1.440) 18-32.4 V DC 30.5 V DC 4.0 A CP-ASI/4.0 DC/DC 1SVR427095R0400 0.488 (1.076) 85-132 V AC, 184-264 V AC 30.5 V DC 8.0 A CP-ASI/8.0 1SVR427090R0800 0.897 (1.978) 2CDC 271 002 S0012 2CDC 271 003 S0012 2CDC 271 004 S0012 2CDC 271 005 S0012 CP-ASI/2.8 CP-ASI/4.0 DC/DC CP-ASI/4.0 CP-ASI/8.0 2CDC110004C0209.pdf   281 11/26/2013   4:51:36 PM

3/61   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-ASI range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-ASI/2.8 CP-ASI/4.0 CP-ASI/8.0 CP-ASI/4.0 DC/DC Input circuit - Supply circuit L, N Rated input voltage U in - 24 V DC switch position 115 V 100-120 V AC - switch position 230 V 220-240 V AC - Input voltage range - 18.0-32.4 V DC switch position 115 V 85-132 V AC - switch position 230 V 184-264 V AC 184-264 V AC /  240-300 V DC 184-264 V AC - Frequency range AC 47-63 Hz Typical input current - 5.6  A switch position 115 V 2.0 A 2.7 A 6.0 A - switch position 230 V 0.9 A 1.3 A 2.8 A - Allowed voltage between input and earth (ground) - max. 60 V DC / 42.4 V AC Allowed input ripple voltage - max. 5 Vpp, 47 Hz - 40 kHz Continuous input voltage with no damage to the DC/DC converter - max. 36.0 V DC Turn-on voltage - typ. 17.5 V DC Shut-down voltage - typ. 14.0 V DC - typ. 35 V DC Typical power consumption 94 W 135 W 261 W 132 W Inrush current limiting / I²t (cold start) 20 A (132 V AC) / approx. 1.5 A²/s 44.7 A (120 V AC) / approx. 3.7 A²/s 12 A (100 V AC) / approx. 1.0 A²/s 1.8 A / approx. 1.0 A²/s 38 A (264 V AC) / approx. 1.8 A²/s 49.3 A (132 V AC) / approx. 4.6 A²/s 14 A (120 V AC) / approx. 1.5 A²/s - - 49.7 A (230 V AC) / approx. 2.5 A²/s 24 A (220 V AC) / approx. 1.4 A²/s - - 57.5 A (264 V AC) / approx. 3.3 A²/s 27 A (240 V AC) / approx. 1.6 A²/s - Discharge current towards PE 3.5 mA - Power failure buffering time - max. 0.5 ms at 115 V AC min. 35 ms min. 40 ms min. 20 ms - at 230 V AC min. 40 ms min. 30 ms - Transient overvoltage protection varistors Reverse input polarity protection - included, unit does not start at reversed polarity Internal input fuse 8 A slow acting /  250 V AC 3.15 A slow acting / 250 V AC 8 A slow acting /  250 V AC 10 A slow acting External fusing (not necessary, but recommended) circuit breaker with C characteristic min 6 A, or alternatively 10 A with B characteristic - Power factor correction (PFC) at 115 V AC 0.58 0.53 - at 230 V AC 0.53 0.48 - Indication of operational states Output voltage AS-I OK LED green IR addressing mode IR ADDRESSING ON LED red - Overload OVERLOAD LED red - Output circuit +,- Rated output voltage 30.5 V DC Rated output power 85 W 122 W 244 W 122 W Tolerance of the output voltage ± 3 % Adjustment range of the output voltage - - - Rated output current I r T a   ͨ 60 °C 2.8 A 4.0 A 8.0 A 4.0 A Derating of the output current 60 °C T a   ͨ 70 °C 2.5 %/°C Signalling contact for ground fault - max. 25 V AC or  60 V DC, 0.5 A - - Control time 2 ms Starting time after applying the supply voltage max. 400 ms max. 700 ms max. 500 ms max. 1 s (typ. 650 ms) Rise time max. 100 ms - at rated load - typ. 100 ms with 5 mF - typ. 200 ms Residual ripple BW = 500 kHz typ.  50 mV pp Switching peaks BW = 20 MHz typ.  100 mV pp Output circuit - No-load, overload and short-circuit behaviour Characteristic curve of output U/I characteristic curve Combined U/I cha-racteristic curve and hiccup mode U/I characteristic curve Short-circuit protection continuous short-circuit stability temporary short-circuit stability continuous short-circuit stability Short-circuit behaviour continuation with output power limiting - continuation with out-put power limiting Current limiting at short circuit min / max 3.2 A / 4.6 A 4.2 A / 6.5 A 12 A / 25 A (max. 5 s) 5.0 A / 9.0 A Overload protection output power limiting temporary output power limiting output power limiting 2CDC110004C0209.pdf   282 11/26/2013   4:51:37 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/62  3 CP-ASI range Technical data Data at T a  = 25 °C, U in  = 230 V AC and rated values, unless otherwise indicated Type CP-ASI/2.8 CP-ASI/4.0 CP-ASI/8.0 CP-ASI/4.0 DC/DC Overtemperature, overload and short circuit behaviour CP-ASI/8.0: at 8.4 A I max   12 A continuous current for 2-5 s, afterwards safety switch-off Overtemperature protection CP-ASI/4.0 DC/DC: yes, automatic recovery after temperature went down No-load protection continuous no-load stability General data MTBF on request Power dissipation typ. 9.1 W (230 V AC, 2.8 A) typ. 13.5 W (230 V AC, 4.0 A) typ. 21.2 W (230 V AC, 8.0 A) typ. 12.7 W (24 V DC, 4.0 A) Efficiency typ. 90.5 % typ. 90 % typ. 92.0 % typ. 90.5 % Duty time 100 % Dimensions (W x H x D) product dimensions 49 x 131 x 107 mm  (1.93 x 5.16 x 4.21 in) 73 x 131 x 107 mm (2.87 x 5.16 x 4.21 in) 91 x 131 x 107 mm (3.58 x 5.16 x 4.21 in) 40 x 131 x 107 mm (1.58 x 5.16 x 4.21 in) packaging dimensions 151 x 65 x 140 mm  (5.94 x 2.56 x 5.51 in) 151 x 98 x 140 mm (5.94 x 3.86 x 5.51 in) 151 x 120 x 140 mm (5.94 x 4.72 x 5.51 in) 151 x 65 x 140 mm (5.94 x 2.56 x 5.51 in) Weight net weight 0.495 kg (1.019 lb) 0.653 kg (1.440 lb) 0.897 kg (1.997 lb) 0.488 kg (1.076 lb) gross weight 0.568 kg (1.252 lb) 0.750 kg (1.653 lb) 1.015 kg (2.238 lb) 0.750 kg (1.287 lb) Material of housing metal Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal / vertical 15 mm / 25 mm (0.59 / 0.99 in) Degree of protection housing / terminals IP20 / IP20 Protection class I Electrical connection Wire size fine-strand with wire end ferrule 0.5-4 mm² (20-12 AWG) fine-strand without wire end ferrule 0.5-4 mm² (20-12 AWG) rigid 0.5-6 mm² (20-10 AWG) Stripping length 7 mm (0.28 in) Tightening torque 0.8 Nm (7.08 lb.in) Environmental data Ambient temperature range operation -10...+70 °C -25...+70 °C rated load -10...+60 °C -25...+60 °C storage -25...+85 °C -40...+85 °C Vibration (sinusoidal) (IEC/EN 60068-2-6) 2-17.8 Hz, amplitude ± 1.6 mm sinusoidal (IEC/EN 60068-2-6) 17.8 Hz - 500 Hz, 2 g random (IEC 60068-2-64) 2-800 Hz 0.5 s² (s³) Shock (half-sine) (IEC/EN 60068-2-27) 15 g (6 ms), 10 g (11 ms) Isolation data Rated insulation voltage U i (IEC/EN 60950-1, EN 50178) input circuit / output circuit 300 V 50 V input / PE 300 V 50 V output / PE 50 V shield / output 50 V shield / PE 50 V Rated impulse withstand voltage Uimp  (EN 50178) input / output 6 kV 1.2/50 μs 1.5 kV 1.2/50 μs input / PE 4 kV 1.2/50 μs 0.8 kV 1.2/50 μs output / PE 500 V 1.2/50 μs 500 V 1.2/50 μs Power-frequency withstand voltage test  (test voltage) (routine test / type test) input / output 2.5 kV AC / 3.0 kV AC 1.5 kV AC / 1.5 kV AC input / PE 2.5 kV AC / 2.5 kV AC 1.5 kV AC / 1.5 kV AC output / PE 500 V AC / 500 V AC Pollution degree (IEC/EN 60950-1) 2 Overvoltage category (UL/IEC/EN 60950-1) input II (IEC/EN 60950-1), III (EN 50178) output II (IEC/EN 60950-1), II (EN 50178) Standards Low Voltage Directive 2006/95/EC EMC directive 2004/108/EC RoHS directive 2011/65/EC Electrical safety IEC/EN 60950-1 Protective low voltage SELV (IEC/EN 60950-1), PELV Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-2 electrostatic discharge  IEC/EN 61000-4-2 Level 4 (8 kV / 15 kV) radiated, radio-frequency, electromagnetic field IEC/EN  61000-4-3 Level 3 (10 V/m) electrical fast transient/burst IEC/EN 61000-4-4 input circuit: Level 4 (4 kV) input circuit: Level 3 (2 kV) output circuit: Level 3 (2 kV) output circuit: Level 2 (1 kV) surge IEC/EN 61000-4-5 input circuit: L-L Level 3 (2 kV) / L-PE Level 4 (4 kV) input circuit: L-L Level 2  (1 kV) / L-PE Level 3 (2 kV) output circuit: Level 1 (0.5 kV) output circuit: Level 1 (0.5 kV) conducted disturbances, induced by radio-frequency fields IEC/EN  61000-4-6 Level 3 (10 V, 150 kHz - 80 MHz) Level 3 (10 V, 150 kHz - 80 MHz) voltage dips, short interruptions and voltag variations IEC/EN  61000-4-11 Class 3 Interference emission IEC/EN 61000-6-3 IEC/EN 61000-6-4 IEC/EN 61000-6-3 high-frequency radiated IEC/CISPR 22, EN 55022 Class B high-frequency conducted IEC/CISPR 22, EN 55022 Class B limits for harmonic current emissions IEC/EN 61000-3-2 Class A - - 2CDC110004C0209.pdf   283 11/26/2013   4:51:37 PM

3/63   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-ASI range Technical diagrams 12 16 20 24 28 32 8 4 0 0 1 2 3 4 U out  [V]   I out  [A] 15 20 25 30 35 10 5 0 0 1 2 3 4 5 U out   [V] 6 7 8   I out  [A] 15 20 25 30 35 10 5 0 0 1 2 3 4 5 U out  [V] 6   I out  [A] 15 20 25 30 35 10 5 0 0 2 4 6 8 10 U out  [V] 12   I out  [A] -10 60 70 T a  [°C] I out  [A] 2.8 2.1 -25 60 70 T a  [°C] I out  [A] 4 3 -10 60 70 T a  [°C] I out  [A] 4 3 -10 60 70 T a  [°C] I out  [A] 8 6 Output behaviour Output behaviour Output behaviour Output behaviour Temperaturkennlinie bei Bemessungslast Characteristic curve of temperature at rated load Characteristic curve of temperature at rated load Characteristic curve of temperature at rated load CP-ASI 2.8 CP-ASI 4.0 DC/DC CP-ASI 4.0  CP-ASI 8.0 Characteristic curve at T a  = 25 °C 2CDC 272 007 F0012 2CDC 272 011 F0012 2CDC 272 009 F0012 2CDC 272 013 F0012 2CDC 272 006 F0212 2CDC 272 010 F0212 2CDC 272 008 F0212 2CDC 272 012 F0212 2CDC110004C0209.pdf   284 11/26/2013   4:51:37 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/64  3 CP-ASI range Dimensional drawings  102    4.02” 49    1.93” 62     2.44” 131   5.16” 5    0.20” 94    3.78” 62     2.44” 102    4.02” 62     2.44” 5    0.20” 94    3.78” 62     2.44” 73    2.87” 131     5.16”  102    4.02” 62     2.44” 5    0.20” 94    3.78” 62     2.44” 40    1.58” 131     5.16”  102    4.02” 62     2.44” 5    0.20” 94    3.78” 62     2.44” 91    3.58” 131     5.16”  CP-ASI 2.8 CP-ASI 4.0 CP-ASI 4.0 DC/DC CP-ASI 8.0 2CDC 272 014 F0012 2CDC 272 015 F0012 2CDC 272 016 F0012 2CDC 272 017 F0012   Dimensions in mm/inch 2CDC110004C0209.pdf   285 11/26/2013   4:51:37 PM

3/65   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-B range Product group picture 2CDC110004C0209.pdf   286 11/26/2013   4:51:38 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/66  3 CP-B range Table of contents CP-B Product group picture   3/65 Table of contents   3/66 Benefits and advantages   3/67 Ordering details   3/68 Technical data   3/69 Technical data, Technical diagrams   3/70 Dimensional drawings   3/71 Technical data   3/72 2CDC110004C0209.pdf   287 11/26/2013   4:51:38 PM

3/67   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 1  Input terminals SHUT-DOWN+, SHUT-DOWN-: Input signal terminals INPUT OK, BUFFER STATUS, FAILURE: Signalling contact – terminals L+ IN , L- IN : Input voltage terminals 2   Indication of operational states OPERATION: Buffer module in operation (standby or buffering) INPUT OK: Input voltage applied 3  Output terminals L+ OUT , L- OUT , L- OUT : Output voltage terminals CP-B range Benefits and advantages CP-B 24/3.0 CP-B 24/10.0 CP-B 24/20.0 CP-B EXT.2 Order code 1SVR427060R0300 1SVR427060R1000 1SVR427060R2000 1SVR427065R0000 Rated input voltage 24 V DC 24 V DC 24 V DC – Rated current 3 A DC 10 A DC 20 A DC 3 A DC  Energy storage (min.) 1.000 Ws 10.000 Ws 8.000 Ws 2.000 Ws Typical charging time at load current 100 % 65 s 134 s 135 s 0 % 56 s 82 s 62 s Typical  buffering time 1)  at load current 100 % 13 s 38 s 15 s 50 % 28 s 76 s 30 s 25 % 66 s 140 s 60 s 10 % 148 s 380 s 150 s 1)  buffering time  |   Power supply systems have to be highly reliable in most areas of energy  management and automation technology.   Often batteries are used for supporting the supply system in case of  mains failures. Batteries have limited lifetimes depending on environmen- tal parameters and have to be maintained regularly, which causes efforts  and costs. Using the latest ultra-capacitor technology, ABB offers an innovative and  completely maintenance free new product for buffering the 24 V DC   supply in case of interrupted mains on the primary side of the switch  mode power supply. The CP-B range is an ultra-capacitor buffer energy storage for power  supply units which ensures a short term uninterrupted power supply  system. In case of a power loss, the energy stored in the capacitor   guarantees that the load is continually provided up to several hundred  seconds depending on the load current. Characteristics   ½  3 buffer modules for buffering 24 V DC: CP-B 24/3.0 (3 A / 1 kWs 1) )  CP-B 24/10.0 (10 A / 10 kWs 1) )  CP-B 24/20.0 (20 A / 8 kWs 1) )   ½  CP-B 24/3.0 and CP-B 24/20.0 expandable with  additional extension module(s) CP-B EXT.2 (2 kWs 1) )   ½  LEDs for status indication   ½  Relay contacts for status messaging   ½  Very high backup times (e.g. with CP-B 24/10.0  up to 8 minutes at 1 A load current)   ½  Short charging times   ½   High efficiency, higher than 90%   ½  Wide temperature range   ½  DIN rail mountable, compact housing  Advantages in comparison to battery buffers:   ½  Maintenance free   ½  No deep discharge   ½  Temperature resistant   ½   A approval (UL508, CSA22.2 No 14) 1)  internal energy buffer energy storage x 0.9 current x output voltage 1 1 2 3 2CDC110004C0209.pdf   288 11/26/2013   4:51:38 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/68  3 CP-B range Ordering details Description Ultra capacitor based buffer units of the CP-B range offer highest reliability also in harsh  enivronment. Due to the ultra-cap based technology the units are maintenance free, there will  be no deep discharge and these products offer a very wide operational ambient temperature  range.  CP-B range buffer units are an excellent solution to avoid voltage drops, for example in solar  applications. Ordering details Rated input voltage Rated current Type  Order code Price 1 pce Weight(1 pce)kg (lb)  24 V DC 3 A DC CP-B 24/3.0 1SVR427060R0300 0.55 (1.21) 10 A DC CP-B 24/10.0 1SVR427060R1000 2.10 (4.63) 20 A DC CP-B 24/20.0 1SVR427060R2000 2.20 (4.85) 2CDC 271 001 S0010 2CDC 271 002 S0010 2CDC 271 003 S0010 CP-B 24/3.0 CP-B 24/10.0 CP-B 24/20.0 Ordering details - Extension unit for CP-B 24/3.0 and CP-B 24/20.0 Rated voltage Voltage range Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24 V DC 0-26.4 V DC CP-B EXT.2 1SVR427065R0000 1.00 (2.20) CP-B 24/10.0 L+ IN L- IN L+ OUT L- OUT max. 20 A CP-C 24/20.0 L N L+ L- max. 10 A ... ... L+ L- L+ L- buffered unbuffered load 1 load n load 1 load n Example of application 2CDC110004C0209.pdf   289 11/26/2013   4:51:39 PM

3/69   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-B range Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated Type CP-B 24/3.0 CP-B 24/10.0 CP-B 24/20.0 Input circuit - Supply circuit L+ IN  L- IN Rated input voltage U in 24 V DC Input voltage range 23.7-26.4 V DC 23.9-27 V DC 23.4-27.4 V DC Minimum charging potential 23.7 V DC 23.9 V DC 23.4 V DC Rated input current 3 A DC 10 A DC 20 A DC Inrush current limiting 50 A / 1 ms 35 A / 2 ms 35 A / 2 ms Transient overvoltage protection suppressor diode varistor / suppressor diode varistor / suppressor diode Internal input fuse (apparatus protection, not accessible) 4 A slow acting 15 A (FK2) 30 A (FK2) Internal fuse capacitors circuit (not accessible) 25 A (FK2) Kind of input SHUT-DOWN - control input control input rated voltage - 24 V DC 24 V DC voltage range - 6-45 V DC 6-45 V DC Output circuit L+ OUT  L- OUT  L- OUT Rated output power 69 W 240 W 480 W Rated output voltage U out 24 V DC Output voltage (buffer mode) 23.0 V DC 23.2 V DC 23.2 V DC Tolerance of the output voltage +2...-10 % Rated output current I r T a   ͨ 60 °C 3 A DC 10 A DC 20 A DC Peak output current (fully loaded capacitors required) T a   ͨ 60 °C 6 A DC (min. 1.5 s) 20 A DC (10 A power supply   + 10 A CP-B, min. 1.5 s) 40 A DC (min. 1.5 s) Control of limiting current - 10.3 A DC  Ȁ0.1A - Shut-down if limiting current is exceeded - after 1.5 s - Short-circuit protection (only via external fuse) no continuous short-circuit stability Internal output fuse (not accessible) - 15 A (FK2) - Required external fuse 3.15 A slow acting 10 A slow acting 25 A slow acting Current limiting at output circuit - 1.05...1.2 x I r - Breaking capacity of output circuit W = 2.5 ms - 24 V DC, 10 A - Power failure buffering time  1) load-dependent, min.  13 s at 100 % load load-dependent, min.  38 s at 100 % load load-dependent, min.  15 s at 100 % load Overload protection thermal protection Kind of output INPUT OK n/o contact BUFFER STATUS - n/o contact FAILURE - c/o contact Contact material Ag + Au-clad Minimum switching voltage / Minimum switching current 5 V DC / 1 mA Maximum switching voltage / Maximum switching current 50 V AC / 1.0 A, 30 V DC / 0.5 A Mechanical lifetime 5 x 10 6  switching cycles Electrical lifetime 0.1 x 10 6  switching cycles Maximum fuse rating to achieve short-circuit protection n/o  or n/c contact 1.0 A AC / 0.5 A DC General data Maximum internal power consumption 7 W 20 W 40 W Power consumption with unloaded output 0.75 W 3 W 1.6 W Energy storage (min.) 1000 Ws 10000 Ws 8000 Ws Typical charging time at load current 100 % 65 s 134 s 135 s 0 % 56 s 82 s 62 s Typical buffering time at load current 1) 100 % 13 s 38 s 15 s 50 % 28 s 76 s 30 s 25 % 66 s 140 s 60 s 10 % 148 s 380 s 150 s Efficiency greater than 90 % Dimensions (W x H x D) product dimensions 60 x 99 x 120 mm   (2.36 x 3.90 x 4.72 in) 116 x 170 x 147 mm  (4.57 x 6.69 x 5.79 in) 84 x 197 x 213 mm  (3.31 x 7.76 x 8.39 in) Weight net weight 0.55 kg (1.21 lb) 2.1 kg (4.63 lb) 2.2 kg (4.85 lb) Material cover / housing shell steel sheet powdered Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal not necessary vertical 40 mm (1.58 in) 80 mm (3.15 in) Pollution degree 2 Degree of protection housing / terminal IP20 Protection class (IEC/EN 61140) III SELV / PELV (condition: power supply fulfills class III) Electrical connection - Input circuit / Output circuit pull spring terminals pull spring terminals pluggable screw type  terminals Wire size fine-strand with(out) wire end ferrule 0.08-1.0 mm²   (28-18 AWG) 0.08-1.5 mm²   (28-18 AWG) 0.2-4.0 mm²   (24-12 AWG) rigid 0.08-1.5 mm²   (28-16 AWG) 0.08-4.0 mm²   (28-16 AWG) 0.2-6.0 mm²   (24-10 AWG) 2CDC110004C0209.pdf   290 11/26/2013   4:51:39 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/70  3 CP-B range Technical data, Technical diagrams Data at T a  = 25 °C and rated values, unless otherwise indicated Type CP-B 24/3.0 CP-B 24/10.0 CP-B 24/20.0 Stripping length 6.0 mm (0.24 in) 7.0 mm (0.28 in) Signalling circuit Wire size fine-strand with(out) wire end ferrule 0.08-1.0 mm² (28-18 AWG) 0.14-1.0 mm² (26-16 AWG) rigid 0.08-1.5 mm² (28-16 AWG) 0.14-1.5 mm² (28-16 AWG) Stripping length 6.0 mm (0.24 in) 7.0 mm (0.28 in) Environmental data Ambient temperature operation -40...+60 °C -20...+60 °C storage -40...+60 °C -20...+60 °C Standards Product standard EN 50178 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electrical safety EN 50178, EN 60950, UL 508 Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (27-1000 MHz) / Level 2, 3 V/m (1400-2700 MHz) electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2(1) kV / 5 kHz surge IEC/EN 61000-4-5 Level 1, 0.5 kV conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V (150 kHz-80 MHz) voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 buffered by ultra-capacitors Interference emission EN 61000-6-3, EN 61000-6-4 high-frequency radiated DIN EN 55011 B/C1 high-frequency conducted DIN EN 55011 B/C1 „Approvals and marks“ on page 3/4. 1)  buffering time  |  energy storage x 0.9 load current x output voltage CP-B 24/3.0 CP-B 24/20.0 CP-B 24/10.0 Output curve at T U  = 25 °C Technical diagrams  Caracteristic curve of the temperature at rated load Capacitor's life span over temperature I out  [A] 0 20 40 60 -40 T a  [°C] 1.5 3.0 Normal application (up to 50 % buffer mode, 5 chargingand discharging cycles in direct series) Continuous charging and discharging in direct series.As this is not typical of a real application, this should be considered as theoretical indication   I out  [A] 0 20 40 60 -40 T a  [°C] Normal application (up to 50 % buffer mode, 5 chargingand discharging cycles in direct series) Continuous charging and discharging in direct series.As this is not typical of a real application, this should be considered as theoretical indication    5.0 7.5 10.0 I out  [A] 0 20 40 60 -20 10 15 20 T a  [°C] Normal application (up to 50 % buffer mode, 5 chargingand discharging cycles in direct series) Continuous charging and discharging in direct series.As this is not typical of a real application, this should be considered as theoretical indication    30 20 10 0 10 20 30 40 50 60 60 70 40 50 Temperature [°C] Y ears 2CDC 272 028 F0210 2CDC 272 030 F0210 2CDC 272 029 F0210 2CDC 272 031 F0210 2CDC110004C0209.pdf   291 11/26/2013   4:51:39 PM

3/71   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 CP-B range Dimensional drawings Dimensional drawings  dimensions in mm and inches CP-B 24/3.0 93   3.66 ‘‘ 60   2.36 ‘‘ 112   4.41 ‘‘ 119   4.69 ‘‘ 120   4.72 ‘‘ 99   3.90 ‘‘ CP-B EXT.2 CP-B 24/10.0 93   3.66 ‘‘ 99   3.90 ‘‘ 60  2.36 ‘‘ 112  4.41 ‘‘ 119  4.69 ‘‘ 120  4.72 ‘‘ 163   6.42 ‘‘ 116   4.57 ‘‘ 170   6.69 ‘‘ 138   5.43 ‘‘ 147   5.79 ‘‘ 146   5.75 ‘‘ CP-B 24/20.0 193   7.60 ‘‘ 196   7.72 ‘‘ 188   7.40 ‘‘ 213  8.39 ‘‘ 84   3.31 ‘‘ 197   7.76 ‘‘ 2CDC 272 037 F0010 2CDC 272 039 F0010 2CDC 272 036 F0010 2CDC 272 038 F0010 2CDC110004C0209.pdf   292 11/26/2013   4:51:40 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/72  3 CP-B range Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated Type CP-B EXT 2.0 Extension circuit   EXT+ EXT+ EXT- EXT- Rated voltage 24 V DC Voltage range 0-26.4 V DC Rated current 3 A DC Internal input fuse (apparatus protection, not accessible) 4 A slow acting (PTC) Short-circuit protection via internal 3 A fuse Overload protection only in combination with CP-B 24/3.0 or CP-B 24/20.0 Indication of operational states status information and fault messages of the buffer module apply General data Power consumption without load 0.5 W Energy storage (min.) 2000 Ws Dimensions (W x H x D) product dimensions 60 x 99 x 120 mm (2.36 x 3.90 x 4.72 in) packaging dimensions 85 x 220 x 170 mm (3.35 x 8.66 x 6.69 in) Weight net weight 1.00 kg (0.20 lb) Material cover / housing shell steel sheet powdered Mounting DIN rail (IEC/EN 60715), snap-on mounting without any tool Mounting position horizontal Minimum distance to other units horizontal not necessary vertical 40 mm (1.58 in) Pollution degree 2 Degree of protection housing / terminal IP20 Protection class (IEC/EN 61140) III SELV / PELV (condition: power supply fulfills class III) Electrical connection - Extension circuit  Wire size fine-strand with(out) wire end ferrule 0.08-1.0 mm² (28-18 AWG) rigid 0.08-1.5 mm² (28-16 AWG) Stripping length 6.0 mm (0.24 in) Signalling circuit Wire size fine-strand with(out) wire end ferrule 0.08-1.0 mm² (28-18 AWG) rigid 0.08-1.5 mm² (28-16 AWG) Stripping length 6.0 mm (0.24 in) Environmental data Ambient temperature operation -40...+60 °C storage -40...+60 °C Vibration, sinusoidal based on IEC/EN 60068-2-6 1.5 mm, 3-57.55 Hz; 2 g, 57.55-500 Hz, 10 cycles Shock, half-sine based on IEC/EN 60068-2-27 15 g, 11 ms, 3 axes, 6 faces, 3 times for each face Standards Product standard EN 50178 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC RoHS Directive 2002/95/EC Electrical safety EN 50178, EN 60950, UL 508 Electromagnetic compatibility Interference immunity to IEC/EN 61000-6-1, IEC/EN 61000-6-2 electrostatic discharge IEC/EN 61000-4-2 Level 3, 6 kV / 8 kV radiated, radio-frequency, electromagnetic field IEC/EN 61000-4-3 Level 3, 10 V/m (27-1000 MHz) / Level 2, 3 V/m (1400-2700 MHz) electrical fast transient/burst IEC/EN 61000-4-4 Level 3, 2(1) kV / 5 kHz surge IEC/EN 61000-4-5 Level 1, 0.5 kV conducted disturbances, induced by radio-frequency fields IEC/EN 61000-4-6 Level 3, 10 V (150 kHz-80 MHz) voltage dips, short interruptions and voltage variations IEC/EN 61000-4-11 buffered by ultra-capacitors Interference emission EN 61000-6-3, EN 61000-6-4 high-frequency radiated DIN EN 55011 B/C1 high-frequency conducted DIN EN 55011 B/C1 „Approvals and marks“ on page 3/4. 2CDC110004C0209.pdf   293 11/26/2013   4:51:40 PM

3/73   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Electronic protection devices EPD24 Product group picture 2CDC110004C0209.pdf   294 11/26/2013   4:51:40 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/74  3 Electronic protection devices EPD24 Table of contents Electronic protection devices EPD24 Product group picture   3/73 Table of contents   3/74 Ordering details   3/75 Technical data   3/76 Technical information   3/78 Approvals, safety instructions   3/79 Installation guidelines   3/80 2CDC110004C0209.pdf   295 11/26/2013   4:51:41 PM

3/75   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Electronic protection devices EPD24 Ordering details The protection devices EPD24 extend the ABB product range of Modular DIN rail components by electronic overcurrent protection modules for selective protection of 24V DC load circuits. This protection is achieved by a combination of active electronic current limitation in the case of a short circuit and an overload deactivation from 1.1 x I n  upwards. If a fault occurs in a load circuit, the protection device EPD24 will detect this rapidly and reliably, disable the power output transistor and hence interrupt the current flow in the defective circuit. The maximum possible overcurrent is always limited to 1.3…1.8 times the selected rated current. An activation of capacitive loads up to 20,000 μF is possible, deactivation only occurring in the case of overloads or short circuits. Selective deactivation of the defective current circuit means undefined error states and a complete system stop are prevented. Features   ½  Selective load protection, one electronic tripping characteristic.   ½  Active current limitation for safe connection of capacitive loads up to 20,000 μF and on overload/short circuit.   ½  Current ratings 0.5 A...12 A.   ½  Reliable overload disconnection with 1.1 x I N   ½  Manual ON/OFF button   ½  Clear status and failure indication through LED and integrated auxiliary contact.   ½    Integral fail-safe element adjusted to current rating.   ½  Width per unit only 12.5 mm.   ½  Rail  mounting   ½   Ease of wiring through busbar LINE+ and 0 V as well as signal bars.   ½  UL- and CSA-approvals allow international use of the devices. Ordering details Ratedcurrent I N   A bbn 40 16779 EAN Type  Order code Price Pkg qty Weight(1 pce) kg (lb)  0.5 829960 EPD24-TB-101-0.5A 2CDE601101R2905 4 0.065  (1.433) 1 829984 EPD24-TB-101-1A 2CDE601101R2001 4 0.065  (1.433) 2 830003 EPD24-TB-101-2A 2CDE601101R2002 4 0.065  (1.433) 3 830027 EPD24-TB-101-3A 2CDE601101R2003 4 0.065  (1.433) 4 830041 EPD24-TB-101-4A 2CDE601101R2004 4 0.065  (1.433) 6 830065 EPD24-TB-101-6A 2CDE601101R2006 4 0.065  (1.433) 8 830089 EPD24-TB-101-8A 2CDE601101R2008 4 0.065  (1.433) 10 830102 EPD24-TB-101-10A 2CDE601101R2010 4 0.065  (1.433) 12 830126 EPD24-TB-101-12A 2CDE601101R2012 4 0.065  (1.433) Ordering details Description bbn 40 16779 EAN Type Order  code Price Pkg qty Weight(1 pce)kg (lb) Busbars for LINE+ and 0 V,  grey insulation, length 500 mm  1 ) 830140 EPD-BB500 2CDE605100R0500 10 0.2(0.441) Signal Bars for aux. contacts, grey insulation, length 21 mm 830164 EPD-SB21 2CDE605200R0021 10 0.4 (0.882)   1)   Max. load with one line entry Imax = 50 A (recommended: mid line entry)  Max. load with two line entries Imax = 63 A 2CDC 051 001 S0010 EPD24-TB-101-3A 2CDC110004C0209.pdf   296 11/26/2013   4:51:41 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/76  3 Electronic protection devices EPD24 Technical data LINE+ 1 14 13 2 LOAD+ 0V 3 Wiring diagramm EPD24-TB-101 without signal inputwith signal output F(Single signal, N/O) Operating condition: 13-14 closedFault condition: 13-14 open Operating data Operating voltage U B : 24 V DC (18...32 V)  Current rating I N : fixed current ratings: 0.5, 1, 2, 3, 4, 6, 8, 10, 12 A Closed current I 0 : ON condition: typically 20...30 mA depending on signal output Staus indication by means of: – multicolour  LED:    Green:  –  unit is ON      –  load circuit / Power-MOSFET        is switched on  Orange:  –    in the event of overload or short circuit until  electronic disconnection    Red:  –  unit electronically disconnected      –   load circuit/Power-MOSFET OFF     –  undervoltage  (U B   8 V)      –  after switch-on till the end of the delay period   OFF:  –  manually switched off        or device is dead  –  potential-free auxiliary contact F  –  ON/OFF/ condition of switch Load circuit Load output  Power-MOSFET switching output (high slide switch)  Overload disconnection  typically 1.1 x I N  (1.05...1.35 x I N )  Short-circuit current I K   active current limitation  Trip time  see time/current characteristics  For electronic disconnection typically 3 s at I Load   1.1 x I N   typically 100 ms...3 s at I Load   1.8 x I N   (or 1.5 x I N /1.3 x I N , )  Temperature disconnection  internal temperature monitoring with electronic disconnection  Low voltage monitoring load output  with hysteresis, no reset required:  load »OFF« at U B 8 V   Starting delay t Start typically 0.5 sec after every switch-on and after applying U B   Disconnection of  load circuit  electronic disconnection Free-wheeling circuit  suitable external free-wheeling circuit to be used  with inductive load  Several load outputs must not be connected in parallel Signal output Electrical data  potential-free auxiliary contact max. 30 V DC/0.5 A, min. 10 V DC/10 mA ON condition LED green voltage U B  applied, switch is in ON position no overload, no short circuit OFF condition LED off  –  device switched off (switch is in OFF position) –  no voltage U B  applied Fault condition LED orange overload condition 1.1 x I N  up to electronic disconnection Fault condition LED red  –  electronic disconnection upon overload or short circuit –  Device switched off with control signal    (switch is in ON position) Aux. contact single signal, make contact contact open, terminal 13-14 Fault signal output fault conditions –  no operating voltage U B   –  ON/OFF switch is in OFF position –  red LED lighted (electronic disconnection) 2CDC110004C0209.pdf   297 11/26/2013   4:51:42 PM

3/77   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Electronic protection devices EPD24 Technical data General data Fail-Safe element  backup fuse for EPD24 not required  because of the integral redundant fail-safe element  Housing material  moulded  Mounting  symmetrical rail to EN 50022-35x7.5  Ambient temperature  0...+50 °C (without condensation, see EN 60204-1)  Storage temperature  -20...+70 °C  Humidity  96 hrs/95 % RH/40 °C to IEC 60068-2-78, test Cab.  climate class 3K3 to EN 60721  Vibration  3 g, test to IEC 60068-2-6 test Fc  Degree of protection  housing: IP20 DIN 40050  terminals: IP20 DIN 40050  EMC  (EMC directive, CE logo)  emission: EN 61000-6-3  susceptibility: EN 61000-6-2  Isolations coordination  (IEC 60934)  0.5 kV/pollution degree 2 reinforced insulation in operating area  Dielectric strength  max. 32 V DC (load circuit)  Isolation resistance  (OFF condition)  n/a, only electronic disconnection Approvals/Declarations of conformity  UL 2367 Solid State Overcurrent Protectors UL 1604, (class I, division 2, groups A, B, C, D)  UL 508 CSA C22.2 No. 213 (class I, division 2) CSA C22.2 No. 142 CE logo  Dimensions (B x H x T)  12.5 x 80 x 83 mm  Weight  approx. 65 g Terminals Line+/LOAD+/0V Screw terminals  M4 Max. cable cross section flexible with wire end ferrule w/wo plastic sleeve  0.5 – 10 mm 2   Multi-lead connection (2 identical cables) rigid/flexible 0.5 – 4 mm 2   Flexible with wire end ferrule without plastic sleeve  0.5 – 2.5 mm 2   Flexible with TWIN wire end ferrule with plastic sleeve  0.5 – 6 mm 2   Wire stripping length 10 mm  Tightening torque (EN 60934)  1.5 – 1.8 Nm Terminals aux. contacts Screw terminals  M3 Max. cable cross section flexible  with wire end ferrule w/wo plastic sleeve  0.25 - 2.5 mm 2   Wire stripping length 8 mm  Tightening torque (EN 60934)  0.5 Nm Table 1: voltage drop, current limitation, max. load current current rating typically voltage drop active current max. load current at 100 % ON duty I N U ON  at I N limitation (typically) T ambient  = 40 °C T ambient  = 40 °C 0.5 A 70 mV 1.8 x I N 0.5 A 0.5 A 1 A 80 mV 1.8 x I N 1 A 1 A 2 A 130 mV 1.8 x I N 2 A 2 A 3 A 80 mV 1.8 x I N 3 A 3 A 4 A 100 mV 1.8 x I N 4 A 4 A 6 A 130 mV 1.8 x I N 6 A 5 A 8 A 120 mV 1.5 x I N 8 A 7 A 10 A 150 mV 1.5 x I N 10 A 9 A 12 A 180 mV 1.3 x I N 12 A 10.8 A Attention: when mounted side-by-side without convection the ERD24 should not carry more than 80 % of its rated load with 100 % ON duty due to thermal effects. 2CDC110004C0209.pdf   298 11/26/2013   4:51:42 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/78  3 Electronic protection devices EPD24 Technical information Time/Current characteristic curve (T ambient  = 25 °C) –   The trip time is typically 3 s in the range between 1.1 and 1.8 x I N 1) .  –   Electronic current limitation occurs at typically 1.8 x I N 1)  which means that under all overload conditions (independent of the power supply and the  resistance of the load circuit) the max. overload before disconnection will not exceed 1.8 x I N 1)  times   the current rating. Trip time is between 100 ms and 3 sec (depending on overload or at short circuit).  –   Without this current limitation a considerably higher overload current would flow in the event of an overload or short circuit. disconnection typically 1.1 x I N       current limitation typically 1.8 x I N 1) IK 10000 1000 1 2 4 trip time in seconds ...times rated current 100 10 1 0. 1 0.01 3 5 0 1.8 x I N 1) 5 1)   Current limitation typically 1.8 x I N  at I N  = 0.5 A...6 A  Current limitation typically 1.5 x I N  at I N  = 8 A or 10 A  Current limitation typically 1.3 x I N  at I N  = 12 A Maximum cable lenghts EPD24 reliably trips from 0  : up to max. circuit resistance R max . Calculation of R max   Selected rating I N  (A)  3 6  Operating voltage U S  (V DC) (= 80 % of 24 V)  2) 19.2 19.2 Trip current I ab  = 1.25 x I N  (A) (EPD24 trips after 3 s)  3.75  7.50  R max  ( :) = (U B /I ab ) -0.050  5.07  2.51 2)   Voltage drop of EPD24 and tolerance of trip point (typically 1.1 x I N  = 1.05 ... 1.35 x I N ) have been taken into account Selection table for the incoming cable lengths with different cable cross-sections Cable cross section A (mm 2 )  0.14 0.25 0.34  0.5 0.75 1.00 1.50  Cable length L (m) (= single length)  cable resistance ( :  = (U 0  x 2 x L) / A  3)       5  1.27 0.71 0.52 0.36 0.24 0.18 0.12  10  2.54 1.42 1.05 0.71   0.47 0.36 0.24  15  3.81  2.14 1.57 1.07  0.71 0.53 0.36  20  5.09 2.85 2.09 1.42 0.95 0.71 0.47  25  6.36 3.56 2.62 1.78 1.19 0.89 0.59  30  7.63 4.27 3.14 2.14 1.42 1.07 0.71  35  8.90 4.98 3.66 2.49 1.66 1.25 0.83  40  10.17 5.70 4.19 2.85 1.90 1.42 0.95  45  11.44 6.41 4.71 3.20 2.14 1.60 1.07  50  12.71 7.12 5.24 3.56 2.37 1.78 1.19  75  19.07  10.68 7.85 5.34 3.56 2.67 1.78  100  25.34  14.24  10.47 7.12 4.75 3.56 2.37  125  31.79  17.80  13.09 8.90 5.93 4.45 2.97  150  38.14 21.36 15.71 10.68  7.12  5.34  3.56  175 44.50  24.92  18.32  12.46 8.31 6.23 4.15  200  50.86 28.48 20.94 14.24  9.49  7.12  4.75  225  57.21 32.04 23.56 16.02 10.68  8.01  5.34  250  63.57 35.60 26.18 17.80 11.87  8.90  5.93  3)  Resistivity of copper  U o  = 0.0178 ( : x mm 2 )/m  Example 1:   max. length for 1.5 mm 2  and 3 A: 214 m  Example 2:    max. length for 1.5 mm 2  and 6 A: 106 m  Example 3:     mixed wiring: (Control cabinet --- sensor/actuator level)   R1 = 40 m for 1.5 mm 2  and R2 = 5 m for 0.25 mm 2 :   R1 = 0.95  :, R2 = 0.71 :, total (R1 + R2) = 1.66 : 2CDC110004C0209.pdf   299 11/26/2013   4:51:42 PM

3/79   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 3 Electronic protection devices EPD24 Approvals, Safety instructions Please note The user must ensure that the cable cross sections of the relevant load circuit are suitable for the current rating of the EPD24 used.  Automatic start-up of machinery after shut down must be prevented (Machinery Directive 98/37/EG and EN 60204-1).   In the event of a short circuit or overload the load circuit will be disconnected electronically by the EPD24. Information on UL approvals/CSA approvals    UL1604        UL File # E 339238        CSA C22.2 No. 213 (Class I, Division 2)       CSA File # 2305929 Operating Temperature Code T5  –  This equipment is suitable for use in Class I, Division 2, Groups A, B, C and D or non-hazardous locations only  WARNING:  –  Exposure to some chemicals may degrade the sealing properties of materials used in the following device: relay   Sealant  Material:      Generic Name:   Modified diglycidyl ether of bisphenol A      Supplier:   Fine Polymers Corporation      Type:   Epi Fine 4616L-160PK   Casing  Material:      Generic Name: Liquid Crystal Polymer      Supplier:   Sumitomo Chemical      Type:   E4008, E4009, or E6008  RECOMMENDATION:  –   Periodically inspect the device named above for any degradation of properties and replace if degradation is found  WARNING – EXPLOSION HAZARD:  –  Do not disconnect equipment unless power has been removed or the area is known to be non-hazardous  –  Substitution of any components may impair suitability for Class I, Division 2     UL2367      Non-hazardous use - UL File # E 339236      UL  508      Non-hazardous use - UL File # E 149922         CSA C22.2 No. 14      CSA C22.2 No. 142 - CSA File # E 2305929       Class 2  Meets requirement for Class 2 current limitation (EPD24 ... -0,5 A/1 A/2 A/3 A) 2CDC110004C0209.pdf   300 11/26/2013   4:51:42 PM

   2CDC 110 004 0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   3/80  3 Electronic protection devices EPD24 Installation guidelines The EPD24 features an integral power distribution system.   The following wiring modes are possible with various pluggable current and signal busbars: –  LINE+ (24 V DC) – 0  V   Caution: The electronic devices EPD24 require a 0 V connection – Auxiliary  contacts Mounting procedure Before wiring insert busbars into protector block. A maximum of 10 connection cycles are permissible using connecting busbars. Recommendation After 10 units the busbars should be interrupted and receive a new entry live. Table of length for busbars (Order code 2CDE605100R0500) No. of units 2 3 4 5 6 7 8 9 10 Length of busbar (mm) ± 0.5 mm 22 34.5 47 59.5 72 84.5 97 109.5 122 12.5 x n = width of protector blocke. g.  12.5 x 5 = 62.5 insert busbarsand protection slidesto be flush with housing sides insert signalbars to be flush withhousing and place themcentrally over the contacts LINE+ busbar2CDE605100R0500 0 V busbar2CDE605100R0500 signal bar2CDE605200R0021 remove protection againstbrush contact from bottom side (12.5 x n)-3 = length of busbars ± 0.5e. g.  (12.5 x 5)-3 = 59.5 ± 0.5  insert protection againstbrush contact continuous busbar500 mm length, cut 2CDC110004C0209.pdf   301 11/26/2013   4:51:42 PM

4/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters, Serial data converters Product group picture 2CDC110004C0209.pdf   302 11/26/2013   4:51:43 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/2  4 Analog signal converters, Serial data converters Table of contents Analog signal converters, serial data converters Table of contents   4/2 Overview   4/3 Overview   4/4 Analog signal converters - CC-E range   4/5 Table of contents   4/6 Benefits and advantages   4/7 Ordering details - Standard signal converters   4/8 Ordering details - RTD converters   4/9 Ordering details - Thermocouple converters   4/10 Ordering details - Measuring converters   4/11 DIP switch settings and dimensional drawings   4/12 Wiring instructions   4/13 Technical data   4/14 Analog signal converters - CC-U range   4/17 Table of contents   4/18 Overview   4/19 Ordering details   4/21 Ordering details - Accessories   4/22 DIP switch settings   4/23 Wiring instructions   4/25 Technical information   4/26 Technical data   4/29 Technical diagr., Connection diagr., Dimensional drawings   4/32 Serial data converters   4/33 Table of contents   4/34 Benefits and advantages   4/35 Selection table   4/36 Ordering details   4/37 Connection diagrams and jumper settings   4/38 Technical data   4/45 Dimensional drawings   4/55 2CDC110004C0209.pdf   303 11/26/2013   4:51:46 PM

4/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters, Serial data converters Overview Nearly every process includes a control system that receives data  by means of analog signals and then evaluates the data and sets the re-spective parameters correspondingly.  When transmitting analog signals numerous problems may arise which can disturb or even block an ideal behavior of the process. Below we have listed some processing problems together with the   respective solutions to solve these problems: Signal conversion Sometimes the available signals cannot be processed by the controller or the actuator. In this case, signal converters are required to convert the  input signal (or different input signals) to the desired output signal. Signal amplification If long lines or high burdens have to be operated, it may be necessary to amplify the signal. CC analog signal converters require only low input po-wer and provide high output power.  Thus, there are no restrictions for the converter's position on the line, i.e. it can be used   ½ for signal refreshing  ቢ at the end of the line (low input power)    ½ or for signal amplification  ባ at the beginning of the line   (high output power). Signal filtering Particularly on long lines or in rough industrial environments the signals are exposed to high electromagnetic interferences. The frequency of the coupled interference signals may be in the range of the common mains frequency (50 Hz) or even much higher (in case of frequency converters). According to the specific requirements, analog signal converters are available which provide reliable suppression of those interferences by means of an input low-pass filter. Applications for analog signal processing and correct solution using CC-E and CC-U  converters Signal separation   ½ Protection against overvoltage  The increased use of micro-electronics make controls much more sensitive against overvoltages, resulting from lightning discharges or switching processes. Suppression diodes are incorporated in the input of the CC analog signal converters which enable the converters to arrest overvoltages with low energy level (resulting from switching processes) by themselves. The products furthermore provide electri-cal isolation between input, output and supply circuit for protection of the controller connected to the output.     ½ Protection against ground loops  If components are used which refer to ground, the measuring signals can be falsified by a so-called ground loop. In this case, certain parts of the signal are transmitted via earth and not via the analog trans-mission line, thus causing incorrect evaluation of the signal. The electrical isolation between the input and the output disconnects these ground loops and thus enables correct signal transmission. ½ existing  ̆ existing for some devices  ˽ pending Approvals CC-E/STD CC-E I/I CC-U/STD CC-U/STDR CC-E/R TD CC-U/R TD CC-U/R TDR CC-E/TC CC-U/TC CC-U/TCR CC-E/I CC-E I AC /ILPO CC-U/I CC-U/V A UL 508, CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ A UL 1604 (Class I, Div 2, hazardous loca-tions), CAN/CSA C22.2 No.213 ̆ ½ ̆ ½ ̆ ½ ̆ ½ ½ K CB scheme ½ ½ ½ E CCC ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 0-10 V 0-10 V 100 m 0-20 mA 100 m 4-20 mA 2CDC 282 013 F0206 Controllere.g. AC500 Measuring sensor Actuator 1.  Analog signal converter (e.g. CC-E or CC-U) 2.  Analog signal converter (e.g. CC-E or CC-U) 2CDC110004C0209.pdf   304 11/26/2013   4:51:46 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/4  4 Analog signal converters, Serial data converters Overview RS-232 RS-232 RS-485 RS-485 RS-232 RS-232 RS-232 RS-232 RS-422 RS-422 RS-422 RS-422 RS-232 RS-232 RS-232 RS-232 RS-232 15 m   max. 1.2 km   max. 1.2 km   max. 15 m max. TCP RS-232 RS-485 Modbus /  RTU Modbus /  TCP In the field of industrial data transmission, various processes of data transmission and interfaces are used today. Already existing systems need to  be updated or connected to new devices for continuity of process. When new communication functions are not build-in, ABB propose a range of  converters to be able to use from the standard RS232 or RS485, to the Ethernet open products or the Optical Fiber. Ethernet communication is now one of the main features need in open communication, ABB propose the e-ILPH to connect the serial devices to  the web world. Uses   Adaptation The use of converters allows the connection of two devices using different interfaces.  To add new equipment to existing installations. Electrical Isolation To protect sensitive equipment it is sometimes necessary to use converters which allow electrical isolation. Type of connection  Immunity to noise   RS232   Low  RS422   High  RS485   High  CL   High  OF   Very  high   Ethernet   High To cross a disturbed environment Some interfaces are more sensitive to noise. Electrically, it is preferable, in some cases, to change the interface or support. Multipoint connections Some equipments are only designed to communicate in RS232 point to point connec-tion. To communicate with several devices it is then necessary to use converters RS232 to RS422, RS485, CL or OF to reach multipoint mode. Type of connection  Connection   RS232  Point to point  RS422  12  points  RS485  32  points  CL  5-6  points  OF  32  points    Ethernet  Point to point or multipoint Type of connection  Max. distances   RS232   15m  RS422   1.2km  RS485   1.2km  CL   300-500m  OF   4km    Ethernet    100 m with CAT5 cable Increase in the transmission and amplification distances of the signals Every connection has its own limits, to increase the communication distances you only have to change the type of link (converter) or amplify the signal (Repeater) using an ILPH.   Depending on transmission speed. Example : Example : Example : Example : Example : Example : Example : Line 1 Line 2 Power Converter Repeater Noisy  elements RS-485 2-/4 wires "World Wide" communication Communication is more and more used with Ethernet support. The interests are to have a distant access, to use an already existing network and to upload information and data on a supervisor or a computer. The conversions from serial to Ethernet protocol are used to connect local network to Ethernet. Protocol conversion Modbus is one of the main protocols used in the industrial networks. The creation of Modbus/TCP allows an adapted access to the Ethernet network. So, the conversion between these 2 protocols is necessary. 2CDC110004C0209.pdf   305 11/26/2013   4:51:47 PM

4/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-E range Product group picture 2CDC110004C0209.pdf   306 11/26/2013   4:51:49 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/6  4 Analog signal converters - CC-E range Table of contents Analog signal converters - CC-E range Product group picture   4/5 Table of contents   4/6 Benefits and advantages   4/7 Ordering details - Standard signal converters   4/8 Ordering details - RTD converters   4/9 Ordering details - Thermocouple converters   4/10 Ordering details - Measuring converters   4/11 DIP switch settings and dimensional drawings   4/12 Wiring instructions   4/13 Technical data   4/14 2CDC110004C0209.pdf   307 11/26/2013   4:51:51 PM

4/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-E range Benefits and advantages CC-E/STD analog signal converter with 3-way electrical isolation   ½   2 universally configurable devices (type CC-E/STD)   ½   2x10 single-function devices   ½   "Plug and Work", no adjustment of single-function devices required CC-E/RTD temperature signal converter for RTD sensors, linearized with 3-way electrical isolation   ½   2 universally configurable devices (type CC-E/RTD)   ½   2x12 single-function devices   ½   Plug and Work", no adjustment of single-function devices required   ½   Temperature signal converter for PT100 sensors   ½   2- or 3-wire connection CC-E/TC analog signal converter for thermocouple signals of the types J and K with 3-way electrical isolation   ½   2 universally configurable devices (type CC-E/TC)    ½   2x6 single-function devices   ½   "Plug and Work", no adjustment of single-function devices required   ½   Integrated cold-junction compensation CC-E/I measuring converter for current signals 0-5 A, 0-20 A, AC/DC with 3-way electrical isolation   ½   2 universally configurable devices (type CC-E/I)   ½   2x6 single-function devices   ½   "Plug and Work", no adjustment of single-function devices required CC-E I AC /ILPO measuring converter without auxiliary power for sinu- soidal currents 0-1 A, 0-5 A, output 4-20 mA   ½   Measuring converter for sinusoidal currents (0-1 A, 0-5 A)   ½   Measuring range selection by front-face sliding switch   ½   4-20 mA output current in proportion to input current   ½   no additional power supply required CC-E range   ½   Universally configurable devices and single-function devices   ½   Adjustment and operating elements on the front side   ½   Safe operation by electrical 3-way isolation   ½   Unambiguous and clear connecting terminal markings Conversion, measurement and separation of   ½   Standard signals (0-5 V, 0-10 V, 0-20 mA, 4-20 mA)   ½   Temperature signals of RTD sensors (PT 100)   ½   Thermocouple signals (types J and K)   ½   Current measurement signals (0-5 A, 0-20 A AC/DC) Characteristics of single-function devices   ½   No adjustment or balancing necessary. Characteristics of universal devices   ½   The required input and output ranges can be configured by means of  directly accessible DIP switches positioned on the side   ½   Gain adjustment of ± 5 % by means of an adjustment   potentiometer on the front-side   ½   Offset adjustment of ±5 % by means of adjustment   potentiometers on the front-side Loop-powered current/current isolator without external power supply for analog current signals of 0-20 mA and 4-20 mA   ½   Electrical isolation between input and output   ½   Very low internal voltage drop  ͨ 2.5 V   ½   Available with one or two independent channels   ½   Width only 18 mm (1 and 2 channels) 4 1 1 2 2 3 5 1  Terminals M, K, J, H, G 2  Terminal explanation 3  Adjustment of gain 4  Adjustment of offset 4  Indication of operational states     U - control supply voltage applied 2CDC110004C0209.pdf   308 11/26/2013   4:51:51 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/8  4 Analog signal converters - CC-E range Ordering details - Standard signal converters  1)  B   1604 Class I, Div.2 (universal device)  2)  CC-E-I/I-1 has 1 channel, CC-E-I/I-1 has 2 channels  3)    3-way electrical isolation  4)    with relay output Ordering details - Standard signal converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24 V DC 0-5 V, 0-10 V0-20 mA,  4-20 mA 0-5 V, 0-10 V 0-20 mA,  4-20 mA CC-E/STD 1) 3) 1SVR011700R0000 0.088 (0.194) 0-10 V 0-10 V CC-E V/V 1SVR011710R2100 0.083 (0.183) 0-20 mA CC-E V/I 1SVR011711R1600 0.084 (0.185) 4-20 mA CC-E V/I 1SVR011712R1700 0.084 (0.187) 0-20 mA 0-10 V CC-E I/V 1SVR011713R1000 0.082 (0.181) 0-20 mA CC-E I/I 1SVR011714R1100 0.084 (0.187) 4-20 mA CC-E I/I 1SVR011715R1200 0.084 (0.185) 4-20 mA 0-10 V CC-E I/V 1SVR011716R1300 0.084 (0.185) 0-20 mA CC-E I/I 1SVR011717R1400 4-20 mA CC-E I/I 1SVR011718R2500 0.084 (0.187) -10...+10 V -10...+10 V CC-E V/V 1SVR011719R2600 0.082 (0.181) 110-240 V AC 0-5 V, 0-10 V0-20 mA, 4-20 mA 0-5 V, 0-10 V 0-20 mA, 4-20 mA CC-E/STD  3) 1SVR011705R2100 0.090 (0.198) 0-10 V 0-10 V CC-E V/V 1SVR011720R2300 0.096 (0.212) 0-20 mA CC-E V/I 1SVR011721R1000 0.087 (0.192) 4-20 mA CC-E V/I 1SVR011722R1100 0.091 (0.200) 0-20 mA 0-10 V CC-E V/V 1SVR011723R1200 0.091 (0.200) 0-20 mA CC-E I/I 1SVR011724R1300 0.088 (0.194) 4-20 mA CC-E I/I 1SVR011725R1400 4-20 mA 0-10 V CC-E V/V 1SVR011726R1500 0.096 (0.212) 0-20 mA CC-E I/I 1SVR011727R1600 0.087 (0.192) 4-20 mA CC-E I/I 1SVR011728R2700 0.088 (0.194) loop powered -10...+10 V -10...+10 V CC-E V/V 1SVR011729R2000 0.086 (0.190) 0-20 mA, 4-20 mA 0-20 mA, 4-20 mA CC-E I/I-1 2) 1SVR010200R1600 0.038 (0.084) CC-E I/I-2 2) 1SVR010201R0300 0.044 (0.097) 2CDC 281 010 F0003 2CDC 281 001 F0003 2CDC 281 041 F0003 CC-E/I CC-E V/V CC-E I/I-2 2CDC110004C0209.pdf   309 11/26/2013   4:51:51 PM

4/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-E range Ordering details - RTD converters 2CDC 281 004 F0003 CC-E/RTD  4)    with relay output Ordering details - RTD converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24 V DC refer to table 0-10 V, 0-20 mA,  4-20 mA CC-E/RTD 1) 1SVR011701R2500 0.091 (0.200) PT100  0...100 °C 0-10 V CC-E RTD/V 1SVR011730R2500 0.084 (0.185) 0-20 mA CC-E RTD/I 1SVR011731R1200 0.086 (0.190) 4-20 mA CC-E RTD/I 1SVR011732R1300 PT100  -50...+50 °C 0-10 V CC-E RTD/V 1SVR011733R1400 0.083 (0.183) 0-20 mA CC-E RTD/I 1SVR011734R1500 0.084 (0.185) 4-20 mA CC-E RTD/I 1SVR011735R1600 0.084 (0.187) PT100  0...300 °C 0-10 V CC-E RTD/V 1SVR011736R1700 0.084 (0.185) 0-20 mA CC-E RTD/I 1SVR011737R1000 0.084 (0.187) 4-20 mA CC-E RTD/I 1SVR011738R2100 0.101 PT100  -50...+250 °C 0-10 V CC-E RTD/V 1SVR011739R2200 0.084 (0.185) 0-20 mA CC-E RTD/I 1SVR011740R0700 0.084 (0.187) 4-20 mA CC-E RTD/I 1SVR011741R2400 110-240 V AC refer to table 0-10 V, 0-20 mA,  4-20 mA CC-E/RTD 1SVR011706R2200 0.093 (0.205) PT100  0...100 °C 0-10 V CC-E RTD/V 1SVR011788R2400 0.086 (0.190) 0-20 mA CC-E RTD/I 1SVR011789R2500 0.088 (0.194) 4-20 mA CC-E RTD/I 1SVR011790R2200 0.089 (0.196) PT100  -50...+50 °C 0-10 V CC-E RTD/V 1SVR011791R1700 0.087 (0.192) 0-20 mA CC-E RTD/I 1SVR011792R1000 0.089 (0.196) 4-20 mA CC-E RTD/I 1SVR011793R1100 PT100  0...300 °C 0-10 V CC-E RTD/V 1SVR011794R1200 0.087 (0.192) 0-20 mA CC-E RTD/I 1SVR011795R1300 0.089 (0.196) 4-20 mA CC-E RTD/I 1SVR011796R1400 PT100  -50...+250 °C 0-10 V CC-E RTD/V 1SVR011797R1500 0.086 (0.190) 0-20 mA CC-E RTD/I 1SVR011798R2600 0.089 (0.196) 4-20 mA CC-E RTD/I 1SVR011799R2700 0.088 (0.194)  1)  B   1604 Class I, Div.2 (universal device)   2)  CC-E-I/I-1 has 1 channcel, CC-E-I/I-1 has 2 channels 2CDC110004C0209.pdf   310 11/26/2013   4:51:51 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/10  4 Analog signal converters - CC-E range Ordering details - Thermocouple converters 2CDC 281 007 F0003 CC-E TC Ordering details - Thermocouple Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24 V DC thermocouple types J and K 0-10 V, 0-20 mA,  4-20 mA CC-E/TC 1) 1SVR011702R2600 0.089 (0.196) type J  0...600 °C 0-10 V CC-E TC/V 1SVR011750R0100 0.087 (0.192) 0-20 mA CC-E TC/I 1SVR011751R2600 0.084 (0.187) 4-20 mA CC-E TC/I 1SVR011752R2700 0.102 type K  0...1000 °C 0-10 V CC-E TC/V 1SVR011753R2000 0.084 (0.185) 0-20 mA CC-E TC/I 1SVR011754R2100 4-20 mA CC-E TC/I 1SVR011755R2200 0.086 (0.190) 110-240 V AC thermocouple  types J and K 0-10 V, 0-20 mA,  4-20 mA CC-E/TC 1SVR011707R2300 0.088 (0.194) type J  0...600 °C 0-10 V CC-E TC/V 1SVR011760R0300 0.084 (0.187) 0-20 mA CC-E TC/I 1SVR011761R2000 0.088 (0.194) 4-20 mA CC-E TC/I 1SVR011762R2100 0.1 (0.220) type K  0...1000 °C 0-10 V CC-E TC/V 1SVR011763R2200 0.086 (0.190) 0-20 mA CC-E TC/I 1SVR011764R2300 0.088 (0.194) 4-20 mA CC-E TC/I 1SVR011765R2400 0.086 (0.190)  4)    with relay output 2CDC110004C0209.pdf   311 11/26/2013   4:51:52 PM

4/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Ordering details - Measuring Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24 V DC 0-5 A,  0-20 A, AC/DC 0-10 V, 0-20 mA,  4-20 mA CC-E/I 1)5) 1SVR011703R2700 0.096 (0.212) 0-5 A, 0-20 A, AC 0-10 V CC-E I AC /V  5) 1SVR011770R0500 0.090 (0.198) 0-20 mA CC-E I AC /I 5) 1SVR011771R2200 0.092 (0.203) 4-20 mA CC-E I AC /I 5) 1SVR011772R2300 0-5 A, 0-20 A, DC 0-10 V CC-E I DC /V 5) 1SVR011773R2400 0.092 (0.207) 0-20 mA CC-E I DC /I 5) 1SVR011774R2500 0.091 (0.200) 4-20 mA CC-E I DC /I 5) 1SVR011775R2600 0.093 (0.205) 110-240 V AC 0-5 A,  0-20 A, AC/DC 0-10 V, 0-20 mA, 4-20 mA CC-E/I 5) 1SVR011708R0400 0.099 (0.218) 0-5 A, 0-20 A, AC 0-10 V CC-E I AC /V 5) 1SVR011780R1100 0.092 (0.203) 0-20 mA CC-E I AC /I 5) 1SVR011781R0600 0.092 (0.207) 4-20 mA CC-E I AC /I 5) 1SVR011782R0700 0.095 (0.209) 0-5 A, 0-20 A, DC 0-10 V CC-E I DC /V 5) 1SVR011783R0000 0.093 (0.205) 0-20 mA CC-E I DC /I 5) 1SVR011784R0100 0.095 (0.209) 4-20 mA CC-E I DC /I 5) 1SVR011785R1100 loop powered 0-1 A, 0-5 A, AC 4-20 mA CC-E I AC /ILPO 6) 1SVR010203R0500 0.052 (0.115) 2CDC 281 018 F0004 CC-E I AC /ILPO  5)    with relay output  6)    for sinusoidal currents Analog signal converters - CC-E range Ordering details - Measuring converters 2CDC110004C0209.pdf   312 11/26/2013   4:51:52 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/12  4 Analog signal converters - CC-E range DIP switch settings, Dimensional drawings 8 1 2 4 3 5 6 7 0...5 V 0...10 V 0...20 mA 4...20 mA 0...5 V 0...10 V 0...20 mA4...20 mA 0...5 V 0...10 V 0...20 mA4...20 mA 0...5 V 0...10 V 0...20 mA4...20 mA 0...5 V 0...10 V 0...20 mA4...20 mA 2CDC 282 001 F0204 Input Output Switch 2CDC 282 002 F0204 ON Legend OFF CC-E/STD, CC-E x/x (universal devices) 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 0...300 °C 0...100 °C 0...500 °C -50...+50 °C -50...+250 °C -50...+450 °C High fail safe Low fail safe 0...10 V 0-20 mA4-20 mA 0-10 V 0-20 mA4-20 mA 0-10 V 0-20 mA4-20 mA 0-10 V 0-20 mA4-20 mA 0-10 V 0-20 mA4-20 mA 0-10 V 0-20 mA4-20 mA 2CDC 282 006 F0208 Input Output Switch CC-E/RTD  2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 TC-J:  0...600 °C TC-K: 0...1000 °C High fail safe Low fail safe 0...10 V 0...20 mA4...20 mA 0...10 V 0...20 mA4...20 mA 2CDC 282 007 F0208 Input Output Switch CC-E/TC CC-E/I Dimensional drawings 2CDC 282 002 F0204 ON Legend OFF 1 2 4 3 5 6 I - DC I - AC I - AC I - DCI - ACI - DC 0...10 V 0...20 mA 4...20 mA 2CDC 282 005 F0208 Input Output Switch 2CDC 282 011 F0204 Select input range by terminals Input range 5 A Connected linesUsed terminalsTerminal marking Input range 20 A Connected linesUsed terminalsTerminal marking Input range selection - CC-E/I CC-E/x CC-E I AC /ILPO, CC-E I/I 22.5 0,88 " 2CDC 282 011 F0b06 18 0.71" 2CDC 282 012 F0b06 2CDC110004C0209.pdf   313 11/26/2013   4:51:52 PM

4/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 CC-E/STD, CC-E x/x (universal devices) 2CDC 282 006 F0206 Burden R  ͧ 1.0 k⏲ Burden R  ͨ 500 ⏲ supply CC-E/RTD  J H G 2CDC 282 007 F0206 Burden R  ͧ 1.0 k⏲ Burden R  ͨ 500 ⏲ supply CC-E/TC and CC-E/I 2CDC 282 008 F0206 Burden R  ͧ 1.0 k⏲ Burden R  ͨ 500 ⏲ supply 100  ⏲ ͨ RL ͨ 500 ⏲ UL C D F E IN IN OUT OUT 2CDC 282 003 F0205  Channel 1 input 0-20 mA  or   4-20 mA Channel 1 output 0-20 mA  or   4-20 mA 100  ⏲ ͨ RL ͨ 500 ⏲ 100  ⏲ ͨ RL ͨ 500 ⏲ UL UL C D F E A B H G IN IN IN IN OUT OUT OUT OUT 2 C D C  282 004 F0205  Channel 1 input 0-20 mA  or   4-20 mA Channel 2 input 0-20 mA  or   4-20 mA Channel 1 output 0-20 mA  or   4-20 mA Chanel 2 output 0-20 mA  or   4-20 mA CC-E I/I-1 2CDC 282 010 F0b06 CC-E I AC /ILPO Analog signal converters - CC-E range Wiring instructions CC-E I/I-2 2CDC110004C0209.pdf   314 11/26/2013   4:51:52 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/14  4 Analog signal converters - CC-E range Technical data Type CC-E/STD / CC-E x/x CC-E/RTD  3) CC-E/TC Input circuits - Analog inputs J-G-H Current Voltage Temperature sensors Thermocouples   (IEC 584-1 and 2) Input signal Standard signals PT100 TC.K, TC.J Rated input range 0...20 mA /4...20 mA 0...5 V /0...10 V /-10...+10 V -50...+500 °C TC.K: 0...1000 °C,  TC.J: 0...600 °C Limitation of input signals +55 mA ± 11 V Influence of line resistance -   0.01  %/ ⏲ 0.5 % / 100  ⏲ Gain adjustment range  ± 5 % (universal devices) Offset adjustment range ± 5 % (universal devices) Input impedance 50  ⏲ 1 M ⏲ - - Suppression at 50 Hz - -   35  dB Common-mode rejection - 100  dB Output circuits - Analog outputs D-F, A-C   Current   Voltage Output signal 0-20 mA, 4-20 mA 0-5 V, 0-10 V Output burden ͨ 500 ⏲ ͧ1.0 K⏲ Accuracy  1) ± 0.5 % of full-scale Residual ripple 0.5 % Response time 200 μs 10 ms Transmission frequency 2 kHz 80 Hz 2 Hz (up to -3 dB) Reaction to input circuit interruption High fail safe: Output voltage 115 % of measuring range  2)  Low fail safe:  Output voltage -0.6 V, output current = 0 mA Supply circuits K-M   DC versions  AC versions Supply voltage 24 V DC 110-240 V AC - 50/60 Hz Supply voltage tolerance -15...+15 % -15...+10 % Power consumption  1.5 W typ.  1.5 VA typ. Indication of operational states Rated control supply voltage U S U: green LED General data Ambient temperature range  operation / storage 0...+60 °C / -20...+80 °C Temperature coefficient ± 500 ppm/°C Degree of protection (DIN 40050) IP20 Mounting position ventilation slots on top and bottom Mounting DIN rail (IEC/EN 60715), snap-on mounting Electrical connection Wire size rigid 0.2-4 mm 2  (24-12 AWG) fine-strand with(out) wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) Stripping length 7 mm (0.28 inch) Tightening torque 0.5 Nm (4.4 lb.in) Electromagnetic compatibility Interference immunity EN 61000-6-2 electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance)  IEC/EN 61000-4-3 10 V/m fast transients (Burst)  IEC/EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge)  IEC/EN 61000-4-5 ±2 kV / ±1 kV HF line emission  IEC/EN 61000-4-6 10 V Interference emission  EN 61000-6-4 Class B Isolation data Test voltage between all isolated circuits 2.5 kV AC Rated insulation voltage - - - 1)  Includes non-linearity and factory setting, influenced by supply voltage and output load. 2)  Only -/RTD and -/TC: Single-function devices respond with Low fail safe to input signal interruptions. 3)  When connecting a 2-wire sensor, the terminals J and H have to be jumpered. Approvals on page 4/4. 2CDC110004C0209.pdf   315 11/26/2013   4:51:53 PM

4/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Type CC-E I/I-1 / CC-E I/I-2 Input circuits - Analog inputs Current Input current I IN 0-20 mA, 4-20 mA Min. input current 100 μA Max. input current 50 mA 1)  (V IN   18 V) Input voltage U IN 2.5 V + (I IN  x R L ) Input voltage drop U i 2.5 V (20 mA, R L  = 0  ⏲) Max. input voltage  18 V 1)  (I IN   50 mA) Output circuits Output current I OUT 0-20 mA, 4-20 mA Output load R L 0-500  ⏲ Output voltage U OUT I OUT  x R L Residual ripple 20 mV pp  (500  ⏲, 20 mA) Response time (0-100 %) 15 ms (0-500  ⏲, 20 mA),  5 ms (500  ⏲, 20 mA, 25 °C) Accuracy ͨ 0.1 % of full-scale (20 mA) Load influence (0-500  ⏲) ͨ Ȁ0.05 % / 100 ⏲, ͨ -0.1 % / 100 ⏲ (25 °C) General data Width of the enclosure 18 mm Weight 1 channel approx. 0.037 kg (0.082 (0.181) lb) 2 channel approx. 0.044 (0.097) kg (0.097 lb) Mounting position any Degree of protection  enclosure / terminals IP20 / IP20 Ambient temperature range operation / storage -25...+60 °C / -40...+85 °C Temperature coefficient   Ȁ50 ppm / °C Mounting DIN rail (IEC/EN 60715) Electrical connection Wire size rigid 0.2-4 mm 2  (24-12 AWG) fine-strand with(out) wire end ferrule 0.2-2.5 mm 2  (24-14 AWG) Stripping length 7 mm (0,28 inch) Tightening torque 0.5 Nm (4.4 lb.in) Standards Product standard EN 50178 Low Voltage Directive 2006/95/EC EMC Directive 2004/108/EC Electromagnetic compatibility  Interference immunity EN 61000-6-2 electrostatic discharge (ESD) EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance) EN 61000-4-3 10 V/m fast transients (Burst)  EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge)  EN 61000-4-5 ±2 kV / ±1 kV HF line emission  EN 61000-4-6 10 V magnetic fields EN 61000-4-8 30 A/m Interference emission EN 61000-6-4 Radiated noise EN 55011 Class B Operational reliability (EN 68-2-6) 4 g Mechanical resistance (EN 68-2-6) 10 g Environmental testing (IEC 68-2-30 Db) 24 h cycle, 55 °C, 93 % rel., 96 h Isolation data Insulation voltage input / output 500 V eff  / 50 Hz Insulation voltage between channels 5 kV eff  / 50 Hz (device with 2 channels) Pollution category 2 Overvoltage category II 1)  The input parameters have to be limited to the indicated maximum values. Approvals on page 4/4. Analog signal converters - CC-E range Technical data 2CDC110004C0209.pdf   316 11/26/2013   4:51:53 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/16  4 Analog signal converters - CC-E range Technical data Type CC-E/I CC-E I AC /ILPO   Input circuits - Analog inputs J-G-H C-D AC current DC current 2 meas. ranges selectable Rated input range 0-5 A / 0-20 A 0-5 A / 0-20 A 0-1 A / 0-5 A / sinusoidal Measuring frequency 50/60 Hz Overload capacity of inputs input range 1 10 x I Nom  (50 A) for max. 1 s 10 x I Nom  (50 A) for max. 2 s input range 2 10 x I Nom  (200 A) for max. 1 s 10 x I Nom  (200 A) for max. 2 s Gain adjustment range  ±5 % (universal devices) - Offset adjustment range ±5 % (universal devices) - Input impedance / resistance 5A : 65 m ⏲ 20 A : 2.5 m ⏲ 5 m ⏲ Output circuits - Analog outputs D-F  Current  A-C   Voltage F-E  passive current output in proportion   to input current Output signal 0-20 mA /  4-20 mA 0-10 V 4-20 mA Output burden / load ͨ 500 ⏲ ͧ 1.0 ⏲ 12 V DC: 150  ⏲,   24 V DC: 750  ⏲ 30 V DC: 1050  ⏲ Accuracy  1) ± 2 % of full-scale Offset adjustment range ±5 % (universal device) ± 5 % Gain adjustment range ±5 % (universal device) ± 20 % Residual ripple 0.5 % Response time 0.5 s 0.6 s Transmission frequency DC or 50/60 Hz AC: 50/60 Hz Reaction to input circuit interruption Low fail safe: output voltage 200 mA, output current 400 μA - Supply circuits K-M DC versions AC versions Supply voltage 24 V DC 110-240 V AC 50/60 Hz 12-30 V DC Supply voltage tolerance -15...+15 % -15...+10 % - Power consumption typ 1.5 W typ 1.5 VA - Indication of operational states Supply voltage U: green LED - General data Ambient temperature range  operation / storage 0...+60 °C / -20...+80 °C -20...+60 °C / -40...+80 °C Temperature coefficient ± 500 ppm/°C 300 ppm/°C Degree of protection (DIN 40050) IP20 Mounting position ventilation slots on top and bottom Mounting DIN rail (IEC/EN 60715), snap-on mounting Electrical connection Wire size rigid 0.2-4 mm² (24-12 AWG) fine-strand with(out) wire end ferrule 0.2-2.5 mm² (24-14 AWG) Stripping length 7 mm (0.28 inch) Tightening torque 0.5 Nm (4.4 lb.in) Electromagnetic compatibility Interference immunity EN 61000-6-2 electrostatic discharge (ESD)  IEC/EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst)  IEC/EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge)  IEC/EN 61000-4-5 ±2 kV / ±1 kV HF line emission  IEC/EN 61000-4-6 10 V Interference emission  EN 61000-6-4 Class B Isolation data Test voltage (between all isolated circuits) 2.5 kV AC Rated insulation voltage - 250 V AC 1)  Includes non-linearity and factory setting, influenced by supply voltage and output load. Approvals on page 4/4. 2CDC110004C0209.pdf   317 11/26/2013   4:51:53 PM

4/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range Product group picture 2CDC110004C0209.pdf   318 11/26/2013   4:51:53 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/18  4 Analog signal converters - CC-U range Table of contents Analog signal converters - CC-U range Product group picture   4/17 Table of contents   4/18 Overview   4/19 Ordering details   4/21 Ordering details - Accessories   4/22 DIP switch settings   4/23 Wiring instructions   4/25 Technical information   4/26 Technical data   4/29 Technical diagr., Connection diagr., Dimensional drawings   4/32 2CDC110004C0209.pdf   319 11/26/2013   4:51:55 PM

4/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range Overview CC-U range   ½   8 different standard signal outputs on one device    ½   Input and output side universally configurable    ½   Also available with 2 threshold relay outputs    ½   Adjustment and operating elements on the front side   ½   Safe operation by electrical 3-way isolation   ½   Plug-in connecting terminals, unambiguously and clearly  marked Conversion, measurement and separation of   ½  Standard signals   ½   Signals of RTD sensors (PT10, PT100, PT1000)   ½  Thermocouple signals   ½   TRMS values of currents and voltages Characteristics   ½   The required input and output ranges can be configured for all   devices by means of directly accessible DIP switches positioned on the side.   ½   Due to the wide input range of the gain and offset stages all input sig- nals between the minimum and the maximum input value can be universally converted to all common output signals.   ½   Devices for DC or AC (50/60 Hz) supply available. 4 1 1 2 2 3 5 1  Terminals +, V/I+, V/I-, PW DC, IN, - 2  Terminal explanation 3  Adjustment of resistance value R1 4  Adjustment of hysteresis 4  Adjustment of resistance value R2  Adjustment of hysteresis 7  Indication of operational states     R1 yellow LED - resistance value R1     R2 yellow LED - resistance value R2     U green LED - supply voltage  8  Marker label 7 8 2CDC110004C0209.pdf   320 11/26/2013   4:51:55 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/20  4 Analog signal converters  - CC-U range Overview CC-U/STD universal signal converter with 3-way electrical isolation   ½   More than 120 configurations possible   ½   Configurable output signal response on input voltage signal interruption  (low fail safe / high fail safe)   ½   Adjustment and operating elements on the front   ½   Short-circuit proof signal outputs   ½   Plug-i connecting terminals for inputs, outputs and supply   ½   Very fast signal transmission enables use in control systems CC-U/STDR universal signal converter for standard signals, with 2 threshold relay outputs and with 3-way electrical isolation    ½   Standard signal converter with 7 setting ranges   ½   2 threshold relay outputs with one c/o contact each (threshold and res- pective hysteresis can be  adjusted independently from each other)   ½   Open-circuit or closed-circuit principle configurable by means of a DIP  switch   ½   2 yellow LEDs for clear status indication of the output relays   ½   Plug-in connecting terminals for inputs, outputs and supply CC-U/RTD universal signal converter for PT10, PT100, PT1000  tem-perature sensors (acc. to IEC 751 and JIS C 16041), linearized with 3-way electrical isolation)   ½   Configurable output signal response on input signal interruption (low /  high fail safe)   ½   Adjustment and operating elements on the front-side   ½   Short-circuit proof signal outputs   ½   Plug-in connecting terminals for inputs, outputs and supply   ½   2- or 3-wire connection CC-U/RTDR universal signal converter for temperature and resistance signals, with 2 threshold relay outputs and 3-way electrical isolation   ½   Temperature signal converter for PT100 signals (5 ranges up to 800 °C)  and variable resistances from 0-380  ⏲   ½   2 threshold relay outputs with one c/o contact each (threshold and res- pective hysteresis can be adjusted independently from each other)   ½   Open-circuit or closed-circuit principle configurable by means of a DIP  switch   ½   2 yellow LEDs for clear status indication of the output relays   ½   Plug-in connecting terminals for inputs, outputs and supply   ½   2- or 3-wire connection CC-U/TC universal signal converter for thermocouples with 3-way electrical isolation   ½   Temperature signal converter for thermo-couples of the types K, J, T,  S, E, N, R, B    ½   Continuously adjustable voltage signal input 0-10 mV and 0-50 mV   ½   Differential temperature meas. possible (see wiring instructions page   4/17)   ½   Configurable output signal response on input signal interruption (low fail  safe / high fail safe)   ½   Adjustment and operating elements on the front-side   ½   Short-circuit proof signal outputs   ½   Plug-in connecting terminals for inputs, outputs and supply   ½   Cold-junction compensation selectable CC-U/TCR universal signal converter for thermocouples, with 2 threshold relay outputs and 3-way electrical isolation   ½   Temperature signal converter for thermocouples of the types K, J, T, S   ½   2 threshold relay outputs with one change-over contact each (threshold   and respective hysteresis can be adjusted independently from each other)   ½   Open-circuit or closed-circuit principle configurable by means of a DIP  switch   ½   2 yellow LEDs for clear status indication of the output relays   ½   Plug-in connecting terminals for inputs, outputs and supply   ½   Integrated cold-junction compensation CC-U/I universal measuring converter for RMS values of 0-1 A and 0-5 A, with 3-way electrical isolation   ½   RMS converter for current signals up to 1 A and up to 5 A of any wave   form (DC, DC with superimposed AC components, pure sinusoidal, tri-angular, phase-angle controlled, etc. in a measuring range of 0-600 Hz)   ½   Adjustment and operating elements on the front   ½   Short-circuit proof signal outputs    ½   Plug-in connecting terminals for inputs, outputs and supply CC-U/V universal measuring converter for RMS values of 0-600 V, with 3-way electrical isolation   ½   RMS converter for voltage signals up to 600 V of any wave form (DC,  DC with superimposed AC components, pure sinusoidal, triangular, phase-angle controlled, etc. in a measuring range of 0-600 Hz)   ½   Adjustment and operating elements on the front   ½   Short-circuit proof signal outputs   ½   Plug-in connecting terminals for inputs, outputs and supply 1)  Japanese standard 2CDC110004C0209.pdf   321 11/26/2013   4:51:55 PM

4/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range Ordering details 1)   with relay output 2)   for current RMS values 3)  for voltage RMS values Ordering details - RTD Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24-48 V DC,  24 V AC refer to table refer to table 2 c/o CC-U/RTD 1SVR040002R0500 0.126 (0.278) 110-240 V AC, 100-300 V DC 1SVR040003R0600 0.128 (0.282) 24-48 V DC,  24 V AC CC-U/RTDR 1) 1SVR040012R2600 0.146 (0.322) 110-240 V AC, 100-300 V DC 1SVR040013R2700 0.148 (0.326) Ordering details - Standard Signal Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24-48 V DC,  24 V AC refer to table refer to table 2 c/o CC-U/STD 1SVR040000R1700 0.125 (0.276) 110-240 V AC, 100-300 V DC 1SVR040001R0400 0.126 (0.278) 24-48 V DC,  24 V AC CC-U/STDR 1) 1SVR040010R0000 0.142 (0.313) 110-240 V AC, 100-300 V DC 1SVR040011R2500 2CDC 281 003 F0003 2CDC 281 005 F0003 2CDC 281 008 F0003 2CDC 281 012 F0003 CC-U/STDR CC-U/RTD CC-U/TC CC-U/I Ordering details - Thermocouple Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24-48 V DC,  24 V AC refer to table refer to table2 c/o CC-U/TC 1SVR040004R0700 0.130 (0.287) 110-240 V AC, 100-300 V DC 1SVR040005R0000 0.128 (0.282) 24-48 V DC,  24 V AC CC-U/TCR 1) 1SVR040014R2000 0.145 (0.320) 110-240 V AC, 100-300 V DC 1SVR040015R2100 Ordering details - Measuring Converters Supply voltage range Input signal Output signal Type  Order code Price 1 pce Weight(1 pce)kg (lb) 24-48 V DC,  24 V AC refer to table refer to table CC-U/I 2) 1SVR040006R0100 0.128 (0.282) 110-240 V AC, 100-300 V DC 1SVR040007R0200 0.127 (0.280) 24-48 V DC,  24 V AC CC-U/V 3) 1SVR040008R1300 0.128 (0.282) 110-240 V AC, 100-300 V DC 1SVR040009R1400 2CDC110004C0209.pdf   322 11/26/2013   4:51:55 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/22  4 Ordering details - Accessories For type Width in mm Type Order  code Price Pkg  qty Weight(1 pce)g (oz) CC-U 22.5 ADP.01 1SVR430029R0100 1 18.4(0.65) CC-U MAR.01 1SVR366017R0100 10 0.19(0.007) CC-U 22.5 COV.01 1SVR430005R0100 1 5.2 (0.18) Analog signal converters - CC-U range Ordering details - Accessories 2CDC 252 187 F0005 4,5 62,5 60 10 11,5 22,5 .177” 2.46” 2.36” .394” .886” .453” 2CDC 252 185 F0005 22,5 68,5 7 3,5 .886” 2.70 ” .138” .275” front-to-back size 107 ADP.01 20 3A11 8 .315” .787” 252 186 F0005 MAR.01 Sealable cover - COV.01 2CDC110004C0209.pdf   323 11/26/2013   4:51:56 PM

4/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range DIP switch settings )  Detection of input voltage signal interruptions:   If the input signal circuit is interrupted, the output  signal changes to the adjusted minimum value (low fail safe) or maximum value (high fail safe).  If "No fail safe" is configured, input signal interruptions are not detected. 4 3 2 1 5 8 7 6 0...8 V 0...20 mA4...20 mA 10...50 mA 20...4 mA20...0 mA 0...50 mV 0...100 mV0...250 mV0...500 mV 0...1 V 0...5 V -10...+10 V 0...125 mV 1...5 V 0...10 V 2... 10 V -11...+11 V 10...0 V 100...0 mV 0...1 mA -55...+55 mA 3...4 2...44...50...14...54...2 A...D4...50...17...93...4 5...7 0 3...4 7...9 2 2...4 0 2 4...5 A...D 4...6 3 34143 C 5183 6 03 8 2 3 0 25 B 5 64 0 0 D D 0 0 B...F 5...73...4 --- --- B...F 2CDC 282 019 F0203 Switch 1 Input 2.5...7.5 V 3.33...9.99 V High fail safe ) Gain Coarse Type Potentiometer 0...2.5 V -22.5...+22.5 mV -0.45...+0.45 mA Low faile safe ) No fail safe ) 1 2 4 3 5 6 -10...-2 V -5...-1 V -8...0 V-4...0 V 0...1 mA 0...20 mA4...20 mA0...10 mA 0...800 μA 0...8 mA 0...400 μA 125...625 μA 166...833 μA 2...10 mA 100...500 μA 0...666 μA0...16 mA 0...5 V 0...10 V 1...5 V 2...10 V -10...+10 V -5...+5 V-10...0 V -5...0 V 0...8 V0...4 V 2CDC 282 020 F0203 Switch 2 Output 1.25...6.25 V 0...6.66 V -10...+3.33 V -5...+1.66 V -7.5...+2.5 V -3.75...+1.25 V 1.66...8.33 V -6.66...+6.66 V-3.33...+3.33 V 0...0.5 mA 0...13.33 mA 2.5...12.5 mA 3.33...16.66 mA 0.2...1 mA 2CDC 282 003 F0204 OFF Legend no influence ON CC-U/STD CC-U/STDR with relay output 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 0...0 V0...5 V0...1 V -10...+10 V 1...5 V 0...20 mA4...20 mA 2CDC 282 005 F0204 Switch Input Output Closed-circuit principleOpen-circuit principle )  Detection of input signal interruptions:   If the input signal circuit is interrupted,  the output signal changes to the ad-justed minimum value (low fail safe) or maximum value (high fail safe).  CC-U/RTD 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 1 2 4 3 5 6 PT10 PT100 PT1000 0...500 °C0...550 °C0...600 °C0...650 °C0...700 °C0...750 °C0...800 °C0...850 °C 0...50 °C0...60 °C0...70 °C0...80 °C0...90 °C 0...100 °C0...200 °C 0...400 °C 0...300 °C 0...500 °C 0...10 °C0...20 °C0...30 °C0...40 °C0...50 °C0...60 °C FE DCBA 98FE BA 983 1 2 0832100 - - 2CDC 282 023 F0203 Type Range Switch 1 Switch 2 Input Low fail safe ) High fail safe ) Gain Coarse 1 2 4 3 5 6 -10...-2 V -5...-1 V -8...0 V-4...0 V 0...1 mA 0...20 mA4...20 mA0...10 mA 0...800 μA 0...8 mA 0...400 μA 125...625 μA 166...833 μA 2...10 mA 100...500 μA 0...666 μA0...16 mA 0...5 V 0...10 V 1...5 V 2...10 V -10...+10 V -5...+5 V-10...0 V -5...0 V 0...8 V0...4 V 2CDC 282 024 F0203 Switch 3 Output 1.25...6.25 V 0...6.66 V -10...+3.33 V -5...+1.66 V -7.5...+2.5 V -3.75...+1.25 V 1.66...8.33 V -6.66...+6.66 V-3.33...+3.33 V 0...0.5 mA 0...13.33 mA 2.5...12.5 mA 3.33...16.66 mA 0.2...1 mA CC-U/RTDR with relay output 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 0...100 °C0...200 °C0...400 °C0...600 °C0...800 °C 2CDC 282 007 F0204 Switch Input PT100 Output Closed-circuit principleOpen-circuit principle 2CDC110004C0209.pdf   324 11/26/2013   4:51:56 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/24  4 Analog signal converters - CC-U range DIP switch settings CC-U/I 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 -10...-2 V -5...-1 V -8...0 V-4...0 V 0...1 mA 0...20 mA4...20 mA0...10 mA 0...800 μA 0...8 mA 0...400 μA 125...625 μA 166...833 μA 2...10 mA 100...500 μA 0...666 μA0...16 mA 0...5 V 0...10 V 1...5 V 2...10 V -10...+10 V -5...+5 V-10...0 V -5...0 V 0...8 V0...4 V 2CDC 282 029 F0203 Switch Output 1.25...6.25 V 0...6.66 V -10...+3.33 V -5...+1.66 V -7.5...+2.5 V -3.75...+1.25 V 1.66...8.33 V -6.66...+6.66 V-3.33...+3.33 V 0...0.5 mA 0...13.33 mA 2.5...12.5 mA 3.33...16.66 mA 0.2...1 mA CC-U/V 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 -10...-2 V -5...-1 V -8...0 V-4...0 V 0...1 mA 0...20 mA4...20 mA0...10 mA 0...800 μA 0...8 mA 0...400 μA 125...625 μA 166...833 μA 2...10 mA 100...500 μA 0...666 μA0...16 mA 0...5 V 0...10 V 1...5 V 2...10 V -10...+10 V -5...+5 V-10...0 V -5...0 V 0...8 V0...4 V 2CDC 282 029 F0203 Switch Output 1.25...6.25 V 0...6.66 V -10...+3.33 V -5...+1.66 V -7.5...+2.5 V -3.75...+1.25 V 1.66...8.33 V -6.66...+6.66 V-3.33...+3.33 V 0...0.5 mA 0...13.33 mA 2.5...12.5 mA 3.33...16.66 mA 0.2...1 mA )  Detection of input signal   interruptions:   If the input signal circuit is inter- rupted, the output signal changes to the adjusted minimum value  (low fail safe) or maximum value (high fail safe).  CC-U/TC 1 2 4 3 5 6 -10...-2 V -5...-1 V -8...0 V-4...0 V 0...1 mA 0...20 mA4...20 mA0...10 mA 0...800 μA 0...8 mA 0...400 μA 125...625 μA 166...833 μA 2...10 mA 100...500 μA 0...666 μA0...16 mA 0...5 V 0...10 V 1...5 V 2...10 V -10...+10 V -5...+5 V-10...0 V -5...0 V 0...8 V0...4 V 2CDC 282 017 F0208 Switch 3 Output 1.25...6.25 V 0...6.66 V -10...+3.33 V -5...+1.66 V -7.5...+2.5 V -3.75...+1.25 V 1.66...8.33 V -6.66...+6.66 V-3.33...+3.33 V 0...0.5 mA 0...13.33 mA 2.5...12.5 mA 3.33...16.66 mA 0.2...1 mA 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 1 2 4 3 5 6 R B mV N K J T S E 0-100...900 °C 0-250...1350 °C 0-100...750 °C0-100...400 °C -150-0...400 °C 0-250...1550 °C 0-100...700 °C 0-200...1000 °C 0-100...650 °C 0-200...1300 °C0-250...1350 °C0-450...1700 °C0-700...1750 °C 0-2...10 mV 0-10...50 mV 2CDC 282 010 F0204 Type Range Switch 1 Switch 2 Input Low fail safe ) High fail safe ) CC-U/TCR with relay output 2CDC 282 003 F0204 OFF Legend no influence ON 1 2 4 3 5 6 S J K T 0...240 °C0...480 °C 0...1200 °C 0...250 °C0...500 °C 0...1350 °C -150...+120 °C 0...220 °C0...400 °C0...210 °C0...380 °C0...860 °C 0...1550 °C 2CDC 282 004 F0204 Type Range Switch Input Output Closed-circuit principleOpen-circuit principle 2CDC110004C0209.pdf   325 11/26/2013   4:51:56 PM

4/25   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Pot. G H J 2CDC 282 015 F0206 Burden R  ͧ 4.7 k⏲ Burden R  ͨ 600 ⏲ supply + 2.5 V CC-U/STD Analog signal converters - CC-U range Wiring instructions 2CDC 282 016 F0206 Value R1 Value R2 Threshold Hysteresis supply CC-U/STDR with relay output J H G 2CDC 282 017 F0206 Burden R  ͧ 4.7 k⏲ Burden R  ͨ 600 ⏲ supply CC-U/RTD υ G J H K M B (22)C (21)A (24) E (12)F (11)D (14) R1 R2 2CDC 282 045 F0203 Value R1 Value R2 Threshold Hysteresis supply CC-U/RTDR with relay output 2CDC 282 022 F0206 Burden R  ͧ 4.7 k⏲ Burden R  ͨ 600 ⏲ supply CC-U/V 2CDC 282 021 F0206 Burden R  ͧ 4.7 k⏲ Burden R  ͨ 600 ⏲ supply CC-U/I 2CDC 282 019 F0206 without cold-junction compensation: switch SW2.2 = OFF 2CDC 282 018 F0206 Burden R  ͧ 4.7 k⏲ Burden R  ͨ 600 ⏲ supply CC-U/TC 2CDC 282 020 F0206 Value R1 Value R2 Threshold Hysteresis supply CC-U/TCR with relay output 2CDC110004C0209.pdf   326 11/26/2013   4:51:56 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/26  4 Adjustment range OUT [%] IN [%] SW1.4 = +100 % SW1.5 = +50 % 100 90 80 70 60 50 40 30 20 10 10   20  30  40   50  60   70  80  90  100 ᕃ 2CDC 282 018 F0203 Offset remote poti SW1.6 = +22.5 % Gain “gain-coarse” and “gain-fine” CC-U/STD Analog signal converters - CC-U range Technical information Function diagrams Switching points of the output relay depending on the input range, configuration open-circuit principle OUT 11-1411-12 21-2421-22 R1 R2 IN [%] 100 90 80 70 60 50 40 30 20 10 0 2CDC 282 021 F0203 Hysteresis R1 5-50 % of threshold value R1 Threshold value R1 2-100 % of input range Threshold value R2 2-100 % of input range        Hysteresis R2 5-50 % of threshold value R2 Actual value Switching points 21-2421-22 11-1411-12 R2 R1 2CDC 282 044 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Closed-circuit principle 21-2421-22 11-1411-12 R2 R1 2CDC 282 046 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Open-circuit principle CC-U/STDR with relay output 2CDC110004C0209.pdf   327 11/26/2013   4:51:56 PM

4/27   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Resistance of PT10, PT100 and PT1000 sensors depending on the temperature PT1000 PT100 PT10 2CDC 282 022 F0203 Resistance [ ⏲ ] Temperature [°C] Characteristic curves Analog signal converters - CC-U range Technical information CC-U/RTD Switching points of the output relay depending on the input range,  configuration open-circuit principle OUT 11-1411-12 21-2421-22 R1 R2 100 90 80 70 60 50 40 30 20 10 0 IN [%] 800 700 600 500 400 300 200 100 50     100      150     200     250     300     350      400 2CDC 282 025 F0203 Resistance [ ⏲] T e mperatur e  υ  [°C] Hysteresis R1 5-50 % of threshold value R1 Threshold value R1 2-100 % of input range Threshold value R2 2-100 % of input range        Hysteresis R2 5-50 % of threshold value R2 Actual value Switching points Function diagrams 21-2421-22 11-1411-12 R2 R1 2CDC 282 044 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Closed-circuit principle 21-2421-22 11-1411-12 R2 R1 2CDC 282 046 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Open-circuit principle CC-U/RTDR with relay output 0...100 V0...150 V0...250 V0...300 V0...400 V 0...600 V 0...450 V 0...550 V 12345 8 67 2CDC 282 012 F0204 Switch position Selecting input range by front-face rotary switch U(t) [V] IN Ueff  [V] OUT [%] 0            50          100 300 0 -300 2CDC 282 030 F0203 Offset  Ȁ20 % Gain  Ȁ15 % resulting RMS value operating angle Example of application CC-U/V Input range selection RMS measurement and conversion of a phase-angle controlled voltage signal L1 = 230 V 2CDC110004C0209.pdf   328 11/26/2013   4:51:57 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/28  4 Analog signal converters - CC-U range Technical information J H G J H G 5 A 1 A C 5 A 1 A C 2CDC 282 033 F0203 Select input range by terminals Input range 1 A Connected linesUsed terminalsTerminal marking Input range 5 A Connected linesUsed terminalsTerminal marking Input range selection RMS measurement and conversion of a current signal I(t) [A] IN [%] OUT [%] 0                        50                     100 t 5 4 3 2 1 0 -1 -2 -3 -4 -5 2CDC 282 028 F0203 Offset  Ȁ20 % Gain  Ȁ15 % resulting RMS value Example of application CC-U/I Thermocouple voltages depending on the temperature Typ T Typ N Typ K Typ J Typ E Typ R Typ S Typ B -250 -200 -150 -100 -50 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 80000 75000 70000 65000 60000 55000 50000 45000 40000 35000 30000 25000 20000 15000 10000 5000 0 -5000 -10000 -15000 2CDC 282 026 F0103 Temperatur [°C] Thermoelement-Spannung [μV] Characteristic curve CC-U/TC CC-U/TCR with relay output Function diagrams 21-2421-22 11-1411-12 R2 R1 2CDC 282 044 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Closed-circuit principle 21-2421-22 11-1411-12 R2 R1 2CDC 282 046 F0203 R1 Threshold value  R1 Hysteresis R2 Hysteresis R2 Threshold value Temperature Open-circuit principle Switching points of the output relay depending on the input range, configuration open-circuit principle Typ T Typ J Typ K Typ S IN [%] 100 0 OUT 11-1411-12 21-2421-22 R1 R2 7000 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 -500 -1000 -1500 -275 -175 -75 25 125 225 325 425 525 625 725 825 925 1025 1125 1225 1325 1425 1525 1625 1725 1825 2CDC 282 027 F0203 Temperature [°C] Thermocouple voltage [μV] Threshold value  R2 = 400 °C Release hysteresis Threshold value  R1 = 1000 °C Release hysteresis Switching points 2CDC110004C0209.pdf   329 11/26/2013   4:51:57 PM

4/29   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range Technical data Type CC-U/STD CC-U/RTD  3) CC-U/TC Input circuits - Analog inputs J-G-H Current Voltage Potentio- meter Temperature sensors Thermocouples   (IEC 584-1 and 2) Input signal 0-20 mA4-20 mA10-50 mA0-1 mA 0-100 mV0-1 V0-5 V1-5 V0-10 V2-10 V± 10 V 470  ⏲ - 1 M ⏲  2) PT10, PT100, PT1000(IEL 751 and JICC 1604) TC.KTC.TTC.ETC.R TC.JTC.STC.NTC.B Limitation of input signals ± 55 mA ± 11 V - - Rated input range - - - Max. temperature adjustable: 6-60 °C for PT1000 50-500 °C for PT100 500-850 °C for PT10 refer to temperature specs. of individual thermocouples Influence of line resistance - - - 0.015  °C/ ⏲ 0.01 % / 100  ⏲ Gain adjustment range (universal devices) 0.9-110 mA 45 mV -22 V - see DIP switch settings Offset adjustment range (universal devices) -137.5...+62.5 % ± 5 % ± 10 %  Input impedance for different ranges - - without detection of input signal interruption 51  ⏲ 6 M ⏲ 3 G ⏲ - - with detection of input signal interruption 51  ⏲ 3.5 M ⏲ 9.5 G ⏲ - - Suppression at 50 Hz - - - -   40  dB Common-mode rejection - - - 120  dB 105  dB Output circuits - Analog outputs D-F, A-C   Current  Voltage Output signal 0-20 mA, 4-20 mA  0-5 V, 1-5 V, 0-10 V, 2-10 V, ± 10 V Output burden ͨ 600 ⏲ ͧ 4.7 K⏲ Accuracy  1) ±0.1 % of full-scale ±0.2 % of full-scale ±0.1 % of full-scale Residual ripple -   0.15  % - Response time 200 μs 10 ms 200 ms Transmission frequency 1 kHz 80 Hz 2 Hz (to -3 dB) Supply circuits K-M                   DC versions AC versions Rated supply voltage 24-48 V DC  110-240 V AC Supply voltage range 24-48 V DC / 24 V AC  110-240 V AC / 100-300 V DC Supply voltage tolerance DC: -15...+15 %  AC: -15...+10 % Rated frequency 0 Hz or 50/60 Hz Power consumption 2 W at 24 V DC  4.5 VA at 230 V AC Indication of operational states Supply voltage U: green LED General data Ambient temperature range  operation / storage -20...+60 °C / -40...+80 °C Temperature coefficient ±150 ppm/°C ±250 ppm/°C ±200 ppm/°C at min. offset±400 ppm/°C at max. offset Mounting position any Mounting DIN rail (IEC/EN 60715), snap-on mounting / screw mounting with adapter Electrical connection Wire size rigid plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) fine-strand with(out) wire end ferrule plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) Stripping length 7 mm (0.28 inch) Tightening torque 0.4 Nm (3.5 ib.in) Electromagnetic compatibility Interference immunity EN 61000-6-2 electrostatic discharge (ESD)  IEC/EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst)  IEC/EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge)  IEC/EN 61000-4-5 Ȁ2 kV / Ȁ1 kV HF line emission  IEC/EN 61000-4-6 10 V Interference emission  EN 61000-6-4 Class B Isolation data Isolation test (between all isolated circuits) 1.5 kV Test voltage (between all isolated circuits) 1.5 kV / 50 Hz 1)  Includes non-linearity and factory setting, influenced by supply voltage and output load. 2)  Detection of an input signal break (fail safe) and resistance 10 k ⏲ results in a linearity of Ȁ0,2 %. 3)  When connecting a 2-wire sensor, the terminals J and H have to be jumpered. Approvals on page 4/4. 2CDC110004C0209.pdf   330 11/26/2013   4:51:57 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/30  4 Analog signal converters - CC-U range Technical data Type CC-U/STDR CC-U/RTDR  1) CC-U/TCR Input circuits - Analog inputs J-H Current Voltage Temperature sensors Thermocouples  (IEC 584-1 and 2) Measuring signal / input range 0-20 mA4-20 mA 0-1 V / 1-5 V0-10 / ±10 V PT100 TC.K, TC.JTC.T, TC.S Input resistance approx. 50  ⏲ approx. 1,5 M ⏲ Adjustable threshold 2-100 % of selected input range Adjustable hysteresis 5-50 % of threshold Repeat accuracy (constant parameters) ±0.5 % of full-scale Output circuits - Relay outputs  E-D-F, B-C-A Relay,  2 c/o contacts Rated switching voltage 250 V AC Rated switching  current AC12 (resistive)  230 V 4 A AC15 (inductive)  230 V 3 A DC12 (resistive)  24 V 4 A DC13 (inductive)  24 V 2 A AC rating (UL 508) Utilization category (Control Circuit Rating Code) B 300 max. rated operational voltage 300 V AC max. continuous thermal current at B 300 5 A max. making/breaking apparent power at B 300 3600/360 VA Minimum switching voltage  12 V Minimum switching current / power 10 mA / 0.6 VA (W) Response time 10 ms Mechanical lifetime 30 x 10 6  switching cycles  Electrical lifetime at AC12, 230 V, 4 A 0.1 Mio. switching cycles Supply circuits K-M                   DC versions        AC versions Rated supply voltage 24-48 V DC 110-240 V AC Supply voltage range 24-48 V DC / 24 V AC 110-240 V AC / 100-300 V DC Supply voltage tolerance DC: -15...+15 % AC: -15...+10 % Rated frequency 0 Hz or 50/60 Hz Power consumption 2 W at 24 V DC 4.5 VA at 230 V AC Indication of operational states Supply voltage U: green LED 1st / 2nd output relay energized  R1: yellow LED / R2: yellow LED General data Ambient temperature range  operation / storage -20...+60 °C / -40...+80 °C Temperature coefficient ±300 ppm/°C Mounting position any Mounting DIN rail (IEC/EN 60715), snap-on mounting / screw mounting with adapter Electrical connection Wire size rigid plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) fine-strand with(out) wire end ferrule plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) Stripping length 7 mm (0.28 inch) Tightening torque 0.4 Nm (3.5 ib.in) Electromagnetic compatibility Interference immunity EN 61000-6-2 electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst) IEC/EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge) IEC/EN 61000-4-5 ±2 kV / ±1 kV HF line emission IEC/EN 61000-4-6 10 V Interference emission EN 61000-6-4 Class B Isolation data Insulation voltage (between all isolated circuits) 2.5 kV Test voltage (between all isolated circuits) 2.5 kV 1)  When connecting a 2-wire sensor, the terminals J and H have to be jumpered. Approvals on page 4/4. 2CDC110004C0209.pdf   331 11/26/2013   4:51:57 PM

4/31   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Analog signal converters - CC-U range Technical data Type CC-U/I CC-U/V Input circuits - Analog inputs  J-G-H any current signals,  RMS measurement any voltage signals,   RMS measurement Rated input range 0-1 A0-5 A 0-100 V, 0-200 V0-300 V, 0-400 V0-500 V, 0-600 V Measuring frequency 0-600 Hz Overload capacity of inputs input range 1 10 x I Nom  (10 A) for max. 2 s - input range 2 10 x I Nom  (50 A) for max. 2 s - Gain adjustment range ±15 % Offset adjustment range ±20 % Input impedance / resistance 1A: 60 m ⏲,  5 A: 12 m ⏲ 800 k ⏲ Output circuits - Analog outputs D-F, A-C Current Voltage Output signal 0-20 mA, 4-20 mA 0-5 V, 1-5 V, 0-10 V, 2-10 V, ± 10 V Output load ͨ 600 ⏲ ͧ 4.7 K⏲ Accuracy 1) ±0.5 % of full-scale Temperature coefficient ±250 ppm/°C max. ±300 ppm/°C max. Residual ripple 0.15 % Response time 150 ms Supply circuits K-M DC versions AC versions Rated supply voltage 24-48 V DC 110-240 V AC Supply voltage range 24-48 V DC, 24 V AC 110-240 V AC, 100-300 V DC Supply voltage tolerance DC: -15...+15 % AC: -15...+10 % Rated frequency 0 Hz or 50/60 Hz Power consumption 2 W at 24 V DC 4.5 VA at 230 V AC Indication of operational states Supply voltage U: green LED General data Ambient temperature range  operation / storage -20...+60 °C / -40...+80 °C Mounting position any Mounting DIN rail (IEC/EN 60715), snap-on mounting / screw mounting with adapter Electrical connection Wire size rigid plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) fine-strand with(out) wire end ferrule plug-connector with screw terminals 0.2-2.5 mm 2  (24-12 AWG) Stripping length 7 mm (0.28 inch) Tightening torque 0.4 Nm (3.5 lb.in) Standards Product standard - Low Voltage directive 2006/95/EG EMC directive 2004/108/EG RoHS directive 2002/95/EG Electromagnetic compatibility Interference immunity EN 61000-6-2 electrostatic discharge (ESD)  IEC/EN 61000-4-2 Level 3 (±6 kV / ±8 kV) electromagnetic field (HF radiation resistance)  IEC/EN 61000-4-3 10 V/m fast transients (Burst)  IEC/EN 61000-4-4 Level 3 (±2 kV / 5 kH) powerful impulses (Surge)  IEC/EN 61000-4-5 ±2 kV / ±1 kV HF line emission  IEC/EN 61000-4-6 10 V Interference emission EN 61000-6-4 Class B Isolation data Insulation voltage (between all isolated circuits) 1.5 kV Test voltage (between all isolated circuits) 1.5 kV / 50 Hz 1)  Includes non-linearity and factory setting, influenced by supply voltage and output load. Approvals on page 4/4. 2CDC110004C0209.pdf   332 11/26/2013   4:51:58 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/32  4 Analog signal converters - CC-U range Technical diagr., Connection diagr., Dimensional drawings .039 2CDC 282 024 F0b06 J D F G M H L K A C E B 2CDC 282 023 F0b06 CC-U/x , CC-U/xR 2CDC 282 025 F0b06 1.0 0.9 0.8 0.7 0.6 0.5 F 0.1      0.2     0.3      0.4     0.5      0.6      0.7      0.8      0.9     1.0 cos 2CDC 282 014 F0b06 2CDC 282 026 F0b06 Dimensional drawings   Dimensions in mm and inches Connection diagram CC-U/x Width 22.5 mm (0.89 in) Technical diagrams Load limit curves CC-U/xxR Resistive AC load Resistive DC load Derating curve 2CDC110004C0209.pdf   333 11/26/2013   4:51:58 PM

4/33   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Product picture 2CDC110004C0209.pdf   334 11/26/2013   4:51:58 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/34  4 Serial data converters Table of contents Serial data converters Product picture   4/33 Table of contents   4/34 Benefits and advantages   4/35 Selection table   4/36 Ordering details   4/37 Connection diagrams and jumper settings   4/38 Technical data   4/45 Dimensional drawings   4/55 Notes   4/56 2CDC110004C0209.pdf   335 11/26/2013   4:51:59 PM

4/35   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 ILPH RS 232 - 485 / Ethernet   ½   Electrical isolation between power supply and input/output   ½   RS232 on SUBD 9 points or screw connectors   ½   RS485 on removable screw connectors   ½   Ethernet 10/100 Mbit/s, RJ45 connector   ½   Power supply 10-34 VDC and 10-24 VAC   ½   Possible to have a redundant 10-34 VDC power supply   ½   Economic with low consumption   ½   Up to 100m with CAT5 cable without Hub or Switch   ½   Good EMC characteristics   ½   Up to 2 Modbus®\TCP Masters Available modes:   ½   Modbus®\TCP to Modbus® RTU   ½   Transparent Client or Server mode   ½   SMTP mode (Mail mode) Standards: TPC/IP, TELNET, DHCP, FTP   ½   Specifics functions in Modbus® protocol:   ½   Concentrator (Asynchronous mode) up to 1200 words   ½  AC31 programming  Modbus® Easy Net mode : this mode could be used to exchange data without a Modbus®/TCP master. The data are logged in a table and could be distributed to one or all the others e-ILPH participants on Ethernet. ILPH RS 232 / RS 422 - 485 RS 232 to RS 422-485 serial link with or without electrical isolation   ½ Baudrate up to 38.4 kbit/s    ½   Transmission distance up to 1200 m    ½   RS 485 1 or 2 pair handling   ½   Usable in "noisy" environments   ½   24 V DC power supply   ½  CE marked ILPH RS 232 / RS 422 - 485   ½   Electrical isolation between power supply and input/output   ½   RS 485 switch on 2 or 4 wires   ½   Baudrate up to 38.4 kbit/s   ½   Transmission distance up to 1200 m   ½   RS 485 1 or 2 pair handling   ½   Usable in "noisy" environments   ½   24...48 V DC and 115...230 V AC power supply   ½  CE marked ILPH RS 232 / RS 232 3 way electrical isolator between RS 232 serial interface and another  RS 232 serial interface.   ½   Ensures triple insulation between the 2 serial interfaces and between  each and power supply   ½   Baudrate up to 19.2 kbit/s (up to 64 kbit/s depending on cable)   ½   Transmission distance up to 15 m   ½   Can be used in "noisy" environments   ½   Power supply from 24...48 V DC and 115...230 V AC CE marking ILPH RS 422 - 485 / RS 422 - 485 Electrical isolated connection between an RS 422-485 (1 or 2 pairs) and an RS 422 485 (1 or 2 pairs) serial link. It amplifies the signal beyond the 1200 m limit distance of the RS 422-485 and only needs a minimum of 1.5 character delay time to switch off the RS 485 drivers.   ½   Electrical isolation between power supply/output and input/output   ½   Baudrate up to 500 kbit/s (up to 200 m)   ½   Transmission distance up to 1200m at 38.4 kbit/s   ½   Usable in "noisy" environments   ½   2/4 wires automatic handling   ½   24 V DC power supply   ½  CE marked ILPH RS 232 / FO    ½ Converter for RS 232 to fiber optical serial link glass (S) or plastic (P).    ½   Electrical isolation between power supply and input/output    ½   Baud rate up to 115.2 kbit/s   ½   Available for glass or plastic fiber   ½   Transmission distance up to 4 km   ½   Usable in "very noisy" environments   ½   20...42 V AC/DC and 110...240 V AC/DC power supply   ½  CE marked ILPH RS 485 / FO Converter for RS 485 (1 pair) to optical fiber serial link glass (S) or plastic (P).   ½   Electrical isolation between power supply  and input/output    ½   Baud rate up to 1.5 Mbit/s   ½   Available for glass fiber or plastic fiber   ½   Transmission distance up to 4 km    ½   Usable  in "very noisy" environments   ½   20...42 V AC/DC and 110...240 V AC/DC power supply   ½  CE marked ILPH CL / RS 422 - 485 Electrical isolated converter for current loop to RS 422-485 (1 or 2 pairs) serial link.    ½   Electrical isolation between power supply/current loop and RS 422-485/ current loop   ½   Active/passive 0...20 mA / 4...20 mA selectable  Positive or negative logic selectable   ½   Baudrate up to 38.4 kbit/s (up to 2400 m)  Transmission distance up to 2400 m (1200 m RS 485 and 1200 m current loop)   ½   Usable in "noisy" environments   ½   24 V DC power supply    ½  CE marked ILPH RS 232 / CL Electrical isolated Converter for RS 232 to current loop serial link.    ½   Electrical isolation between power supply/current loop and RS 232/ current loop   ½   Active/Passive 0...20 mA / 4...20 mA selectable  Positive or negative logic selectable   ½   Baudrate up to 38.4 kbit/s    ½   Transmission distance up to 1200 m    ½   Usable in "noisy" environments   ½   24 V DC power supply    ½  CE marked Serial data converters Benefits and advantages 2CDC110004C0209.pdf   336 11/26/2013   4:51:59 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/36  4 Serial data converters Selection table 1SNA 684 234 R2000 1SNA 684 244 R0200 1SNA 684 231 R2500 1SNA 684 233 R2700 1SNA 684 333 R2300 1SNA 684 334 R2400 1SNA 684 202 R0100 1SNA 684 236 R2200 1SNA 684 237 R2300 1SNA 684 238 R0400 1SNA 684 239 R0500 1SNA 684 212 R2200 1SNA 684 232 R2600 1SNA 684 246 R0400 1SNA 684 247 R0500 1SNA 684 248 R1600 1SNA 684 249 R1700 1SNA 684 252 R0200 RS232 RS422 /RS485   RS485    RS232 / RS485 RS232 RS422 / RS485 24 V DC 24-48 V DC 110-240 V AC24-42 V AC/DC Ether net 10-34 VDC, 10-24 V AC   RS 232 - EIA-232 / V.24 / V.28   Point-to-point connection    Max. 15 m transmission distance    Rate up to 19.2 kbit/s    Full-duplex   RS 422 - EIA-422 / V.11   Point-to-point connection    (1 Transmitter -  10 Receivers)    Differential voltage transmission   Full-duplex   Up to 1200 m/ 10Mbit/s    Good EMC characteristics  Current  loop(TTY)   Point-to-point / multi-point  connection    Active or passive current loop   Full-duplex   Up to 1200 m/19.2 kBit/s    Good EMC characteristics   RS 485 - ISO/IEC/EIA-485   Multi-point  connection up to 32 units    Differential voltage transmission    Half-duplex on 1 pair    Full-duplex on 2 pairs    Up to 1200 m / 10Mbit/s    Good EMC characteristics   Optical fiber interface   Point-to-point connection   Full-duplex   From 40m up to 4km transmission distance    according to optical fiber material (plastic / glass)    and wavelength used up to  10 Mbit/s    Excellent EMC characteristics  Ethernet  Interface   Point to point connexion or multipoint connection.   Up to 100m using CAT5 cable without Hub or Switch  10/100  Mbit/s   Good EMC characteristics In-Ps-Out In-Ps-Out Wi In-Out In-Ps-Out In-Ps-Out In-Out In-Ps-Out In-Ps-Out In-Ps-Out In-Ps-Out In-Out In-Out In-Ps-Out In-Ps-Out In-Ps-Out In-Ps-Out  In-Ps-Out Insulation Part numbers   In=Input, Ps=Power supply, Out=Output, Wi=Without insulation CL OF-S OF-P 2CDC110004C0209.pdf   337 11/26/2013   4:51:59 PM

4/37   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Ordering details Ordering details Description Type Order  code Price Weight(1 pce)kg (lb) Serial data converter e-ILPH ILPH RS 232-RS 485 / Ethernet 1SNA684252R0200 0.12 (0.265) Serial link interface without electrical isolation ILPH RS 232 /  RS 422-485 1SNA684231R2500 0.1 (0.220) Serial link interface with electrical isolation ILPH RS 232 /  RS 422-485 1SNA684233R2700 0.1 (0.220) Serial link interface 3 way electrical isolation ILPH RS 232 / RS 422-485 (24-48 V DC  power supply) 1SNA684333R2300 0.1 (0.220) ILPH RS 232 / RS 422-485 (115-230 V DC  power supply) 1SNA684334R2400 Serial link interface 3 way electrical isolation ILPH RS 232 / RS 232 (24-48 V DC power supply) 1SNA684234R2000 0.1 (0.220) ILPH RS 232 / RS 232 (115-230 V DC power supply) 1SNA684234R0200 Serial link interface with electrical isolation ILPH RS 422 - 485 / RS 422 - 485 (24 V DC power supply) 1SNA684212R2200 0.1 (0.220) Serial link interface 3 way electrical isolation ILPH RS 232 / FO-S (24...42 V AC/DC power supply) 1SNA684236R2200 0.15 (0.331) ILPH RS 232 / FO-S (110...240 V AC/DC power supply) 1SNA684237R2300 ILPH RS 232 / FO-P (24...42 V AC/DC power supply) 1SNA684238R0400 ILPH RS 232 / FO-P (110...240 V AC/DC power supply) 1SNA684239R0500 Serial link interface 3 way electrical isolation ILPH RS 485 / FO-S (24...42 V AC/DC power supply) 1SNA684246R0400 0.15 (0.331) ILPH RS 485 / FO-S (110...240 V AC/DC power supply) 1SNA684247R0500 ILPH RS 485 / FO-P (24...42 V AC/DC power supply) 1SNA684248R1600 ILPH RS 485 / FO-P (110...240 V AC/DC power supply) 1SNA684249R1700 Serial link interface with electrical isoaltion ILPH BdC /RS 422 - 485  (24 V DC power supply) 1SNA684232R2600 0.1 (0.220) Serial link interface with electrical isolation ILPH RS 232 (24 V DC power supply) 1SNA684202R0100 0.1 (0.220) 2CDC 281 003 F0013 2CDC 281 001 S0013 ILPH RS 232-RS 485 / Ethernet ILPH RS 232 / RS 422-485 2CDC110004C0209.pdf   338 11/26/2013   4:51:59 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/38  4 Serial data converters Connection diagrams, Jumper settings ILPH RS 232 - 485 Ethernet  (without isolation) RS 485 LINK ON ONE PAIR without isolation R R ON/OFF Jumper R in position RON/OFF E E ON/OFF Jumper E in positionEON/OFF The Receiver and the Transmitter are activated alternately (never at the same time) depending on the status of the CTRL IN signal. CTRL IN  STATUS ACTION ON RS 485 0 logic  (+3V  ͨ U ͨ +25V) Transmitter active /  Receiver inactive 1 logic (-25V  ͨ U ͨ -3V) Transmitter inactive /   Receiver active High impedance Transmitter inactive /  Receiver active NOTE : For RS 232 products running the RTS  (REQUEST TO SEND) signal, connect RTS to CTRL IN. Otherwise, connect M (RxD ILPH) to L (CTRL IN). POLARIZATION OF THE RS 422 - RS 485 LINE The line must always be polarized.  The ILPH is used to polarize the reception channel : Connection by 1 wire  P+ (J1.1) with 5V (J1.4) Connection by 1 wire  P- (J1.2) with 0V (J1.3) RS 485 LINK ON TWO PAIRS without isolation R R ON Jumper R in position RON E E ON/OFF Jumper E in position EON/OFF Receiver permanently active Transmitter controlled by the signal CTRL IN (see table for Transmitter operation as a function of CTRL IN) RS422 LINK ON TWO PAIRS without isolation R R ON Jumper R in position RON E E ON Jumper E in position EON The Transmitter and Receiver are both perma-nently active. ADAPTING THE RS 422 - RS 485 LINE The line must always be adapted to the level of t he reception channel of each subscriber forming the end of the bus. The ILPH is used to adapt the reception channel by setting the jumper  Rt correctly : Rt Line adaptation, Rt = 120  :   (general case ) Line adaptation, Rt = 220  : No line adaptation, Rt =  v CAUTION:  When the RTS Signal is not activa-ted, M terminal (RxD ILPH) has to be connected to L terminal (CTRL IN). RS 422 - RS 485  SERIAL LINK (2 wires) Product RS 232 Connector J1 24 V DC power supply Product RS 422-RS 485 CAUTION : To be connected to 2 wired RS 485 only (not possible for 4 wired RS 422). When the RTS Signal is not activated, M terminal (RxD ILPH) has to be connected to L terminal (CTRL IN). RS 422 - RS 485 SERIAL LINK (4 wires) Product RS 232 Connector J1 24 V DC power supply Product RS 422-RS 485 2CDC110004C0209.pdf   339 11/26/2013   4:52:00 PM

4/39   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4  CAUTION : Only to be connected for RS 485 two pairs (of no use for RS 422 two pairs). If the RTS signal is not generated, connect M (RxD ILPH) to L (CTRL IN).  CAUTION :  If the RTS signal is not generated, connect M (RxD ILPH) to L (CTRL IN). RS 422 - RS 485 WIRE SERIAL LINKS RS 422 - RS 485 4 WIRE SERIAL LINKS Connector J1 24 V DC   power supply RS 422-RS 485  product RS 232 product Connector J1 24 V DC power supply RS 422-RS 485  product RS 232 product ILPH RS 232 - 485 Ethernet  (isolated) RS 485 LINK ON ONE PAIR Isolated R R ON/OFF Jumper R in position RON/OFF E E ON/OFF Jumper E in position EON/OFF The Receiver and the Transmitter are activated alternately (never at the same time) depending on the status of the CTRL IN signal. CTRL IN  STATUS ACTION ON RS 485 0 logic  (+3V  ͨ U ͨ +25V) Transmitter active /  Receiver inactive 1 logic (-25V  ͨ U ͨ -3V) Transmitter inactive /   Receiver active High impedance Transmitter inactive /  Receiver active NOTE : For RS 232 products running the RTS  (REQUEST TO SEND) signal, connect RTS to CTRL IN. Otherwise, connect M (RxD ILPH) to L (CTRL IN). POLARIZATION OF THE RS 422 - RS 485 LINE The line must always be polarized.  The ILPH is used to polarize the reception channel : Connection by 1 wire  P+ (J1.1) with 5V (J1.4) Connection by 1 wire  P- (J1.2) with 0V (J1.3) RS 485 LINK ON TWO PAIRS Isolated R R ON Jumper R in position RON E E ON/OFF Jumper E in position EON/OFF Receiver permanently active Transmitter controlled by the signal CTRL IN (see table for Transmitter operation as a function of CTRL IN) RS422 LINK ON TWO PAIRS Isolated R R ON Jumper R in position RON E E ON Jumper E in position EON The Transmitter and Receiver are both perma-nently active. ADAPTING THE RS 422 - RS 485 LINE The line must always be adapted to the level of t he reception channel of each subscriber forming the end of the bus. The ILPH is used to adapt the reception channel by setting the jumper  Rt correctly : Rt Line adaptation, Rt = 120  :   (general case ) Line adaptation, Rt = 220  : No line adaptation, Rt =  v Serial data converters Connection diagrams, Jumper settings 2CDC110004C0209.pdf   340 11/26/2013   4:52:00 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/40  4 ILPH RS 232 / CL ON OFF  CONFIGURATION The various configurations can be selected using the 4 micro-switches located inside the box. OPERATING MODE ACTIVE OR PASSIVE The Current Loop's Transmission and Reception can be independently in active or passive mode. Select operating mode using S1 and S2.     S1     Transmission(TxD) ON = Active / OFF = Passive     S2     Reception (RxD) ON = Active / OFF = Passive      S1   S2   S3   S4 ON OFF ON OFF SIGNAL LEVEL Select signal level 4-20 mA or 0-20 mA. This selection is made using micro-switch S3    S3  ON = 4-20 mA / OFF = 0-20 mA Caution :   It is not possible to select a 4-20 mA signal when the Reception is in active mode. LOGIC LEVEL Configuration :  Positive logic  (0 Logic = 20 mA)     or negative logic  (1 Logic = 20 mA) using micro-switch S4      S4  ON = (1 = 20 mA) / OFF = (0 = 20 mA) S1   S2   S3   S4 S1   S2   S3   S4 Current loop 24 V DC power supply CONNECTIONS Example of connection with a CL (Current Loop) product, Transmission (TxD) in active mode and Reception (RxD) in passive mode. Then, the ILPH must be configured and con-nected Reception (RxD) in passive mode and Transmis-sion (TxD) in active mode.  CAUTION: For any other con-figuration, see schematic diagram or front sticker of the product. ILPH RS 232 - 485 Ethernet (3 way electrical isolated) RS 485 LINK ON ONE PAIR Set SW1-1, SW1-3, SW1-6, SW1-7 and SW1-8 to position ON. The receiver and the transmitter are activated alternately (never at the same time), depending on the status of the CTRL IN signal. CTRL IN STATUS Action on RS 485 0 Logic (3V  ͨ U ͨ + 25V) Transmitter active /   Receiver inactive  1 Logic (-25V  ͨ U ͨ -3V) Transmitter inactive /  Receiver active High impedance Transmitter inactive / Receiver active CAUTION : For RS 232 products running the RTS signal (REQUEST TO SEND), connect RTS to CTRL IN.  Otherwise, set SW2-1 to position ON. RS 485 LINK ON TWO PAIRS Set SW1-1, SW1-3, SW1-7 in position OFF. Set SW1-6, SW1-8 in position ON. The receiver is permanently active. The transmitter is controlled by the signal CTRL IN (see table for transmitter operation as a fonc-tion of CTRL IN). RS 422 LINK ON TWO PAIRS Set SW1-1, SW1-3, SW1-7 and SW1-8 in posi-tion OFF. Set SW1-6 in position ON. Transmitter and receiver are both permanently active. +24V 0V 24V TX TX GND RX RX B1+ B2- M J H G M L K D E A GND RX TX Ethe rnet LINK TXD RXD e-ILPH SPEED PWR ACTIVITY M L K J H G M L K 4 3 2 1 ON 4 3 2 1 ON 5 6 7 8 K L D E A SubD9 connector  pin 2 = RX pin 3 = TX pin 5 = GND pin 7 = RTS POLARIZATION OF THE RS 422 - RS 485 LINE The line must always be polarized. The ILPH is used to polarize the recep-tion channel. Set SW1-4 and SW1-5 in position ON. ADAPTING THE RS 422 - RS 485 LINE The line must always be adapted to the level of the reception channel of each subscriber forming the end of the bus. The ILPH is used to adapt the reception channel by setting the jumper SW1-2 correctly : SW1-2 in position ON  Ÿ line adaptation  Rt = 120  : (standard)  SW1-2 in position OFF  Ÿ no line adap- tation  Rt =  v Serial data converters Connection diagrams, Jumper settings 2CDC110004C0209.pdf   341 11/26/2013   4:52:00 PM

4/41   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 LINE AMPLIFIER CONFIGURATION Configuration of amplifiers of the RS 422 - RS 485 (Receiver, Transmitter) line provides greater flexibility of use.The various configurations can be selected using the 2 jumpers (R INT2, E INT1) located inside the box. RS 485 LINK ON ONE PAIR The Receiver and the Transmitter are activated alternately (never at the same time) depending on the status of the Cur-rent Loop Reception signal. RS 485 LINK ON TWO PAIRS Receiver permanently active. Transmitter controlled by the Current Loop Reception signal. RS 422 LINK ON TWO PAIRS The Receiver and the Transmitter are both permanently active. ILPH CL / RS 422 - 485  Electrical isolated converter for current loop INT4 R E INT2 INT3  R E INT2 R ON   INT3 E  ON / OFF R E INT2 R ON  INT3 E ON  Rt Rt INT1 INT1 S1   S2   S3   S4 ON   OFF INT4 onoff     Protection ON Protection OFF, used if power  supply at minimum value (21.6 V). E ON/OFF Jumper E in position E ON/OFF R ON/OFF Jumper R in position R ON/OFF R ON   Jumper R in position R ON E ON/OFF Jumper E in position E ON/OFF R ON   Jumper R in position R ON E ON  Jumper E in position E ON POLARIZATION OF THE RS 422 - RS 485 LINE The line must always be polarized. The ILPH is used to pola-rize the reception channel : Connection by 1 wire  P+  (J1.1) with 5 Viso (J1.4) Connection by 1 wire  P- (J1.2)  with 0 Viso (J1.3) ADAPTING THE RS 422 - RS 485 LINE The line must always be adapted to the level of the reception channel of each subscriber forming the end of the bus. The ILPH is used to adapt the reception channel by setting the jumper Rt correctly : POLARIZATION The polarization can be configured using the INT4 jumper. Line adaptation, Rt = 120  : (Standard) No line adaptation, Rt =  f Transmission (TxD) active Transmission(TxD) passive Reception (RxD) active Reception (RxD) passive 4...20 mA Signal 0...20 mA Signal Signal logic 1 = 20 mA Signal logic 0 = 20 mA Legend ON OFF RS 422 - RS 485 2 wire serial linkCONNECTIONS Example of connection with a CL  (cur-rent Loop) product, Transmission (TxD) in active mode and Reception (RxD) in passive mode. Then, the ILPH must be configured and connected Reception (RxD) in passive mode and Transmission (TxD) in active mode. Note : For any other configuration, see schematic diagram or front sticker of the product. Current Loop Connector J1 24 V DC power supply Note :  The TxD channel of the RS 422 - RS 485 link must be polarized indepen-dently too. RS 422 - RS 485 4 wire serial link Current Loop Connector J1 24 V DC power supply Serial data converters Connection diagrams, Jumper settings 2CDC110004C0209.pdf   342 11/26/2013   4:52:00 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/42  4 Serial data converters Connection diagrams, Jumper settings ILPH RS 422 - 485 / RS 422 / - 485 Nu = not used  X  = zero 1 = contact closed 0 = contact open (aus) (off)   OFF 1      2      3     4 1      2     3     4     5    6   OFF INT 3 INT 4 INT 3.1 INT 3.2 INT 4.1 INT 4.2   OFF   OFF INT 3 1      2     3     4     5    6 INT 4 1      2     3     4   OFF 1      2     3     4   OFF INT 1 INT 2 "ON", polarizes the reception channel Rx2 "ON", polarizes the reception channel Rx1 RS 422 - RS 485 DRIVERS CONTROL The RS 422 - RS 485 Drivers Control (transmit-ters and receivers) makes the ILPH easy to use. The control of the 2 channels is completely automatic ; you only have to configure the baud rate needed.  The minimum turn off delay is about 1.5 charac-ter/time from 27 μs to 10 ms depending on the baud rate selected. POLARIZATION OF THE RS 422 - RS 485 CONNECTIONS The connections must always be polarized. The ILPH is used to polarize the reception channels: ADAPTING THE RS 422 - RS 485 CONNECTIONS The connections must always be adjusted to the level of the reception channel of each subscriber forming the end of the bus. The ILPH is used to adjust the reception channel by setting the micro-switch INT 3.3 and INT 4.3.  BAUD  RATE By using the 8 micro-switches inside the box. Permits to define up to 8 transmission speeds and to select the Full Duplex operation mode (RS 422 / RS 422) in addition with the INT 3.4 INT 4.4 and INT 4.5 micro switches. INT 3.3 and INT 4.3 "ON" 120  :  set adjustment Caution :  The transmission channels of both RS 422 - RS 485 serial link interfaces always have to be independently polarized. RS 422 - RS 485 4 wire serial link RS 422 - RS 485  2 wire serial link 24 V DC power supply Connector J1 24 V DC power supply Connector J1 INT 1 INT 2 INT 3 INT 4 BAUD RATE 1234 1234 1234 123456 FULL DUPLEX 0000 0000 XXX1 XXX101 500 Kb/s 1111 1111 XXX0 XXX000 187.5 Kb/s 1111 1110 XXX0 XXX000 93.75 Kb/s 1111 1100 XXX0 XXX000 38.4 Kb/s 1111 1000 XXX0 XXX000 19.2 Kb/s 1111 0000 XXX0 XXX000 9.6 Kb/s 1110 0000 XXX0 XXX000 4.8 Kb/s 1100 0000 XXX0 XXX000 2.4 Kb/s 1000 0000 XXX0 XXX000 1.2 Kb/s 0000 0000 XXX0 XXX000 1      2     3     4 2CDC110004C0209.pdf   343 11/26/2013   4:52:01 PM

4/43   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 ILPH RS 232 / RS 422 - 485 (eletrical isolated) ILPH RS 232 / RS 232 RS 422 - RS 485 2 WIRE SERIAL LINK CAUTION : Only to be connected for RS 485 two pairs (of no use for RS 422 two pairs). If the RTS signal is not generated, set SW2-1 in position ON. CAUTION :  When the RTS signal is not gene-rated, set SW2-1 in position ON. RS 422 - RS 485 4 WIRE SERIAL LINKS Product RS 232 Connector J1 Power  supply Product RS 422 - RS 485 Product RS 232 Connector J1 Power supply Product RS 422 - RS 485 Connection not advised  according to EIA/TIA 232E  standard or Connection not advised  according to EIA/TIA  232E standard (to be connected) Terminal equipment for ETTD (DTE)  data processing Data transmission end  equipment ETCD (DCE) Serial data converters Connection diagrams, Jumper settings 2CDC110004C0209.pdf   344 11/26/2013   4:52:01 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/44  4 ILPH RS 232 / FO ILPH RS 485 / FO RxD OV TxD OV m o ~ + ~ - (L) (K) (M) (J H G) (E) (F) (D) (B) (C) (A) Shielding FO  Sending FO Receiving Shielding OV D - D + m m Shielding FO  Sending FO Receiving OV ~ - ~+ Shielding Serial data converters Connection diagrams, Jumper settings 2CDC110004C0209.pdf   345 11/26/2013   4:52:01 PM

4/45   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 - 485 / Ethernet Power supply 1 Voltage 10...34 V DC, 10...24 V AC Voltage tolerance -10%, +10% Consumption 2 W max Connections coding screw removable connector 0 to 2.5 mm² (22-14 AWG) Power supply 2 Voltage 10...34 V DC Voltage tolerance -10%, +10% Consumption 2 W max Connections screw connector (AWG 20) Serial link 1: RS 232 EIA  RS 232 Overvoltage protection integrated Baud rate / Transmission distance max. 115.2 kbits/s / max. 15 m Connections 2.5 mm² screw connector (AWG 20) or male SubD 9 points Serial link 2: RS 485 EIA  RS 485 Voltage integrated Line polarization integrated End line resistance integrated Baud rate / Transmission distance max. 115.2 kbits/s / max. 1200 m Connections coding screw removable connector 0 to 2.5 mm² (22-14 AWG) Ethernet link Overvoltage protection integrated Baud rate / Transmission distance 10-100 Mbits/s / max. 100 m without Hub or Switch with CAT5 cable Connections RJ45 connector Traffic indication Voltage 1 yellow LED Status of signal 3 green LED (RxD, TxD, LINK), 2 amber or green LED (Speed, Activity) EMC behavior Electrostatic discharge EN 61000-4-2 Radiated electromagnetic field EN 61000-4-3 Burst EN 61000-4-4 Surge EN 61000-4-5 Electromagnetic compatibility EN 55022 Other characteristics Electrical isolation between serial link / power supply / Ethernet link 750 VDC / 1500 VAC Configuration of the operating mode using internal switches or/and software (TELNET or HYPERTERMINAL) Operating temperature 0°C ... +60°C Storage temperature -20°C ... +70°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 94 x 22.5 x 100 mm Weight 120 g 2CDC110004C0209.pdf   346 11/26/2013   4:52:02 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/46  4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / RS 422 - 485 (without isolation) Power supply polarized Voltage 24 V DC Voltage tolerance 8.5...28 V DC Supply current 100 mA max Connections removable screw connectors (AWG 20) Serial link 1: RS 232 EIA  RS 232 C / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 38.4 kbits/s / max. 1200 m Connections 2.5 mm² screw connectors (AWG 20) Serial link 2: RS 422-485 EIA  RS 485 and EIA RS 422 / CCITT V11 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 38.4 kbits / max. 1200 m Connections 2.5 mm² screw connectors (AWG 20) Traffic indication Voltage 1 yellow LED Connections 2 green LED (RxD, TxD) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 310 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between serial link / power supply / Ethernet link no Configuration of the operating mode using internal jumper Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   347 11/26/2013   4:52:02 PM

4/47   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / RS 422 - 485 (isolated) Power supply polarized Voltage 24 V DC Voltage tolerance 8.5...28 V DC Supply current 100 mA max Connections Removable screw connectors (Omniconnect) Serial link 1: RS 232 EIA  RS 232 C / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50μs) Baud rate / Transmission distance max. 38.4 kbits/s / max. 15 m Connections 2.5 mm² screw connectors (AWG 20) Serial link 2: RS 422-485 EIA  RS 485 and EIA RS 422 / CCITT V11 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 38.4 kbits / max. 1200 m Connections 2.5 mm² screw connectors (AWG 20) Traffic indication Voltage 1 yellow LED Connections 3 green LED (RxD, TxD and CTRL-IN) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 310 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between serial link / power supply / Ethernet link 500 V DC Configuration of the operating mode using internal jumper Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   348 11/26/2013   4:52:02 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/48  4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / RS 422 - 485 (3 way electrical isolated) Power supply Polarization for DC model Voltage 24...48 V DC 115...230 V AC (50/60 Hz) Voltage tolerance -15% ... +20% -15% ... +15% Supply current 24 V DC 110 mA, 48 V DC 55 mA, 115 V AC 40 mA, 230 V DC 26 mA Supply power ~ 3 W ~ 3 VA Connections Removable screw connector (Omniconnect) Serial link 1: RS 232 EA / TIA RS 232 new revision / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 19,2 kbits/s / max. 15 m / 2500 pF Connections 2.5 mm² screw (AWG 20) Serial link 2: RS 422-485 EIA / TIA RS 232 new revision / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50μs) Baud rate / Transmission distance max. 19.2 kbits/s / max. 15 m Connections 2.5 mm² screw (AWG 20) Traffic indication Voltage 1 yellow LED Connections 4 green LED (RxD, RxC/D, TxD, TxC/D) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 3 10 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between RS 232 / Power supply / RSS 422-RS 485 1,5 kV Configuration of the operating mode No Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22,5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   349 11/26/2013   4:52:02 PM

4/49   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / RS 232 Power supply DC model polarized Voltage 24...48 V DC 115...230 V AC (50/60Hz) Voltage tolerance -15%...+20% -15%...+15% Supply current 24 V DC 155 mA;48 V DC 77 mA;110 V AC 40 mA;230 V DC 26 mA Supply power ~ 3.15 W ~ 3.15 VA Connections Removable screw connector (Omniconnect) Interface 1: RS 232 EIA / TIA RS 232 new revision  / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Transmission capacity / Transmission distance max. 19.2 kbits/s / max. 15 m / 2500 pF Connections 2.5 mm² screw (AWG 20) Interface 2: RS 232 EIA / TIA RS 232 new revision  / CCITT V24 V28 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Transmission capacity / Transmission distance max. 19.2 kbits/s / max. 15 m Connections 2.5 mm² screw (AWG 20) Traffic indication Voltage 1 yellow LED Connections 4 green LED (RxD, RxC/D, TxD, TxC/D) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 3 10 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between serial link / power supply / Ethernet link 1.5 kV Configuration of the operating mode No Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   350 11/26/2013   4:52:02 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/50  4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 422 - 485 / RS 422 - 485 Power supply DC model polarized Voltage 24 V DC Voltage tolerance +/-15% Supply current 120 mA max. Connections Removable screw connector (Omniconnect) Interface 1: RS 422-485 EIA / RS 485 and EIA RS 422 / CCITT V11 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) RS 485 data switching Time switching / Time delay transmission/reception 27 μs ...10 ms Baud rate / Transmission distance from 1.2 to 500 kbits/s / max. 1200 m up to 38.4 kbit/s Connections 2.5 mm² screw (AWG 20) Interface 2: RS 422-485 EIA / RS 485 and EIA RS 422 /  CCITT V11 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) RS 485 data switching Time switching / Time delay transmission/reception 27 μs ...10 ms Baud rate / Transmission distance from 1.2 to 500 kbits/s / max. 1200 m up to 38.4 kbit/s Connections 2.5 mm² screw (AWG 20) Traffic indication Voltage 1 yellow LED Connections 2 green LED (RxD, TxD, ) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 3 10 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between RS 232 / Power supply / RSS 422-RS 485 500 V DC Configuration of the operating mode using internal DIP switches Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   351 11/26/2013   4:52:02 PM

4/51   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / FO Power supplies Supply voltage 24...42 V AC/DC (50/60 Hz)  110...240 V AC/DC (50/60 Hz) Voltage tolerance -15% ... +10% -15% ... +10% Connections Omniconnect  pluggable connector Interface 1: RS 232 CCITT  V.24/DIN 66020-  CCITT  V.28 DIN 66259-EIA 232 E Protection Integrated  (transil 8 kV 1.2/50μs) Max. speed / max. distance Max. 115.2 kbits/s / max. 15 m / 2500 pF Connections Omniconnect  pluggable connector Fiber optic interface 2 DIN VDE 0888-1 Type of fiber / Connections Multimode fiber Glass : ST connector; Plastic : FSMA screw connector Wave length Glass : 820 nm; Plastic : 655 nm Max. transmission power Glass : 50/125 μm : -14.4 db/m; Glass : 62.5/125 μm : -14 db/m; Plastic : 980/1000 μm : -8 db/m Max. reception power Glass : -28 db/m; Plastic : -20 db/m Max. speed Max. 115.2 kbits/s Max. distance Glass : 50/125 μm : 3 km; Glass : 62.5/125 μm : 4 km; Plastic : 980/1000 μm : 40 m Status indication Power supply / Data exchange 1 green LED / 2 green LEDs  (RxD, TxD) EMC behavior Electrostatic discharge EN 61000-4-2 Level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 Level 3 10 V/m Burst EN 61000-4-4 Level 3 1 kV Electromagnetic compatibility EN 55022 Class B Other characteristics Electrical isolation input / power supply / output 2.5 kV Operating temperature -20°C ... +60°C Storage temperature -40°C ... +85°C Mounting Onto DIN Rail (EN 50002) Connections 14 AWG (2.5 mm²)  fine stranded / 12 AWG (4 mm²) rigid Dimensions (WxDxH) 105 x 22.5 x 112 mm / 4.13 x 0.89 x 4.41" Weight 150 g / 0.33 lb 2CDC110004C0209.pdf   352 11/26/2013   4:52:03 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/52  4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 485 / FO Power supplies Supply voltage 24...42 V AC/DC (50/60 Hz)  110...240 V AC/DC (50/60 Hz) Voltage tolerance -15% ... +10% -15% ... +10% Connections Omniconnect pluggable connector Interface 1: RS 232 ISO / IEC 8482 /  DIN 66 259-4; EIA 485 Protection Integrated (transil 8 kV 1.2/50μs) Max. speed / max. distance Max. 1.5 Mbits/s / max. 1200 m (38.4 kbit/s) Connections Omniconnect pluggable connector Fiber optic interface 2 DIN VDE 0888-1 Type of fiber / Connections Multimode fiber Glass : ST connector; Plastic : FSMA screw connector Wave length Glass : 820 nm; Plastic : 655 nm Max. transmission power Glass : 50/125 μm : -14.4 db/m; Glass : 62.5/125 μm : -14 db/m; Plastic : 980/1000 μm : -8 db/m Max. reception power Glass : -28 db/m; Plastic : -20 db/m Max. speed Max. 1.5 Mbits/s Max. distance Glass : 50/125 μm : 3 km; Glass : 62.5/125 μm : 4 km; Plastic : 980/1000 μm : 40 m Status indication Power supply / Data exchange 1 green LED / 2 green LEDs  (RxD, TxD) EMC behavior Electrostatic discharge EN 61000-4-2 Level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 Level 3 10 V/m Burst EN 61000-4-4 Level 3 1 kV Electromagnetic compatibility EN 55022 Class B Other characteristics Electrical isolation input / power supply / output 2.5 kV Operating temperature -20°C ... +60°C Storage temperature -40°C ... +85°C Mounting Onto DIN Rail Connections 14 AWG (2.5mm²) / fine stranded, 12 AWG (4 mm²) rigid Dimensions (WxDxH) 105 x 22.5 x 112 mm / 4.13 x 0.89 x 4.41" Weight 150 g / 0.33 lb 2CDC110004C0209.pdf   353 11/26/2013   4:52:03 PM

4/53   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 422 - 485 (for current loop) Power supply DC model polarized Voltage 24 V DC Voltage tolerance +/-10% Supply current 120 mA max. Connections Removable screw connector (Omniconnect) Interface 1: Current loop  active/passive 0...20 mA / 4...20 mA, mode is settable Logic level 0 = 20 mA or 1 = 20 mA, settable Baud rate / Transmission distance max. 38.4 kbit/s / max. 1200 m Connections 2.5 mm² screw (AWG 20) Serial link 2: RS 422/485 EIA RS 485 and EIA RS 422 / CCITT V 11 Overvoltage protection integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 38.4 kbit/s / max. 1200 m Connections 2.5 mm² screw (AWG 20) Traffic indication Voltage 1 yellow LED Status of signal 2 green LED (RxD, TxD) EMC behavior Electrostatic discharge EN 61000-4-2 level 2 4/4 kV Radiated electromagnetic field EN 61000-4-3 level 3 10 V/m Burst EN 61000-4-4 level 1 0.5 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between input / output and power supply / output depending on Current Loop (active/passive); 500 V DC (active) / 2000 V DC (passive) RS 422-485 power supply 500 V DC Configuration of the operating mode using internal DIP switches Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   354 11/26/2013   4:52:03 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/54  4 Serial data converters Technical data Technical data Data at T a  = 25 °C and rated values, unless otherwise indicated ILPH RS 232 / CL Power supply DC model polarized Voltage 24 V DC Voltage tolerance +/-10% Supply current 120 mA max. Connections Removable screw connector (Omniconnect) Serial link 2: RS 232 EIA RS 232 C / CCITT V 24 V 28 Logic level integrated (transil 8 kV 1.2/50 μs) Baud rate / Transmission distance max. 38.4 kbit/s / max. 15 m Connections 2.5 mm² screw (AWG 20) BdC serial link 2: RS 422/485 active/passive 0...20 mA / 4...20 mA mode settable Overvoltage protection 0=20 mA or 1=20 mA settable Baud rate / Transmission distance max. 38.4 kbit/s / max. 1200 m Connections 2.5 mm² screw (AWG 20) Traffic indication Voltage 1 yellow LED Status signal 2 green LED (RxD, TxD) EMC behavior Electrostatic discharge EN 61000-4-2 level 3 6/8 kV Radiated electromagnetic field EN 61000-4-3 level 3 10 V/m Burst EN 61000-4-4 level 3 1 kV Electromagnetic compatibility EN 55022 class B Other characteristics Electrical isolation between Current loop / RS 232 depending on current loop (active/passive) 500 V DC (active) / 2000 V DC (passive) Electrical isolation between  Current loop / power supply 500 V DC (active) / 2000 V DC (passive) Configuration of the operating mode using internal DIP switches Operating temperature 0°C ... +50°C Storage temperature -25°C ... +80°C Mounting any required DIN rail fixing (EN 50002) snap-on mounting Wire size 2.5 mm² / stranded with ferrule, 4 mm² solid Dimensions (WxDxH) 88 x 22.5 x 100 mm Weight 100 g 2CDC110004C0209.pdf   355 11/26/2013   4:52:03 PM

4/55   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 4 Serial data converters Dimensional drawings center of rail ILPH RS 232 - 485 Ethernet ILPH RS 232 / RS 232 ILPH RS 232 - 485 Ethernet  ILPH CL / RS 422 - 485 ILPH RS 232 - 485 Ethernet ILPH RS 422 - 485 / RS 422 / - 485 center of rail ILPH RS 232 / FO and ILPH RS 485 / FO ILPH RS 232 / CL center of rail 2CDC110004C0209.pdf   356 11/26/2013   4:52:03 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   4/56  4 Serial data converters Notes 2CDC110004C0209.pdf   357 11/26/2013   4:52:03 PM

5/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays and optocouplers Product group picture 2CDC110004C0209.pdf   358 11/26/2013   4:52:04 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/2  5 Interface relays and optocouplers Table of contents Interface Relays and Optocouplers Pluggable interface relays   5/3 Table of contents   5/4 Benefits and advantages   5/5 Approvals and marks   5/6 Ordering details   5/7 Technical data   5/14 Technical data, Load limit curves   5/16 Load limit curves   5/17 Connection diagrams   5/18 Interface relays and optocouplers R500 / R600 range   5/21 Table of contents   5/22 Benefits and advantages   5/23 Type designators   5/24 Interface relays and optocouplers R500 range   5/25 Table of contents   5/26 Interface relays R500 range   5/27 Table of contents   5/28 Selection   5/29 Ordering details   5/30 Technical information   5/31 Optocouplers R500 range   5/33 Table of contents   5/34 Selection   5/35 Ordering details   5/36 Connection diagrams   5/37 Technical data   5/38 Interface relays and optocouplers R600 range   5/45 Table of contents   5/46 Interface relays R600 range   5/47 Table of contents   5/48 Benefits and advantages   5/49 Selection   5/51 Ordering details   5/53 Connection diagrams   5/55 Technical data   5/56 General technical data   5/61 Dimensional drawings, Load limit curves   5/62 Optocouplers R600 range   5/63 Table of contents   5/64 Selection   5/65 Ordering details   5/67 Connection diagrams   5/68 Technical data   5/69 2CDC110004C0209.pdf   359 11/26/2013   4:52:05 PM

5/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable interface relays Product group picture 2CDC110004C0209.pdf   360 11/26/2013   4:52:05 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/4  5 Pluggable interface relays Table of contents Pluggable interface relays Product group picture   5/3 Table of contents   5/4 Benefits and advantages   5/5 Approvals and marks   5/6 Ordering details   5/7 Technical data   5/14 Technical data, Load limit curves   5/16 Load limit curves   5/17 Connection diagrams   5/18 2CDC110004C0209.pdf   361 11/26/2013   4:52:07 PM

5/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable pcb relays CR-P   ½   9 different coil voltages   ½  DC versions:      12 V, 24 V, 48 V, 110 V   ½  AC versions:       24 V, 48 V, 110 V, 120 V, 230 V   ½  Output contacts:    ½   1 c/o contact (16 A) or    ½   2 c/o contacts (8 A)      optionally equipped with    gold contacts   ½   Logical or standard sockets   ½   Cadmium-free contact material   ½   Width of socket: 15,5 mm   ½   Pluggable function modules   ½   Reverse polarity protection/      Free wheeling diode   ½  LED indication   ½  RC elements   ½  Overvoltage protection Pluggable universal relays CR-U   ½   12 different coil voltages   ½  DC versions:      12 V, 24 V, 48 V, 110 V, 125 V, 220 V   ½  AC versions:      24 V, 48 V, 60 V, 110 V, 120 V, 230 V   ½  Output contacts   ½   2 c/o contacts (10 A) or    ½   3 c/o contacts (10 A)   ½   Integrated test button for manual   actuation and locking of the output  contacts (blue = DC, orange = AC) that can be removed if necessary   ½   With or without integrated LED   ½   Cadmium-free contact material   ½   Width on socket: 38 mm   ½   Pluggable function modules   ½   Reverse polarity protection/      Free wheeling diode   ½  LED indication   ½  RC elements   ½  Overvoltage protection   ½   Multifunction time module Pluggable miniature relays CR-M   ½   12 different coil voltages   ½  DC versions:       12 V, 24 V, 48 V, 60 V,      110 V, 125 V, 220 V   ½  AC versions:       24 V, 48 V, 110 V, 120 V, 230 V   ½  Output contacts   ½   2 c/o contacts (12 A) or   ½   3 c/o contacts (10 A) or    ½   4 c/o contacts (6 A)       optionally equipped with      gold contacts, LED and free    wheeling diode   ½   Integrated test button for manual   actuation and locking of the output  contacts (blue = DC, orange = AC) that can be removed if necessary   ½   With or without integrated LED   ½   Logical or standard sockets   ½   Cadmium-free contact material   ½   Width on socket: 27 mm   ½   Pluggable function modules   ½   Reverse polarity protection/      Free wheeling diode   ½  LED indication   ½  RC elements   ½  Overvoltage protection Pluggable interface relays Benefits and advantages 1  Socket 2   Pluggable function module 3  Interface relay 4  Holder 1  Socket 2   Pluggable function module 3  Interface relay 4  Holder 1 1 2 2 3 3 4 4 1  Socket 2   Pluggable function module 3  Interface relay 4  Holder 4  Marker label 1 2 3 4 4 2CDC110004C0209.pdf   362 11/26/2013   4:52:07 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/6  5 Pluggable interface relays Approvals and marks Approvals and marks ½ existing  ˽ pending Relays Sockets Modules Approvals CR-P CR-M CR-U CR-PLS  CR-PSS CR-PLC CR-M..L..  CR-M..SS CR-M..SF CR-U..S  CR-U..E CR-U..SM CR-P/M CR-U G UL 508 ½ ½  1) ½ c G CAN/CSA C22.2 No.14 ½ ½  2) ½ ½ ½ ½ ½ ½ ½ ½  6) ½  7) F CAN/CSA C22.2 No.14 ½ ½  3) ½ J VDE ½ ½  4) ½ D GOST ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ P Lloyds Register ½  5) ½ E CCC ½ ½ ½ L RMRS ½ ½  8) ½  8) ½ ½ ½ ½ ½ ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 1)  except 60 V DC and 125 V DC devices with gold contacts 2)  except devices with gold contacts 3)  except 60 V DC and 125 V DC devices 4)  except 125 V DC devices 5)  only devices with 4 c/o contacts 6)  except CR-P/M 42B, CR-P/M 42BV, CR-P/M 42C, CR-P/M 42CV, CR-P/M 52D, CR-P/M 62E, CR-P/M 62EV, CR-P/M 62D, CR-P/M 62DV 7)  except CR-U 41B, CR-U 41BV, CR-U 41C, CR-U 41CV, CR-U 51D, CR-U 61CV, CR-U 61E, CR-U 61EV, CR-U 61D, CR-U 61DV, CR-U 91C, CR-U T 8)  except 60 V and 125 V devices Kinds of sockets Standard sockets - Position of connecting terminals:  Coil connection (A1-A2) on lower socket side,  contact connections (n/o and n/c contacts)  on the lower and upper socket side. Logical sockets - Position of connecting terminals:  Coil connection (A1-A2) on lower socket side,  all contact connections (common contacts,  n/o and n/c contacts) on upper socket side. Details see connection diagrams Kind of connecting terminals Screw type Spring type Fork type 2CDC110004C0209.pdf   363 11/26/2013   4:52:07 PM

5/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable interface relays Ordering details Description Interface relays are widely used in various industrial applications: As an interface they link the electronic controlling, e.g. PLC (programmable logic controller),  PC or field bus systems, to the sensor / actuator level. Here, they take on various functions:   Switching of AC or DC loads with different resistive, inductive and capacitive parts, switching  voltages from a few mV up to 250 V, switching currents from a few mA up to 16 A, amplifica- tion of weak control signals, electrical isolation of control and load circuits, and signal multi- plying. In contrast to electronic switching devices, interface relays don’t use additional internal  protective circuits and thus are overload-proof against short-time variations like current or  voltage peaks. Ordering details - CR-P range Rated control supply voltage Outputs Contact ratings Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  12 V DC 1 c/o (SPDT) 250 V, 16 A CR-P012DC1 1SVR405600R4000 10 0.014  (0.031) 24 V DC CR-P024DC1 1SVR405600R1000 48 V DC CR-P048DC1 1SVR405600R6000 110 V DC CR-P110DC1 1SVR405600R8000 24 V AC CR-P024AC1 1SVR405600R0000 48 V AC CR-P048AC1 1SVR405600R5000 110 V AC CR-P110AC1 1SVR405600R7000 120 V AC CR-P120AC1 1SVR405600R2000 230 V AC CR-P230AC1 1SVR405600R3000 12 V DC 2 c/o (SPDT) 250 V, 8 A CR-P012DC2 1SVR405601R4000 10 0.014  (0.031) 24 V DC CR-P024DC2 1SVR405601R1000 48 V DC CR-P048DC2 1SVR405601R6000 110 V DC CR-P110DC2 1SVR405601R8000 24 V AC CR-P024AC2 1SVR405601R0000 48 V AC CR-P048AC2 1SVR405601R5000 110 V AC CR-P110AC2 1SVR405601R7000 120 V AC CR-P120AC2 1SVR405601R2000 230 V AC CR-P230AC2 1SVR405601R3000 24 V DC 2 c/o (SPDT) gold contact 250 V, 8 A CR-P024DC2 1SVR405606R1000 10 0.014  (0.031) 24 V AC CR-P024AC2G 1SVR405606R0000 110 V AC CR-P110AC2G 1SVR405606R7000 230 V AC CR-P230AC2G 1SVR405606R3000 Ordering details - Accessories Version Connection terminal Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  Logical socket with protective separation screw CR-PLS 1SVR405650R0000 10 0.045  (0.099) Logical socket screw CR-PLSx 1SVR405650R0100 0.043  (0.095) spring CR-PLC 1SVR405650R0200 0.042  (0.093) Standard socket screw CR-PSS 1SVR405650R1000 0.038  (0.084) Plastic holder for socket CR-PH 1SVR405659R0000 10 0.002  (0.004) Jumper bar for sockets with screw connection CR-PJ 1SVR405658R5000 0.018  (0.040) Marker CR-PM 1SVR405658R0000 10 0.0002  (0.0004) 2CDC 291 004 F0007 2CDC 291 006 F0011 CR-PLS CR-P CR-PJ 2CDC 291 045 F0004 Bold printed products = stocked products 2CDC110004C0209.pdf   364 11/26/2013   4:52:08 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/8  5 Pluggable interface relays Ordering details Description Interface relays are widely used in various industrial applications: As an interface they link the electronic controlling, e.g. PLC (programmable logic controller),  PC or field bus systems, to the sensor / actuator level. Here, they take on various functions:   Switching of AC or DC loads with different resistive, inductive and capacitive parts, switching  voltages from a few mV up to 250 V, switching currents from a few mA up to 16 A, amplifica- tion of weak control signals, electrical isolation of control and load circuits, and signal multi- plying. In contrast to electronic switching devices, interface relays don’t use additional internal  protective circuits and thus are overload-proof against short-time variations like current or  voltage peaks. Ordering details - CR-M range without LED Rated control supply voltage Outputs Contact ratings Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  12 V DC 2 c/o (SPDT) 250 V, 12 A CR-M012DC2 1SVR405611R4000 10 0.033  (0.073) 24 V DC CR-M024DC2 1SVR405611R1000 48 V DC CR-M048DC2 1SVR405611R6000 60 V DC CR-M060DC2 1SVR405611R4200 110 V DC CR-M110DC2 1SVR405611R8000 125 V DC CR-M125DC2 1SVR405611R8200 220 V DC CR-M220DC2 1SVR405611R9000 24 V AC CR-M024AC2 1SVR405611R0000 48 V AC CR-M048AC2 1SVR405611R5000 110 V AC CR-M110AC2 1SVR405611R7000 120 V AC CR-M120AC2 1SVR405611R2000 230 V AC CR-M230AC2 1SVR405611R3000 12 V DC 3 c/o (SPDT) 250 V, 10 A CR-M012DC3 1SVR405612R4000 10 0.033  (0.073) 24 V DC CR-M024DC3 1SVR405612R1000 48 V DC CR-M048DC3 1SVR405612R6000 60 V DC CR-M060DC3 1SVR405612R4200 110 V DC CR-M110DC3 1SVR405612R8000 125 V DC CR-M125DC3 1SVR405612R8200 220 V DC CR-M220DC3 1SVR405612R9000 24 V AC CR-M024AC3 1SVR405612R0000 48 V AC CR-M048AC3 1SVR405612R5000 60 V AC CR-M060AC3 1SVR405612R5200 110 V AC CR-M110AC3 1SVR405612R7000 120 V AC CR-M120AC3 1SVR405612R2000 230 V AC CR-M230AC3 1SVR405612R3000 12 V DC 4 c/o (SPDT) 250 V, 6 A CR-M012DC4 1SVR405613R4000 10 0.033  (0.073) 24 V DC CR-M024DC4 1SVR405613R1000 48 V DC CR-M048DC4 1SVR405613R6000 60 V DC CR-M060DC4 1SVR405613R4200 110 V DC CR-M110DC4 1SVR405613R8000 125 V DC CR-M125DC4 1SVR405613R8200 220 V DC CR-M220DC4 1SVR405613R9000 24 V AC CR-M024AC4 1SVR405613R0000 48 V AC CR-M048AC4 1SVR405613R5000 110 V AC CR-M110AC4 1SVR405613R7000 120 V AC CR-M120AC4 1SVR405613R2000 230 V AC CR-M230AC4 1SVR405613R3000 CR-M 2CDC 291 046 F0004 Bold printed products = stocked products 2CDC110004C0209.pdf   365 11/26/2013   4:52:08 PM

5/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable interface relays Ordering details Ordering details - CR-M range Rated control supply voltage Outputs Contact ratings Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  12 V DC 2 c/o (SPDT) with LED 250 V, 12 A CR-M012DC2L 1SVR405611R4100 10 0.033  (0.073) 24 V DC CR-M024DC2L 1SVR405611R1100 48 V DC CR-M048DC2L 1SVR405611R6100 60 V DC CR-M060DC2L 1SVR405611R4300 110 V DC CR-M110DC2L 1SVR405611R8100 125 V DC CR-M125DC2L 1SVR405611R8300 220 V DC CR-M220DC2L 1SVR405611R9100 24 V AC CR-M024AC2L 1SVR405611R0100 48 V AC CR-M048AC2L 1SVR405611R5100 110 V AC CR-M110AC2L 1SVR405611R7100 120 V AC CR-M120AC2L 1SVR405611R2100 230 V AC CR-M230AC2L 1SVR405611R3100 12 V DC 3 c/o (SPDT) with LED 250 V, 10 A CR-M012DC3L 1SVR405612R4100 10 0.033  (0.073) 24 V DC CR-M024DC3L 1SVR405612R1100 48 V DC CR-M048DC3L 1SVR405612R6100 60 V DC CR-M060DC3L 1SVR405612R4300 110 V DC CR-M110DC3L 1SVR405612R8100 125 V DC CR-M125DC3L 1SVR405612R8300 220 V DC CR-M220DC3L 1SVR405612R9100 24 V AC CR-M024AC3L 1SVR405612R0100 48 V AC CR-M048AC3L 1SVR405612R5100 110 V AC CR-M110AC3L 1SVR405612R7100 120 V AC CR-M120AC3L 1SVR405612R2100 230 V AC CR-M230AC3L 1SVR405612R3100 12 V DC 4 c/o (SPDT) with LED 250 V, 6 A CR-M012DC4L 1SVR405613R4100 10 0.033  (0.073) 24 V DC CR-M024DC4L 1SVR405613R1100 48 V DC CR-M048DC4L 1SVR405613R6100 60 V DC CR-M060DC4L 1SVR405613R4300 110 V DC CR-M110DC4L 1SVR405613R8100 125 V DC CR-M125DC4L 1SVR405613R8300 220 V DC CR-M220DC4L 1SVR405613R9100 24 V AC CR-M024AC4L 1SVR405613R0100 48 V AC CR-M048AC4L 1SVR405613R5100 110 V AC CR-M110AC4L 1SVR405613R7100 120 V AC CR-M120AC4L 1SVR405613R2100 230 V AC2 CR-M230AC4L 1SVR405613R3100 24 V DC 4 c/o (SPDT), LED and free-wheeling diode 250 V, 6 A CR-M024DC4LD 1SVR405614R1100 10 0.033  (0.073) 24 V DC 4 c/o (SPDT), gold contacts 250 V, 6 A CR-M024DC4G 1SVR405618R1000 10 0.033  (0.073) 24 V AC CR-M024AC4G 1SVR405618R0000 110 V AC CR-M110AC4G 1SVR405618R7000 230 V AC CR-M230AC4G 1SVR405618R3000 CR-M 2CDC 291 046 F0004 Bold printed products = stocked products 2CDC110004C0209.pdf   366 11/26/2013   4:52:08 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/10  5 Pluggable interface relays Ordering details CR-M 2CDC 291 046 F0004 Rated control supply voltage Outputs Contact ratings Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  12 V DC 4 c/o (SPDT) with gold contacts and LED 250 V / 6 A CR-M012DC4LG 1SVR405618R4100 10 0.033  (0.073) 24 V DC CR-M024DC4LG 1SVR405618R1100 48 V DC CR-M048DC4LG 1SVR405618R6100 60 V DC CR-M060DC4LG 1SVR405618R4300 110 V DC CR-M110DC4LG 1SVR405618R8100 125 V DC CR-M125DC4LG 1SVR405618R8300 220 V DC CR-M220DC4LG 1SVR405618R9100 24 V AC CR-M024AC4LG 1SVR405618R0100 10 0.033  (0.073) 48 V AC CR-M048AC4LG 1SVR405618R5100 110 V AC CR-M110AC4LG 1SVR405618R7100 120 V AC CR-M120AC4LG 1SVR405618R2100 230 V AC CR-M230AC4LG 1SVR405618R3100 12 V DC 4 c/o (SPDT)with gold contacts, LED and free-wheeling diode CR-M012DC4LDG 1SVR405618R4400 10 0.033  (0.073) 24 V DC CR-M024DC4LDG 1SVR405618R1400 Ordering details - Accessories Version Connection terminal Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  Logical socket for 2 c/o screw CR-M2LS 1SVR405651R1100 10 0.055 (0.121) Logical socket for 3 c/o CR-M3LS 1SVR405651R2100 0.062 (0.137) Logical socket for 2/4 c/o CR-M4LS 1SVR405651R3100 0.066 (0.146) Logical socket for 2 c/o spring  CR-M2LC 1SVR405651R1200 10 0.065 (0.143) Logical socket for 2/4 c/o CR-M4LC 1SVR405651R3200 0.066 (0.146) Standard socket for 2 c/o screw CR-M2SS 1SVR405651R1000 10 0.066 (0.146) Standard socket for 3 c/o CR-M3SS 1SVR405651R2000 0.068 (0.150) Standard socket for 2/4 c/o CR-M4SS 1SVR405651R3000 0.070 (0.154) Standard socket for 2 c/o fork type CR-M2SF 1SVR405651R1300 10 0.040 (0.088) Standard socket for 2/4 c/o CR-M4SF 1SVR405651R3300 0.048 (0.106) Plastic holder CR-MH 1SVR405659R1000 10 0.003 (0.007) Metal holder CR-MH1 1SVR405659R1100 10 0.0005 (0.001) Jumper bar for sockets with screw connection CR-MJ 1SVR405658R6000 10 0.029 (0.064) Marker CR-MM 1SVR405658R1000 10 0.0005 (0.001) 2CDC 291 009 F0011 CR-M4SS CR-MJ Bold printed products = stocked products 2CDC110004C0209.pdf   367 11/26/2013   4:52:08 PM

5/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable interface relays Ordering details Ordering details - CR-P/M range  (all products stocked) Rated control supply voltage Description Version Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  6-220 V DC Diode - Reverse polarity protection/free wheeling diode A1+, A2- CR-P/M 22 1SVR405651R0000 10 0.003 (0.007) 6-24 V DC Diode and LED - Rever-se polarity protection/free wheeling diode red, A1+, A2- CR-P/M 42 1SVR405652R0000 10 0.003 (0.007) green, A1+, A2- CR-P/M 42V 1SVR405652R1000 24-60 V DC red, A1+, A2- CR-P/M 42B 1SVR405652R4000 green, A1+, A2- CR-P/M 42BV 1SVR405652R4100 110 V DC red, A1+, A2- CR-P/M 42C 1SVR405652R9000 green, A1+, A2- CR-P/M 42CV 1SVR405652R9100 6-24 V AC Spark quen-ching CR-P/M 52B 1SVR405653R0000 10 0.003 (0.007) 24-60 V AC CR-P/M 52D 1SVR405653R4000 110-230  V AC/DC CR-P/M 52C 1SVR405653R1000 6-24 V AC/DC Diode, LED and reverse polarity protection red, for DC A1+, A2- CR-P/M 62 1SVR405654R0000 10 0.003 (0.007) green, for DC A1+, A2- CR-P/M 62V 1SVR405654R1000 24-60 V AC/DC red, for DC A1+, A2- CR-P/M 62E 1SVR405654R4000 green, for DC A1+, A2- CR-P/M 62EV 1SVR405654R4100 110 V DC 110-230 V AC  red, for DC A1+, A2- CR-P/M 92 1SVR405654R0100 green, for DC A1+, A2- CR-P/M 92V 1SVR405654R1100 6-24 V AC/DC Varistor and LED Overvoltage protection red, for DC A1+, A2- CR-P/M 62C 1SVR405655R0000 10 0.003 (0.007) green, for DC A1+, A2- CR-P/M 62CV 1SVR405655R1000 24-60 V AC/DC red, for DC A1+, A2- CR-P/M 62D 1SVR405655R4000 green, for DC A1+, A2- CR-P/M 62DV 1SVR405655R4100 110 V DC 110-230 V AC  red, for DC A1+, A2- CR-P/M 92C 1SVR405655R0100 green, for DC A1+, A2- CR-P/M 92CV 1SVR405655R1100 24 V AC Overvoltage protection CR-P/M 72 1SVR405656R0000 10 0.002 (0.004) 115 V AC CR-P/M 72A 1SVR405656R1000 230 V AC CR-P/M 82 1SVR405656R2000 Connection diagrams 2CDC 292 013 F0005 CR-P/M 22 2CDC 292 014 F0005 CR-P/M 42,  CR-P/M 42B,   CR-P/M 42C,  CR-P/M 42V,   CR-P/M 42BV,  CR-P/M 42CV 2CDC 292 015 F0005 CR-P/M 52B,  CR-P/M 52C  CR-P/M 52D, 2CDC 292 016 F0005 CR-P/M 62,  CR-P/M 62E,  CR-P/M 92,  CR-P/M 62V,   CR-P/M 62EV,  CR-P/M 92V 2CDC 292 017 F0005 CR-P/M 62C,  CR-P/M 62D,  CR-P/M 92C,  CR-P/M 62CV,  CR-P/M 62DV  CR-P/M 92CV 2CDC 292 018 F0005 CR-P/M 72,   CR-P/M 82  CR-P/M 72A,  CR-P/M ... 2CDC 291 005 S0011  2CDC110004C0209.pdf   368 11/26/2013   4:52:09 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/12  5 Pluggable interface relays Ordering details Description Interface relays are widely used in various industrial applications: As an interface they link the electronic controlling, e.g. PLC (programmable logic controller),  PC or field bus systems, to the sensor / actuator level. Here, they take on various functions:   Switching of AC or DC loads with different resistive, inductive and capacitive parts, switching  voltages from a few mV up to 250 V, switching currents from a few mA up to 16 A, amplifica- tion of weak control signals, electrical isolation of control and load circuits, and signal multi- plying. In contrast to electronic switching devices, interface relays don’t use additional internal  protective circuits and thus are overload-proof against short-time variations like current or  voltage peaks. Ordering details - CR-U range Rated control supply voltage Outputs Contact ratings Type Order  code Price Pkg  qty Weight(1 pce)kg (lb)  12 V DC 2 c/o  without LED 250 V, 10 A CR-U012DC2 1SVR405621R4000   10 0.083  (0.183) 24 V DC CR-U024DC2 1SVR405621R1000 48 V DC CR-U048DC2 1SVR405621R6000 110 V DC CR-U110DC2 1SVR405621R8000 220 V DC CR-U220DC2 1SVR405621R9000 24 V AC CR-U024AC2 1SVR405621R0000 48 V AC CR-U048AC2 1SVR405621R5000 110 V AC CR-U110AC2 1SVR405621R7000 120 V AC CR-U120AC2 1SVR405621R2000 230 V AC CR-U230AC2 1SVR405621R3000 12 V DC 3 c/o  without LED 250 V, 10 A CR-U012DC3 1SVR405622R4000 10 0.083  (0.183) 24 V DC CR-U024DC3 1SVR405622R1000 48 V DC CR-U048DC3 1SVR405622R6000 110 V DC CR-U110DC3 1SVR405622R8000 125 V DC CR-U125DC3 1SVR405622R8200 220 V DC CR-U220DC3 1SVR405622R9000 24 V AC CR-U024AC3 1SVR405622R0000 48 V AC CR-U048AC3 1SVR405622R5000 60 V AC CR-U060AC3 1SVR405622R5200 110 V AC CR-U110AC3 1SVR405622R7000 120 V AC CR-U120AC3 1SVR405622R2000 230 V AC  CR-U230AC3 1SVR405622R3000 12 V DC 2 c/o  with LED 250 V, 10 A CR-U012DC2L 1SVR405621R4100 10 0.083  (0.183) 24 V DC CR-U024DC2L 1SVR405621R1100 48 V DC CR-U048DC2L 1SVR405621R6100 110 V DC CR-U110DC2L 1SVR405621R8100 220 V DC CR-U220DC2L 1SVR405621R9100 24 V AC CR-U024AC2L 1SVR405621R0100 48 V AC CR-U048AC2L 1SVR405621R5100 110 V AC CR-U110AC2L 1SVR405621R7100 120 V AC CR-U120AC2L 1SVR405621R2100 230 V AC CR-U230AC2L 1SVR405621R3100 12 V DC 3 c/o  with LED 250 V, 10 A CR-U012DC3L 1SVR405622R4100 10 0.083  (0.183) 24 V DC CR-U024DC3L 1SVR405622R1100 48 V DC CR-U048DC3L 1SVR405622R6100 110 V DC CR-U110DC3L 1SVR405622R8100 220 V DC CR-U220DC3L 1SVR405622R9100 24 V AC CR-U024AC3L 1SVR405622R0100 48 V AC CR-U048AC3L 1SVR405622R5100 110 V AC CR-U110AC3L 1SVR405622R7100 120 V AC CR-U120AC3L 1SVR405622R2100 230 V AC CR-U230AC3L 1SVR405622R3100 CR-U CR-U2S 2CDC 291 047 F0004 2CDC 291 007 S0011 Ordering details - Accessories Version Type Order  code Price Pkg  qty Weight(1 pce)kg (lb)  Socket for 2 c/o and module CR-U2S 1SVR405670R0000 10 Socket for 3 c/o and module CR-U3S 1SVR405660R0000 Socket for 3 c/o CR-U3E 1SVR405660R0100 Socket small for 2 c/o CR-U2SM 1SVR405670R1100 Socket small for 3 c/o CR-U3SM 1SVR405660R1100 Holder for CR-U socket CR-UH 1SVR405669R0000 Bold printed products = stocked products 2CDC110004C0209.pdf   369 11/26/2013   4:52:09 PM

5/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Ordering details - CR-U range  (all products stocked) Rated control supply voltage Description Version Type Order  code Price Pkg  qty Weight(1 pce) kg (lb)  6-220 V DC Diode - Reverse polarity protection/free wheeling diode A1+, A2- CR-U 21 1SVR405661R0000 10 0.007 (0.015) 6-24 V DC Diode and LED - Rever-se polarity protection/free wheeling diode red, A1+, A2- CR-U 41 1SVR405662R0000 10 0.007 (0.015) green, A1+, A2- CR-U 41V 1SVR405662R1000 24-60 V DC red, A1+, A2- CR-U 41B 1SVR405662R4000 green, A1+, A2- CR-U 41BV 1SVR405662R4100 110 V DC red, A1+, A2- CR-U 41C 1SVR405662R9000 green, A1+, A2- CR-U 41CV 1SVR405662R9100 6-24 V AC/DC Spark quen-ching CR-U 51B 1SVR405663R0000 10 0.007 (0.015) 24-60 V AC/DC CR-U 51D 1SVR405663R4000 110-230  V AC/DC CR-U 51C 1SVR405663R1000 6-24 V AC/DC Diode and LED red, for DC A1+, A2- CR-U 61 1SVR405664R0000 10 0.007 (0.015) green, for DC A1+, A2- CR-U 61V 1SVR405664R1000 24-60 V AC/DC red, for DC A1+, A2- CR-U 61E 1SVR405664R4000 green, for DC A1+, A2- CR-U 61EV 1SVR405664R4100 110 V DC 110-230 V AC  red, for DC A1+, A2- CR-U 91 1SVR405664R0100 green, for DC A1+, A2- CR-U 91V 1SVR405664R1100 6-24 V AC/DC Varistor and LED Overvoltage protection red, for DC A1+, A2- CR-U 61C 1SVR405665R0000 10 0.007 (0.015) green, for DC A1+, A2- CR-U 61CV 1SVR405665R1000 24-60 V AC/DC red, for DC A1+, A2- CR-U 61D 1SVR405665R4000 green, for DC A1+, A2- CR-U 61DV 1SVR405665R4100 110 V DC 110-230 V AC  red, for DC A1+, A2- CR-U 91C 1SVR405665R0100 green, for DC A1+, A2- CR-U 91CV 1SVR405665R1100 24 V AC Overvoltage protection, varistor CR-U 71 1SVR405666R0000 10 0.007 (0.015) 115 V AC CR-U 71A 1SVR405666R1000 230 V AC CR-U 81 1SVR405666R2000 24-240  V AC/DC Multifunction time module pluggable onto CR-U2S and CR-U3S CR-U T 1SVR405667R0000 10 0.014 (0.031) CR-U... 2CDC 291 004 S0011  2CDC 291 032 F0005  Pluggable interface relays Ordering details CR-U T Connection diagrams 2CDC 292 013 F0005 CR-U 21 2CDC 292 014 F0005 CR-U 41,   CR-U 41B,   CR-U 41C,  CR-U 41V,   CR-U 41BV,  CR-U 41CV 2CDC 292 015 F0005 CR-U 51B,  CR-U 51C  CR-U 51D, 2CDC 292 016 F0005 CR-U 61,   CR-U 61E,  CR-U 91,  CR-U 61V,   CR-U 61EV,  CR-U 91V 2CDC 292 017 F0005 CR-U 61C,  CR-U 61D,  CR-U 91C, CR-U 61CV,  CR-U 61DV  CR-U 91CV 2CDC 292 018 F0005 CR-U 71,   CR-U 81  CR-U  71A,  All CR-U modules can be plugged onto sockets CR-U2S and CR-U3S. 2CDC110004C0209.pdf   370 11/26/2013   4:52:09 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/14  5 Pluggable interface relays Technical data Input circuit - coil data Rated  control supply voltage U S Rated frequency Make voltage (at 20 °C) Maximum voltage (at 55 °C) Break voltage Rated power Coil resistance (at 20 °C) Tolerance of coil resistance DC coils   12 V DC -     8.4 V DC   30.6 V DC ͧ 0.1 U S 0.4-0.48 W   360  ⏲ Ȁ 10%   24 V DC -   16.8 V DC   61.2 V DC ͧ 0.1 U S 0.4-0.48 W  1440  ⏲ Ȁ 10%   48 V DC -   33.6 V DC 122.4 V DC ͧ 0.1 U S 0.4-0.48 W  5700  ⏲ Ȁ 10% 110 V DC -   77 V DC 280 V DC ͧ 0.1 U S 0.4-0.48 W 25200  ⏲ Ȁ 10% AC coils   24 V AC 50 / 60 Hz   19.2 V AC   28.8 V AC ͧ 0.15 U S 0.75 VA   400  ⏲ Ȁ 10%   48 V AC 50 / 60 Hz   38.4 V AC   57.6 V AC ͧ 0.15 U S 0.75 VA  1550  ⏲ Ȁ 10% 110 V AC 50 / 60 Hz   88 V AC 132 V AC ͧ 0.15 U S 0.75 VA  8900  ⏲ Ȁ 10% 120 V AC 50 / 60 Hz   96 V AC 144 V AC ͧ 0.15 U S 0.75 VA 10200  ⏲ Ȁ 10% 230 V AC 50 / 60 Hz 184 V AC 276 V AC ͧ 0.15 U S 0.75 VA 38500  ⏲ Ȁ 10% CR-P range CR-M range Rated  control supply voltage U S Rated frequency Make voltage (at 20 °C) Maximum voltage (at 55 °C) Break voltage Rated power Coil resistance (at 20 °C) Tolerance of coil resistance DC coils   12 V DC -     9.6 V DC   13.2 V DC ͧ 0.1 U S 0.9 W   160  ⏲ Ȁ 10%   24 V DC -   19.2 DC   26.4 V DC ͧ 0.1 U S 0.9 W   640  ⏲ Ȁ 10%   48 V DC -   38.4 V DC   52.8 V DC ͧ 0.1 U S 0.9 W  2600  ⏲ Ȁ 10%   60 V DC -   48.0 V DC   66.0 V DC ͧ 0.1 U S 0.9 W   4000  ⏲ Ȁ 10% 110 V DC -   88 V DC 121 V DC ͧ 0.1 U S 0.9 W 13600  ⏲ Ȁ 10% 125 V DC - 100 V DC 137,5 V DC ͧ 0.1 U S 0.9 W 16000  ⏲ Ȁ 10% 220 V DC - 176 V DC 242 V DC ͧ 0.1 U S 0.9 W 54000  ⏲ Ȁ 10% AC coils   24 V AC 50 / 60 Hz   19.2 V AC   26.4 V AC ͧ 0.2 U S 1.6 VA   158  ⏲ Ȁ 10%   48 V AC 50 / 60 Hz   38.4 V AC   52.8 V AC ͧ 0.2 U S 1.6 VA   640  ⏲ Ȁ 10% 60 V AC 50 / 60 Hz 48.0 V AC 66.0 V AC ͧ 0.2 U S 1.6 VA 930  ⏲ Ȁ 10% 110 V AC 50 / 60 Hz   88 V AC 121 V AC ͧ 0.2 U S 1.6 VA  3450  ⏲ Ȁ 10% 120 V AC 50 / 60 Hz   96 V AC 132 V AC ͧ 0.2 U S 1.6 VA  3770  ⏲ Ȁ 10% 230 V AC 50 / 60 Hz 184 V AC 253 V AC ͧ 0.2 U S 1.6 VA 16100  ⏲ Ȁ 10% Rated  control supply voltage U S Rated frequency Make voltage (at 20 °C) Maximum voltage (at 55 °C) Break voltage Rated power Coil resistance (at 20 °C) Tolerance of coil resistance DC coils 12 V DC - 9.6 V DC 13.2 V DC ͧ 0.1 U s 1.5 W   110  ⏲ Ȁ 10 % 24 V DC - 19.2 V DC 26.4 V DC ͧ 0.1 U s 1.5 W   430  ⏲ Ȁ 10 % 48 V DC - 38.4 V DC 52.8 V DC ͧ 0.1 U s 1.5 W  1750  ⏲ Ȁ 10 % 110 V DC - 88.0 V DC 121.0 V DC ͧ 0.1 U s 1.5 W  9200  ⏲ Ȁ 10 % 125 V DC - 96.0 V DC 132.0 V DC ͧ 0.1 U s 1.5 W 11000  ⏲ Ȁ 10 % 220 V DC - 176.0 V DC 242.0 V DC ͧ 0.1 U s 1.5 W 37000  ⏲ Ȁ 10 % AC coils 24 V AC 50 / 60 Hz 19.2 V AC 26.4 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)       75  ⏲ Ȁ 10 % 48 V AC 50 / 60 Hz 38.4 V AC 52.8 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)   305  ⏲ Ȁ 10 % 60 V AC 50 / 60 Hz 48.0 V AC 66.0 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)   475  ⏲ Ȁ 10 % 110 V AC 50 / 60 Hz 88.0 V AC 121.0 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)  1700  ⏲ Ȁ 10 % 120 V AC 50 / 60 Hz 96.0 V AC 132.0 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)  1910  ⏲ Ȁ 10 % 230 V AC 50 / 60 Hz 184.0 V AC 253.0 V AC ͧ 0.15 U s 2.8 VA (50 Hz)2.5 VA (60 Hz)  7080  ⏲ Ȁ 10 % CR-U range 2CDC110004C0209.pdf   371 11/26/2013   4:52:10 PM

5/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Type CR-P...1 CR-P...2 CR-M...2 CR-M...3 CR-M...4 CR-U...2 CR-U...3 Output circuit(s) 11-12/14 11-12/14 21-22/24 11-12/1421-22/24 11-12/1421-22/2431-32/34 11-12/1421-22/2431-32/3441-42/44 11-12/1431-32/34 11-12/1421-22/2431-32/34 Kind of output Relay, 1 c/o Relay, 2 c/o Relay, 2 c/o Relay, 3 c/o Relay, 4 c/o Relay, 2 c/o Relay, 3 c/o Contact material AgNi AgNi AgNi/Au 5 μm AgNi AgNi AgNi AgNi/Au 5 μm AgNi Rated operational voltage U e  (VDE 0110, IEC 60947-1) 250 V Minimum switching voltage 5 V 10 V 10 V 5 V 10 V Maximum switching voltage DC 300 V DC 250 V DC AC 440 V AC 250 V AC 440 V AC Minimum switching current 5 mA (AgNi) 2 mA  (AgNi/Au) 5 mA (AgNi) 5 mA (AgNi) 2 mA  (AgNi/Au) 5 mA Rated free air thermal current I th 16 A 8 A 12 A 10 A 6 A 10 A Rated  operational current  (IEC 60947-5-1) AC12 (resistive)  230 V 16 A 8 A 12 A 10 A 6 A 10 A AC15 (inductive)  230 V 1.5 A 1.5 A 1.5 A 1.5 A 1 A 1.5 A AC15 (inductive)  120 V 3 A DC12 (resistive)  24 V 16 A 8 A 12 A 10 A 6 A 10 A  DC13 (inductive)  24 V 2.5 A 2 A 2.5 A 2.5 A 2 A 2 A DC13 (inductive)  120 V 0.22 A DC13 (inductive)  250 V 0.1 A AC rating  (UL 508) Utilization category (pilot duty) (Contact rating code designation) B300 B300 - B300 max. rated operational voltage 300 V AC 300 V AC - 300 V AC Max. continuous thermal current at utilization category 5 A 5 A 5 A 2.5 A - 5 A Max. making / breaking apparent power at utilization category 3600 / 360 VA 3600 / 360 VA 1800 /  180 VA - 3600/360  VA Utilization category (resistive) (CSA22.2 No.14....) 16 A,  250 V AC 8 A,  250 V AC 10 A, 250 V AC12 A, 150 V AC 6 A, 250 V AC10 A, 150 V AC 5 A, 250 V AC10 A, 150 V AC 10 A, 250 V AC DC rating   (UL 508;  NEMA ICS-5) Utilization category (pilot duty) (Contact rating code designation) R300 Max. rated operational voltage 300 V DC Max. continuous thermal current at utilization category 1 A Max. making / breaking  apparent  power at utilization category 28 VA Utilization category (resistive) (CSA22.2 No.14....) - 10 A,  24 V DC - 10 A,  28 V DC Maximum making (inrush) current 30 A 24 A 20 A 12 A 20 A Minimum switching power 0.3 W (AgNi), 0.05 W (AgNi/Au) 0.3 W (AgNi), 0.1 W (AgNi/Au) 0.3 W Maximum switching (breaking) power AC1 (resistive) 4000 VA 2000 VA 3000 VA 2500 VA 1500 VA 2500 VA Contact resistance ͨ 100 m⏲ Maximum operating frequency rated load AC-1 600 switching cycles/h 1200 switching cycles/h without load 72000 switching cycles/h 18000 switching cycles/h 12000 switching cycles/h Mechanical lifetime 3 x 10 7  switching cycles  2 x 10 7  switching cycles  Electrical lifetime electrical AC1  (resistive) 0.7 x 10 5  switching cycles(16 A, 250 V) 10 5   switching cycles(8 A, 250 V) 10 5  switching cycles 10 5  switching cycles   (10 A, 250 V) (12 A, 250 V) (10 A, 250 V) (6 A, 250 V) cos  M see reduction factor F Response time typ. 7 ms typ. 13 ms (DC),10 ms (AC) typ. 18 ms (DC), 12 ms (AC) Release time typ. 3 ms typ. 3 ms (DC), 8 ms (AC) typ. 7 ms (DC), 10 ms (AC) Isolation data Rated insulation voltage 400 V AC 250 V AC Insulation class C250 / B400 C250 / B250 C250 Rated impulse withstand  voltage U imp between coil and contacts 5 kV AC 2.5 kV AC between open contacts 1 kV AC 1.5 kV AC between c/o (SPDT) contacts - 2.5 kV AC 2.5 kV AC  ͧ 2 kV AC 2 kV AC Pluggable interface relays Technical data Those ratings are based on different type tests but they are not covered by the cULus or CSA approvals. 2CDC110004C0209.pdf   372 11/26/2013   4:52:10 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/16  5 Type CR-P...1 CR-P...2 CR-M...2 CR-M...3 CR-M...4 CR-U...2 CR-U...3 Clearance  between coil and  contacts ͧ 10 mm ͧ 2.5 mm ͧ 1.6 mm ͧ 3 mm Creepage distance  between coil and  contacts ͧ 10 mm ͧ 4 mm ͧ 3.2 mm ͧ 4.2 mm Overvoltage category III III II III Pollution degree 3 3 2 3 General data Dimensions (W x H x D) when mounted 12.7 x 29 x 15.7 mm 21.2 x 27.5 x 35.6 mm 35 x 35 x 54.4 mm Weight 14 g (0.031 lb) 35 g (0.077 lb) 83 g  (0.18 lb) Mounting on socket (see accessories) Mounting position any Degree of protection IP 67 IP 40 Electrical connection Connection by socket Environmental data Ambient temperature range operation DC: -40...+85 °;  AC: -40...+70 °C DC: -40...+70 °; AC: -40...+55 °C storage -40 ... +85 °C Vibration resistance 10-150 Hz n/o contact 10 g 5 g 5 g n/c contact 10 g 5 g 5 g 5 g Shock resistance  n/o contact 30 g 20 g 10 g 10 g n/c contact 30 g 20 g 5 g 10 g Standards Product standard EN 61810-1, EN 60255-23IEC 60664-1 EN 60810-1, EN 60255-23, IEC 61810-7 EN 60255-1-00 Low Voltage Directive 2006/95/EC Load limit curves - Maximum switching power at resistive DC load CR-P with 1 c/o contact CR-P with 2 c/o contacts CR-U with 2 and 3 c/o contacts CR-M with 2 c/o contacts CR-M with 3 c/o contacts CR-M with 4 c/o contacts 2CDC 292 005 F0204 DC curr ent [A]  DC voltage [V]  2CDC 292 010 F0204 DC curr ent [A]  DC voltage [V]  1 = resistive load, T = 0 ms  2 = inductive load, T = 40 ms  2CDC 292 028 F0204  DC voltage [V]  DC curr ent [A]  2CDC 292 015 F0204 DC curr ent [A]  DC voltage [V]  1 = resistive load, T = 0 ms  2 = inductive load, T = 40 ms  2CDC 292 019 F0204  DC voltage [V]  DC curr ent [A]  2CDC 292 023 F0204  DC voltage [V]  DC curr ent [A]  Pluggable interface relays Technical data, Load limit curves Approvals see page 5/6. 2CDC110004C0209.pdf   373 11/26/2013   4:52:10 PM

5/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Load limit curves - Electrical lifetime at resistive AC load CR-P with 1 c/o contact CR-P with 2 c/o contacts CR-U with 2 and 3 c/o contacts CR-M with 2 c/o contacts CR-M with 3 c/o contacts CR-M with 4 c/o contacts 2CDC 292 003 F0204 Switching cycles  Switching power [kVA]  2CDC 292 009 F0204 Switching cycles  Switching power [kVA]  2CDC 292 027 F0204 Switching cycles  Switching power [kVA]  2CDC 292 013 F0204 Switching cycles  Switching power [kVA]  2CDC 292 018 F0204 Switching cycles  Switching power [kVA]  2CDC 292 022 F0204 Switching cycles  Switching power [kVA]  Reduction factor F at inductive AC load 2CDC 292 004 F0204 Reduction factor  Power factor  2CDC 292 014 F0204 Reduction factor  Power factor  Power factor  Reduction factor  2CDC 292 029 F0204  CR-P CR-M CR-U Pluggable interface relays Load limit curves 2CDC110004C0209.pdf   374 11/26/2013   4:52:11 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/18  5 Connection diagrams Dimensional drawings  Dimensions in mm and inches CR-M with 2 c/o contacts CR-P with 1 c/o contact CR-M with 2 c/o contacts CR-M with 3 c/o contacts CR-U with 2 c/o contacts CR-P with 2 c/o contacts CR-M with 4 c/o contacts CR-U with 3 c/o contacts CR-U with 2 c/o contacts CR-P CR-M with 3 c/o contacts CR-U with 3 c/o contacts 2CDC 292 001 F0004 2CDC 292 008 F0004 2CDC 292 002 F0004 2CDC 292 011 F0004 2CDC 292 016 F0004 2CDC 292 020 F0004 2CDC 292 012 F0004 2CDC 292 017 F0004 2CDC 292 021 F0004 2CDC 292 024 F0004 2CDC 292 030 F0004 2CDC 292 025 F0004 2CDC 292 026 F0004 Pluggable interface relays Connection diagrams 2CDC110004C0209.pdf   375 11/26/2013   4:52:11 PM

5/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Pluggable interface relays Connection diagrams Dimensional drawings  Dimensions in mm and inches Sockets for screw connection Holder Pluggable func-tion module Relay 2CDC 292 081 F0004 CR-PLS CR-PLSx CR-PSS CR-U2S - CR-U3S CR-M2SS - CR-M3SS - CR-M4SS 20.32 5.08 5.08 15.5 7.62 29.4 3.2 78.5 24 50 62 61 42.5 CR-M2LS - CR-M3LS - CR-M4LS CR-U3E 2CDC 292 033 F0004 CR-U2SM 2CDC 292 002 F0005 CR-U3SM 9 - M3 12 - M3 37,3 38,1 29,8 29,8 4 75,3 75,3 35,4 CR-U2S CR-U3S 62 51,2 29 15,8 7,5 76 20 10 Marker Relay  Holder  Pluggable  function module                      42.8 15,8 24 76 10 20 Marker  Holder Relay Pluggable function module            27,2 27,2 27,2 75,2 35,4 24 42,6 Marker  Relay Holder Pluggable function module 2CDC 292 008 F0011 29,1 24 42,6 75 60,8 27,2 27,2 27,2 75 35,4 Marker  Relay Holder Pluggablefunction module CR-M2LS CR-M3LS CR-M4LS 2CDC 292 006 F0211 2CDC 292 007 F0211 2CDC 292 004 F0211 2CDC 292 003 F0211 11 - M3 27,8 38,1 26 61,8 4 35,4 27,8 38,1 CR-U2SM CR-U3SM 8 - M3 61,8 2CDC 292 009 F0011 2CDC110004C0209.pdf   376 11/26/2013   4:52:11 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/20  5 Pluggable interface relays Connection diagrams Dimensional drawings  Dimensions in mm and inches Sockets for spring connection Jumper 31 27 26 79,5 42,5 33,2 24 12,4 12,4 15 95 5,5 2CDC 292 006 F0005 CR-PLC CR-M2LC , CR-M4LC CR-PJ CR-MJ 7,62  97,5 25,9  20,32  5,08  5,08  24,4 16,3 33,8 43,5 34,4 246.8 1 9,5 10 R1 9 x 27.2 (=244,8) 27.2  ±0.2 6 ±0,2 2 ±0,2 1,5 10 10 R1 2 ±0,2 15,5 ±0,2 9x15 (=139,5) 141,5 +1 6 ±0,2 2CDC 292 010 F0011 2CDC 292 011 F0011 2CDC 292 012 F0011 2CDC110004C0209.pdf   377 11/26/2013   4:52:12 PM

5/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays and optocouplers R500 / R600 range Product group picture 2CDC110004C0209.pdf   378 11/26/2013   4:52:12 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/22  5 Interface relays and optocouplers R500 / R600 range Table of contents Interface relays and optocouplers R500/R600 range Table of contents   5/22 Benefits and advantages   5/23 Type designators   5/24 Interface relays and optocouplers R500 range   5/25 Table of contents   5/26 Interface relays R500 range   5/27 Table of contents   5/28 Selection   5/29 Ordering details   5/30 Technical information   5/31 Notes   5/32 Optocouplers R500 range   5/33 Table of contents   5/34 Selection   5/35 Ordering details   5/36 Connection diagrams   5/37 Technical data   5/38 Interface relays and optocouplers R600 range   5/45 Table of contents   5/46 Interface relays R600 range   5/47 Table of contents   5/48 Benefits and advantages   5/49 Selection   5/51 Ordering details   5/53 Connection diagrams   5/55 Technical data   5/56 General technical data   5/61 Dimensional drawings, Load limit curves   5/62 Optocouplers R600 range   5/63 Table of contents   5/64 Selection   5/65 Ordering details   5/67 Connection diagrams   5/68 Technical data   5/69 2CDC110004C0209.pdf   379 11/26/2013   4:52:14 PM

5/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays and optocouplers R500 / R600 range Benefits and advantages In today’s automation systems, PLCs are the core of industry. They link sensors and actuators to the process, which are connected to the PLC via conventional wires.However these PLCs are not completely isolated from the industrial environment, hence over voltage picks and transient currents can affect their opera-ting functions. And additionally, their application field is often limited to 24 VDC / 100 mA.So, with the aim to adapt application voltage and/or current and provide as well the right electrical isolation to the PLC, it is recommended to install per I/O the right interface providing both voltage-current level adaptation and isolation protection.This interfacing is possible thanks to ABB’s relays and optocouplers ranges, which offer wide adaptation in both voltage (from 5 to 400 V) and current (from 10-7 to 16 A) as well as high isolation between input and output from 2 to 4 KV. R500 series It is our range offering pluggable functions   ½   Spacing : 5.08 mm (the smallest in the market)   ½   Wire size : 2.5 mm² (4 mm² solid)   ½   Contact type : 1 SPDT from 10 mA to 6 A / 250 V R600 series Standard range in screw clamp or spring clamp versions   ½   Spacing : 6 mm or 12 mm   ½   Wire size : 2.5 mm² (4 mm² solid wire)   ½   Contact type : 1 NO, 1 NC, 1 SPDT, 1 DPDT from  1 mA to 8 A / 250 V 2CDC 291 002 F0013  2CDC 291 024 F0013  2CDC110004C0209.pdf   380 11/26/2013   4:52:14 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/24  5 Interface relays and optocouplers R500 / R600 range Type designators   SERIES  CODE  NB OF RELAYS  CONTACT TYPE  NB OF CONTACTS  PARTICULARITIES         PER  RELAY  R  600     R     B        R 600  R     B     R                   R 500    D   2,5/5   R                        0   None        1 1 1 A       2  2  B              R              I Description of contact types 0  1 Normally Closed  1 NC     1   1 Normally Open  1 NO         2   1 Change Over or Single Pole Double Through Features None  Input voltage  DC  A  Input  voltage  AC/DC       R     RC circuit protection :       - Input protection against leakage current    - Increases relay contacts life I  Switch to force the coil for maintenance and/or installation     purposes A1 A3 Auto off Manu 2CDC110004C0209.pdf   381 11/26/2013   4:52:14 PM

5/25   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays and optocouplers R500 range Product group picture 2CDC110004C0209.pdf   382 11/26/2013   4:52:14 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/26  5 Interface relays and optocouplers R500 range Table of contents Interface relays and optocouplers R500 range Product group picture   5/25 Table of contents   5/26 Interface relays R500 range   5/27 Product group picture   5/27 Table of contents   5/28 Selection   5/29 Ordering details   5/30 Technical information   5/31 Optocouplers R500 range   5/33 Product group picture   5/33 Table of contents   5/34 Selection   5/35 Ordering details   5/36 Connection diagrams   5/37 Technical data   5/38 2CDC110004C0209.pdf   383 11/26/2013   4:52:16 PM

5/27   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R500 range Product group picture 2CDC110004C0209.pdf   384 11/26/2013   4:52:16 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/28  5 Interface relays R500 range Table of contents Interface relays R500 range Table of contents   5/28 Selection   5/29 Ordering details   5/30 Technical information   5/31 Notes   5/32 2CDC110004C0209.pdf   385 11/26/2013   4:52:16 PM

5/29   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R500 range Selection Or der number 1SNA 645 047 R0000   1SNA 645 547 R0200 1SNA 645 021 R2600 1SNA 645 521 R2000 1SNA 645 049 R1200 1SNA 645 549 R1400 T ype D 2,5/5-R121-24VDC D 2,5/5-R121L-24VDC D 2,5/5-R121AL-24V AC/DC D 2,5/5-R121AL-48V AC/DC D 2,5/5-R121BL-110V AC D 2,5/5-R121BL-230V AC Input voltage 24 V DC 48 V DC 24 V AC 48 V AC 110 V AC 230 V AC Output rating 10 mA - 6 A Output contacts c/o Type with LED without LED 1 1 1 1 1 1 R500 series Characteristics   ½   Spacing : 5.08 mm (the smallest in the market)   ½   Wire size : 2.5 mm² (4 mm² solid)   ½   Contact type : 1 SPDT from 10 mA to 6 A / 250 V 2CDC 291 015 F0011  2CDC110004C0209.pdf   386 11/26/2013   4:52:16 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/30  5 Interface relays R500 range Ordering details Description of R500 Relay  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb)  Relay module 1 SPDT high level D 2,5/5-R121-24VDC 1SNA607217R0200 10 0.032 (0.071) Relay module with LED 1 SPDT high level D 2,5/5-R121L-24VDC 1SNA607201R1300 D 2,5/5-R121AL-24VAC/DC 1SNA607231R0000 0.04 (0.088) D 2,5/5-R121AL-48VAC/DC 1SNA607232R0100 D 2,5/5-R121BL-110VAC 1SNA607264R1100 D 2,5/5-R121BL-230VAC 1SNA607265R1200 R500 Accessories  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) High end stop BAMH 9,1  mm 1SNA114836R0000 50 BAMH V0  9,1 mm 1SNA194836R0100 BADH 12  mm 1SNA116900R2700 Comb type jumper bar 2 to 22 poles consult us Jumper bar 10 poles  grey  PCMS V0 1SNA205523R2200 8 Relay / Opto base  D 2,5/5-MP 1SNA607224R0100 10 0.028 (0.062) Relay / Opto base with LED 24 VDC  D 2,5/5-MP-24VDC 1SNA607222R0700 Relay / Opto base with LED 24 VAC/VDC D 2,5/5-MP-24VAC/DC 1SNA607260R2100 0.036 (0.0794) Relay / Opto base with LED 48 VAC/VDC D 2,5/5-MP-48VAC/DC 1SNA607261R1600  Relay / Opto base with LED 110 VAC  D 2,5/5-MP-110VAC 1SNA607266R1300  Relay / Opto base with LED 230 VAC D 2,5/5-MP-230VAC 1SNA607267R1400 Plug relay 24 V 1 SPDT 10 mA to 6 A BNMS R24V-1 1SNA031820R1400 Plug relay 24 V 1 SPDT 1 mA to 6 A BNMS R24V-2 1SNA031847R1300 4 Test device blue  DCB  1) 1SNA105028R2100 Test plug DIA. 2 mm FC2 1SNA007865R2600 10 Marking method RC55 see marking R500 D 2,5/5-R121AL-24V D 2,5/5-R121AL-48V D 2,5/5-R121BL D 2,5/5-R121 D 2,5/5-R121L BAMH BADH PCMS BNMS R24V-... DCB FC2 D2,5/5-MP... 1)  Only on top decks Connection diagrams 2CDC 291 015 F0011  2CDC110004C0209.pdf   387 11/26/2013   4:52:17 PM

5/31   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R500 range Technical information Technical data  Relay : 1 SPDT high level with contact 10 mA to 6 A - 5.08mm 0.200“ spacing    D 2.5/5-R121 D 2.5/5-R121L D 2.5/5-R121AL D 2.5/5-R121BL Relay characteristics coil Rated voltage: +20%, -15% on DC ; 10%, -10% on AC 24 V DC 24 V DC 24 V AC 24 V DC 48 V AC 48 V DC 110 V AC 230 V AC Frequency 50/60 Hz 50/60 Hz 50/60 Hz 50/60 Hz Power 0.17 W 0.3 W 0.35 W 0.35 W 0.44 W 0.47 W 1.08 W 2.13 W Rated current 7 mA 12 mA 12.4 mA 10 mA 7.6 mA 6.8 mA 8.4 mA 8 mA Drop-out voltage at 20°C 2.4 V 2.4 V 4.8 V 4.8 V 10 V 10 V 25 V 45 V Status device green LED Relay characteristics contact Type 1 SPDT Voltage switching range min./max. 12 V / 250 V AC Current switching range min./max. 10 mA / 6 A Load switching range AC1 min./max. 0.6 VA / 1500 VA (ohmic load) DC1 min./max. 0.6 W / 140 W Number of on-load operations 10 5  on AC15 Number of off-load operations 10 x 10 7 Operation speed F 5 ms 5 ms 5 ms 5 ms 5 ms 5 ms 6 ms 7 ms O 8 ms 8 ms 15 ms 15 ms 15 ms 15 ms 15 ms 15 ms Insulation coil / contact 4000 V RMS Resistance to shock coil / contact 4000 V RMS Insulation contact / contact 1000 V RMS Ambient temperature storage -40 °C to -80 °C operating See derating curves Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 10 mm (0.394 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending) ,  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. Dimensional drawings D 2,5/5-R121 1 : 24 V   2 : 48 V   3 : 110 V   4 : 230 V Current (Acc) V o ltage (Vcc)      DC12 AC12 DC13 AC15   24 V  6 A  6 A  1 A  3 A  110/120 V  0,3 A  6 A  0,2 A  3 A  220/230 V  0,2 A  6 A  0,1 A  3 A 2CDC110004C0209.pdf   388 11/26/2013   4:52:17 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/32  5 Interface relays R500 range Notes 2CDC110004C0209.pdf   389 11/26/2013   4:52:17 PM

5/33   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R500 range Product group picture 2CDC110004C0209.pdf   390 11/26/2013   4:52:18 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/34  5 Optocouplers R500 range Table of contents Optocouplers R500 range Product group picture   5/33 Table of contents   5/34 Selection   5/35 Ordering details   5/36 Connection diagrams   5/37 Technical data   5/38 Notes   5/44 2CDC110004C0209.pdf   391 11/26/2013   4:52:18 PM

5/35   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R500 range Selection Or der number 1SNA 607 274 R1300 1SNA 607 210 R1700 1SNA 607 211 R0400 1SNA 607 275 R1400 1SNA 607 212 R0500 1SNA 607 213 R0600 1SNA 607 214 R0700 1SNA 607 215 R0000 1SNA 607 203 R1500 1SNA 607 204 R1600 1SNA 607 205 R1700 1SNA 607 206 R1000 1SNA 607 207 R1100 1SNA 607 250 R2700 1SNA 607 251 R1400 1SNA 607 270 R2300 1SNA 607 271 R1000 1SNA 607 208 R2200 1SNA 607 209 R2300 1SNA 607 255 R1000 1SNA 607 256 R1100 1SNA 607 272 R1100 1SNA 607 273 R1200 1SNA 607 238 R1700 1SNA 607 240 R2500 1SNA 607 241 R1200 1SNA 607 268 R2500 1SNA 607 269 R2600 T ype D 2,5/5-OBIC-0030-5VDC D 2,5/5-OBIC-0030-24VDC D 2,5/5-OBIC-0030-48VDC D 2,5/5-OBIC-0030-125VDC D 2,5/5-OBIA-0030-24V AC D 2,5/5-OBIA-0030-48V AC D 2,5/5-OBIA-0030-115V AC D 2,5/5-OBIA-0030-230V AC D 2,5/5-OBOC-0100-5VDC D 2,5/5-OBOC-0100-24VDC D 2,5/5-OBOC-0100-48VDC D 2,5/5-OBOC-1000-5VDC D 2,5/5-OBOC-1000-24VDC D 2,5/5-OBOC-1000-24V AC/DC D 2,5/5-OBOC-1000-48V AC/DC D 2,5/5-OBOC-1000-110V AC D 2,5/5-OBOC-1000-230V AC D 2,5/5-OBOC-2000-5VDC D 2,5/5-OBOC-2000-24VDC D 2,5/5-OBOC-2000-24V AC/DC D 2,5/5-OBOC-2000-48V AC/DC D 2,5/5-OBOC-2000-110V AC D 2,5/5-OBOC-2000-230V AC D 2,5/5-OBOA-1000-24VDC D 2,5/5-OBOA-1000-24V AC/DC D 2,5/5-OBOA-1000-48V AC/DC D 2,5/5-OBOA-1000-110V AC D 2,5/5-OBOA-1000-230V AC Input voltage 5 V DC 24 V DC 48 V DC 125 V DC 24 V AC 48 V AC 110 V AC 115 V AC 230 V AC Output rating 30 mA 100 mA 2 A 1 A Output voltage 30 V DC 58 V DC 253 V AC Type input optocoupler output optocoupler 2CDC110004C0209.pdf   392 11/26/2013   4:52:18 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/36  5 Optocouplers R500 range Ordering details Description of R600  Optocoupler  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) Optocoupler module 30 mA/DC Transistor D 2,5/5-OBIC-0030-5VDC 1SNA607274R1300 1 0.032 (0.071) D 2,5/5-OBIC-0030-24VDC 1SNA607210R1700 D 2,5/5-OBIC-0030-48VDC 1SNA607211R0400 D 2,5/5-OBIC-0030-125VDC 1SNA607275R1400 Optocoupler module 30 mA/DC Transistor D 2,5/5-OBIA-0030-24VAC 1SNA607212R0500 1 0.032 (0.071) D 2,5/5-OBIA-0030-48VAC 1SNA607213R0600 D 2,5/5-OBIA-0030-115VAC 1SNA607214R0700 D 2,5/5-OBIA-0030-230VAC 1SNA607215R0000 Optocoupler module 100 mA/DC Transistor D 2,5/5-OBOC-0100-5VAC 1SNA607203R1500 1 0.032 (0.071) D 2,5/5-OBOC-0100-24VDC 1SNA607204R1600 D 2,5/5-OBOC-0100-48VAC 1SNA607205R1700 Optocoupler module 1 A/DC MOS-FET D 2,5/5-OBOC-1000-5VDC 1SNA607206R1000 1 0.04 (0.088) D 2,5/5-OBOC-1000-24VDC 1SNA607207R1100 D 2,5/5-OBOC-1000-24VAC/DC 1SNA607250R2700 D 2,5/5-OBOC-1000-48VAC/DC 1SNA607251R1400 D 2,5/5-OBOC-1000-110VAC 1SNA607270R2300 D 2,5/5-OBOC-1000-230VAC 1SNA607271R1000 Optocoupler module 2 A/DC MOS-FET D 2,5/5-OBOC-2000-5VDC 1SNA607208R2200 1 0.04 (0.088) D 2,5/5-OBOC-2000-24VDC 1SNA607209R2300 D 2,5/5-OBOC-2000-24VAC/DC 1SNA607255R1000 D 2,5/5-OBOC-2000-48VAC/DC 1SNA607256R1100 D 2,5/5-OBOC-2000-110VAC 1SNA607272R1100 D 2,5/5-OBOC-2000-230VAC 1SNA607273R1200 Optocoupler module 1 A/AC Thyristor D 2,5/5-OBOA-1000-24VDC 1SNA607238R1700 1 0.032 (0.071) D 2,5/5-OBOA-1000-24VAC/DC 1SNA607240R2500 0.04 (0.088) D 2,5/5-OBOA-1000-48VAC/DC 1SNA607241R1200 D 2,5/5-OBOA-1000-110VAC 1SNA607268R2500 D 2,5/5-OBOA-1000-230VAC 1SNA607269R2600 Description of Accessories Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) High end stop BAMH 9.1 mm 1SNA114836R0000 50 BAMH V0 9.1 mm 1SNA194836R0100 BADH 12 mm 1SNA116900R2700 Comb type jumper bar 2 to 22 poles consult us Jumper bar 10 poles grey PCMS V0 1SNA205523R2200 8 Input opto base D 2.5-5-MP1 1SNA607223R0000 10 0.028 (0.062) Plug OBIC 5 V white BNMS T5V-1 1SNA031831R0300 4 Plug OBIC 24 V white BNMS T24V-1 1SNA031800R2100 Plug OBIC 48 V white BNMS T48V-1 1SNA031801R1600 Plug OBIC 125 V white BNMS T125V-1 1SNA031845R1100 Test device blue DCB (1) 1SNA105028R2100 10 Test plug DIA 2 mm FC2 1SNA105028R2100 Marking method RC55 see marking BAMH BADH PCMS BNMS P... FC2 D2,5/5-MP... 2CDC 291 002 F0013  2CDC110004C0209.pdf   393 11/26/2013   4:52:19 PM

5/37   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 D 2,5/5-OBIC-0030 IN D 2,5/5-OBIA-0030 IN D 2,5/5-OBOC-0100 IN D 2,5/5-OBOC-1000 5/24 VDC IN IN D 2,5/5-OBOC-1000  24/48 VAC/DC  110/230 VAC D 2,5/5-OBOC-2000 IN D 2,5/5-OBOA-1000 IN Optocouplers R500 range Connection diagrams 2CDC110004C0209.pdf   394 11/26/2013   4:52:19 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/38  5 Technical data Pluggable optocoupler : 5 to 58 V DC output / 30 mA - 5.08 mm 0.200“ spacing D 2,5/5-OBIC-0030 Input Input voltage 4.5 V to 5.5 VDC 19.2 V to 27.6 VDC 38.4 V to 55.2 VDC 93.5 V to 140 VDC Input current 6 mA 5 mA 4.1 mA 3 mA Pull-in voltage at Is=100% 3.5 V 12 V 21 V 50 V Switching time C / O 20 μs / 1.3 ms Operating frequency 400 Hz Permissible leakage current 1 mA 0.8 mA Output Output voltage 4.5 to 58 V DC Output current min. 0.5 mA Output current max. 30 mA Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 2.3 V DC max 2.7 V DC Frequency on inductive load Isolation Input / Output input / Output 2500 V RMS Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. D 2,5/5-OBIC-0030 1 : 5 V - 24 V - 48 V 2 : 115 V Derating curve 14 A2 A1 13 center of rail Dimensional drawings Optocouplers R500 range Technical data 2CDC110004C0209.pdf   395 11/26/2013   4:52:20 PM

5/39   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Technical data Pluggable optocoupler : 5 to 58 V DC output / 30 mA - 5.08 mm 0.200“ spacing D 2,5/5-OBIA-0030 Input Input voltage 20.4 to 26.4 V AC 40.8 V to 52.8 V AC 98 V to 126.5 V AC 195.5 V to 253 V AC 50 / 60 Hz 50 Hz Input current 8.5 mA 4.5 mA 8 mA 7 mA Pull-in voltage at Is=100% 13 V 22 V 50 V 95 V Switching time C / O 6 ms / 10 ms Operating frequency 30 Hz Permissible leakage current 1 mA 2 mA Output Output voltage 4.5 V to 58 V DC Output current min. 0.5 mA Output current max. 30 mA Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 2.3 V DC max 2.7 V DC Frequency on inductive load 2500 V RMS Isolation Input / Output input / Output Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. D 2,5/5-OBIA-0030 1 : 24 V - 48 V 2 : 115 V - 230 V Dimensional drawings 14 A2 A1 13 center of rail Derating curve Optocouplers R500 range Technical data 2CDC110004C0209.pdf   396 11/26/2013   4:52:20 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/40  5 Technical data Pluggable optocoupler : 5 to 58 V DC output / 100 mA - 5.08 mm 0.200“ spacing D 2,5/5-OBOC-0100 5 V DC / 24 V DC D 2,5/5-OBOC-0100 48 V DC Input Input voltage 4.5 V to 5.5 V DC 20.4 V to 28.8 V DC 40.8 V to 57.6 V DC Frequency Input current 8.5 mA 4.8 mA 3.9 mA Pull-in voltage at Is=100% 2.9 V DC 16 V DC 26 V DC Switching time C / O 20 μs / 1.3 ms Operating frequency 400 Hz Permissible leakage current 1 mA Output Output voltage 4.5 V to 58 V DC Output current min. 1 mA Output current max. 100 mA Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 1 V DC max 1.3 V DC Frequency on inductive load See Note 1 Isolation Input / Output input / Output 2500 V RMS Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. Dimensional drawings 14 A2 A1 13 center of rail D 2,5/5-OBOC-0100 5 V DC / 24 V DC D 2,5/5-OBOC-0100 48 V DC L R F max  = (1-0,007 x U s ) / (L x Is²)    F max  = (1-0,007 x U s ) / (P x     ) or U s   = Output voltage  I s   = Output current  L  = Inductance of load  P  = Power of load  R  = Resistance of load Note 1 : Derating curve Optocouplers R500 range Technical data 2CDC110004C0209.pdf   397 11/26/2013   4:52:20 PM

5/41   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Technical data Pluggable optocoupler : 5 to 58 V DC output / 1 A - 5.08 mm 0.200“ spacing D 2,5/5-OBOC-1000  5/24 V DC D 2,5/5-OBOC-1000 24/48 V AC/DC D 2,5/5-OBOC-1000  110/230 V AC Input 5 V DC 24 V DC 24 V AC 24 V DC 48 V AC 48 V DC 110 V AC 230 V AC Input voltage 4.5 - 5.5  V DC 20.4 - 28.8 V DC 24 ± 10 % 20.4 - 28.8 V DC 48 ± 10 % 40.8 to 57.6 V DC 110 ± 10 % 230 ± 10 % Frequency 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz Input current 12.3 mA 6.7 mA 10.5 mA 8 mA 6.8 mA 5.8 mA 8.5 mA 7.5 mA Pull-in voltage at Is=100% 3.5 V DC 10 V DC Switching time C / O 20 / 250 μs 50 / 350 μs 15 / 13 ms 5 / 13 ms 15 / 15 ms 6 / 25 ms 15 / 15 ms 15 / 15 ms Operating frequency 2000 Hz 1500 Hz 20 Hz Permissible leakage current Output Output voltage 4.5 V to 58 V DC Output current min. 1 mA Output current max. 1 A Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 0.1 V DC max 0.5 V DC Frequency on inductive load See Note 1 Isolation Input / Output input / Output 2500 V RMS Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 10 mm (0.394 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. Dimensional drawings L R Fmax   = (1-0,007 x Us) / (L x Is²) Fmax = (1-0,007 x Us) / (P x     ) or Us  = Output voltage Is  = Output current L  = Inductance of load P  = Power of load R  = Resistance of load Note 1 : Derating curve A1 13+ 14 A2 center of rail Optocouplers R500 range Technical data 2CDC110004C0209.pdf   398 11/26/2013   4:52:20 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/42  5 Technical data Pluggable optocoupler : 5 to 30 V DC output / 2 A - 5.08 mm 0.200“ spacing D 2,5/5-OBOC-2000  5/24 V DC D 2,5/5-OBOC-2000 24/48 V AC/DC D 2,5/5-OBOC-2000  110/230 V AC Input 5 V DC 24 V DC 24 V AC 24 V DC 48 V AC 48 V DC 110 V AC 230 V AC Input voltage 4.5 - 5.5  V DC 20.4 - 28.8 V DC 24 ± 10 % 20.4 - 28.8 V DC 48 ± 10 % 40.8 to 57.6 V DC 110 ± 10 % 230 ± 10 % Frequency 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz Input current 12.3 mA 6.7 mA 10.5 mA 8 mA 6.8 mA 5.8 mA 8.5 mA 7.5 mA Pull-in voltage at Is=100% 3.5 V DC 10 V DC Switching time C / O 20 / 250 μs 50 / 350 μs 15 / 13 ms 5 / 13 ms 15 / 15 ms 6 / 25 ms 15 / 15 ms 15 / 15 ms Operating frequency 2000 Hz 1500 Hz 20 Hz Permissible leakage current Output Output voltage 4.5 V to 30 V DC Output current min. 1 mA Output current max. 2 A Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 0.1 V DC max 0.5 V DC Frequency on inductive load See Note 1 Isolation Input / Output input / Output 2500 V RMS Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 10 mm (0.394 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. Dimensional drawings 13+ 14 center of rail L R Fmax = (1-0,012 x Us) / (L x Is²) Fmax = (1-0,012 x Us) / (P x     ) or Us  = Output voltage Is  = Output current L  = Inductance of load P  = Power of load R  = Resistance of load Note 1 : Derating curve Optocouplers R500 range Technical data 2CDC110004C0209.pdf   399 11/26/2013   4:52:20 PM

5/43   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R500 range Technical data Technical data Pluggable optocoupler : 24 to 253 V AC output / 1 A - 5.08 mm 0.200“ spacing D 2,5/5-...  24 V DC D 2,5/5-OBOA-1000 24 V AC/DC - 48 V AC/DC D 2,5/5-OBOA-1000 110 V  AC - 230 V AC Input 24 V DC 24 V AC 24 V DC 48 V AC 48 V DC 110 V AC 230 V AC Input voltage 20.4 - 28.8 V DC 24 ± 10 % 20.6 - 28.8 V DC 48 ± 10 % 40.8 -57.6 V DC 110 ± 10 % 230 ± 10 % Frequency 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz Input current 4 mA 10 mA 7 mA 6 mA 5 mA 8 mA 7.5 mA Pull-in voltage at Is=100% Switching time C / O 10/20 ms 20/20 ms 10/20 ms 20/20 ms 10/20 ms 20/20 ms 20/20 ms Operating frequency 15 Hz Permissible leakage current Output Output voltage 24-253 V AC - 50/60 Hz Output current min. 25 mA Output current max. 1 A Output leakage current at U max. 0.50 mA Redidual voltage at I max and U rated typical 1 V max 1.6 V  Frequency on inductive load See Note 1 Isolation Input / Output input / Output 2500 V RMS Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 10 mm (0.394 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. L R Fmax = (1-0,012 x Us) / (L x Is²) Fmax = (1-0,012 x Us) / (P x     ) or Us  = Output voltage Is  = Output current L  = Inductance of load P  = Power of load R  = Resistance of load Note 1 : Dimensional drawings A1 13+ 14 A2 center of rail Derating curve 2CDC110004C0209.pdf   400 11/26/2013   4:52:21 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/44  5 Optocouplers R500 range Notes 2CDC110004C0209.pdf   401 11/26/2013   4:52:21 PM

5/45   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays and optocouplers R600 range Product group picture 2CDC110004C0209.pdf   402 11/26/2013   4:52:21 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/46  5 Interface relays and optocouplers R600 range Table of contents Interface relays and optocouplers R600 range Product group picture   5/45 Table of contents   5/46 Interface relays R600 range   5/47 Product group picture   5/47 Table of contents   5/48 Benefits and advantages   5/49 Selection   5/51 Ordering details   5/53 Connection diagrams   5/55 Technical data   5/56 General technical data   5/61 Dimensional drawings, Load limit curves   5/62 Optocouplers R600 range   5/63 Product group picture   5/63 Table of contents   5/64 Selection   5/65 Ordering details   5/67 Connection diagrams   5/68 Technical data   5/69 2CDC110004C0209.pdf   403 11/26/2013   4:52:21 PM

5/47   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Product group picture 2CDC110004C0209.pdf   404 11/26/2013   4:52:21 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/48  5 Interface relays R600 range Table of contents Interface relays R600 range Product group picture   5/47 Table of contents   5/48 Benefits and advantages   5/49 Selection   5/51 Ordering details   5/53 Connection diagrams   5/55 Technical data   5/56 General technical data   5/61 Dimensional drawings, Load limit curves   5/62 2CDC110004C0209.pdf   405 11/26/2013   4:52:22 PM

5/49   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Benefits and advantages Characteristics   ½   Standard range available with screw or spring-type terminals   ½   8 different rated control supply voltages:  DC versions: 5 V, 12 V, 24 V AC/DC versions: 24 V, 48-60 V, 115 V, 230 V, 60-230 V   ½   Output: 1 n/c contact, 1 n/o contact, 1 c/o (SPDT) contact, 2 c/o  (SPDT) contacts   ½   Devices with output contacts protected by built in RC circuit, which re- sult in increased contact life   ½   Devices with leakage current protection on the input side   ½   Available with visible or covered switch on the front of the unit, for the  configuration of manual or automatic actuation   ½   With connection for jumper bar, except 2 c/o devices and some discon- tinued devices   ½   Width: 6 mm (0.236 in) or 12 mm (0.472 in)   ½   LED for the indication of the operational state   ½   Accessories: Jumper bars, separator end section and distribution blocks Excellent adaption and conversion of digital signals   AC 110 V   DC 24 V  DC 24 V   AC 110 V   AC 380 V   AC 230V      AC 230 V   Pushbutton  R 600 Relay or    R 600 Relay or  Motor  Position  Optocoupler  PLC  Optocoupler  contactor  Motor  switch       Sensor 1   Input - Control supply voltage 2   Jumper bar connection 3   Indication of operational states (green LED) 4  Output 1 2 3 4 2CDC110004C0209.pdf   406 11/26/2013   4:52:22 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/50  5 Interface relays R600 range Benefits and advantages Increased contact life The contacts of some devices are proteced by built in RC-circuits which result in increased contact life. Space safing With a width of only 6 mm or 12 mm the com-pact design safes space in each cabinet. 12 mm spacing 6 mm spacing Variety of connections R600 relays and optocouplers are avai-lable with both screw terminals or spring terminals. Functionning status Functionning display through a green LED. Only one part number AC/DC Measurement & Test Holes for holding DIA. 2 mm test plugs to simplify any measury or test. 0.2 to 2.5 mm² 0.22 to 4 mm² Interface relays are electromechanic and electronic input and output modules for electrical isolation, levelling, noise suppression or signal  amplification between control unit and process. Boxed interface relays are used for electrical isolation, amplification and signal matching between the electronic controlling, e.g. PLC  (programmable logic controller), PC or field bus systems and the sensor / actuator level. The compact design and different connection  terminal possibilities optimize your panel installation. Approvals H UL 508  CAN/CSA C22.2 No.14 P Lloyds Register pending Marks a CE 2CDC110004C0209.pdf   407 11/26/2013   4:52:22 PM

5/51   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Selection Type   RB 121-5VDC RB 121-5VDC RBR 121-5VDC RBR 121-5VDC RB 121-12VDC RB 121-12VDC RBR 121-12VDC RB 101AR-24V AC/DC RBR 101AR-24V AC/DC RB 111A-24V AC/DC RB 111AI-24V AC/DC RB 111AR-24V AC/DC RBR 111A-24V AC/DC RBR 111AI-24V AC/DC RBR 111AR-24V AC/DC RB 121-24VDC RB 121-24VDC RB 121A-24V AC/DC RB 121A-24V AC/DC RB 121AI-24V AC/DC RB 121AI-24V AC/DC RB 121AI-24V AC/DC RB 121AI-24V AC/DC RBR 121-24VDC RBR 121-24VDC RBR 121A-24V AC/DC RBR 121A-24V AC/DC RBR 121AI-24V AC/DC RBR 121AI-24V AC/DC RBR 121AI-24V AC/DC RBR 121AI-24V AC/DC RB 122A-24V AC/DC RBR 122A-24V AC/DC Or der number   1SNA 645 034 R2300   1SNA 645 036 R2500   1SNA 645 534 R2500   1SNA 645 536 R2700   1SNA 645 069 R0000   1SNA 645 037 R2600   1SNA 645 537 R2000   1SNA 645 019 R0400   1SNA 645 519 R0600   1SNA 645 014 R2700   1SNA 645 063 R0000   1SNA 645 018 R0300   1SNA 645 514 R2100   1SNA 645 563 R0200   1SNA 645 518 R0500   1SNA 645 064 R0100   1SNA 645 065 R0200   1SNA 645 001 R0300   1SNA 645 005 R0700   1SNA 645 032 R2100   1SNA 645 009 R1300   1SNA 645 033 R2200   1SNA 645 010 R0700   1SNA 645 564 R0300   1SNA 645 565 R0400   1SNA 645 501 R0500   1SNA 645 505 R0100   1SNA 645 532 R2300   1SNA 645 509 R1500   1SNA 645 533 R2400   1SNA 645 510 R0100   1SNA 645 012 R2500   1SNA 645 512 R2700     Input voltage  5 V DC Q Q Q Q 12 V DC Q Q Q 24 V DC Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 48 - 60 V DC  115 V DC  230 V DC  60 - 230 V DC  24 V AC Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 48 - 60 V AC  115 V AC 230 V AC  60 - 230 V AC  Output rating 10 mA - 6 A Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 1 mA - 6 A Q Q Q Q Q Q Q Q Q Q Q Q 1 mA - 8 A  Q Q Output contacts c/o    1 1 1 1 1 1 1                  1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2      n/o                     1  1  1  1  1  1                                          n/c                 1  1            Terminal type Screw  Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Spring  Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 2CDC110004C0209.pdf   408 11/26/2013   4:52:22 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/52  5 Interface relays R600 range Selection RB 111A-48-60V AC/DC RBR 111A-48-60V AC/DC RB 121A-48-60V AC/DC RB 121A-48-60V AC/DC RBR 121A-48-60V AC/DC RBR 121A-48-60V AC/DC RB 122A-48-60V AC/DC RBR 122A-48-60V AC/DC RB 121A-115V AC/DC RB 121A-115V AC/DC RB 121AR-115V AC/DC RBR 121A-115V AC/DC RBR 121A-115V AC/DC RBR 121AR-115V AC/DC RB 122A-115V AC/DC RBR 122A-115V AC/DC RB 111A-115V AC/DC RBR 111A-115V AC/DC RB 111A-230V AC/DC RBR 111A-230V AC/DC RB 121A-230V AC/DC RB 121A-230V AC/DC RB 121AR-230V AC/DC RBR 121A-230V AC/DC RBR 121A-230V AC/DC RBR 121AR-230V AC/DC RB 122A-230V AC/DC RBR 122A-230V AC/DC RB 121A 60-230VUC RBR 121A 60-230VUC 1SNA 645 015 R2000   1SNA 645 515 R2200   1SNA 645 002 R0400   1SNA 645 006 R0000   1SNA 645 502 R0600   1SNA 645 506 R0200   1SNA 645 040 R1500   1SNA 645 540 R1700   1SNA 645 003 R0500   1SNA 645 007 R0100   1SNA 645 046 R0700   1SNA 645 503 R0700   1SNA 645 507 R0300   1SNA 645 546 R0100   1SNA 645 041 R0200   1SNA 645 541 R0400   1SNA 645 016 R2100   1SNA 645 516 R2300   1SNA 645 017 R2200   1SNA 645 517 R2400   1SNA 645 004 R0400   1SNA 645 008 R1200   1SNA 645 011 R2400   1SNA 645 504 R0000   1SNA 645 508 R1400   1SNA 645 511 R2600   1SNA 645 013 R2600   1SNA 645 513 R2000   1SNA 645 020 R0100   1SNA 645 520 R0300 Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q       1 1 1 1 2 2 1 1 1 1 1 1 2 2          1 1 1 1 1 1 2 2 1 1   1  1                              1  1  1  1  Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 2CDC110004C0209.pdf   409 11/26/2013   4:52:22 PM

5/53   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Ordering details R600 Relay  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) Relay module 1 NO high level 6 mm spacing  RB 111 A-24VAC/DC 1SNA645014R2700 10 0.02 (0.44) RB 111 A-48-60VAC/DC 1SNA645015R2000 RB 111 A-115VAC/DC 1SNA645016R2100 RB 111 A-230VAC/DC 1SNA645017R2200 Relay mod. 1 NO high level w/safety switch 6 mm spacing  RB 111 AI-24VAC/DC 1SNA645063R0000 Relay mod. 1 NO high level w/contact protection 12 mm spacing   RB 111 AR-24VAC/DC 1SNA645018R0300 5 0.03 (0.44) Relay mod. 1 NC high level w/con-tact protection 12 mm spacing   RB 101 AR-24VAC/DC 1SNA645019R0400 Relay module 1 NO high level 6 mm spacing  RBR 111 A-24VAC/DC 1SNA645514R2100 10 0.02 (0.44) RBR 111 A-48-60VAC/DC 1SNA645515R2200 RBR 111 A-115VAC/DC 1SNA645516R2300 RBR 111 A-230VAC/DC 1SNA645517R2400 Relay mod. 1 NO high level w/safety switch 6 mm spacing  RBR 111 AI-24VAC/DC 1SNA645563R0200 Relay mod. 1 NO high level w/contact protection 12 mm spacing RBR 111 AR-24VAC/DC 1SNA645518R0500 5 0.03 (0.44) Relay mod. 1 NC high level w/con-tact protection 12 mm spacing RBR 101 AR-24VAC/DC 1SNA645519R0600 Relay module 1 SPDT high level  RB 121-5VDC 1SNA645034R2300 10 0.02 (0.44) RB 121-12VDC 1SNA645069R0100  RB 121-24VDC 1SNA645064R0100  RB 121 A-24VAC/DC 1SNA645001R0300 RB 121 A-48-60VAC/DC 1SNA645002R0400 RB 121 A-115VAC/DC 1SNA645003R0500 RB 121 A-230VAC/DC 1SNA645004R0400 Relay module 1 SPDT high level  RB 121-5VDC 1SNA645534R2500 RB 121-12VDC 1SNA645569R0000 RB 121-24VDC 1SNA645564R0300 RB 121 A-24VAC/DC 1SNA645501R0500  RB 121 A-48-60VAC/DC 1SNA645502R0600 RB 121 A-115VAC/DC 1SNA645503R0700  RB 121 A-230VAC/DC 1SNA645504R0000  Relay module 1 SPDT low level  RB 121-5VDC 1SNA645036R2500 10 0.02 (0.44) RB 121-12VDC 1SNA645037R2600 RB 121-24VDC 1SNA645065R0200 RB 121 A-24VAC/DC 1SNA645005R0700 RB 121 A-48-60VAC/DC 1SNA645006R0000 RB 121 A-115VAC/DC 1SNA645007R0100 RB 121 A-230VAC/DC 1SNA645008R1200 Relay module 1 SPDT low level  RB 121-5VDC 1SNA645536R2700 RB 121-12VDC 1SNA645537R2000 RB 121-24VDC 1SNA645565R0400 RB 121 A-24VAC/DC 1SNA645505R0100 RB 121 A-48-60VAC/DC 1SNA645506R0200 RB 121 A-115VAC/DC 1SNA645507R0300 RB 121 A-230VAC/DC 1SNA645508R1400 R600 2CDC 291 024 S0013  2CDC110004C0209.pdf   410 11/26/2013   4:52:23 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/54  5 Interface relays R600 range Ordering details R600 Relay  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) Relay mod. 1SPDT high level w/leakage current protec.  RB 121 AR-115VAC/DC 1SNA645046R0700 5 0.03 (0.066) RB 121 AR-230VAC/DC 1SNA645011R2400 Relay mod. 1SPDT high level w/large coil voltage range   RB 121 A 60-230VAC/DC 1SNA645020R0100 Relay mod. 1SPDT high level with switch  RB 121 AI-24VAC/DC 1SNA645032R2100 Relay mod. 1SPDT high level with safety switch  RB 121 AI-24VAC/DC 1SNA645009R1300 Relay module 1SPDT low level with switch  RB 121 AI-24VAC/DC 1SNA645033R2200 Relay module 1SPDT low level with safety switch  RB 121 AI-24VAC/DC 1SNA645010R0700 Relay mod. 1SPDT high level w/leakage current protec.  RB 121 AR-115VAC/DC 1SNA645546R0100  RB 121 AR-230VAC/DC 1SNA645511R2600 Relay mod. 1SPDT high level w/large coil voltage range   RB 121 A 60-230VAC/DC 1SNA645520R0300 Relay mod. 1SPDT high level with switch  RB 121 AI-24VAC/DC 1SNA645532R2300 Relay mod. 1SPDT high level with safety switch  RB 121 AI-24VAC/DC 1SNA645509R1500 Relay module 1SPDT low level with switch  RB 121 AI-24VAC/DC 1SNA645533R2400 Relay module 1SPDT low level with safety switch  RB 121 AI-24VAC/DC 1SNA645510R0100 Relay module 1 DPDT low level RB 122 A-24VAC/DC 1SNA645012R2500  5 0.03 (0.066) RB 122 A-48-60VAC/DC 1SNA645040R1500 RB 122 A-115VAC/DC 1SNA645041R0200 RB 122 A-230VAC/DC 1SNA645013R2600 Relay module 1 DPDT low level RBR 122 A-24VAC/DC 1SNA645512R2700 RBR 122 A-48-60VAC/DC 1SNA645540R1700 RBR 122 A-115VAC/DC 1SNA645541R0400 RBR 122 A-230VAC/DC 1SNA645513R2000 R600 Accessories R600 Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) End section BADH V0 1SNA116900R2700 50 BADL V0 1SNA399903R0200 50 BAM2 V0 1SNA399967R0100 50 Seperator end section SC 612 1SNA290474R0200 10 Divisible shunt 10 poles BJ 612-10 1SNA290488R0100 10 Divisible shunt 20 poles BJ 612-20 1SNA206754R0000 10 Screw clamp distribution block sp. 12 mm D4/12-3-3 1SNA645031R2000 5 Spring clamp distribution block sp. 12 mm D4/12-3R-3R 1SNA645531R2200 5 Test plug DIA. 2 mm FC2 1SNA645531R2200 10 Marking method RC65 / RC610 see marking SC612 BADL BJ... FC2 D 4/12-3... BADH 2CDC110004C0209.pdf   411 11/26/2013   4:52:23 PM

5/55   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Connection diagrams 11-12  n/c contact      A1-A2  Control supply voltage  13-14  n/o contact      S1  Connection for jumper bar (input side)  11-12/14  1st c/o contact    S2  Connection for jumper bar (output side)  21-22/24  2nd c/o contact    A1 A2 S1 11 S2 12 2CDC 292 030 F0013 A1 A2 S1 14 S2 13 2CDC 292 031 F0013 A1 A2 S1 14 S2 13 2CDC 292 033 F0013 RB/RBR 101 AR RB/RBR 111 A - 24 V AC/DC RB/RBR 111 A - 48/60/115/230 V AC/DC auto off manu A1 A3 A2 S1 14 S2 13 2CDC 292 034 F0013 A1 A2 S1 14 S2 13 2CDC 292 035 F0013 A1 A2 S1 11 S2 12 14 2CDC 292 036 F0013 RB/RBR 111 AI RB/RBR 111 AR RB/RBR 121  - 5 V DC, A1-A2 polarized  - 12 V DC, A1-A2 polarized, i.e. only:   1SNA645035R2400, 1SNA645535R2600  1SNA645037R2600, 1SNA645537R2000 A1 A2 S1 11 12 14 2CDC 292 037 F0013 A1 A2 S1 11 S2 12 14 2CDC 292 038 F0013 A1 A2 S1 11 S2 12 14 2CDC 292 039 F0013 RB/RBR 121  - 12/24 V DC, only discontinued versions:  1SNA645069R0000  1SNA645064R0100, 1SNA645564R0300  1SNA645065R0200, 1SNA645565R0400 RB/RBR 121 (AU)   - 12/24 V DC, except:  1SNA645035R2400, 1SNA645535R2600  1SNA645037R2600, 1SNA645537R2000  see connection diagram RB...121-5VDC RB/RBR 121 A   - 24 V AC/DC A1 A2 S1 11 S2 12 14 2CDC 292 040 F0013 A2 S1 11 S2 12 14 auto off manu A1 A3 2CDC 292 041 F0013 A1 A2 S1 11 S2 12 14 2CDC 292 042 F0013 RB/RBR 121 A - 48/60/115/230 V AC/DC RB/RBR 121 AI RB/RBR 121 AR A1 A2 S1 11 21 12 14 22 24 2CDC 292 043 F0013 A1 A2 S1 11 21 12 14 22 24 2CDC 292 044 F0013 RB/RB 122 A - 24/48/60 V AC/DC RB/RBR 122 A - 115/230 V AC/DC 2CDC110004C0209.pdf   412 11/26/2013   4:52:24 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/56  5 Interface relays R600 range Technical data Technical data RB 111 A RB 111 AI Input circuit Rated control supply voltage U s 24 V AC/DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC 24 V AC/DC Rated control supply voltage U s  tolerance DC -15 %, +20 % -15 %, +10 % -15 %, +20 % AC -/+ 10 % Rated frequency 50/60 Hz Typical power consumption 0.24 W 0.34 W 0.54 W 0.46 W 0.8 W 0.24 W Typical current 10 mA 7 mA 9 mA 4 mA 3.5 mA 10 mA Drop-out 4.5 V 8 V 8 V 17 V 27 V 4.5 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 13-14 relay, 1 n/o contact Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 12 V Maximum switching voltage 250 V AC Minimum switching current 10 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A AC15 (inductive) 230 V  A AC15 (inductive) 120 V 3 A DC12 (resistive) 24 V 6 A DC13 (inductive) 24 V 1 A DC13 (inductive) 120 V 0.2 ADC13 (inductive) 230 V 0.1 A AC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) B300 DC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) R300 Minimum switching power 0.6 W / 0.6 VA Mechanical lifetime 1 x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 5 ms 5 ms 5 ms 6 ms 7 ms 5 ms Release time 8 ms 8 ms 8 ms 15 ms 15 ms 8 ms Dimensions and weight RB 111 A / RB 111 AI high level RBR 111 A / RBR 111 AI high level Weight net weight 0.02 kg (0.044 lb) Dimension product dimension 6 x 75 x 75 mm (0.236 x 2.95 x 2.95 in) packaging dimension 2CDC110004C0209.pdf   413 11/26/2013   4:52:24 PM

5/57   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Technical data Technical data RB... 111AR high level RB... 101AR high level Input circuit Rated control supply voltage U s 24 V AC/DC Rated control supply voltage U s  tolerance DC -15 %, +20 % AC -/+ 10 % Rated frequency 50/60 Hz Typical power consumption 0.24 W Typical current 10 mA Drop-out 4.5 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 11-12 - relay, 1 n/c contact 13-14 relay, 1 n/o contact - Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 12 V Maximum switching voltage 250 V AC Minimum switching current 10 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A AC15 (inductive) 230 V  A AC15 (inductive) 120 V 3 A DC12 (resistive) 24 V 6 A DC13 (inductive) 24 V 1 A DC13 (inductive) 120 V 0.2 ADC13 (inductive) 230 V 0.1 A AC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) B300 DC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) R300 Minimum switching power 0.6 W / 0.6 VA Mechanical lifetime 1 x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 5 ms Release time 8 ms Dimensions and weight RB 111AR / RB 101AR high level RBR 111A / RBR 111AR high level Weight net weight 0.03 kg (0.066 lb) Dimension product dimension 12 x 70 x 75 mm (0.472 x 2.76 x 2.95 in) 12 x 75 x 75 mm (0.472 x 2.95 x 2.95 in) packaging dimension 2CDC110004C0209.pdf   414 11/26/2013   4:52:24 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/58  5 Interface relays R600 range Technical data Technical data RB... 121 / RB... 121A high level Input circuit Rated control supply voltage U s 5 V DC 12 V DC 24 V AC/DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC Rated control supply voltage U s  tolerance DC -15 %, +20 % -15 %, +10 % AC - -/+  10  % Rated frequency - 50/60  Hz Typical power consumption 0.2 W 0.2 W 0.24 W 0.33 W 0.54 W 0.46 W 0.8 W Typical current 40 mA 16 mA 10 mA 7 mA 9 mA 4 mA 3.5 mA Drop-out 1.2 V 2.2 V 4.5 V 8 V 8 V 17 V 27 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 11-12/14 relay, 1 c/o (SPDT) contact Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 12 V Maximum switching voltage 250 V AC Minimum switching current 10 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A AC15 (inductive) 230 V  A AC15 (inductive) 120 V 3 A DC12 (resistive) 24 V 6 A DC13 (inductive) 24 V 1 A DC13 (inductive) 120 V 0.2 ADC13 (inductive) 230 V 0.1 A AC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) B300 DC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) R300 Minimum switching power 0.6 W / 0.6 VA Mechanical lifetime 1 x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 5 ms 5 ms 5 ms 5 ms 5 ms 6 ms 7 ms Release time 8 ms 15 ms 16 ms Dimensions and weight RB 121 / RB 121A high level RBR 122 / RBR 122A high level Weight net weight 0.02 kg (0.044 lb) Dimension product dimension 6 x 70 x 75 mm (0.236 x 2.76 x 2.95 in) 6 x 75 x 75 mm (0.236 x 2.95 x 2.95 in) packaging dimension 2CDC110004C0209.pdf   415 11/26/2013   4:52:24 PM

5/59   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Interface relays R600 range Technical data Technical data RB... 121 / RB... 121A low level Input circuit Rated control supply voltage U s 5 V DC 12 V DC 24 V AC/DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC Rated control supply voltage U s  tolerance DC -15 %, +20 % -15 %, +10 % AC - -/+  10  % Rated frequency - 50/60  Hz Typical power consumption 0.2 W 0.2 W 0.24 W 0.33 W 0.54 W 0.46 W 0.8 W Typical current 40 mA 16 mA 10 mA 7 mA 9 mA 4 mA 3.5 mA Drop-out 1.2 V 2.2 V 4.5 V 8 V 8 V 17 V 27 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 11-12/14 relay, 1 c/o (SPDT) contact Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 5 V Maximum switching voltage 250 V AC Minimum switching current 1 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A AC15 (inductive) 230 V  A AC15 (inductive) 120 V 3 A DC12 (resistive) 24 V 6 A DC13 (inductive) 24 V 1 A DC13 (inductive) 120 V 0.2 ADC13 (inductive) 230 V 0.1 A AC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) B300 DC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) R300 Minimum switching power 0.05 W / 0.05 VA Mechanical lifetime 1 x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 5 ms 5 ms 5 ms 5 ms 5 ms 6 ms 7 ms Release time 8 ms 15 ms 16 ms Dimensions and weight RB 121  / RB 121A low level RBR 122 / RBR 122A low level Weight net weight 0.02 kg (0.044 lb) Dimension product dimension 6 x 70 x 75 mm (0.236 x 2.76 x 2.95 in) 6 x 75 x 75 mm (0.236 x 2.95 x 2.95 in) packaging dimension 2CDC110004C0209.pdf   416 11/26/2013   4:52:25 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/60  5 Interface relays R600 range Technical data Technical data RB... 121AR / RB... 121AI low level RB... 121AI low level Input circuit Rated control supply voltage U s 115 V AC/DC 230 V AC/DC 24 V AC/DC 24 V AC/DC Rated control supply voltage U s  tolerance DC -20%, +15% -10%, +15% -20%, +15% AC -/+ 10 % Rated frequency 50/60 Hz Typical power consumption 2 W 2.8 W 0.24 W 0.24 W Typical current 18 mA 12 mA 10 mA 10 mA Drop-out 17 V 27 V 4.5 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 11-12/14 relay, 1 c/o (SPDT) contact Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 12 V 5 V Maximum switching voltage 250 V AC Minimum switching current 10 mA 1 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 6 A AC15 (inductive) 230 V  A AC15 (inductive) 120 V 3 A DC12 (resistive) 24 V 6 A DC13 (inductive) 24 V 1 A DC13 (inductive) 120 V 0.2 ADC13 (inductive) 230 V 0.1 A AC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) B300 DC rating  (UL 508;  NEMA ICS-5) Utilization category (pilot duty) R300 Minimum switching power 0.6 W / 0.6 VA 0.05 W / 0.05 VA Mechanical lifetime 1 x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 6 ms 7 ms 5 ms 5 ms Release time 15 ms 16 ms 8 ms 8 ms Dimensions and weight RB 121AR/RB 121AI low/high level RB 121AR/RBR 121AI low/high level Weight net weight 0.03 kg (0.066 lb) Dimension product dimension 12 x 70 x 75 mm (0.472 x 2.76 x 2.95 in) 12 x 75 x 75 mm (0.472 x 2.95 x 2.95 in) packaging dimension Technical data RB... 122A low level Input circuit Rated control supply voltage U s 24 V AC/DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC Rated control supply voltage U s  tolerance DC -15 %, +20 % -15 %, +10 % AC -/+ 10 % Rated frequency 50/60 Hz Typical power consumption 0.48 W 0.62 W 0.96 W 0.58 W 1.15 W Typical current 20 mA 13 mA 16 mA 5 mA 5 mA Drop-out 5.4 V 8.8 V 8.8 V V 20 V 10 V Indication of operational states green LED V: control supply voltage applied Output circuit Kind of output 11-12/14 relay, 1st c/o (SPDT) contact21-22/24 relay, 2nd c/o (SPDT) contact Rated operational voltage U e  (IEC/EN 60947-1) 250 V AC Minimum switching voltage 5 V Maximum switching voltage 250 V DC - 250 V AC Minimum switching current 1 mA Rated operational current  (IEC/EN 60947-5-1) AC12 (resistive) 230 V 8 A 5 A Minimum switching power   W / 5  VA Mechanical lifetime  x 10 7  switching cycles Electrical lifetime at AC15 1 x 10 5  switching cycles Response time 6 ms 10 ms 10 ms 6 ms 6 ms Release time 10 ms 14 ms 14 ms 15 ms 15 ms Dimensions and weight RB 122A low level RBR 122A low level Weight net weight 0.03 kg (0.066 lb) Dimension product dimension 12 x 70 x 75 mm (0.472 x 2.76 x 2.95 in) 12 x 75 x 75 mm (0.472 x 2.95 x 2.95 in) packaging dimension 2CDC110004C0209.pdf   417 11/26/2013   4:52:25 PM

5/61   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Technical data RB RBR General data Material of housing UL 94 V0 Degree of protection housing /  terminals IP20 NEMA1 Electrical connection Screw terminal Spring-type terminal Wire size fine-stranded 0.22-2.5 mm² (24-14 AWG) rigid 0.2-4 mm² (24-12 AWG) 0.2-2.5 mm² (24-14 AWG) Stripping length 9 mm / 0.354 in Tightening torque 0.4-0.6 Nm (3.5-5.3 lb.in) Environmental data Ambient temperature ranges storage -40...+80 °C operation -20...+70 °C Isolation data Rated insulation voltage Ui (IEC/EN 60950-1, EN 50178) 4000 V RMSRated impulse withstand voltage U imp  (EN 50178) input / output 4000 V RMS (RB122A: 3800 V RMS, RB111AR: 3500 V RMS) shock coil / output 4000 V RMS output / output 1000 V RMS Interface relays R600 range General technical data 2CDC110004C0209.pdf   418 11/26/2013   4:52:25 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/62  5 Interface relays R600 range Dimensional drawings, Load limit curves center of rail Screw clamp module center of rail Spring clamp module All interface relays of R600 range Load limit curves RB 111 A, RB 111 AI, RB 111 AR, RB 101 AR, RB 121 AR, RB 121 AI, RB 121 AI (gold plated), RB 121 AI RB 121 (gold plated), RB 121 A (gold plated), RB 121, RB 121 A Load limit curve RB ... 122A (gold plated) Current (Acc) V o ltage (Vcc) Limited load in CC DC12 AC12 DC13 AC15 24 V  6 A 6 A 1 3 A 110/120 V 0,3 A 6 A 0.2 A 3 A 220/230 V 0.2 A 6 A 0.1 A 3 A Current [A] V oltage [V] resistive load Max. DC load breaking capacity 2CDC110004C0209.pdf   419 11/26/2013   4:52:25 PM

5/63   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R600 range Product group picture 2CDC110004C0209.pdf   420 11/26/2013   4:52:26 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/64  5 Optocouplers R600 range Table of contents Optocouplers R600 range Product group picture   5/63 Table of contents   5/64 Selection   5/65 Ordering details   5/67 Connection diagrams   5/68 Technical data   5/69 2CDC110004C0209.pdf   421 11/26/2013   4:52:26 PM

5/65   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R600 range Selection Type   OBIC 0100 5-12VDC OBRIC 0100 5-12VDC OBIC 0100 24VDC OBRIC 0100 24VDC OBIC 0100 48-60V AC/DC OBRIC 0100 48-60V AC/DC OBIC 0100 115-230V AC/DC OBRIC 0100 115-230V AC/DC OBOC 1000-5-12VDC OBROC 1000-5-12VDC OBOC 1000-24VDC OBOC 1500-24V AC/DC OBOC 5000-24VDC OBROC 1000-24VDC OBROC 1500-24V AC/DC OBROC 5000-24VDC OBOC 1000-48-60V AC/DC OBROC 1000-48-60V AC/DC OBOC 1000-115V AC/DC OBOC 5000-115V AC/DC OBROC 1000-115V AC/DC OBROC 5000-115V AC/DC OBOC 1000-230V AC/DC OBOC 5000-230V AC/DC OBROC 1000-230V AC/DC OBROC 5000-230V AC/DC OBOA 1000-24VDC OBOA 2000-24VDC OBROA 1000-24VDC OBROA 2000-24VDC Or der number   1SNA 645 047 R0000   1SNA 645 547 R0200   1SNA 645 021 R2600   1SNA 645 521 R2000   1SNA 645 049 R1200   1SNA 645 549 R1400   1SNA 645 022 R2700   1SNA 645 522 R2100   1SNA 645 050 R1700   1SNA 645 550 R1100   1SNA 645 051 R0400   1SNA 645 025 R2200   1SNA 645 024 R2100   1SNA 645 551 R0600   1SNA 645 525 R2400   1SNA 645 524 R2300   1SNA 645 053 R0600   1SNA 645 553 R0000   1SNA 645 054 R0700   1SNA 645 058 R1300   1SNA 645 554 R0100   1SNA 645 558 R1500   1SNA 645 026 R2300   1SNA 645 059 R1400   1SNA 645 526 R2500   1SNA 645 559 R1600   1SNA 645 027 R2400   1SNA 645 029 R0600   1SNA 645 527 R2600   1SNA 645 529 R0000   Input voltage 5 - 12 V DC  Q Q Q Q 24 V DC Q Q Q Q Q Q Q Q Q Q Q Q 48 - 60 V DC Q Q Q Q 115 - 230 V DC  Q Q 115 V DC  Q Q Q Q 230 V DC  Q Q Q Q Q Q 24 V AC  Q Q 48 - 60 V AC  Q Q Q Q 115-230  V AC Q Q 115 V AC  Q Q Q Q 230 V AC  Q Q Q Q Output rating 100 mA  Q Q Q Q Q Q Q Q 2 A  Q Q Q Q Q Q Q Q Q Q Q Q Q Q 5 A  Q Q Q Q Q Q 1 A  Q Q Output voltage 58 V DC  Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 400 V AC  Q Q Q Q Terminal type Screw  Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Spring Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 2CDC110004C0209.pdf   422 11/26/2013   4:52:26 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/66  5 Optocouplers R600 range Selection OBOA 1000-48-60V AC/DC OBROA 1000-48-60V AC/DC OBOA 1000-115V AC/DC OBROA 1000-115V AC/DC OBOA 1000-230V AC/DC OBROA 1000-230V AC/DC 1SNA 645 061 R0600   1SNA 645 561 R0000   1SNA 645 062 R0700   1SNA 645 562 R0100   1SNA 645 028 R0500   1SNA 645 528 R0700 Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 2CDC110004C0209.pdf   423 11/26/2013   4:52:26 PM

5/67   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R600 range Ordering details R600 Optocoupler  Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) Optocoupler module 100 mA/DC OBIC 0100-5-12VDC 1SNA645047R0000 10 0.02 (0.44) OBIC 0100-24VDC 1SNA645021R2600 OBIC 0100-48-60VAC/DC 1SNA645049R1200  OBIC 0100-115-230VAC/DC 1SNA645022R2700 Optocoupler module 100 mA/DC OBRIC 0100-5-12VDC 1SNA645547R0200 10 0.02 (0.44) OBRIC 0100-24VDC 1SNA645521R2000 OBRIC 0100-48-60VAC/DC 1SNA645549R1400 OBRIC 0100-115-230VAC/DC 1SNA645522R2100 Optocoupler module 2 A/DC OBOC 1000-5-12VDC 1SNA645050R1700 10 0.02 (0.44) OBOC 1000-24VDC 1SNA645051R0400 OBOC 1500-24VAC/DC 1SNA645025R2200 OBOC 1000-48-60VAC/DC 1SNA645053R0600  OBOC 1000-115VAC/DC 1SNA645054R0700  OBOC 1000-230VAC/DC 1SNA645026R2300 Optocoupler module 2 A/DC OBROC 1000-5-12VDC 1SNA645550R1100 10 0.02 (0.44) OBROC 1000-24VDC 1SNA645551R0600 OBROC 1500-24VAC/DC 1SNA645525R2400 OBROC 1000-48-60VAC/DC 1SNA645553R0000 OBROC 1000-115VAC/DC 1SNA645554R0100 OBROC 1000-230VAC/DC 1SNA645526R2500 Optocoupler module 5 A/DC OBOC 5000-24VDC 1SNA645024R2100 10 0.02 (0.44) OBOC 5000-115VAC/DC 1SNA645058R1300  OBOC 5000-230VAC/DC 1SNA645059R1400 Optocoupler module 5 A/DC OBROC 5000-24VDC 1SNA645524R2300 10 0.02 (0.44) OBROC 5000-115VAC/DC 1SNA645558R1500 OBROC 5000-230VAC/DC 1SNA645559R1600 Optocoupler module 1 A/AC 6 mm spacing OBOA 1000-24VDC 1SNA645027R2400  10 0.03 (0.066) OBOA 1000-48-60VAC/DC 1SNA645061R0600 OBOA 1000-115VAC/DC 1SNA645062R0700 OBOA 1000-230VAC/DC 1SNA645028R0500 Optocoupler module 2 A/AC 12 mm spacing OBOA 2000-24VDC 1SNA645029R0600 5 0.03 (0.066) Optocoupler module 1 A/AC 6 mm spacing OBROA 1000-24VDC 1SNA645527R2600 10 0.03 (0.066) OBROA 1000-48-60VAC/DC 1SNA645561R0000  OBROA 1000-115VAC/DC 1SNA645562R0100 OBROA 1000-230VAC/DC 1SNA645528R0700 Optocoupler module 2 A/AC 12 mm spacing OBROA 2000-24VDC 1SNA645529R0000 5 0.03 (0.066) Accessories Type Order  code Price Pkg  qty Weight(1 pce)kg (lb) End section BADH V0 1SNA116900R2700 50 BADL V0 1SNA399903R0200 50 BAM2 V0 1SNA399967R0100 50 Seperator end section SC 612 1SNA290474R0200 10 Divisible shunt 10 poles BJ 612-10 1SNA290488R0100 10 Divisible shunt 20 poles BJ 612-20 1SNA206754R0000 10 Screw clamp distribution block sp. 12 mm D4/12-3-3 1SNA645031R2000 5 Spring clamp distribution block sp. 12 mm D4/12-3R-3R 1SNA645531R2200 5 Test plug DIA. 2 mm FC2 1SNA645531R2200 10 Marking method RC65 / RC610 see marking SC612 BADL BJ... FC2 D 4/12-3... BADH 2CDC 291 001 F0013  2CDC110004C0209.pdf   424 11/26/2013   4:52:26 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/68  5 Optocouplers R600 range Connection diagrams OB...IC 0100 - 5-12 V DC 115-230 V AC/DC OB...IC 0100 24 V DC 24-48-60 V AC/DC OB...OC 1000 - 5-12 V DC OB...OC 1500 - 24 V AC/DC  OB...OC 1000 24 V DC 48-60-115-230 V AC/DC OB...OC 5000 24 V DC 24-48-60-115-230 V AC/DC OB...OA 1000 24 V DC 48-60-115-230 V AC/DC  OB...OA 2000 - 24 V DC 2CDC110004C0209.pdf   425 11/26/2013   4:52:27 PM

5/69   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R600 range Technical data Technical data Optocoupler : 5 to 58 V DC output / 100 mA - 6 mm 0.236“ spacing OB...IC 0100 Relay characteristics coil Input voltage: +20%, -15% on DC ; 10%, -10% on AC 5 V DC - 12 V DC 24 V DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC Frequency 50 / 60 Hz Input current AC/DC 5 mA 9 mA 4 mA 4 mA 5 mA 7 mA /16 mA 11.5 mA /25 mA Pull-in voltage at Is=100% 4 V 15 V 25 V 60 V AC / 70 V DC Switching time C / O 10 μs / 500 μs Operating frequency 1000 Hz 5 ms / 20 ms 5 ms / 15 ms Permissible leakage current 20 Hz Output 0.9 mA 1 mA 0.9 mA 1.6 mA Output voltage 4.5 to 58 V DC Output current min. 1 mA Output current max. 100 mA Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 1 V max 1.3 V Frequency on inductive load Isolation Input / Output input / Output 2500 V RMS Temperature storage -40...+80 °C operating -20...+70 °C  1) Other characteristics Screw clamp Spring clamp Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) 0.2-2.5 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending for 12 V DC) ,   (pending),   , LRS ,  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. 1)  Over 55°C, blocks have to be mounted on horizontal rail with 10 mm spacing between each block. For vertical rail mounting use temperature is 15°C less decreased. center of rail Screw clamp module center of rail Spring clamp module Dimensional drawings 2CDC110004C0209.pdf   426 11/26/2013   4:52:27 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/70  5 Technical data Optocoupler : 5 to 58 V DC output / 2 A - 6 mm 0.236“ spacing OB...OC 0100 OB..OC  1500 OB...OC 1000 Relay characteristics coil Input voltage: +20%, -15% on DC ; 10%, -10% on AC 5 V DC - 12 V DC 24 V DC 24 V AC/DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC Frequency 50 / 60 Hz Input current 5 mA 9 mA 4 mA 6.3 mA 4 mA 5.1 mA 4.2 mA 4 mA Pull-in voltage at Is=100% 4 V 15 V 15 V 27 V 50 V 80 V Switching time C / O 15 μs / 250  μs 30 μs /  400  μs 1 ms / 7 ms 5 ms / 20 ms 500 μs /  10 ms 1 ms /  15 ms Operating frequency 2000 Hz 1000 Hz 60 Hz 20 Hz Permissible leakage current 1 mA 0.8 mA 0.9 mA 1 mA 0.3 mA Output Output voltage 4.5 to 58 V DC Output current min. 1 mA Output current max. 2 A Output leakage current at U max. 50 μA Redidual voltage at I max and U rated typical 0.1 V max 0.5 V Frequency on inductive load Isolation Input / Output input / Output 2500 V RMS Temperature storage -40...+80 °C operating -20...+70 °C  1) Other characteristics Screw clamp Spring clamp Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) 0.2-2.5 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending for 12 V DC) ,   (pending),   , LRS ,  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. 1)  Over 55°C, blocks have to be mounted on horizontal rail with 10 mm spacing between each block. For vertical rail mounting use temperature is 15°C less decreased. center of rail Screw clamp module center of rail Spring clamp module Dimensional drawings Optocouplers R600 range Technical data 2CDC110004C0209.pdf   427 11/26/2013   4:52:27 PM

5/71   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 Optocouplers R600 range Technical data Technical data Optocoupler : 5 to 58 V DC output / 5 A - 6 mm 0.236“ spacing OB... OC 5000 Input Input voltage 24 V DC 115 V AC/DC 230 V AC/DC Frequency 50 / 60 Hz 50 / 60 Hz Input current 5.4 mA 4.2 mA 4 mA Pull-in voltage at Is=100% 12 V 50 V  80 V Switching time C / O 30 μs / 400 μs 500 μs / 10 ms 1ms / 15 ms Operating frequency 1000 Hz 50 Hz 35 Hz Permissible leakage current 0.8 mA 0.3 mA 0.3 mA Output Output voltage 4.5- 58 V DC Output current min. 25 mA Output current max. 5 A Output leakage current at U max. 0.50 mA Redidual voltage at I max and U rated typical 1 V max 1.6 V  Frequency on inductive load See Note 1 Isolation Input / Output input / Output 2500 V RMS Temperature Ambient temperature  storage -40...+80 °C operating See derating curve Other characteristics Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 10 mm (0.394 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending),  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. Dimensional drawings center of rail Screw clamp module center of rail Spring clamp module 2CDC110004C0209.pdf   428 11/26/2013   4:52:28 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/72  5 Optocouplers R600 range Technical data Technical data Optocoupler : 24 to 400 V AC output / 2 A max. - 6 mm or 12 mm spacing OB...OA 1000 OB...OA  2000 Relay characteristics coil Input voltage: +20%, -15% on DC ; 10%, -10% on AC 24 V DC 48 V AC/DC 60 V AC/DC 115 V AC/DC 230 V AC/DC 24 V DC Frequency 50/60 Hz Input current 3.6 mA 4.3 mA 5.5 mA 4.15 mA 4.6 mA 3.6 mA Pull-in voltage at Is=100% 14 V 15 V 18 V 60 V 135 V 14 V Switching time C / O 150 μs / 1 ms 3 ms / 30 ms 2.2 ms / 18 ms 2.5 ms / 25 ms 150 μs / 1 ms Operating frequency 500 Hz 20 Hz 25 Hz 20 Hz 500 Hz Permissible leakage current 1 mA Output Output voltage 24-400 V AC Frequency 50/60 Hz Output current min. 25 mA Output current max. 1 A 2 A Output leakage current at U max. 0.50 mA Redidual voltage at I max and U rated typical 1 V max 1.6 V Frequency on inductive load Isolation Input / Output input / Output 2500 V RMS Temperature storage -40...+80 °C operating -20...+70 °C  1) Other characteristics Screw clamp Spring clamp Body material grey UL 94 V0 Wire size Solid wire 0.2 - 4 mm² (24-12 AWG) 0.2-2.5 mm² (24-12 AWG) Stranded wire 0.22 - 2.5 mm² (24-12 AWG) Rated wire size 2.5 mm² (12 AWG) Wire stripping length 9 mm (0.354 in) Recommended screwdriver 3.5 mm (0.137 in) Protection IP20  NEMA1 Recommended torque 0.4-0.6 Nm (3.5-5.3 lb.in) Approvals  (pending for 12 V DC) ,   (pending),   , LRS ,  Reference standards CEI 947-7-1 / CEI 947-1 / CEI 1131-2 (in relevant parts) / CEI 60664-1 / CEM : IEC 1000-4-2, 3, 4, 5, 6. 1)  Over 55°C, blocks have to be mounted on horizontal rail with 10 mm spacing between each block. For vertical rail mounting use temperature is 15°C less decreased. Dimensional drawings center of rail Screw clamp module center of rail Spring clamp module 2CDC110004C0209.pdf   429 11/26/2013   4:52:28 PM

5/73   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5   0,2-4 mm²    24-12 AWG      0,22-2,5 mm²    24-12 AWG    320 V    300 V   4  kV   3   6  A  6  A    2,5 mm²    12 AWG     10 mm / .394"     3,5 mm / .137"    0,4-0,6 Nm / 3,5-5,3 lb.in     IP 20 / NEMA1   IEC   UL/CSA D 2,5/5-MP D 2,5/5-MP 1 2 3, 4, 5, 6,  7, 8, 9 10 1 4 5 6 2 3 RC 55 R   0,2-4 mm²    24-12 AWG      0,22-2,5 mm²    24-12 AWG    320 V    300 V   4  kV   3    6 A    6 A    2,5 mm²    12 AWG     10 mm / .394"     3,5 mm / .137"    0,4-0,6 Nm / 3,5-5,3 lb.in     IP 20 / NEMA1   IEC   UL/CSA D 2,5/5-MP1 D 2,5/5-MP1 DCB (1)    FC2      BNMS T5V-1  BNMS T24V-1  BNMS T24V-2  BNMS T48V-1  BNMS T125V-1  BNMS T24V-1  BNMS T48V-1  BNMS T115V-1  BNMS T230V-1 BNMS F125mA-1  BNMS F500mA-1  BNMS F2A-1  BNMS F5A-1  BNMS F125mA-2  BNMS F2A-2  BNMS F5A-2    BNMS F2A-7 BNMS ST1  BNMS ST2   PCMS V0  (2) RC 55   0,2-4 mm²    24-12 AWG      0,22-2,5 mm²    24-12 AWG   320  V  300  V   4  kV   3   6  A  6  A    2,5 mm²    12 AWG     10 mm / .394"     3,5 mm / .137"    0,4-0,6 Nm / 3,5-5,3 lb.in     IP 20 / NEMA1   IEC   UL/CSA D 2,5/5-MP-24VDC    D 2,5/5-MP-24VAC/DC  D 2,5/5-MP-48VAC/DC  D 2,5/5-MP-110VAC  D 2,5/5-MP-230VAC  D 2,5/5-MP... DCB (1)    FC2     BNMS R24V-1  BNMS R24V-2                    BNMS N24V-3  BNMS P24V-3  BNMS N24V-1  BNMS P24V-1  BNMS N24V-2  BNMS P24V-2  BNMS A24V-4 BNMS F125mA-1  BNMS F500mA-1  BNMS F2A-1  BNMS F5A-1  BNMS F125mA-2  BNMS F2A-2  BNMS F5A-2  BNMS F125mA-3  BNMS F125mA-4 BNMS ST1   PCMS V0  (2) RC 55 1 4 5 6 2 3 1 4 5 6 2 3 Type   Part numbers Characteristics Rated Rated / Gauge Wire size  Current     Wire size  Accessories Compression  Solid wire  clamp  Stranded wire  Rated Pulse Pollution degree Voltage Grey V0 Wire stripping lengthRecommended screwdriverRecommended torqueProtection Observations Terminal blocks are delivered without plugs. Max. working temperature        version without LED   : 100°C      version with LED   : 85°C Contact resistance  : 5 m : Spacing 5,08 mm  (.200")  blue  DIA.  2   beige  beige                       red   red   red   red   red   red   black  red   red   red   red   red   red   red   red   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey   grey    pending (1) Solely on the top stage.  (2) Comb type jumper bar from 2 to 22 poles, see accessories. center of rail Order plugs separately Terminal blocks     component holder Base for pluggable plug  R500 Series     DIN  3  End stop    th. 9 mm  BADL V0  End stop    th. 9,1 mm  BAM V2  End stop    th. 9,1 mm  BAM V0 V0  Rail    35 x 7,5 x 1  PR3.Z2    Rail    35 x 15 x 2,3  PR4    Rail    35 x 15 x 1,5  PR5  Type   Part numbers Grey V0 Spacing 5,08 mm  (.200") pending  blue  DIA.  2          white   white  white   white   white  yellow   yellow   yellow   yellow    grey   grey   grey   grey   grey   grey   grey          grey   grey   grey     Order plugs separately Type   Part numbers Grey V0 Spacing 5,08 mm  (.200") pending  blue  DIA.  2  beige   beige                     red   red   red   red   red   red   black  grey   grey   grey   grey   grey   grey   grey  grey   grey   grey     Order plugs separately Relay/opto. base without output LED Relay/opto. base without input LED Relay/opto. base with output LED center of rail center of rail   1SNA607224R0100 1SNA105028R2100 1SNA007865R2600 1SNA031820R1400  1SNA031847R1300            1SNA031807R1400  1SNA031810R1200  1SNA031813R0100  1SNA031815R0300  1SNA031817R0500  1SNA031819R1700  1SNA031839R1300  1SNA031806R1300  1SNA031809R2600  1SNA031808R2500  1SNA031811R0700  1SNA031812R0000  1SNA031814R0200  1SNA031816R0400  1SNA031818R1600  1SNA031821R0100  1SNA031838R1200  1SNA031822R0200  1SNA031823R0300  1SNA031824R0400  1SNA031825R0500  1SNA031826R0600  1SNA031827R0700  1SNA031828R1000  1SNA031849R2500  1SNA031829R1100  1SNA031830R1600  1SNA031832R0400  1SNA031832R0400  1SNA031833R0500  1SNA031833R0500  1SNA205523R2200        1SNA  399 903 R0200         1SNA  103 002 R2600         1SNA  199 306 R0300         1SNA  174 300 R1700         1SNA  168 500 R1200         1SNA  168 700 R2200   1SNA607223R0000       1SNA105028R2100 1SNA007865R2600    1SNA031831R0300  1SNA031848R2400  1SNA031800R2100  1SNA031801R1600  1SNA031845R1100  1SNA031802R1700  1SNA031803R1000  1SNA031804R1100  1SNA031805R1200 1SNA031821R0100  1SNA031838R1200  1SNA031822R0200  1SNA031823R0300  1SNA031824R0400  1SNA031825R0500  1SNA031826R0600          1SNA031849R2500  1SNA031829R1100  1SNA031830R1600     1SNA205523R2200   1SNA607222R0700   1SNA607260R2100     1SNA607261R1600    1SNA607266R1300   1SNA607267R1400  1SNA105028R2100 1SNA007865R2600 1SNA031820R1400  1SNA031847R1300                    1SNA031807R1400  1SNA031810R1200  1SNA031813R0100  1SNA031815R0300  1SNA031817R0500  1SNA031819R1700  1SNA031839R1300 1SNA031821R0100  1SNA031838R1200  1SNA031822R0200  1SNA031823R0300  1SNA031824R0400  1SNA031825R0500  1SNA031826R0600 1SNA031827R0700  1SNA031828R1000    1SNA031829R1100         1SNA 205523R2200 Type   Part numbers Type   Part numbers Type   Part numbers DCB (1)    FC2     BNMS R24V-1  BNMS R24V-2                BNMS N24V-3  BNMS P24V-3  BNMS N24V-1  BNMS P24V-1  BNMS N24V-2  BNMS P24V-2  BNMS A24V-4  BNMS N5V-3  BNMS P5V-3  BNMS N48V-3  BNMS P48V-3  BNMS N5V-1  BNMS P5V-1  BNMS N5V-2  BNMS P5V-2  BNMS F125mA-1  BNMS F500mA-1  BNMS F2A-1  BNMS F5A-1  BNMS F125mA-2  BNMS F2A-2  BNMS F5A-2  BNMS F125mA-3  BNMS F125mA-4 BNMS F2A-7  BNMS ST1  BNMS ST2  BNMS CAI/U-500  BNMS CAI/U-500  BNMS CAI/U-250  BNMS CAI/U-250  PCMS V0  (2)   1 Test device   2 Test plug  3  Relay plug  1 SPDT 10 mA/6 A       1 SPDT 1 mA/6 A   4  Input  optocoupler plug  5 V DC        24 V DC        24 V DC        48 V DC        125 V DC        24 V AC        48 V AC        115 V AC        230 V AC   5  Output optocoupler  24 V DC/100 mA      plug  24 V DC/100 mA        24 V DC/2 A        24 V DC/2 A        24 V DC/1 A        24 V DC/1 A        24 V DC/1 A   5  Output optocoupler   5 V DC/100 mA      plug  5 V DC/100 mA        48 V DC/100 mA        48 V DC/100 mA        5 V DC/2 A        5 V DC/2 A        5 V DC/1 A        5 V DC/1 A   7  Fuse plug   125 V/125 mA        125 V/500 mA        125 V/2 A       125 V/5 A        250 V/125 mA        250 V/2 A        250 V/5 A       125 V/125 mA       250 V/125 mA        125 V/2 A   8  Strap plug    9  Converter plug   0-20 mA/0-10 V       4-20 mA/2-10 V       0-20 mA/0-5 V       4-20 mA/1-5 V   10  Comb type jumper bar  10 poles   R  See section on marking 2CDC110004C0209.pdf   430 11/26/2013   4:52:28 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/74  5 BNMS  T5V-1 BNMS  T24V-1 BNMS  T48V-1 BNMS  T24V-1 BNMS  T48V-1 BNMS  T115V-1 5 V DC 24 V DC 48 V DC 24 V AC 48 V AC 115 V AC 230 V AC BNMS  T230V-1 125 V DC BNMS  T125V-1 4 3 2 1 4 3 2 1 BNMS  T24V-2   BNMS  T24V-1  BNMS  T24V-2     19,2 V to 27,6 V DC     5  mA      12 V DC    20 μs / 1,3 ms    10 μs / see curve 1     1  mA          58 V / 30 mA    58 V / 5 mA    2,3 V DC    0,3 V DC    2,7 V DC    0,5 V DC      TTL     2,5  kV      - 30°C to + 80°C   -20°C to + 55°C    Characteristics Part number Type P/N Type P/N Type P/N Type P/N Input optocoupler plugs INPUTVoltageMax. currentTypical triggering threshol at Is = 100%Switching time      C/O Leakage current OUTPUTMax. voltage. / Max. currentResidual voltage max. I and rated U standard   max.  Compatibility Input / Ouput isolation  TEMPERATURE Storage Operating Charateristics Part number Type P/N Type P/N Type P/N INPUTVoltageMax. currentTypical triggering threshold at Is = 100%Switching time      C/O Leakage current OUPUTMax. voltage / Max. currentResidual voltage max. I and rated U standard   max.   Input / Ouput isolation  TEMPERATURE Storage Operating       4,5 V to 5,5 V DC   6  mA   3,5  V    20 μs / 1,3 ms          58 V / 30 mA    2,3 V DC    2,7 V DC       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C          38,4 V to 55,2 V DC   4,1  mA    21 V DC    20 μs / 1,3 ms   0,8  mA         58 V / 30 mA    2,3 V DC    2,7 V DC       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C          20,4 V to 26,4 V AC   8,5  mA    13 V AC    6 ms / 10 ms   1  mA         58 V / 30 mA    2,3 V DC    2,7 V DC       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C          40,8 V to 52,8 V AC   4,5  mA    22 V AC    6 ms / 10 ms   1  mA         58 V / 30 mA   2,3  V   2,7  V       2,5  kV         - 30°C to + 80°C    - 20°C to + 55°C          98 V to 126,5 V AC   8  mA    50 V AC    6 ms / 10 ms   2  mA         58 V / 30 mA   2,3  V   2,7  V       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C          195,5 V to 253 V AC   7  mA    95 V AC    6 ms / 10 ms   2  mA         58 V / 30 mA   2,3  V   2,7  V       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C    Derating curve Derating curve Type P/N       93,5 V to 140 V DC   3  mA   50 V DC   20 μs / 1,3 ms         58 V / 30 mA    2,3 V DC    2,7 V DC       2,5  kV      - 30°C to + 80°C    - 20°C to + 55°C    DC plugs AC plugs Switching time R L  curve 1 for 24 V DC plugs only Switching time (μs) Load resistance R L  (k :)   1SNA031831R0300   1SNA031800R2100   1SNA031801R1600   1SNA031802R1700   1SNA031803R1000   1SNA031804R1100   1SNA031805R1200   1SNA031845R1100   1SNA031848R2400 2CDC 292 013 F0013 2CDC110004C0209.pdf   431 11/26/2013   4:52:29 PM

5/75   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 BNMS  N5V-3 BNMS  N24V-3 BNMS  N48V-3 BNMS  N5V-2 BNMS  N24V-2 N5V-3 P5V-3 BNMS  P5V-3 N24V-3 P24V-3 BNMS  P24V-3 N48V-3 P48V-3 BNMS  P48V-3 N5V-2 P5V-2 BNMS  P5V-2 N24V-2 P24V-2 BNMS  P24V-2 I (mA) Q (°C) 0 100 57 60 I (mA) Q (°C) 0 100 57 60 I (mA) Q (°C) 0 100 57 60 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 Characteristics Transistor output  optocoupler plugs Type P/N Type P/N Type P/N Part numbers Characteristics MOS output  optocoupler plugs Type P/N Type P/N Part numbers 100 mA output optocoupler   24 V DC 1 A output optocoupler   5 V DC 1 A output optocoupler    24 V DC INPUTVoltageMax. currentTypical triggering threshold at Is=100%Switching time  C/O Leakage current OUTPUTMax. voltage / Max. currentResidual voltage max. I and rated U   standard  U    max. Frequency on inductive loadInput / Output isolation TEMPERATURE Storage Operating 100 mA   output optocoupler    5 V DC 100 mA output optocoupler   48 V DC   4,5 V to 5,5 V DC  12,5  mA   3,5 V DC   20 μs / 250 μs  1  mA   58 V / See graphs    1 V DC   1,3 V DC   See Note 1  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C   20,4 V to 28,8 V DC  6,7  mA   10 V DC   50 μs / 350 μs  1  mA   58 V / See graphs   1 V DC   1,3 V DC   See Note 1  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C Note 1 : Fmax = (1-0,007 x Us) / (L x Is²)orF max  = (1-0,007 x U s ) / (P x    ) Us  = Output voltage supplyIs  = Output currentL  = Inductive loadP  = Load powerR  = Load resistance LR INPUTVoltageMax. currentTypical triggering threshold at Is = 100 %Switching time  C/O Leakage current OUTPUTMax. voltage / Max. currentResidual voltage max. I and rated U   standard  U    max. Frequency on inductive loadInput / Output isolation TEMPERATURE Storage Operating   4,5 V to 5,5 V DC  8,5  mA   2,9 V DC   20 μs / 1,3 ms  1  mA     58 V / 100 mA    1 V DC   1,3 V DC   See Note 1  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C   20,4 V to 28,8 V DC  4,8  mA   16 V DC   20 μs / 1,3 ms  1  mA    58 V / 100 mA    1 V DC   1,3 V DC   See Note 1  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C   40,8 V to 57,6 V DC  3,9  mA   26 V DC   20 μs / 1,3 ms  1  mA    58 V / 100 mA    1 V DC   1,3 V DC   See Note 1  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C Derating curve Derating curve Derating curve Derating curve Derating curve  1SNA031806R1300   1SNA031807R1400  1SNA031808R2500  1SNA031816R0400  1SNA031817R0500  1SNA031809R2600  1SNA031810R1200  1SNA031811R0700  1SNA031818R1600  1SNA031819R1700 2CDC 292 013 F0013 2CDC 292 013 F0013 2CDC110004C0209.pdf   432 11/26/2013   4:52:29 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/76  5 BNMS  N5V-1 BNMS  N24V-1 BNMS  A24V-4 N5V-1 P5V-1 BNMS  P5V-1 N24V-1 P24V-1 BNMS  P24V-1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1 Characteristics MOS output  optocoupler plug Type P/N Type P/N Part numbers Characteristics Triac output  optocoupler plug Type P/N Part numbers 2 A output optocoupler  24 V DC 2 A output optocoupler   5 V DC   4,5 V to 5,5 V DC  12,5  mA   3,5 V DC   20 μs / 250 μs  1  mA   30 V DC / See graphs       1 V DC   1,3 V DC   See Note 2  2,5  kV   - 30°C to  + 80°C   - 20°C to  + 60°C   20,4 V to 28,8 V DC  6,7  mA   10 V DC   50 μs / 350 μs  1  mA     30 V / See graphs       1 V DC   1,3 V DC   See Note 2  2,5  kV   - 30°C to + 80°C   - 20°C to + 60°C Note 2 : Fmax = (1 - 0,012 x Us) / (L x Is²)orFmax = (1 - 0,012 x Us) / (P x    ) Us  = Output voltage supplyIs  = Output currentL  = Inductive loadP  = Load powerR  = Load resistance LR Derating curve Derating curve INPUTVoltageMax. currentTypical triggering thresholdSwitching time  C/O Leakage current OUTPUTMax. voltage / Max. currentResidual voltage max. I and rated U    standard U    max. Input / Output isolation TEMPERATURE Storage Operating   20,4 V to 28,8 V DC  3,8  mA   10 V DC   9,5 ms / 12 ms     24 V to 253 V AC / See derating curve      1 V AC   1,3 V AC  2,5  kV   - 30°C to + 80°C   - 20°C to + 70°C 1 A output   optocoupler     24 V DC Derating curve  1SNA031812R0000  1SNA031813R0100  1SNA031814R0200  1SNA031815R0300  1SNA031839R1300 INPUTVoltageMax. currentTypical triggering thresholdSwitching time  C/O Leakage current OUTPUTMax. voltage / Max. currentResidual voltage max. I and rated U    standard U    max. Frequency on inductive loadInput / Output isolation TEMPERATURE Storage Operating 2CDC 292 013 F0013 2CDC 292 013 F0013 2CDC110004C0209.pdf   433 11/26/2013   4:52:29 PM

5/77   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5 BNMS  F125mA-1 BNMS  F500mA-1 BNMS  F2A-1 BNMS  F5A-1 BNMS  F125mA-2 BNMS  F2A-2 BNMS  F5A-2 BNMS  F125mA-3 BNMS  F125mA-4 BNMS  ST1 BNMS  ST2 BNMS ST1 BNMS ST2   125 V / 125 mA   125 V / 500 mA   125 V / 2 A   125 V / 5 A   250 V / 125 mA   250 V / 2 A   250 V / 5 A   125 V / 125 mA   250 V / 125 mA 4 2 1 5 1 2 4 1 2 1 2 3 BNMS  R24V-1 R24V-1 6 24 V DC 2 I(A) Θ(°C) 0 10 20 30 40 44 52 55 Current (Acc) V oltage (Vcc)    DC12  AC12  DC13  AC15 24 V  6 A  6 A  1 A  3 A 110/120 V  0,3 A  6 A  0,2 A  3 A 220/230 V  0,2 A  6 A  0,1 A  3 A BNMS CA I/U-250  250  : 0,35 W  0,1  %  25  ppm BNMS CA I/U-500  500  : 0,35 W  0,1  %  25  ppm 1 4 3 2 5 4 3 2 1 4 3 2 1 BNMS  R24V-2   BNMS R24V-1  BNMS R24V-2 Fuse and strap plugs Type P/N Type P/N Type P/N Part numbers  Output fuse plug Input fuse plug Strap plug Characteristics Part numbers Characteristics Relay plugs Type P/N Part numbers 1 SPDT relay Limited load in CC Current (Acc) V oltage (Vcc) Derating curve COIL VoltageCurrent max. Trip voltageCONTACT Type Voltage mini. / max.Switching current mini. / max.Switching current  AC1 mini. / max.      DC1 mini. / max. Number of operations  on load  Number of operations  off load  Operating speed  C/O Bounce Isolation    Coil / Contact Resistance to shock waves  Coil / Contact Isolation    Contact / Contact TEMPERATURE Storage Operating Analogical plugs Type P/N ResistancePowerAccuracyStability Type P/N Current / Voltage Converter Plug with 250  : accuracy resistance for  analogical signals. Current / Voltage Converter  Plug with 500  : accuracy resistance for   analogical signals.     20,4 V to 28,8 V DC    7  mA    1,2  V    1  SPDT   12 V / 250 V    5 V / 250 V   10 mA / 6 A    1 mA / 6 A   0,6 VA/1500 VA (resistance)    0,05 VA/1500 VA (resistance)   0,6 W / 140 W    0,05 W / 140 W    10 5  operations for AC15    10x10 6  operations      6 ms / 8 ms    1,5  ms    4  kV    4  kV    1  kV     - 40°C to + 80°C     - 20°C to + 55°C  1SNA031821R0100  1SNA031838R1200  1SNA031822R0200  1SNA031823R0300  1SNA031824R0400  1SNA031825R0500   1SNA031826R0600  1SNA031827R0700  1SNA031828R1000  1SNA031829R1100  1SNA031830R1600  1SNA031820R1400  1SNA031832R0400  1SNA031833R0500  1SNA031847R1300 2CDC 292 013 F0013 2CDC 292 013 F0013 2CDC 292 013 F0013 2CDC110004C0209.pdf   434 11/26/2013   4:52:30 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/78  5 BADL    BADL  9  mm          50      BAM2 V0  10 mm          50   BAM2  10  mm          50    BAM2 V0  10 mm          50     BAMH  9,1  mm          50    BAMH V0  9,1 mm          50     BADH  12  mm          50 BAM2 BAMH BADH    PR30  2  m          1     PR3.Z2  2  m          1     PR3.G2  2  m          1     PR5  2  m          1     PR4  2  m          1 PR30 PR3.Z2 PR3.G2 PR5 PR4 FC2  FC2              10    BJ612-10              10   BJ612-20              10 BJ612-...    SC612              10 SC612    D4/12-3-3              5   D4/12-3R-3R            5 D4/12-3... 2,5 mm² 4 mm² 4 mm² 4 mm² BJ612-... BJ612-... 2,5 mm² End stops Description Type    Order  P/N        Packaging Weight                 kg End stop DIN 3   grey  V0    End stop with screws DIN 3   grey  V0     grey  V2     beige  V0    High end stop with screws DIN 1  and DIN 3  grey     beige  V0    High end stop with screws DIN 3   grey  The end stops are mounted at the extremity of the terminal board assembly, giving additional support to the terminal blocks as markers. For various types of marking, refer to the marker section. Mounting rails Symmetrical zinc bichromate plated  steel prepunched rail  Symmetrical zinc bichromate plated  steel rail  White, symmetrical passivated   galvanized steel rail  Symmetrical zinc bichromate plated  steel rail  Symmetrical zinc bichromate plated  steel rail Test devices Test plug DIA. 2 mm Assembled jumper bar 10 poles - 24 A  Assembled jumper bar 20 poles - 24 A Assembled jumper bar This accessory permits electrical connection between 2 to 70 blocks with 6 mm spacing placed side by side. It can be used with screw clamp or spring clamp blocks with 6 mm or 12 mm spacing.Interconnection of blocks not placed side by side is possible if teeth of the jumper bar have been cut in front of the blocks not to be connected. These teeth can be removed using pliers.Use of separator end sections before and after the jumper bar is required to preserve IP20 protection of the assembly. Separator end section Separator end section Directly mounted on the rail beside the block, it permits to identify and make electrical insulation of product groups using jumper bars. Dimensions are the same as screw clamp blocks : width 70 mm and height on rail 67,5 mm with 2 mm spacing. Screw clamp distribution block sp. 12 mm  Spring clamp distribution block sp. 12 mm Distribution module This terminal block with BJ612-... jumper bars permits  2 polarities distribution (PCL side and process side) thanks to two separate circuits, each of them including :  - one 4 mm² input,   - two 2,5 mm² outputs   - one double output for jumper bar BJ612-... It permits also the connection of ground to the rail though a  4 mm² input. Rated voltage :  250 VAC-DC  Rated current :  32 A (4 mm²) - 16 A (2,5 mm²)  Recommended torque :  0,4 - 0,6 Nm          1SNA399903R0200            1SNA399967R0100          1SNA206351R1600          1SNA296351R0000            1SNA114836R0000          1SNA194836R0100            1SNA116900R2700          1SNA173220R0500            1SNA174300R1700            1SNA164800R0300            1SNA168700R2200            1SNA168500R1200        1SNA007865R2600        1SNA290488R0100          1SNA206754R0000        1SNA290474R0200        1SNA645031R2000            1SNA645531R2200 2CDC110004C0209.pdf   435 11/26/2013   4:52:30 PM

5/79   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 5   2   3   4   5   6   7   8   9  10 11 12 13 14 15 16 17 18 19 20 21 22 PCMS DC     DCB    PC EIP PC 1SNA113550R2000 EIP PC9  15 A     10 poles BJS            BJ  EV6D    BJS9    32 A BJS9    32 A    RL  RLV -55°C - +110°C   IP20 / NEMA1  600  600  26  15  2,5  mm 2  14  AWG   2,5 mm²     14  AWG  2,5  mm²   IEC  CSA  NFC  VDE  4 2 1 3 1 4 3 2  AD  2,5 RLV RPEV Accessories Comb-type jumper This accessory permits the electrical connection of 2 to 22 blocks.  No.  Grey  Red  Blue  Green/Yellow   of  UL94V0 UL94V0 UL94V0 UL94V0       poles Designed to hold RPEV label (see opposite).   PEF   Delivered with labels. The label holders are removable and the labels can be changed easily.   For mounting on a PCB block in a 2 mm     diameter hole (no support leg). PEF Identification label holders Sheets of 99 pre-cut labels ✓  Blank RPEV Label for PEF 29 x 6 mm This patented device is mounted on the round screwdriver opening. It is used for trouble shooting, measuring and control for monitoring and repairing an installation, on blocks without a test socket. For this, the device receives an FC2 test plug. The DC's are differentiated by their colour : blue for MA 2,5/5 blocks       Test device on screw head Comb-type jumper bar This accessory can be used only on the terminal blocks with at least one compression clamp connection. It permits the electrical connec-tion of 2 to 10 blocks.Interconnection of non-consecutive blocks is possible by removing the teeth opposite the blocks which must not be connected. The comb-type jumper bars can be cut using pliers (or a saw) : in this case, the use of an insulating tip EIP is recommended. The comb is placed in the compression clamp before tightening the screws, above the eventual conductor. To be mounted on blocks series R900 and R910 : Insulating tip for comb Comb-type jumper bar Subassembly screw + washer + post Perforated jumper bar  to be cut to length             Jumper bar not assembled     Jumper bar To connect terminal blocks, place the metal tube into the top center hole on each terminal block to be  connected.The metal tube contacts the terminal block's internal  connector bar.The perforated bar is cut to length and placed flat  along the center opening of the series of terminal blocks.The screw is inserted into the perforated bar's hole which is located directly  above the blocks being connected. The screw goes through the threaded  metal tube and is screwed into the terminal block's internal connector bar. This completes the electrical connection to the perforated bar and connects  the block. To be mounted on blocks series R910 : Screw + washer + post Perforated jumper bar  8 poles  16  poles   Lengthwise marker  Lengthwise  marker   Width 9 mm  .354"  Large area for writing. To be snapped onto the top of blocks. Blank marker for writing :   For mounting on PCB in a 3,7 mm    diameter  hole. Characteristics Wire size  mm² / AWG Voltage     V    Current     A Rated wire size      mm² / AWG Working temperature      °C Protection     Rigid Flexible IDC jumper (insulation displacement jumper) Quick-jump lets you interconnect screw clamp terminals of different sizes, levels and all manufacturers quickly and safely. Its insulation displacement technology makes it easy to use, fast, economical and does not require a special tool. Use as a jumper between relays, switches and other electronic components. ABB Quick-jump will fit any screw clamp type terminal block, from 6 mm .238" spacing and larger. Adding a shunt in an installation : 1 - Insert ABB Quick-jump into your terminal screw clamp.2 - Guide the terminal screw clamp into contact with the wire.3 -  Secure the wire by closing the Quick-jump lever with any flat nose  pliers. 4 - Tighten the terminal screw. How to use : connecting Quick-jump to your terminal 1 - Insert ABB Quick-jump into your terminal screw clamp.2 - Tighten the terminal screw.3 -  Guide jumper wire through the V-shaped opening in the Quick-jump.4 -  Secure the wire by closing the Quick-jump lever with any flat nose pliers. Insulation displacement jumper    1SNA205491R2300 1SNA205492R2400 1SNA205493R2500 1SNA205494R2600    1SNA205495R2700 1SNA205496R2000 1SNA205497R2100 1SNA205498R0200    1SNA205499R0300 1SNA205500R1000 1SNA205501R0500 1SNA205502R0600    1SNA205503R0700 1SNA205504R0000 1SNA205505R0100 1SNA205506R0200    1SNA205507R0300 1SNA205508R1400 1SNA205509R1500 1SNA205510R0100    1SNA205511R2600 1SNA205512R2700 1SNA205513R2000 1SNA205514R2100    1SNA205515R2200 1SNA205516R2300 1SNA205517R2400 1SNA205518R0500    1SNA205519R0600 1SNA205520R0300 1SNA205521R2000 1SNA205522R2100    1SNA205523R2200 1SNA205524R2300 1SNA205525R2400 1SNA205526R2500    1SNA205527R2600 1SNA205528R0700 1SNA205529R0000 1SNA205530R0500    1SNA205531R2200 1SNA205532R2300 1SNA205533R2400 1SNA205534R2500    1SNA205535R2600 1SNA205536R2700 1SNA205537R2000 1SNA205538R0100    1SNA205539R0200 1SNA205540R1700 1SNA205541R0400 1SNA205542R0500    1SNA205543R0600 1SNA205544R0700 1SNA205545R0000 1SNA205546R0100    1SNA205547R0200 1SNA205548R1300 1SNA205549R1400 1SNA205550R1100    1SNA205551R0600 1SNA205552R0700 1SNA205553R0000 1SNA205554R0100    1SNA205555R0200 1SNA205556R0300 1SNA205557R0400 1SNA205558R1500    1SNA205559R1600 1SNA205560R1300 1SNA205561R0000 1SNA205562R0100    1SNA205563R0200 1SNA205564R0300 1SNA205565R0400 1SNA205566R0500    1SNA205567R0600 1SNA205568R1700 1SNA205569R1000 1SNA205570R1500    1SNA205571R0200 1SNA205572R0300 1SNA205573R0400 1SNA205574R0500    1SNA020568R0400     1SNA173178R0700      1SNA105028R2100       1SNA168400R1600       1SNA177583R1200       1SNA177584R1300   1SNA103849R0300  1SNA114205R2000 1SNA210160R1200 2CDC110004C0209.pdf   436 11/26/2013   4:52:30 PM

   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |   ABB   5/80  5 1 2 3                1                  1                1                  1 Marking for Interface Modules Selection table Remove one of the side bands of the card. Separate the chosen strip from the rest of the card. Press the first marker in place, hold it and slide your thomb on the rest of the strip.   Possible mounting :   POSSIBLE   Recommended mounting :     Impossible mounting :  Marking kit RC 5 mm spacing or 6 mm spacing Box with 100 cards with 18 various part numbers (see table next page) Description Type    Order  P/N        Packaging Weight                 kg Box with 100 cards RC 5 mm spacing  Refill for box RC 5 mm Box with 100 cards RC 6 mm spacing  Refill for box RC 6 mm Refilable box of 100 cards of  18 RC markers Horizontal marking Vertical marking Marking for terminal blocks Standard RC marker cards  Marker sizes  RC55  RC65  RC610  Blank cards   Horizontal marking   10 strips from 1 to 10   10 strips from 11 to 20   10 strips from 21 to 30   10 strips from 31 to 40   10 strips from 41 to 50   10 strips from 51 to 60   10 strips from 61 to 70   From 1 to 100   From 101 to 200   20 times L1-L2-L3-N-PE   Vertical marking     10 strips from 1 to 10   10 strips from 11 to 20   10 strips from 21 to 30   10 strips from 31 to 40   From 1 to 100     (x) = Nb of cards  (x) = Nb of cards   (x) = Nb of cards      in 5 mm spacing kit  in 6 mm spacing kit   in 6 mm spacing kit  Markers for  modules : RC610 RC55 RC65   R500       R600    POSSIBLE    R900       R910    POSSIBLE    R1800              1SNA400085R2700          1SNA400145R0700         1SNA400084R2600          1SNA400144R0600    1SNA230000R1200  1SNA232000R0000  1SNA233000R0100     1SNA230002R0000 (5)  1SNA232002R2600 (5)  1SNA233002R2700 (25)      1SNA230003R0100 (2)  1SNA232003R2700 (2)  1SNA233003R2000 (10)      1SNA230004R0200  1SNA232004R2000  1SNA233004R2100 (6)      1SNA230005R0300  1SNA232005R2100  1SNA233005R2200 (4)      1SNA230006R0400  1SNA232006R2200  1SNA233006R2300 (3)      1SNA230007R0500  1SNA232007R2300  1SNA233007R2400 (2)      1SNA230008R1600  1SNA232008R0400  1SNA233008R0500 (2)      1SNA230030R0700 (2)  1SNA232030R2500 (2)  1SNA233030R2600 (15)      1SNA230031R2400  1SNA232031R1200  1SNA233031R1300 (2)     1SNA230131R2500  1SNA232131R1300  1SNA233131R1400 (2)        1SNA230041R0600  1SNA232041R2400  1SNA233041R2500 (5)      1SNA230042R0700  1SNA232042R2500  1SNA233042R2600 (3)      1SNA230043R0000  1SNA232043R2600  1SNA233043R2700 (2)      1SNA230044R0100  1SNA232044R2700  1SNA233044R2000 (2)     1SNA230060R1500  1SNA232060R0300  1SNA233060R0400 (8) 2CDC110004C0209.pdf   437 11/26/2013   4:52:31 PM

6/1   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 6 Panel heaters Product group picture 2CDC110004C0209.pdf   438 11/26/2013   4:52:31 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   6/2  6 Panel heaters Table of contents Panel heaters Product group picture   6/1 Table of contents   6/2 Benefits and advantages, heat demand calculation   6/3 Ordering details   6/4 Technical data   6/5 Dimensional drawings, Application note   6/7 Notes   6/8 2CDC110004C0209.pdf   439 11/26/2013   4:52:32 PM

6/3   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 6 Panel heaters Benefits and advantages, heat demand calculation Why do I need a panel heater? Whenever the ambient temperature around the control panel exceeds the temperature inside the control panel, condensation may occur inside the control panel. Humidity may be deposited as condensation water on the devices and terminals in the control panel, leading to malfunction and short circuits.A simple solution is heating the inside of the control panel. This ensures that the temperature inside the control panel is always a little bit higher than the outside temperature, thus avoiding condensation.To ensure that this does not happen to your control panel or subsidiary distribution box in the winter, we recommend using panel heaters to pro-tect your equipment from frost damages and to ensure the  trouble-free functioning of your systems.ABB’s panel heaters are characterized by their flat structural form that enables positive  fastening at the control panel wall without disturbing other devices. A mounting clip also enables DIN rail mounting.  Each panel heater includes overheating protection. Fields of application   ½  Anti-condensation Avoidance of water condensation inside the control panel  (eg. in carpark ticket machines)   ½  Anti-frost Avoidance of undercooling of systems and control panels inside  of free-standing distributors or mobile equipment.  Features   ½  Flat structural form: only 3 mm thick   ½  Rated input power stages stages:  20 W, 40 W, 100 W, 200 W, 250 W, 300 W   ½  Voltages: 110 V or 230 V, 50/60 Hz   ½  Plate temperature fixed at +70 °C or +80 °C or adjustable   from +30 °C to +150 °C   ½  Long lifetime through low surface temperature (70 °C or 80 °C)   ½  Even heat distribution on the whole heating surface   ½  Good resistance against chemicals   ½  Isolation out of silicone rubber, continuous 180 °C, puncture-  proof until 12 kV/mm   ½  Bracket: anodized aluminium    ½  Connecting line: 0.5 m silicone rubber, 2 x 0.75 mm 2      ½  The heating elements are tested in accordance to VDE 720,   CEE publication 11   ½  Lowest ambient temperature -40 °C   ½  Fastening: Snap on 35 mm top hat rail, optionally fastening with  M 4 screws or by bonding   ½  Separate thermostat for exact temperature control Heat demand calculation The calculation of the heat demand (watt) and the selection of the  appropriate heating plate depends on different factors such as:   ½  size of the control panel    ½  material of the control panel   ½  place of installation   ½  relative  humidity   ½  power dissipation (self-heating) of the chassis-mounted units   ½  ventilation of the control panel To aid installation, we have established the guideline values on the right.        Location    case  content   indoors   outdoors  in litres  heated    unheated up to  20  10 W  20 W  40 W    30  20 W  33 W  55 W    50  30 W  55 W  90 W    75  30 W  75 W  130 W    100  55 W  90 W  150 W    120  55 W  90 W  150 W    160  55 W  130 W  180 W    240  90 W  180 W  235 W    300  90 W  180 W  275 W    420  90 W  180 W  310 W    500  90 W  240 W  360 W    600  90 W  280 W  415 W    800  130 W  280 W  630 W    1000  130 W  280 W  810 W    1200  150 W  360 W  1300 W The panel heaters have to be installed to provide sufficient heat dissipation 2CDC110004C0209.pdf   440 11/26/2013   4:52:32 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   6/4  6 Panel heaters Ordering details Ordering details Rated input power Rated operationalvoltage Plate  tempe-rature Cable length Type Order  code Price Pkg  qty Weight(1 pce)kg (lb)   20 W 230 V AC max.  80 °C 0.5 m 20W-230V-HE GHV6000020V0006 1 0.10 (0.22) 40 W 40W-230V-HE GHV6000040V0006 0.25 (0.55) 100 W max.  70 °C 100W-230V-HE GHV6000100V0006 0.30 (0.66) 200 W 200W-230V-HE GHV6000200V0006 0.50 (1.10) 300 W 300W-230V-HE GHV6000300V0006 0.50 (1.10) 40 W 110 V AC 70 °C fixed 0.5 m 40W-110V-HP GHV6000040V0004 1 0.13 (0.29) 40 W 230 V AC 40W-230V-HP GHV6010040V0006 0.13 (0.29) 100 W 110 V AC 100W-110V-HP GHV6010100V0004 0.37 (0.80) 100 W 230 V AC 100W-230V-HP GHV6010100V0006 0.37 (0.80) 250 W 110 V AC 250W-110V-HP GHV6010250V0004 0.58 (1.28) 250 W 230 V AC 250W-230V-HP GHV6010250V0006 0.54 (1.19) 40 W 230 V AC 70 °C fixed 3 m 40W-230V-HP-E GHV6010040V0007 1 0.13 (0.29) 100 W 100W-230V-HP-E GHV6010100V0007 1 0.37 (0.80) 100 W 230 V AC adjustab-le from 30-150 °C - 100W-230V-HP-ADJ GHV6017100V0006 1 0.39 (0.85) 250 W 230 V AC 250W-230V-HP-ADJ GHV6017250V0006 0.54 (1.19) Ordering details - Accessories Description Type Order  code Price Pkg  qty Weight(1 pce)kg (lb)   Mounting clips for heating elements to snap on DIN rail (Heating Power 20-100W) 20-100W-MC GHV6000000V0001 1 0.01 (0.22) Mounting clips for heating elements to snap on DIN rail (Heating Power 200-300W) 200-300W-MC GHV6000000V0002 1 0.02 (0.44) Thermostat with rated operational voltage 230 V AC (Temperature adjustable from 10 to 60 °C) Thermostat GHV6011060V0001 1 0.25 (0.55) 2CDC 311 001 F0005 2CDC 311 012 F0005 2CDC 311 010 F0005 2CDC 311 005 F0005 2CDC 311 006 F0005 Heating element 20 W 1) Heating element 250 W 1) Heating plate 100 W 1)  adjustable Mounting clips Thermostat 1)  Rated input power 2CDC110004C0209.pdf   441 11/26/2013   4:52:32 PM

6/5   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 6 Panel heaters Technical data Data at T a  = 25 °C and rated values, if noting else indicated. Type 20W-230V-HE 40W-230V-HE 100W-230V-HE 200W-230V-HE 300W-230V-HE Input circuit - supply circuit Rated operational voltage 230 V AC Operational voltage range 210-240 V AC/DC Rated frequency 50/60 Hz Frequency range DC; 47-63 Hz Typical current /  power consumption 230 V AC 87 mA / 20 VA 170 mA / 40 VA 439 mA / 100 VA 870 mA / 200 VA 1300 mA / 300 VA 110 V AC - - - - - Typical inrush current 87 mA 170 mA 430 mA 870 mA 1300 mA Output circuit Heating element silicone heating element Bracket of the heating element anodized aluminium Isolation of the heating element silicone Maximum peak heating power 1) 20 W 40 W 100 W 200 W 300 W Maximum plate temperature 80 °C 70 °C Plate temperature adjustable no Power density 0.17 W/cm 2 0.13 W/cm 2 0.33 W/cm 2 0.5 W/cm 2 General data Duty time 100 % Mounting screw, bond, DIN rail (optional) Degree of protection IP53 Electrical connection Connecting line out of silicone rubber 2x0.75 mm 2  (2x18 AWG) Length of connecting line 0.5 m Environmental data Ambient  temperature range operation -40...+20 °C -40...+40 °C storage -60...+100 °C transport -60...+100 °C Standards Product standard DIN EN 60335-1, DIN EN 60335-1 (VDE 0700-1):2007-02, EN 60335-1:2002+ A11+ A1+ A12+ Corr.+ A2:2006 Low Voltage Directive 2006/95/EC 1) Maximum peak heating power = Rated input power 2CDC110004C0209.pdf   442 11/26/2013   4:52:32 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   6/6  6 Panel heaters Technical data Data at T a  = 25 °C and rated values, if noting else indicated. Type 40W-  110V-  HP 40W-  230V-  HP 40W-  230V-  HP-E 100W-  110V-  HP 100W-  230V-  HP 100W-  230V-  HP-E 250W-  110V-  HP 250W-  230V-  HP 100W-  230V- HP-ADJ 250W-  230V- HP-ADJ Input circuit - supply circuit Rated operational voltage 110 V AC 230 V AC 110 V AC 230 V AC 110 V AC 230 V AC Rated voltage range 105-  115 V AC 210-240 V AC 105-  115 V AC 210-240 V AC 105-  115 V AC 210-240 V AC Rated frequency 50/60 Hz Frequency range 47-63 Hz Typical current /  power consumption 230 V AC - 170 mA /   40 VA - 430 mA /   100 VA - 1086 mA  / 250 VA 430 mA /   100 VA 1086 mA  / 250 VA 110 V AC 360 mA /  40 VA - 910 mA /  100 VA - 2270 mA  / 250 VA - Typical inrush current 360 mA 170 mA 910 mA 430 mA 2270 mA 1086 mA 430 mA 1086 mA Output circuit Heating element silicone heating element Bracket of the heating element anodized aluminium Isolation of the heating element silicone Maximum peak heating power 1) 40 W 100 W 250 W 100 W 250 W Maximum plate temperature 70 °C 150 °C Plate temperature adjustable no yes,   +30...+150 °C Power density 0.33 W/cm 2 0.42 W/cm 2 0.33 W/ cm 2 0.42 W/ cm 2 General data Duty time 100 % Mounting screw, bond, DIN rail Degree of protection IP53 Electrical connection Connecting line out of silicone rubber 2x0.75 mm 2  (2x18 AWG) Length of connecting line 0.5 m Environmental data Ambient  temperature range operation -40...+40 °C storage -60...+100 °C transport -60...+100 °C Standards Product standard DIN EN 60335-1, DIN EN 60335-1 (VDE 0700-1):2007-02, EN 60335-1:2002+ A11+ A1+ A12+ Corr.+ A2:2006 Low Voltage Directive 2006/95/EC 1) Maximum peak heating power = Rated input power 2CDC110004C0209.pdf   443 11/26/2013   4:52:32 PM

6/7   ABB  | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 6 Panel heaters Dimensional drawings, Application note ABB_837435 ABB_837434 Table of dimensions  in mm Dimensions Application note Dimensional drawing 1 Dimensional drawing 2 Type L L1 L2 B B1 B2 H H1 H2 Drawing  no. Heating elements for screw mounting, optionally DIN rail mounting with mounting clips 20W-230V-HE 150 134 65 80 64 32 2.5 10 - 2 40W-230V-HE 150 130 65 200 180 45 2.5 10 - 1 100W-230V-HE 150 130 65 200 180 45 2.5 10 - 1 200W-230V-HE 300 280 95 200 180 45 2.5 10 - 2 300W-230V-HE 300 280 95 200 180 45 2.5 10 - 2 Heating plates, temperature fixed, with mounting clip for DIN rail mounting 40W-110V-HP 40W-230V-HP 40W-230V-HP-E 150 134 65 80 64 32 2.5 10 - 2 100W-110V-HP 100W-230V-HP 100W-230V-HP-E 150 130 65 200 180 45 2.5 10 - 1 250W-110V-HP 250W-230V-HP 300 280 85 200 180 45 2.5 10 - 2 Heating plates, temperature adjustable from 30 to 150 °C, with mounting clip for DIN rail mounting 100W-230V-HP-ADJ 150 130 65 200 180 45 2.5 10 50 1 250W-230V-HP-ADJ 300 280 85 200 180 45 2.5 10 50 2 The panel heaters regulate their surface temperature themselves. Depending on the environmental conditions and  the heat dissipation, the heating power could therefore be smaller than the electrical peak input power. 2CDC110004C0209.pdf   444 11/26/2013   4:52:32 PM

2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   6/8  6 Panel heaters Notes 2CDC110004C0209.pdf   445 11/26/2013   4:52:33 PM

7/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Product group picture 2CDC110004C0209.pdf   446 11/26/2013   4:52:33 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/2  7 Logic relays Table of contents Logic relays Product group picture   7/1 Table of contents   7/2 System overview   7/3 Approvals and marks   7/5 Ordering details - Stand alone logic relays   7/6 Ordering details - Expandable logic relays   7/7 Ordering details   7/8 Ordering details - Display systems   7/9 Technical data   7/10 Dimensional drawings   7/24 2CDC110004C0209.pdf   447 11/26/2013   4:52:34 PM

7/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays System overview 1SVC 110 000 F 0554 S1 K1 S4 S5 K1 K2 T1 T1 T1 S6 Documentation (download from the internet) Logic relay manual    1SVC 440 795 M0100 Remote display manual  1SVC 440 795 M2100 Display system manual  1SVC 440 795 M1100 Concept CL range logic relays are suitable for small and medium-sized  control tasks and are able to substitute logic wiring in a quick and sim-ple manner. They can be used for applications in control as well as for timing func-tions, e. g.    ½ in buildings, lighting systems, air-conditioning systems,  general control functions,   ½ in small machines and systems or   ½ as stand-alone control module for small applications. Steps to the application of CL range   ½ CL range can be used easily, rapidly and comfortably without any time-consuming planning and programming.   ½ The user can discover the advantages and the benefit of these logic relays in no time at all.   ½ CL range provides for the control statements according to a  simple circuit diagram.   ½ Setup, storage, simulation and documentation are performed using the compact and user-friendly CL-SOFT software  (CL-LAS.PS002).  Software characteristics (CL-SOFT)   ½ display on a PC monitor according to IEC, ANSI   ½ different languages to choose from   ½ easy installation on all Microsoft Windows TM  operating systems Logic links instead of wiring Technical Data overview Logic relays   ½ 8 or 12 digital inputs    ½ 4 or 6 digital relay outputs   ½ optionally with 4 or 8 transistor outputs   ½ 128 rungs   ½ 3 contacts as n/o or n/c contacts in series plus 1 coil per rung   ½ optionally with 2 or 4 analog inputs (not 100-240 V AC version)   ½ power flow display for checking the circuit diagram (devices with display)   ½ expansions for local or remote level   ½ enclosure color RAL 7035   ½ DIN rail mounting Display system   ½ useable as compact HMI logic relay   ½ fully graphic, backlit display module   ½ 12 digital inputs   ½ 4 digital relay outputs   ½ optionally with 4 transistor outputs   ½ 256 rungs   ½ 4 contacts as n/o or n/c contacts in series plus 1 coil per rung   ½ optionally with 4 analog inputs (not 100-240 V AC version)   ½ networking-compatible via CL-NET   ½ front panel mounting   ½ expansion for local Remote display   ½ Remote display up to a distance of 5 m   ½ Illustration of text and status displays   ½ Remote adjustment via keypad   ½ Front panel mounting Software   ½ 16 timing relays 0.01-99:59 h   ½ 16 counting relays for up-, down counting   ½ 8 weekly timer, 8 annual timers   ½ 16 analog value comparators   ½ 16 freely editable display texts   ½ 32 markers or auxiliary relays 2CDC110004C0209.pdf   448 11/26/2013   4:52:34 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/4  7 Logic relays System overview Power 9 8a 8b 3 4 6, 8b 5 7 1b 1a 2 2 6, 8b 5 9 8a 8b Power 2CDC 312 001 F0b08 1a Logic relay CL-LS.. 1b Expandable logic relay CL-LM.. 2  Power supply CP-D... 3  I/O expansion CL-LER.., CL-LET.. for logic relays CL-LM.. 4  Coupler unit CL-LEC.. for remote expansion of logic relays CL-LM.. 5  Memory module CL-LAS.MD003 for logic relays CL-LS.., CL-LM.. 6  Connecting cable CL-LAS.TK001, CL-LAS.TK002 to connect PC 7  CL-LINK plug CL-LAS.TK011    to connect expansion to logic relays CL-LM.. 8a Remote display connection module CL-LDC.S.. 8b Connecting cable CL-LAD.TK007    to connect a remote displays to a logic relay 9  Display module CL-LDD.. Logic relays Stand alone Expandable 2b 1 3 2a 5 4 2CDC 312 037 F0b07 Expansion of logic relays 1  Logic relay CL-LM.. 2  I/O expansion CL-LER.., CL-LET..  2a  local  expansion   2b  remote  expansion 3  Coupler unit CL-LEC.. for remote expansion of logic relays CL-LM.. 4  CL-LINK plug CL-LAS.TK011 for expansion of logic relays CL-LM.. 5  up to 30 m max. 1 expansion per logic relay 7 9 8 6 5   3 2 1 3 2 1 ... 4 4 CL-NET 10 2CDC 312 025 F0b06 1 2 3 2CDC 312 027 F0b06   3 2 1 3 2 1 4 ... 5 5 CL-NET 2CDC 312 026 F0b06 Stand alone with I/O module Communication via CL-NET 1 Display  CL-LDD.. 2  Remote display connection module CL-LDC.S..    incl. connecting cable 3  Display base module CL-LDC.L.. 1  Display module CL-LDD.. 2  Display base module CL-LDC.LN.. 3  Display I/O module CL-LDR.., CL-LDT.. 4  Termination resistor CL-LAD.TK009 5  I/O expansion CL-LER.., CL-LET.. 6  Coupler unit CL-LEC.. for remote expansion 7  Memory module CL-LAD.MD004 for display base module 8  Connecting cable CL-LAD.TK002, CL-LAD.TK003,   CL-LAD.TK004 9  Connecting cable CL-LAD.TK001, CL-LAD.TK011    to connect PC 10 CL-LINK plug CL-LAS.TK011   for expansion of logic relays CL-LM.. ࡯   e.g. door of switchgear cabinet Display system  Ǟ  Compact HMI logic relay 1 Display  CL-LDD.. 2  Display base module CL-LDC.LN.. for CL-NET 3  Display I/O module CL-LDR.., CL-LDT.. 4  Connecting cable CL-LAD.TK002,   CL-LAD.TK003,  CL-LAD.TK004 5  Termination resistor CL-LAD.TK009 2CDC110004C0209.pdf   449 11/26/2013   4:52:34 PM

7/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Approvals and marks ½ existing  ˽ pending Logic relays Expansions Display system Accessories Approvals CL-LSR CL-LST CL-LMR CL-LMT CL-LER CL-LET CL-LEC CL-LDD CL-LDC CL-LDR CL-LDT CL-LAS CL-LAD B UL ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½  1) ½  2) F CAN/CSA C22.2 No.14 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½  1) ½  2) F CAN/CSA C22.2 No.213  (hazardous locations) ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½  1) ½  2) C GL ½ ½ ½ ½ ½ ½  3) ½  4) ½ D GOST ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) ½  5) P Lloyds Register ½ ½ ½ ½ ½ ½  3) ½  4) ½ Marks a CE ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ b C-Tick ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿ ˿   1)  not for: CL-LAS-PS002, CL-LAS.TD001, CL-LAS.FD001, CL-LAS.TK002, CL-LAS.TK011  2)  not for: CL-LAD.TK006, CL-LAD.TK011, CL-LAD.FD002 3)  not for: CL-LDC.SDC2, CL-LDC.SAC2, CL-LDC.LAC2, CL-LDC.LNAC2 4)  not for: CL-LDR.16AC2 5)  May have been replaced by EAC during the availability of this catalog edition 2CDC110004C0209.pdf   450 11/26/2013   4:52:34 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/6  7 Logic relays Ordering details - Stand alone logic relays Ordering details - Logic relays stand alone Rated opera-tional voltage Display+Keypad Timer Input / Output Type Order  code Price 1 pce Weight(1 pce)kg (lb) 24 V AC ½ ½ 8 inputs / 4 relay outputs CL-LSR.C12AC1 1SVR440712R0300 0.20 (0.44) ½ CL-LSR.CX12AC1 1SVR440712R0200 100-240  V AC ½ CL-LSR.12AC2 1SVR440713R0100 ½ ½ CL-LSR.C12AC2 1SVR440713R0300 ½ CL-LSR.CX12AC2 1SVR440713R0200 12 V DC ½ ½ CL-LSR.C12DC1 1SVR440710R0300 ½ CL-LSR.CX12DC1 1SVR440710R0200 24 V DC ½ CL-LSR.12DC2 1SVR440711R0100 ½ CL-LSR.C12DC2 1SVR440711R0300 ½ CL-LSR.CX12DC2 1SVR440711R0200 24 V DC ½ ½ 8 inputs / 4 transistor outputs CL-LST.C12DC2 1SVR440711R1300 ½ CL-LST.CX12DC2 1SVR440711R1200 Ordering details - Display modules Rated opera-tional voltage Description Type Order  code Price 1 pce Weight(1 pce)kg (lb) - Graphic display 132 x 64 pixel CL-LDD.XK 1SVR440839R4500 0.14 (0.30) - Graphic display  132 x 64 pixel, with keypad CL-LDD.K 1SVR440839R4400 0.13 (0.29) 24 V DC Module to displace the display from the logic relay, incl.  connecting cable CL-LAD.TK007, 5m, lenght adaptable CL-LDC.SDC2 1SVR440841R0000 0.16 (0.36) 100-240  V DC CL-LDC.SAC2 1SVR440843R0000 0.16 (0.36) CL-LSR CL-LST CL-LDD.K CL-LDC.S.. 2CDC 281 034 F0006 2CDC 281 033 F0006 2CDC 281 028 F0006 2CDC 281 017 F0007 2CDC110004C0209.pdf   451 11/26/2013   4:52:35 PM

7/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Ordering details - Expandable logic relays Ordering details - Logic relays expandable Rated opera-tional voltage Display+Keypad Timer Input / Output Type Order  code Price 1 pce Weight(1 pce)kg (lb) 24 V AC ½ ½ 12 inputs / 6 relay outputs CL-LMR.C18AC1 1SVR440722R0300 0.36 (0.79) ½ CL-LMR.CX18AC1 1SVR440722R0200 100-240  V AC ½ ½ CL-LMR.C18AC2 1SVR440723R0300 ½ CL-LMR.CX18AC2 1SVR440723R0200 12 V DC ½ ½ CL-LMR.C18DC1 1SVR440720R0300 ½ CL-LMR.CX18DC1 1SVR440720R0200 24 V DC ½ ½ CL-LMR.C18DC2 1SVR440721R0300 ½ CL-LMR.CX18DC2 1SVR440721R0200 24 V DC ½ ½ 12 inputs, 8 transistor outputs CL-LMT.C20DC2 1SVR440721R1300 0.36 (0.79) ½ CL-LMT.CX20DC2 1SVR440721R1200 Ordering details - Expansions Rated opera-tional voltage Description Type Order  code Price 1 pce Weight(1 pce)kg (lb) - 2 relay outputs CL-LER.2O 1SVR440709R5000 0.07 (0.15) 100-240  V AC 12 inputs, 6 relay outputs CL-LER.18AC2 1SVR440723R0000 0.26 (0.57) 24 V DC CL-LER.18DC2 1SVR440721R0000 0.22 (0.49) 24 V DC 12 inputs, 8 transistor outputs CL-LET.20DC2 1SVR440721R1000 0.21 (0.46) - Coupler unit for remote  expansion with a distance of up to 30 m CL-LEC.CI000 1SVR440709R0000 0.07 (0.15) CL-LER CL-LEC CL-LMR 2CDC 311 036 F0006 2CDC 311 037 F0007 2CDC 311 038 F0006 2CDC110004C0209.pdf   452 11/26/2013   4:52:35 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/8  7 Logic relays Ordering details Ordering details - CL-LA... Description Type Order  code Price 1 pce Weight(1 pce)kg (lb) Software for programming and control of CL range devices. Installation CD-ROM for Microsoft Windows TM . CL-LAS.PS002 1SVR440799R8000 0.10 (0.21) Memory module for logic relaysMemory size: 32 kB CL-LAS.MD003 1SVR440799R7000 0.02 (0.04 Cable with serial interface to connect PC and logic relay. Length: 2 m CL-LAS.TK001 1SVR440799R6000 0.10 (0.22) Cable with USB interface to connect PC and logic relay. Length: 2 m CL-LAS.TK002 1SVR440799R6100 0.06 (0.13) Cable for point-to-point connection of remote-display connection module and logic relay, length: 5m, adaptable CL-LAD.TK007 1SVR440899R6600 0.20 (0.44) Fixing brackets for screw mounting of logic relay, expansion, display base module CL-LAS.FD001 1SVR440799R5000 0.01 (0.01) Spare plug (CL-LINK) for connection of logic relay to expansion CL-LAS.TK011 1SVR440799R5100 0.10 (0.22) Primary switch mode power supplies,  Rated input voltage: 100-240 V ACRated output voltage/current: 24 V DC / 0.42 A CP-D 24/0.42 1) 1SVR427041R0000 0.06 (0.13) Primary switch mode power supplies,  Rated input voltage: 100-240 V ACRated output voltage/current: 24 V DC / 1.3 A CP-D 24/1.3 2) 1SVR427043R0100 0.19 (0.41) 1)  replaces CL-LAS.SD001, technical data see chapter “Primary switch mode power supplies” 2)  replaces CL-LAS.SD002, technical data see chapter “Primary switch mode power supplies” CL-LAS.PS002 CL-LAS.MD003 CL-LAS.TK001 2CDC 311 012 F0007 2CDC 311 013 F0007 2CDC 311 014 F0007 2CDC110004C0209.pdf   453 11/26/2013   4:52:35 PM

7/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Ordering details -  Display systems Rated opera-tional voltage Description Type Order  code Price 1 pce Weight(1 pce)kg (lb) - Display module Graphic display 132 x 64 pixel CL-LDD.XK 1SVR440839R4500 0.14 (0.30) - Display module Graphic display 132 x 64  pixel, with keypad CL-LDD.K 1SVR440839R4400 0.13 (0.29) 24 V DC Display base module CPU / power supply CL-LDC.LDC2 1SVR440821R0000 0.16 (0.36) 100-240 V AC CL-LDC.LAC2 1SVR440823R0000 24 V DC Display base module CPU / power supply, networ-king-compatible (CL-NET) CL-LDC.LNDC2 1SVR440821R1000 0.17 (0.38) 100-240 V AC CL-LDC.LNAC2 1SVR440823R1000 100-240 V AC Display I/O module 12 inputs, 4 relay outputs CL-LDR.16AC2 1SVR440853R0000 0.17 (0.38) 24 V DC CL-LDR.16DC2 1SVR440851R0000 24 V DC Display I/O module  12 inputs, 4 relay outputs,  1 analog output CL-LDR.17DC2 1SVR440851R2000 0.17 (0.38) 24 V DC Display I/O module  12 inputs, 4 transistor outputs CL-LDT.16DC2 1SVR440851R1000 0.14 (0.30) 24 V DC Display I/O module  12 inputs, 4 transistor out-puts, 1 analog output CL-LDT.17DC2 1SVR440851R3000 0.14 (0.30) Logic relays Ordering details - Display systems CL-LDD.K CL-LDC.LN.. 2CDC 311 028 F0006 2CDC 311 031 F0006 Ordering details - CL-LAD... Description Type Order  code Price 1 pce Weight(1 pce)kg (lb) Memory module for display base modules Memory size: 256 kB CL-LAD.MD004 1SVR440899R7000 0.02 (0.03) Cable with serial interface to connect PC and display base module CL-LAD.TK001 1SVR440899R6000 0.11 (0.23) Cable with USB interface to connect PC and display base module CL-LAD.TK011 1SVR440899R6700 Network cable (CL-NET) to connect 2 display base modules Length: 0.3 m CL-LAD.TK002 1SVR440899R6100 0.05 (0.12) Network cable (CL-NET) to connect 2 display base modules Length: 0.8 m CL-LAD.TK003 1SVR440899R6200 0.07 (0.14) Network cable (CL-NET) to connect 2 display base modules Length: 1.5 m CL-LAD.TK004 1SVR440899R6300 0.08 (0.18) Cable for point-to-point connection of remote display connection modules and display base module, length adaptable, Length: 5 m CL-LAD.TK005 1SVR440899R6400 0.20 (0.44) Cable for point-to-point connection of 2 display base modules, length adaptable. Length: 5 m CL-LAD.TK006 1SVR440899R6500 0.12 (0.26) Termination resistor, content: 2 pieces CL-LAD.TK009 1SVR440899R6900 0.01 (0.02) Protective cover, transparent, for harsh envi-ronmental conditions and application in the food industry CL-LAD.FD001 1SVR440899R1000 0.03 (0.07) Protective cover, transparent and sealable CL-LAD.FD011 1SVR440899R2000 0.03 (0.07) Assembly tool for mounting of display mo-dules CL-LAD.FD002 1SVR440899R3000 CL-LAD.MD004 CL-LAD.TK001 CL-LAD.TK002 2CDC 311 018 F0007 2CDC 311 019 F0007 2CDC 311 020 F0006 2CDC110004C0209.pdf   454 11/26/2013   4:52:36 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/10  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LSR.C...12DC1 CL-LSR....12DC2  CL-LST.C...12DC2 CL-LSR.C...12AC1 CL-LSR...12AC2 Input circuit - supply circuit Rated operational voltage U e 12 V DC 24 V DC 24 V AC 100-240 V AC Rated operational voltage tolerance -15...+30 % -15...+20 % -15...+10  % Operational voltage range 10.2-15.6 V DC 20.4-28.8 V DC 20.4-26.4 V AC 85-264 V AC Rated frequency 0 Hz 50/60 Hz Rated frequency tolerance - ±5 % Residual ripple ͨ 5 % - Input current at 12 V DC typ. 140 mA - - - at 24 V DC - typ. 80 mA - - at 24 V AC - - typ. 200 mA - at 115/120 V AC (60 Hz) - - - typ.  40  mA at 230/240 V AC (50 Hz) - - - typ.  20  mA Power failure buffering (IEC/EN 61131-2) 10 ms 20 ms Power dissipation at 12 V DC typ. 2 W - - - at 24 V DC - typ. 2 W - - at 24 V AC - - typ 5 VA - at 115/120 V AC - - - typ.  5  VA at 230/240 V AC - - - typ.  5  VA Type CL-LMR.C...18DC1 CL-LMR.C...18DC2  CL-LMT.C...20DC2 CL-LMR.C...18AC1 CL-LMR.C...18AC2 Input circuit - supply circuit Rated operational voltage U e 12 V DC 24 V DC 24 V AC 100-240 V AC Rated operational voltage tolerance -15...+30 % -15...+20 % -15...+10 % Operational voltage range 10.2-15.6 V DC 20.4-28.8 V DC 20.4-26.4 V AC 85-264 V AC Rated frequency 0 Hz 50/60 Hz Rated frequency tolerance - ±5 % Residual ripple ͨ 5 % - Input current at 12 V DC typ. 200 mA - - - at 24 V DC - typ. 140 mA - - at 24 V AC - - typ. 300 mA - at 115/120 V AC (60 Hz) - - - typ.  70  mA at 230/240 V AC (50 Hz) - - - typ.  35  mA Power failure buffering (IEC/EN 61131-2) 10 ms 20 ms Power dissipation at 12 V DC typ. 3.5 W - - - at 24 V DC - typ. 3.5 W - - at 24 V AC - - typ. 7 VA - at 115/120 V AC - - - typ.  10  VA at 230/240 V AC - - - typ.  10  VA Type CL-LER.18DC2  CL-LET.20DC2 CL-LER.18AC2 Input circuit - supply circuit Rated operational voltage U e 24 V DC 100-240 V AC Rated operational voltage tolerance -15...+20 % -15...+10 % Operational voltage range 20.4-28.8 V DC 85-264 V AC Rated frequency 0 Hz 50/60 Hz Rated frequency tolerance - ±5 % Residual ripple ͨ 5 % - Input current at 24 V DC typ. 140 mA - at 115/120 V AC (60 Hz) - typ. 70 mA at 230/240 V AC (50 Hz) - typ. 35 mA Power failure buffering (IEC/EN 61131-2) 10 ms 20 ms Power dissipation at 24 V DC typ. 3.4 W - at 115/120 V AC - typ. 10 VA at 230/240 V AC - typ. 10 VA 2CDC110004C0209.pdf   455 11/26/2013   4:52:36 PM

7/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LSR.C...12DC1 CL-LSR....12DC2  CL-LST.C...12DC2 CL-LSR.C...12AC1 CL-LSR.C...12AC2 Input circuit - Digital inputs 12 V DC 24 V DC 24 V AC 115 / 230 V AC Number 8 Inputs can be used as analog inputs 2 (I7, I8) - Indication of operational states LCD-Display (if existing) Electrical isolation from voltage supply no between digital inputs no from the outputs yes Rated operational  voltage U e 12 V DC 24 V DC 24 V AC U e  on „0“ signal 4 V DC (I1-I8)  5 V DC (I1-I8) 0-6 V AC (sinusoidal) 0-40 V AC (sinusoidal) U e  on „1“ signal 8 V DC (I1-I8) 15 V DC (I1-I6),  8 V DC (I7, I8) 9,5 V DC, 14-26,4 V AC (sinusoidal) (I1-I6),  7 V AC (sinusoidal) (I7,I8) 79-264 V AC  (sinusoidal) Rated frequency - 50-60  Hz Input current on „1“ signal 3.3 mA (at 12 V DC, I1-I6),   1.1 mA (at 12 V DC, I7, I8) 3.3 mA (at 24 V DC, I6-I7),   2.2 mA (at 24 V DC, I7, I8) 4 mA (at 24 V AC, 50 Hz, I1-I6), 2 mA (at 24 V AC, 50 Hz, I7,I8), 2 mA (at 24 V DC, I7, I8) 6x0.25 mA   (at 115 V AC, 60 Hz, I1-I6),  6x0.5 mA   (at 230 V AC, 50 Hz, I1-I6) 2x4 mA  (at 115 V AC, 60 Hz, I7, I8),  2x6 mA  (at 230 V AC, 50 Hz, I7, I8) Time delay from „0“ to „1“ debounce ON 20 ms 80 ms (at 50 Hz), 66  2 / 3  ms (at 60 Hz) debounce OFF typ. 0.3 ms (I1-I6),  typ. 0.35 ms (I7, I8) typ. 0,25 ms (I1-I8) 20 ms (at 50 Hz), 16  2 / 3  ms (at 60 Hz) Time delay from „1“ to „0“ debounce ON 20 ms 80 ms (at 50 Hz,  66  2 / 3  ms (at 60 Hz) 80 ms (at 50 Hz, I1-I6),  66  2 / 3  ms (at 60 Hz, I1-I6) 160 ms (at 50 Hz, I7, I8), 150 ms (at 60 Hz, I7, I8) debounce OFF typ. 0.3 ms (I1-I6),typ. 0.15 ms (I7, I8) - 20 ms (at 50 Hz),  16  2 / 3  ms (at 60 Hz) 20 ms (at 50 Hz, I1-I6),  16  2 / 3  ms (at 60 Hz, I1-I6) 100 ms (at 50 Hz, I7. I8), 100 ms (at 60 Hz, I7, I8) Cable length (unshielded) 100 m - - Maximum cable length per input - 40 m 40 m (I1-I6), 100 m (I7, I8) Frequency counter Number 2 (I3, I4) - - counting frequency  1 kHz - - pulse shape square-wave - - pulse / pause ratio 1:1 - - Rapid counter inputs Number 2 (I1, I2) - - counting frequency  1 kHz - - pulse shape square-wave - - pulse / pause ratio 1:1 - - Cable length (shielded) 20 m - - Input circuit - Analog inputs Number 2 (I7, I8) - Electrical isolation from voltage supply no - from the digital inputs no - from the outputs yes - from PC interface, memory   module, CL-NET, CL-LINK no - Input type DC voltage - Signal range 0-10 V DC - Resolution analog 0.01 V - digital 0.01 V;  10 Bit (value 1-1023) - Input impedance 11.2 k ⏲ - Accuracy of the actual value two CL devices ±3 % - within one device ±2 %, ±0.12 V - Conversion time analog/digital Input delay ON 20 ms - Input delay OFF each cycle - Input current 1 mA - Cable length (shielded) 30 m - 2CDC110004C0209.pdf   456 11/26/2013   4:52:36 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/12  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LMR.C...18DC1 CL-LMR.C...18DC2  CL-LMT.C...20DC2 CL-LMR.C...18AC1 CL-LMR.C...18AC2 Input circuit - Digital inputs 12 V DC 24 V DC 24 V AC 115 / 230 V AC Number 12 Inputs can be used as analog inputs 4 (I7, I8, I11, I12) - Indication of operational states LCD-Display (if existing) Electrical isolation from voltage supply no between digital inputs no from the outputs yes from PC interface, memory  module, CL-NET, CL-LINK no yes Rated operational voltage U e 12 V DC 24 V DC 24 V AC U e  on „0“ signal 4 V DC (I1-I12) 5 V DC (I1-I12, R1-R12) 0-6 V AC (sinusoidal) 0-40 V AC (sinusoidal) U e  on „1“ signal 8 V DC (I1-I12) 15 V DC (I1-I6, I9, I10)  8 V DC (I7, I8, I11, I12) 9.5 V DC, 14-26.4 V AC   (sinusoidal) (I1-I6, I9, I10)  7 V AC (sinusoidal)   (I7,I8; I11, I12) 79-264 V AC  (sinusoidal) Rated frequency - 50-60  Hz Input current on „1“ signal 3.3 mA   (at 12 V DC, I1-I6, I9-I12), 1.1 mA   (at 12 V DC, I7, I8) 3.3 mA   (at 24 V DC, I1-I6, I9, I10),  2.2 mA   (at 24 V DC, I7, I8, I11, I12) 4 mA   (at 24 V AC, 50 Hz, I1-I6, I9, I10),  2 mA   (at 24 V AC, 50 Hz, I7, I8, I11, I12),  2 mA   (at 24 V DC, I7, I8, I11, I12) 6x0.25 mA   (at 115 V AC, 60 Hz, I1-I6),   6x0.5 mA   (at 230 V AC, 50 Hz, I1-I6)  2x4 mA   (at 115 V AC, 60 Hz, I7, I8),   2x6 mA   (at 230 V AC, 50 Hz, I7, I8),  4x0.25 mA   (at 115 V AC, 60 Hz, I9-I12),   4x0.5 mA   (at 230 V AC, 50 Hz, I9-I12) Time delay from „0“ to „1“ debounce ON 20 ms 80 ms (at 50 Hz), 66  2 / 3  ms (at 60 Hz) debounce OFF typ. 0.3 ms (I1-I6, I9, I10),  typ. 0.35 ms (I7, I8, I11, I12) typ. 0.25 ms 20 ms (at 50 Hz), 16  2 / 3  ms (at 60 Hz) Time delay from „1“ to „0“ debounce ON 20 ms 80 ms (at 50 Hz), 66  2 / 3  ms (at 60 Hz) debounce OFF typ. 0.4 ms (I1-I6, I9, I10),  typ. 0.35 ms (I7, I8, I11, I12) - 20 ms (at 50 Hz), 16  2 / 3  ms (at 60 Hz) Cable length (unshielded) 100 m Maximum cable length per input max. 40 m,  typ. 40 m (I9, I10) typ. 40 m (I1-I6, I9-I12),  typ. 100 m (I7, I8) Frequency counter number 2 (I3, I4) - - counting frequency  1 kHz - - pulse shape square-wave - - pulse / pause ratio 1:1 - - Rapid counter inputs number 2 (I1, I2) - - counting frequency  1 kHz - - pulse shape square-wave - - pulse / pause ratio 1:1 - - Cable length (shielded) 20 m - - Input circuit - Analog inputs Number 4 (I7, I8, I11, I12) - Electrical isolation from voltage supply no - from the digital inputs no - from the outputs yes - from PC interface, memory   module, CL-NET, CL-LINK no - Input type DC voltage - Signal range 0-10 V DC - Resolution analog 0.01 V - digital 0.01 V; 10 Bit (value 1-1023) - Input impedance 11.2 k ⏲ - Accuracy of the actual value two CL devices ±3 % - within one device ±2 %, ±0.12 V - Conversion time analog/digital Input delay ON 20 ms - Input delay OFF each cycle - Input current 1 mA - Cable length (shielded) 30 m - 2CDC110004C0209.pdf   457 11/26/2013   4:52:36 PM

7/13   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LER.18DC2  CL-LET.20DC2 CL-LER.18AC2 Input circuit - Digital inputs 24 V DC 115 / 230 V AC Number 12 Inputs can be used as analog inputs - Indication of operational states - Electrical isolation from voltage supply no between digital inputs no from the outputs yes from PC interface, memory   module, CL-NET, CL-LINK no Rated operational voltage U e 24 V DC U e  on „0“ signal  5 V DC (I1-I12, R1-R12) 0-40 V AC (sinusoidal) U e  on „1“ signal - 79-264 V AC (sinusoidal) Rated frequency - 50-60  Hz Input current on „1“ signal 3.3 mA (at 24 V DC, R1-R12) 12x0.25 mA   (at 115 V AC, 60 Hz, R1-R12),   12x0.5 mA   (at 230 V AC, 50 Hz, R1-R12) Time delay from „0“ to „1“ debounce ON 20 ms 80 ms (at 50 Hz, I1-I12, R1-R12),   66  2 / 3  ms (at 60 Hz, I1-I12, R1-R12) debounce OFF typ. 0.25 ms (R1-R12) 20 ms (at 50 Hz, I1-I12, R1-R12),   16  2 / 3  ms (at 60 Hz, I1-I12, R1-R12) Time delay from „1“ to „0“ debounce ON 20 ms 80 ms (at 50 Hz, I1-I12, R1-R12),   66  2 / 3  ms (at 60 Hz, I1-I12, R1-R12) debounce OFF - 20 ms (at 50 Hz, I1-I12, R1-R12),   16  2 / 3  ms (at 60 Hz, I1-I12, R1-R12) Cable length (unshielded) 100 m - Maximum cable length per input - typ. 40 m (I1-I6, I9-I12, R1-R12),   typ. 100 m (I7, I8) 2CDC110004C0209.pdf   458 11/26/2013   4:52:37 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/14  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LSR... CL-LMR...  CL-LER... CL-LER.2O Output circuit - Relay outputs Number 4 6 2 Outputs in groups of 1 2 Parallel switching of outputs to increase capacity not permissible Fusing of the output relay circuit-breaker B16 or fuse 8 A (slow-acting) Electrical isolation from voltage supply yes from the inputs yes from PC interface, memory module, CL-NET, CL-LINK no protective separation 300 V AC basic isolation 600 V AC Mechanical lifetime 10x10 6  switching cycles Rung conventional thermal current (10 A UL) 8 A recommended for load 12 V AC/DC  500 mA short-circuit proof cos  M = 1;   characteristic B16 at 600 A 16 A short-circuit proof cos  M = 0,5 up to 0,7;   characteristic B16 at 900 A 16 A Rated impulse withstand voltage U imp  contact-coil 6 kV Rated operational voltage U e 250 V AC Rated insulation voltage U i 250 V AC Protective separation (EN 50178) between coil and contact 300 V AC between two contacts 300V AC Making capacity AC15, 250 V AC, 3 A (600 ops./h) 300.000 switching cycles DC13, L/R  ͨ 150 ms, 24 V DC, 1 A (500 ops./h) 200.000 switching cycles Breaking capacity AC15, 250 V AC, 3 A (600 ops./h) 300.000 switching cycles DC13, L/R  ͨ 150 ms, 24 V DC, 1 A (500 ops./h) 200.000 switching cycles Incandesent lamp load 1000 W at 230/240 V AC 25.000 switching cycles 500 W at 115/120 V AC 25.000 switching cycles Fluorescent lamp load 10 x 58 W at 230/240 V AC   with electrical control gear 25.000 switching cycles 10 x 58 W at 230/240 V AC   uncompensated 25.000 switching cycles 1 x 58 W at 230/240 V AC   conventional compensated 25.000 switching cycles Switching frequency mechanical operations 10x10 6 switching frequency 10 Hz resistive load / lamp load 2 Hz inductive load 0.5 Hz UL/CSA Continuous current at 240 V 10 A AC Continuous current at 24 V 8 A DC AC Utilization catagory (Control Circuit Rating Codes) B 300 Light Pilot Duty max. rated operational voltage 300 V AC max. continuous thermal current cos  M = 1 at B  300 5 A max. making / breaking apparent power  (Make/Break) cos  M z 1 at B 300 3600/360 VA DC Utilization catagory (Control Circuit Rating Codes) R 300 Light Pilot Duty max. rated operational voltage 300 V DC max. continuous thermal current at R 300 1 A max. making / breaking apparent power  (Make/Break) at R 300 28/28 VA 2CDC110004C0209.pdf   459 11/26/2013   4:52:37 PM

7/15   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LST... CL-LMT... CL-LET... Output circuit - Transistor outputs Number 4 8 Rated operational voltage U e 24 V DC Operational voltage range 20.4-28.8 V DC Residual ripple ͨ 5 % Supply current on „0“ signal typ. 9 mA /   max. 16 mA typ. 18 mA / max. 32 mA on „1“ signal typ. 12 mA /  max. 22 mA typ. 24 mA / max. 44 mA Reverse voltage protection yes (Attention: If supply voltage is reversed,  applying voltage at the outputs, causes a short circuit.) Electrical isolation from voltage supply  yes from the inputs yes from PC interface, memory module,   CL-NET, CL-LINK - Rated operational current I e  on„1“ signal DC max. 0.5 A Lamp load without R v 5 W Residual current on „0“ signal per channel 0.1 mA Max. output voltage on „0“ signal at external load 10 M ⏲ 2.5 V on „1“ signal at I e  = 0.5 A U = U e  - 1 V Short-circuit protection yes, thermal (analysis results from  diagnosis input I16, I15; R15, R16) Short-circuit tripping current for R a   ͨ 10 m⏲ 0.7 A  ͨ I e   ͨ 2 A per output Total short-circuit current 8 A 16 A Peak short-circuit current 16 A 32 A Thermal tripping yes Max. switching frequency with constant resistive load R L   100 k ⏲   (depending on active channels and their load) 40.000 switching cycles/h Parallel connection of outputs with resistive load, inductive load with external   suppressor, combination within one group group 1: Q1-Q4 group 1: Q1-Q4,  group 2: Q5-Q8 group 1: S1-S4, group 2: S5-S8 number of outputs max. 4 max. total current 2 A (Attention! Outputs must be actuated simultaneously   and for the same length of time.) Indication of operational states of the outputs LCD-Display (if existing) Inductive load 1)  without external suppressor T 0.95  = 1 ms,   R = 48  ⏲,   L = 16 mH utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles DC13, T 0.95  = 72 ms,   R = 48  ⏲,   L = 1.15 H utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles T 0.95  = 15 ms,   R = 48  ⏲,   L = 0.24 H utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles Inductive load 1)  with external suppressor demand factor 1 g duty time 100 % max. switching frequency  max. duty time depends on suppressor 1)  For inductive loading, without external suppression of the transistor outputs, the following applies:   T 0.95  = time in ms, until 95 % of the steady-state current is achieved. T 0.95  3 × T 0.65  = 3 × L/R. Data transfer rate in the CL-NET network: bus lengths of 40 m and over only attainable with cables with additional cross-section and connection adapter. 2CDC110004C0209.pdf   460 11/26/2013   4:52:37 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/16  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LSR..., CL-LST... CL-LMR... CL-LMT..  CL-LET.., CL-LER.18.. CL-LER.2O  CL-LEC.CI000 General data Dimensions (W x H x D) 71.5 mm x 90 mm x 58 mm  (2.81 inch x 3.54 inch x 2.28 inch) 107.5 mm x 90 mm x 58 mm  (4.23 inch x 3.54 inch x 2.28 inch) 35.5 mm x 90 mm x 58 mm  (1.40 inch x 3.54 inch x 2.28 inch) Weight 0.2 kg (0.44 lb) 0.3 kg (0.66 lb) 0.07 kg (0.15 lb) Mounting DIN rail (IEC/EN 60715),   35 mm or screw mounting with fixing brackets CL-LAS.FD001 (accessories) Mounting position horizontal / vertical Electrical connection Wire size rigid 0.2-4 mm 2  (22–12 AWG) fine-strand with wire end ferrule 0.2-2.5 mm 2  (22–12 AWG) Max. tightening torque 0.6 Nm Environmental data Ambient temperature range operation -25...+55 °C, cold acc. to IEC 60068-2-1, heat acc. to IEC 60068-2-2 storage -40...+70 °C LCD-Display (clearly legible) 0...+55 °C Condensation avoid condensation with suitable methods Humidity, no condensation (IEC/EN 60068-2-30) 5-95 % Air pressure (operation) 795-1080 hPa Degree of protection (IEC/EN 60529) IP20 Vibration (IEC/EN 60068-2-6) 10-57 Hz (constant amplitude 0.15 mm), 57-150 Hz (constant acceleration 2 g) Shock resistance (half-sine 15 g / 11 ms) (IEC/EN 60068-2-27) 18 Shocks Drop (IEC/EN 60068-2-31) height of fall 50 mm Free fall, packaged (IEC/EN 60068-2-32) 1 m Insulation data Overvoltage category II Pollution degree (DIN EN 60947) 2 Rating of air and creepage distances EN 50178, UL 508, CSA C22.2, No. 142 Insulation resistance EN 50178 Standards Standards and directives EN 55011, EN 55022, IEC/EN 61000-4, IEC 60068-2-6, IEC 60068-2-27 Electromagnetic compatibility Interference immunity electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (air discharge 8 kV, contact discharge 6 kV) electromag. field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst) IEC/EN 61000-4-4 Level 3 (supply cable 2 kV, signal lines 2 kV) powerful impulses (Surge) IEC/EN 61000-4-5 supply cable symmetrical (AC) 2 kV,   Level 2 (supply cable symmetrical (DC) 0.5 kV) HF line emission IEC/EN 61000-4-6 10 V Interference suppression (EN 55011, EN 55022) class B Real time clock Back-up time see diagram - Accuracy typ. ±5 (±0.5 h/year) - Repeat accuracy of the time relay Accuracy (from value) ±1 - Resolution range „S“ 10 ms - range „M:S“ 1 s - range „H:M“ 1 min - Retention behaviour Write cycles of retention memory (minimum) 1.000.000 (10 6 ) - 180 200 160 140 120 100 80 60 40 20 0 55 ˚C 25 ˚C 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Buffer time (hours) 2CDC 312 023 F0206  Operating time (years) Technical diagram Back-up time of the real time clock 2CDC110004C0209.pdf   461 11/26/2013   4:52:37 PM

7/17   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LDD... Input circuit - Supply circuit Power failure buffering (IEC/EN 61131-2) 10 ms General data Dimensions (W x H x D) with keypad: 86.5 x 86.5 x 21.5 mm (3.41 x 3.41 x 0.85 inch)without keypad: 86.5 x 86.5 x 20 mm (3.41 x 3.41 x 0.79 inch) Weight 0.13 kg (0.29 lb) Mounting 2 x 22.5 mm, with 2 retainers screwed Mounting position horizontal / vertical Environmental data Ambient temperature range operation -25...+55 °C (cold acc. to IEC 60068-2-1, heat acc. to IEC 60068-2-2) storage -40...+70 °C LCD-Display (clearly legible) -5...+50 °C,-10...0 °C (with backlit / continuous operation) Condensation avoid condensation with suitable methods Humidity, no condensation (IEC/EN 60068-2-30) 5-95 % Air pressure (operation) 795-1080 hPa Degree of protection (IEC/EN 60529) IP65 Vibration (IEC/EN 60068-2-6) 10-57 Hz (constant amplitude 0.15 mm), 57-150 Hz (constant acceleration 2 g) Shock resistance (half-sine 15 g / 11 ms) (IEC/EN 60068-2-27) 18 Shocks Drop (IEC/EN 60068-2-31) height of fall 50 mm Free fall, packaged (IEC/EN 60068-2-32) 1 m Insulation data Pollution degree (DIN EN 60947) 3 Rating of air and creepage distances EN 50178, UL 508, CSA 22.2, No 142 Insulation resistance EN 50178 Standards Standards and directives EN 61000-6-1, EN 61000-6-2, EN 61000-6-3, EN 61000-6-4,  IEC 60068-2-6, IEC 60068-2-27 Electromagnetic compatibility Interference immunity electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (air discharge 8 kV, contact discharge 6 kV) electromag. field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst) IEC/EN 61000-4-4 Level 3 (supply cable 2 kV, signal lines 2 kV) powerful impulses (Surge) IEC/EN 61000-4-5 Level 3 (supply cable symmetrical 2 kV, CL-LDC.L...AC2) Level 2 (0.5 kV supply cable symmetrical, CL-LDC.L...AC2) HF line emission IEC/EN 61000-4-6 10 V Interference suppression (EN 55011, EN 55022) class B 2CDC110004C0209.pdf   462 11/26/2013   4:52:37 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/18  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LDC.SDC2 CL-LDC.SAC2 CL-LDC.LDC2 CL-LCD.LAC2 CL-LDC.LNDC2 CL-LDC.LNAC2 Input circuit - Supply circuit Rated operational voltage U e 24 V DC 100-240 V AC 24 V DC 100-240 V AC 24 V DC 100-240 V AC Rated operational voltage tolerance -15...+20 % -15...+10 % -15...+20 % -15...+10 % -15...+20 % -15...+10 % Operational voltage range 20.4-28.8 V DC 85-264 V AC 20.4-28.8 V DC 85-264 V AC 20.4-28.8 V DC 85-264 V AC Frequency 0 Hz 50/60 Hz 0 Hz 50/60 Hz 0 Hz 50/60 Hz Frequency tolerance - ± 5 % - ± 5 % - ± 5 % Residual ripple ͨ 5 % - ͨ 5 % - ͨ 5 % - Input current at 24 V DC typ. 185 mA - typ. 200 mA - typ. 200 mA - at 115/120 V AC (60 Hz) - typ. 90 mA - typ. 90 mA - typ. 90 mA at 230/240 V AC (50 Hz) - typ. 60 mA - typ. 60 mA - typ. 60 mA Power failure buffering (IEC/EN 61131-2) 10 ms Power dissipation at 24 V DC 1.5 W - 3.4 W - 3.4 W - at 115/120 V AC - typ. 11 VA - typ. 11 VA - typ. 11 VA at 230/240 V AC - typ. 15 VA - typ. 15 VA - typ. 15 VA Network - point-to-point connection Number of stations 1 - Data transfer rate CL-LS..., CL-LM... 9,6 kBaud - CL-LDD 19,2 kBaud - Distance max. 5 m - Electrical isolation to voltage supply yes - to connected device yes - Termination system spring-type terminal - Network - CL-NET Number of stations max. 1 - max. 8 Data transfer rate 6 m - 1000 kBit/s 25 m - 500 kBit/s 40 m - 250 kBit/s 125 m - 125 kBit/s 300 m - 50 kBit/s 700 m - 20 kBit/s 1000 m - 10 kBit/s Electrical isolation to voltage supply  - yes to inputs - yes to outputs - yes to PC interface, memory   module, CL-NET, CL-LINK - yes Bus terminator (first and last station) - yes Termination system - RJ45, 8 pole General data Dimensions (W x H x D) 75 x 58 x 36.2 mm  (2.95 x 2.28 x 1.43 inch) 107.5 x 90 x 30 mm (4.23 x 3.54 x 1.18 inch) Weight 0.164 kg (0.36 lb) 0.145 kg (0.32 lb) Mounting plugged onto CL-LDD plugged onto CL-LDD or  on DIN rail (IEC/EN 60715) Mounting position Electrical connection - Supply circuit Wire size fine-strand with wire end ferrule 0.2 mm 2  / 2.5 mm 2  (24-12 AWG) rigid 0.2 mm 2  / 4 mm 2  (24-12 AWG) Electrical connection - Data cable Wire size fine-strand with wire end ferrule 0.08 mm 2  / 1.5 mm 2  (28-12 AWG) - 0.2 mm 2  / 2.5 mm 2  (24-12 AWG) rigid 0.08 mm 2  / 2.5 mm 2  (28-12 AWG) - 0.2 mm 2  / 4 mm 2  (24-12 AWG) Environmental data Ambient temperature range operation -25...+55 °C (cold acc. to IEC 60068-2-1, heat acc. to IEC 60068-2-2) storage -40...+70 °C Condensation avoid condensation with suitable methods Humidity, no condensation (IEC/EN 60068-2-30) 5-95 % Air pressure (operation) 795-1080 hPa Degree of protection (IEC/EN 60529) IP20 Vibration (IEC/EN 60068-2-6) 10-57 Hz (constant amplitude 0.15 mm), 57-150 Hz (constant acceleration 2 g) 2CDC110004C0209.pdf   463 11/26/2013   4:52:38 PM

7/19   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LDC.SDC2 CL-LDC.SAC2 CL-LDC.LDC2 CL-LCD.LAC2 CL-LDC.LNDC2 CL-LDC.LNAC2 Shock (half-sine 15 g / 11 ms) (IEC/EN 60068-2-27) 18 Shocks Drop (IEC/EN 60068-2-31) height of fall 50 mm Free fall, packaged (IEC/EN 60068-2-32) 1 m Insulation data Degree of protection (DIN EN 60947) 2 Rating of air and creepage distances EN 50178, UL 508, CSA 22.2, No 142 Isolation resistance EN 50178 Standards Standards and directives EN 61000-6-1, EN 61000-6-2, EN 61000-6-3, EN 61000-6-4, IEC 60068-2-6, IEC 60068-2-27 Electromagnetical compatibility Interference immunity electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (air discharge 8 kV, contact discharge 6 kV) electromag. field (HF radiation resistance) IEC/EN 61000-4-3 10 V/m fast transients (Burst) IEC/EN 61000-4-4 Level 3 (supply cable 2 kV, signal lines 2 kV) powerful impulses (Surge) IEC/EN 61000-4-5 Level 3 (supply cable symmetrical 2 kV, CL-LDC.L...AC2) Level 2 (1 kV supply cable  symmetrical) Level 2 (0.5 kV supply cable symmetrical, CL-LDC.L...AC2) HF line emission IEC/EN 61000-4-6 10 V Interference suppression (EN 55011, EN 55022) class B Real time clock Back-up time - see  diagram Accuracy - typ. ± 5 s/day (± 0,5 h/year) Repeat accuracy of the time relay Accuracy (from value) - ± 0.02 % Resolution range „S“ - 5  ms range „M:S“ - 1  s range „H:M“ - 1  min Retention behaviour Write cycles of retention memory (minimum) - 10 10  (read/ write cycles) 180 200 160 140 120 100 80 60 40 20 0 55 ˚C 25 ˚C 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Buffer time (hours) 2CDC 312 023 F0206  Operating time (years) Technical diagram Back-up time of the real time clock 2CDC110004C0209.pdf   464 11/26/2013   4:52:38 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/20  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LD...16DC2 CL-LD...17DC2 CL-LDR.16AC2 Input circuit - Digital inputs 24 V DC 115/230 V Number 12 Inputs can be used as analog inputs 4 (I7, I8, I11, I12) - Indication of operational states - LCD-Display (if existing) Electrical isolation from supply voltage no from digital inputs no from the outputs yes from PC interface, memory module,   CL-NET, CL-LINK yes Rated operational voltage U e 24 V DC - U e  on „0“ signal  5 V DC (I1-I6, I9, I10), 8 V DC (I7, I8, I11, I12) 0-40 V AC (sinusoidal) U e  on „1“ signal   15 V DC (I1-I6, I9, I10), 8 V DC (I7, I8, I11, I12) 79-264 V AC (sinusoidal) Rated frequency 0 Hz 50-60 Hz Input current on „1“ signal 3.3 mA (at 24 V DC, I1-I6, I9, I10),2.2 mA (at 24 V DC, I7, I8, I11, I12) 12x0.2 mA  (at 115 V AC, 60 Hz, I1-I12),12x0.5 mA  (at 230 V AC, 50 Hz, I1-I12) Time delay from „0“ to „1“ debounce ON 20 ms 10 ms (at 50 Hz),  100 ms (at 60 Hz) debounce OFF typ. 0.1 ms (I1-I4), typ. 0.25 ms (I5-I12) 10 ms (at 50 Hz),  100 ms (at 60 Hz) Time delay from „1“ to „0“ debounce ON 20 ms 10 ms (at 50 Hz),  100 ms (at 60 Hz) debounce OFF typ. 0.1 ms (I1-I4), typ. 0.4 ms (I5, I6, I9, I10),   typ. 0.2 ms (I7, I8, I11, I12) 10 ms (at 50 Hz),  100 ms (at 60 Hz) Cable length (unshielded) 100 m - Maximum cable length per input - typ. 60 m Frequency counter number 4 (I1, I2, I3, I4) - counting frequency  3 kHz - pulse shape square-wave - pulse / pause ratio 1:1 - Incremental counter number 2 (I1 + I2, I3 + I4) - counting frequency  3 kHz - pulse shape square-wave - signal offset 90° - pulse / pause ratio 1:1 - Rapid counter inputs number 4 (I1, I2, I3, I4) - counting frequency  3 kHz - pulse shape square-wave - pulse / pause ratio 1:1 - Cable length (shielded) 20 m - Input circuit - Analog inputs Number 4 (I7, I8, I11, I12) - Electrical isolation to voltage supply no - to digital inputs no - to outputs yes - to PC interface, memory modul,   CL-NET, CL-LINK yes - Input type DC voltage - Signal range 0-10 V DC - Resolution analog 0.01 V - digital 0.01 V; 10 Bit (value 0-1023) - Input impedance 11.2 k ⏲ - Accuracy of the actual value two CL-LD... devices ± 3 % - within one device ± 2 % - Conversion time analog/digital each cycle - Input current 1 mA - Cable length (shielded) 30 m - 2CDC110004C0209.pdf   465 11/26/2013   4:52:38 PM

7/21   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LD...16DC2 CL-LD...17DC2 CL-LDR.16AC2 Output circuit - Analog outputs Number - 1 - Electrical separation from voltage supply - no - from the digital inputs - no - from the digital outputs - yes - from PC interface, memory  module, CL-NET, CL-LINK - yes - Output type - DC voltage - Signal range - 0-10 V DC - Max. output current - 0.01  A - Burden resistance - 1  k ⏲ - Overload and short-circuit protection - yes - Resolution analog - 0.01 V DC - digital - 10 Bit, (value: 0-1023) - Setting time - 100  ms - Accuracy -25...+55 °C - 2  % - 25 °C - 1  % - Conversion time - each CPU cycle - General data Dimensions (W x H x D) CL-LDR: 89 x 90 x 44 mm (3.5 x 3.54 x 1.73 inch) CL-LDT (build-in): 89 x 90 x 25 mm (3.5 x 3.54 x 0.98 inch) 89 x 90 x 44 mm  (3.5 x 3.54 x 1.73 inch) Weight CL-LDR: 0.15 kg (0.33 lb) / CL-LDT: 014 kg (0.31 lb) 0.15 kg (0.33 lb) Mounting snap-on power supply unit Mounting position horizontal / vertical Electrical connection Wire size fine-strand with wire end ferrule 0.2 mm 2  / 2.5 mm 2  (24-12 AWG) rigid 0.2 mm 2  / 4 mm 2  (24-12 AWG) Electrical connection - Data cable Wire size fine-strand with wire end ferrule 0.08 mm 2  / 1.5 mm 2  (28-12 AWG) rigid 0.08 mm 2  / 2.5 mm 2  (28-12 AWG) Environmental data Ambient temperature range operation -25...+55 °C (cold acc. to IEC 60068-2-1, heat acc. to IEC 60068-2-2) storage -40...+70 °C Condensation avoid condensation with suitable methods Humidity, no condensation (IEC/EN 60068-2-30) 5-95 % Atmospheric pressure (operation) 795-1080 hPa Degree of protection (IEC/EN 60529) IP20 Vibration (IEC/EN 60068-2-6) 10-57 Hz (constant amplitude 0.15 mm), 57-150 Hz (constant acceleration 2 g) Shock (half-sine 15 g / 11 ms) (IEC/EN 60068-2-27) 18 Shocks Drop (IEC/EN 60068-2-31) height of fall 50 mm Free fall, packaged (IEC/EN 60068-2-32) 1 m Insulation data Pollution degree 2 Rating of air and creepage distances EN 50178, UL 508, CSA C22.2, No. 142 Isolation resistance EN 50178 Standards Standards and directives EN 61000-6-1/-2/-3/-4, IEC/EN 61000-4, IEC 60068-2-6, IEC 60068-2-27 Electromagnetic compatibility electrostatic discharge (ESD) IEC/EN 61000-4-2 Level 3 (air discharge 8 kV, contact discharge 6 kV) electromag. field (HF radiation res.) IEC/EN 61000-4-3 10 V/m fast transients (Burst) IEC/EN 61000-4-4 Level 3 (supply cable 2 kV, signal cable 2 kV) powerful impulses (Surge) IEC/EN 61000-4-5 2 kV (supply cable symmetrical),  Level 2 (0.5 kV supply cable symmetrical) HF line emission IEC/EN 61000-4-6 10 V Interference suppression (EN 55011, EN 55022) class B 2CDC110004C0209.pdf   466 11/26/2013   4:52:38 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/22  7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LDR... Output circuit - Relay outputs Number 4 Outputs in groups of - Parallel switching of outputs to increase capacity not permissible Fusing of the output relay circuit-breaker B16 or fuse 8 A (slow-acting) Electrical isolation from voltage supply yes from the inputs yes from PC interface, memory module, CL-NET, CL-LINK yes protective separation 300 V AC Basic isolation 600 V AC Mechanical lifetime 10x10 6  switching cycles Rung conventional thermal current (10 A UL) 8 A recommended load 12 V AC/DC  500 mA short-circuit proof cos  M = 1;   characteristic B16 at 600 A 16 A short-circuit proof cos  M = 0.5 up to 0.7;   characteristic B16 at 900 A 16 A Rated impulse withstand voltage U imp  contact-coil 6 kV Rated operational voltage U e 250 V AC Rated insulation voltage U i 250 V AC Protective separation (EN 50178) between coil and contact 300 V AC between two contacts 300V AC Making capacity AC15, 250 V AC, 3 A (600 ops./h) 300.000 switching cycles DC13, L/R  ͨ 150 ms, 24 V DC, 1 A (500 ops./h) 200.000 switching cycles Breaking capacity AC15, 250 V AC, 3 A (600 ops./h) 300.000 switching cycles DC13, L/R  ͨ 150 ms, 24 V DC, 1 A (500 ops/h) 200.000 switching cycles Incandesent lamp load 1000 W at 230/240 V AC 25.000 switching cycles 500 W at 115/120 V AC 25.000 switching cycles Fluorescent lamp load 10 x 58 W at 230/240 V AC   with electrical control gear 25.000 switching cycles 10 x 58 W at 230/240 V AC   uncompensated 25.000 switching cycles 1 x 58 W at 230/240 V AC   conventional compensated 25.000 switching cycles Switching frequency mechanical operations 10x10 6 switching frequency 10 Hz resistive load / lamp load 2 Hz inductive load 0.5 Hz UL/CSA Continuous current at 240 V 10 A AC Continuous current at 24 V 8 A DC AC Utilization category (Control Circuit Rating Codes)  B 300 Light Pilot Duty max. rated operational voltage 300 V AC max. continuous thermal current cos  M = 1 at B 300 5 A max. making / breaking apparent power  (Make/Break) cos  M z 1 at B 300 3600/360 VA DC Utilization category (Control Circuit Rating Codes)  R 300 Light Pilot Duty max. rated operational voltage 300 V DC max. continuous thermal current at R 300 1 A max. making / breaking apparent power  (Make/Break) at R 300 28/28 VA 2CDC110004C0209.pdf   467 11/26/2013   4:52:38 PM

7/23   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 7 Logic relays Technical data Data at T a  = 25 °C and rated values, if nothing else indicated. Type CL-LDT... Output circuit - Transistor outputs Number 4 Rated operational voltage U e 24 V DC Operational voltage range 20.4-28.8 V DC Residual ripple - Supply current on „0“ signal typ. 18 mA / max. 32 mA on „1“ signal typ. 24 mA / max. 44 mA Reverse voltage protection yes (Attention: If supply voltage is reversed,  applying voltage at the outputs, causes a short circuit.) Electrical isolation from voltage supply yes from the inputs yes from PC interface, memory module,   CL-NET, CL-LINK yes Rated operational current I e  on„1“ signal DC max. 0.5 A Lamp load without R v 5 W (Q1-Q4) Residual current on „0“ signal per channel 0.1 mA Max. output voltage on „0“ signal at external load 10 M ⏲ 2.5 V on „1“ signal at I e  = 0.5 A U = U e  - 1 V Short-circuit protection thermal (Q1-Q4), (analysis results from diagnosis input I16) Short-circuit tripping current for R a   ͨ 10 m⏲ 0.7 A  ͨ I e   ͨ 2 A per output Total short-circuit current 8 A Peak short-circuit current 16 A Thermal tripping yes Max. switching frequency with constant resistive load R L   100 k ⏲   (depending on active channels and their load) 40.000 switching cycles/h Parallel connection of outputs with resistive load, inductive load with external   suppressor, combination within one group group 1: Q1-Q4 number of outputs max. 4 max. total current 2 A (Attention! Outputs must be actuated simultaneously   and for the same length of time.) Indication of operational states of the outputs LCD-Display (if existing) Inductive load 1)  without external suppressor T 0.95  = 1 ms,   R = 48  ⏲,   L = 16 mH utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles DC13, T 0.95  = 72 ms,   R = 48  ⏲,   L = 1.15 H utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles T 0.95  = 15 ms,   R = 48  ⏲,   L = 0.24 H utilization factor 0.25 g duty time 100 % max. switching frequency f = 0,5 Hz   (max. duty time = 50 %) 1500 switching cycles Inductive load 1)  with external suppressor demand factor 1 g duty time 100 % max. switching frequency  max. duty time depends on suppressor 1)  For inductive loading, without external suppression of the transistor outputs, the following applies:   T 0.95  = time in ms, until 95 % of the steady-state current is achieved. T 0.95  3 × T 0.65  = 3 × L/R. Data transfer rate in the CL-NET network: bus lengths of 40 m and over only attainable with cables with additional cross-section and connection adapter. 2CDC110004C0209.pdf   468 11/26/2013   4:52:39 PM

  2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   7/24  7 Logic relays Dimensional drawings 90 102 110 71.5 M4 10.75 50 35.75 45 58 56.5 47.5 4.5 2CDC 312 011 F0b06 90 102 110 M4 107.5 75 16.25 16.25 45 58 56.5 47.5 4.5 2CDC 312 012 F0b06 CL-LSR, CL-LST CL-LMR, CL-LMT CL-LDD 32 17 20 13.7  86.5 30 62 86.5 28.25 28.25 22.3 30 2CDC 312 018 F0b06 90 102 110 45 58 56.5 47.5 4.5 7.5 35.5 7.5 M4 2CDC 312 013 F0b06 CL-LER.2O 90 88.2 107.5 20 43.2 33.7 2CDC 312 014 F0b06 65.5 29.3 36.2 86.5 75 86.5 58 2CDC 312 015 F0b06 90 88.1   19 25 2CDC 312 016 F0b06 CL-LDC.S.. CL-LDR, CL-LDT CL-LDD.K + CL-LDC.L.. +  (CL-LDR or CL-LDT) Dimensional drawings  dimensions in mm 2CDC110004C0209.pdf   469 11/26/2013   4:52:39 PM

8 8/1   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Index Alphanumerical Type Page Type Page Type Page Type Page Numbers 20-100W-MC .............................   6/4 20W-230V-HE ............................   6/4 40W-110V-HP ............................   6/4 40W-230V-HE ............................   6/4 40W-230V-HP ............................   6/4 40W-230V-HP-E .........................   6/4 100W-110V-HP ..........................   6/4 100W-230V-HE ..........................   6/4 100W-230V-HP ..........................   6/4 100W-230V-HP-ADJ ...................   6/4 100W-230V-HP-E .......................   6/4 200-300W-MC ...........................   6/4 200W-230V-HE ..........................   6/4 250W-110V-HP ..........................   6/4 250W-230V-HP ..........................   6/4 250W-230V-HP-ADJ ...................   6/4 300W-230V-HE ..........................   6/4 A AD 2,5 ..................................... 5/79z ADP.01   ...................................  4/22 ADP.01   .................................  2/151 ADP.02   .................................  2/151 B BADH ..................................5/30, 78 BADH V0................................... 5/54 BADL ........................................ 5/78 BADL V0 ................................... 5/54 BAM2 ....................................... 5/78 BAM2 V0..............................5/54, 78 BAMH ....................................... 5/78 BAMH V0 .................................. 5/78 BJ 612-10 ................................. 5/54 BJ612-10 .................................. 5/78 BJ 612-70 ................................. 5/54 BJ612-70 .................................. 5/78 BJS9......................................... 5/79 BNMS A24V-4 ........................... 5/73 BNMS CA I/U-250 ..................... 5/77 BNMS CAI/U-250 ...................... 5/73 BNMS CAI/U-500 ...................... 5/73 BNMS F2A-1 ............................. 5/73 BNMS F2A-2 ............................. 5/73 BNMS F2A-7 ............................. 5/73 BNMS F5A-1 ............................. 5/73 BNMS F5A-2 ............................. 5/73 BNMS F125mA-1 ...................... 5/73 BNMS F125mA-2 ...................... 5/73 BNMS F125mA-3 ...................... 5/73 BNMS F125mA-4 ...................... 5/73 BNMS F500mA-1 ...................... 5/73 BNMS N5V-1 ............................. 5/73 BNMS N5V-2 ............................. 5/73 BNMS N5V-3 ............................. 5/73 BNMS N24V-1 ........................... 5/73 BNMS N24V-2 ........................... 5/73 BNMS N24V-3 ........................... 5/73 BNMS N48V-3 ........................... 5/73 BNMS P5V-1 ............................. 5/73 BNMS P5V-2 ............................. 5/73 BNMS P5V-3 ............................. 5/73 BNMS P24V-1 ........................... 5/73 BNMS P24V-2 ........................... 5/73 BNMS P24V-3 ........................... 5/73 BNMS P48V-3 ........................... 5/73 BNMS R24V-1 ......................5/30,  73 BNMS R24V-2 ......................5/30,  73 BNMS ST1 ................................ 5/73 BNMS ST2 ................................ 5/73 BNMS T5V-1 ............................. 5/73 BNMS T24V-1 ........................... 5/73 BNMS T24V-2 ........................... 5/73 BNMS T48V-1 ........................... 5/73 BNMS T115V-1 ......................... 5/73 BNMS T125V-1 ......................... 5/73 BNMS T230V-1 ......................... 5/73 C C011-3-150   ...........................  2/97 C011-70   ................................   2/97 C011-80   ................................   2/97 C011-90   ................................   2/97 C011-100   ..............................  2/97 C011-110   ..............................  2/97 C011-120   ..............................  2/97 C011-130   ..............................  2/97 C011-140   ..............................  2/97 C011-150   ..............................  2/97 C011-160   ..............................  2/97 C011-170   ..............................  2/97 C512-24   ..............................   2/106 C512-D   ................................   2/106 C512-E   ................................   2/106 C512-W   ...............................   2/106 C513-D   ................................   2/106 C513-E   ................................   2/106 C513-W   ...............................   2/106 CC-E/I   ...................................  4/11 CC-E IAC/I   .............................   4/11 CC-E IAC/ILPO   .......................  4/11 CC-E IAC/V   ............................   4/11 CC-E IDC/I   .............................   4/11 CC-E IDC/V   ............................   4/11 CC-E I/I   ....................................   4/8 CC-E I/I-1   ................................  4/8 CC-E I/I-2   ................................  4/8 CC-E I/V   ..................................  4/8 CC-E/RTD   ................................   4/9 CC-E RTD/I   ..............................   4/9 CC-E RTD/V   .............................   4/9 CC-E/STD   ................................   4/8 CC-E/TC   ................................   4/10 CC-E TC/I   ..............................   4/10 CC-E TC/V   .............................   4/10 CC-E V/I   ..................................  4/8 CC-E V/V   .................................   4/8 CC-U/I   ...................................   4/21 CC-U/RTD   .............................  4/21 CC-U/RTDR   ...........................   4/21 CC-U/STD   ..............................  4/21 CC-U/STDR   ...........................   4/21 CC-U/TC   ................................   4/21 CC-U/TCR   .............................  4/21 CC-U/V   ..................................   4/21 CL-LAD.FD001   .........................   7/9 CL-LAD.FD002   .........................   7/9 CL-LAD.FD011   .........................   7/9 CL-LAD.MD004   ........................   7/9 CL-LAD.TK001   .........................   7/9 CL-LAD.TK002   .........................   7/9 CL-LAD.TK003   .........................   7/9 CL-LAD.TK004   .........................   7/9 CL-LAD.TK005   .........................   7/9 CL-LAD.TK006   .........................   7/9 CL-LAD.TK007   .........................   7/8 CL-LAD.TK009   .........................   7/9 CL-LAD.TK011   .........................   7/9 CL-LAS.FD001   .........................   7/8 CL-LAS.MD003   ........................   7/8 CL-LAS.PS002   .........................   7/8 CL-LAS.TK001   .........................   7/8 CL-LAS.TK002   .........................   7/8 CL-LAS.TK011   .........................   7/8 CL-LDC.LAC2   ..........................   7/9 CL-LDC.LDC2   ..........................   7/9 CL-LDC.LNAC2   ........................   7/9 CL-LDC.LNDC2   ........................   7/9 CL-LDC.SAC2   ..........................   7/6 CL-LDC.SDC2   ..........................   7/6 CL-LDD.K   ............................  7/6, 9 CL-LDD.XK   ..........................  7/6, 9 CL-LDR.16AC2   ........................  7/9 CL-LDR.16DC2   ........................   7/9 CL-LDR.17DC2   ........................   7/9 CL-LDT.16DC2   .........................   7/9 CL-LDT.17DC2   .........................   7/9 CL-LEC.CI000   ..........................   7/7 CL-LER.2O   ..............................  7/7 CL-LER.18AC2   .........................   7/7 CL-LER.18DC2   ........................  7/7 CL-LET.20DC2   .........................   7/7 CL-LMR.C18AC1  ......................  7/7 CL-LMR.C18AC2  ......................  7/7 CL-LMR.C18DC1   .....................   7/7 CL-LMR.C18DC2   .....................   7/7 CL-LMR.CX18AC1  ....................  7/7 CL-LMR.CX18AC2  ....................  7/7 CL-LMR.CX18DC1   ...................  7/7 CL-LMR.CX18DC2   ...................  7/7 CL-LMT.C20DC2   ......................   7/7 CL-LMT.CX20DC2   ....................   7/7 CL-LSR.12AC2  .........................  7/6 CL-LSR.12DC2   ........................  7/6 CL-LSR.C12AC1   ......................   7/6 CL-LSR.C12AC2   ......................   7/6 CL-LSR.C12DC1   ......................   7/6 CL-LSR.C12DC2   ......................   7/6 CL-LSR.CX12AC1   ....................   7/6 CL-LSR.CX12AC2   ....................   7/6 CL-LSR.CX12DC1   ....................   7/6 CL-LSR.CX12DC2   ....................   7/6 CL-LST.C12DC2   .......................   7/6 CL-LST.CX12DC2   .....................   7/6 CP-D 24/0.42   ...........................   7/8 CP-D 24/0.421)   ........................   7/8 CP-D 24/1.3   .............................  7/8 CP-D 24/1.32)   ..........................   7/8 COV.01   ..................................   4/22 COV.01   ................................   2/151 COV.02   ................................   2/151 COV.11   ................................   2/151 COV.12   ................................   2/151 CM-AH-3   .............................   2/118 CM-CT 50/1   .........................   2/152 CM-CT 50/5   .........................   2/152 CM-CT 75/1   .........................   2/152 CM-CT 75/5   .........................   2/152 CM-CT 100/1   .......................   2/152 CM-CT 100/5   .......................   2/152 CM-CT 150/1   .......................   2/152 CM-CT 150/5   .......................   2/152 2CDC110004C0209.pdf   470 11/26/2013   4:52:39 PM

8   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   8/2  Index Alphanumerical Type Page Type Page Type Page Type Page CM-CT 200/1   .......................  2/152 CM-CT 200/5   .......................   2/152 CM-CT 300/1   .......................   2/152 CM-CT 300/5   .......................   2/152 CM-CT 400/1   .......................   2/152 CM-CT 400/5   .......................   2/152 CM-CT 500/1   .......................   2/152 CM-CT 500/5   .......................   2/152 CM-CT 600/1   .......................   2/152 CM-CT 600/5   .......................   2/152 CM-CT A   ..............................  2/152 CM-EFS.2P   ............................   2/16 CM-EFS.2S   ............................   2/16 CM-ENE MAX   .......................   2/117 CM-ENE MIN   ........................  2/117 CM-ENN   ..............................   2/117 CM-ENS  ...............................  2/117 CM-ESS.1P   ............................   2/16 CM-ESS.1S   ............................   2/16 CM-ESS.2P   ............................   2/16 CM-ESS.2S   ............................   2/16 CM-ESS.MP   ...........................   2/16 CM-ESS.MS   ...........................   2/16 CM-GM-1   .............................  2/118 CM-HE   .................................   2/118 CM-IVN.P   ...............................   2/72 CM-IVN.S   ...............................   2/72 CM-IWN.1P   ............................   2/72 CM-IWN.1S   ............................   2/72 CM-IWN.4P   ............................   2/72 CM-IWN.4S   ............................   2/72 CM-IWN.5P   ............................   2/72 CM-IWN.5S   ............................   2/72 CM-IWN.6P   ............................   2/72 CM-IWN.6S   ............................   2/72 CM-IWS.1P   ............................   2/72 CM-IWS.1S   ............................   2/72 CM-IWS.2P   ............................   2/72 CM-IWS.2S   ............................   2/72 CM-KH-3   .............................   2/118 CM-KRN   ..............................   2/130 CM-LWN   ................................   2/82 CM-MPN.52P   .........................   2/34 CM-MPN.52S   .........................   2/34 CM-MPN.62P   .........................   2/34 CM-MPN.62S   .........................   2/34 CM-MPN.72P   .........................   2/34 CM-MPN.72S   .........................   2/34 CM-MPS.11P   .........................   2/34 CM-MPS.11S   .........................   2/34 CM-MPS.21P   .........................   2/34 CM-MPS.21S   .........................   2/34 CM-MPS.23P   .........................   2/34 CM-MPS.23S   .........................   2/34 CM-MPS.31P   .........................   2/34 CM-MPS.31S   .........................   2/34 CM-MPS.41P   .........................   2/34 CM-MPS.41S   .........................   2/34 CM-MPS.43P   .........................   2/34 CM-MPS.43S   .........................   2/34 CM-MSE   ................................   2/96 CM-MSN   ................................   2/96 CM-MSS (1)   ...........................   2/96 CM-MSS (2)   ...........................   2/96 CM-MSS (3)   ...........................   2/96 CM-MSS (4)   ...........................   2/96 CM-MSS (5)   ...........................   2/96 CM-MSS (6)   ...........................   2/96 CM-MSS (7)   ...........................   2/96 CM-PAS.31P   ..........................   2/33 CM-PAS.31S   ..........................   2/33 CM-PAS.41P   ..........................   2/33 CM-PAS.41S   ..........................   2/33 CM-PBE   .................................  2/33 CM-PFE   .................................   2/33 CM-PFS.P   ..............................   2/33 CM-PFS.S   ..............................   2/33 CM-PSS.31P   ..........................   2/33 CM-PSS.31S   ..........................   2/33 CM-PSS.41P   ..........................   2/33 CM-PSS.41S   ..........................   2/33 CM-PVE   .................................   2/33 CM-PVS.31P   ..........................   2/33 CM-PVS.31S   ..........................   2/33 CM-PVS.41P   ..........................   2/33 CM-PVS.41S   ..........................   2/33 CM-PVS.81P   ..........................   2/33 CM-PVS.81S   ..........................   2/33 CM-SE-300   ..........................   2/118 CM-SE-600   ..........................   2/118 CM-SE-1000   ........................   2/118 CM-SFS.21P   ..........................   2/15 CM-SFS.21S   ..........................   2/15 CM-SFS.22S   ..........................   2/15 CM-SIS   ................................   2/136 CM-SRS.11P   ..........................  2/15 CM-SRS.11S   ..........................  2/15 CM-SRS.12S   ..........................  2/15 CM-SRS.21P   ..........................  2/15 CM-SRS.21S   ..........................  2/15 CM-SRS.22S   ..........................  2/15 CM-SRS.M1P   .........................   2/15 CM-SRS.M1S   .........................   2/15 CM-SRS.M2S   .........................   2/15 CM-TCS.11P   ........................   2/106 CM-TCS.11S   ........................   2/106 CM-TCS.12P   ........................   2/106 CM-TCS.12S   ........................   2/106 CM-TCS.13P   ........................   2/106 CM-TCS.13S   ........................   2/106 CM-TCS.21P   ........................   2/106 CM-TCS.21S   ........................   2/106 CM-TCS.22P   ........................   2/106 CM-TCS.22S   ........................   2/106 CM-TCS.23P   ........................   2/106 CM-TCS.23S   ........................   2/106 CM-UFD.M21   .........................   2/55 CM-UFD.M22   .........................   2/55 CM-UFS.1   ..............................   2/55 CM-WDS   ..............................  2/142 CP-A CM   ................................ 3/51 CP-A RU   ................................. 3/51 CP-ASI/2.8   .............................. 3/60 CP-ASI/4.0   .............................. 3/60 CP-ASI/4.0 DC/DC   .................. 3/60 CP-ASI/8.0   .............................. 3/60 CP-B 24/3.0   ............................ 3/68 CP-B 24/10.0   .......................... 3/68 CP-B 24/20.0   .......................... 3/68 CP-B EXT.2   ............................. 3/68 CP-D 12/0.83   .......................... 3/10 CP-D 12/2.1   ............................ 3/10 CP-D 24/0.42   .......................... 3/10 CP-D 24/1.3   ............................ 3/10 CP-D 24/2.5   ............................ 3/10 CP-D 24/4.2   ............................ 3/10 CP-D RU   ................................. 3/51 CP-E 5/3.0   .............................. 3/20 CP-E 12/2.5   ............................ 3/20 CP-E 12/10.0   .......................... 3/20 CP-E 24/0.75   .......................... 3/20 CP-E 24/1.25   .......................... 3/20 CP-E 24/2.5   ............................ 3/20 CP-E 24/5.0   ............................ 3/20 CP-E 24/10.0   .......................... 3/20 CP-E 24/20.0   .......................... 3/20 CP-E 48/0.62   .......................... 3/20 CP-E 48/1.25   .......................... 3/20 CP-E 48/5.0   .......................3/20,  34 CP-E 48/10.0   .....................3/20,  34 CP-E 48/20.0   .......................... 3/34 CP-RUD   .................................. 3/51 CP-T 24/5.0   ............................ 3/34 CP-T 24/10.0   .......................... 3/34 CP-T 24/20.0   .......................... 3/34 CP-T 24/40.0   .......................... 3/34 CR-M2LC .................................. 5/10 CR-M2LS .................................. 5/10 CR-M2SF .................................. 5/10 CR-M2SS .................................. 5/10 CR-M3LS .................................. 5/10 CR-M3SS .................................. 5/10 CR-M4LC .................................. 5/10 CR-M4LS .................................. 5/10 CR-M4SF .................................. 5/10 CR-M4SS .................................. 5/10 CR-M012DC2 ............................. 5/8 CR-M012DC2L ............................ 5/9 CR-M012DC3 ............................. 5/8 CR-M012DC3L ............................ 5/9 CR-M012DC4 ............................. 5/8 CR-M012DC4L ............................ 5/9 CR-M012DC4LDG ..................... 5/10 CR-M012DC4LG ....................... 5/10 CR-M024AC2 .............................. 5/8 CR-M024AC2L ............................ 5/9 CR-M024AC3 .............................. 5/8 CR-M024AC3L ............................ 5/9 CR-M024AC4 .............................. 5/8 CR-M024AC4G ........................... 5/9 CR-M024AC4L ............................ 5/9 CR-M024AC4LG ....................... 5/10 CR-M024DC2 ............................. 5/8 CR-M024DC2L ............................ 5/9 CR-M024DC3 ............................. 5/8 CR-M024DC3L ............................ 5/9 CR-M024DC4 ............................. 5/8 CR-M024DC4G ........................... 5/9 CR-M024DC4L ............................ 5/9 CR-M024DC4LD ......................... 5/9 CR-M024DC4LDG ..................... 5/10 CR-M024DC4LG ....................... 5/10 CR-M048AC2 .............................. 5/8 CR-M048AC2L ............................ 5/9 CR-M048AC3 .............................. 5/8 CR-M048AC3L ............................ 5/9 CR-M048AC4 .............................. 5/8 CR-M048AC4L ............................ 5/9 CR-M048AC4LG ....................... 5/10 CR-M048DC2 ............................. 5/8 CR-M048DC2L ............................ 5/9 CR-M048DC3 ............................. 5/8 CR-M048DC3L ............................ 5/9 CR-M048DC4 ............................. 5/8 2CDC110004C0209.pdf   471 11/26/2013   4:52:39 PM

8 8/3   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Index Alphanumerical Type Page Type Page Type Page Type Page CR-M048DC4L ............................ 5/9 CR-M048DC4LG ....................... 5/10 CR-M060AC3 .............................. 5/8 CR-M060DC2 ............................. 5/8 CR-M060DC2L ............................ 5/9 CR-M060DC3 ............................. 5/8 CR-M060DC3L ............................ 5/9 CR-M060DC4 ............................. 5/8 CR-M060DC4L ............................ 5/9 CR-M060DC4LG ....................... 5/10 CR-M110AC2 .............................. 5/8 CR-M110AC2L ............................ 5/9 CR-M110AC3 .............................. 5/8 CR-M110AC3L ............................ 5/9 CR-M110AC4 .............................. 5/8 CR-M110AC4G ........................... 5/9 CR-M110AC4L ............................ 5/9 CR-M110AC4LG ....................... 5/10 CR-M110DC2 ............................. 5/8 CR-M110DC2L ............................ 5/9 CR-M110DC3 ............................. 5/8 CR-M110DC3L ............................ 5/9 CR-M110DC4 ............................. 5/8 CR-M110DC4L ............................ 5/9 CR-M110DC4LG ....................... 5/10 CR-M120AC2 .............................. 5/8 CR-M120AC2L ............................ 5/9 CR-M120AC3 .............................. 5/8 CR-M120AC3L ............................ 5/9 CR-M120AC4 .............................. 5/8 CR-M120AC4L ............................ 5/9 CR-M120AC4LG ....................... 5/10 CR-M125DC2 ............................. 5/8 CR-M125DC2L ............................ 5/9 CR-M125DC3 ............................. 5/8 CR-M125DC3L ............................ 5/9 CR-M125DC4 ............................. 5/8 CR-M125DC4L ............................ 5/9 CR-M125DC4LG ....................... 5/10 CR-M220DC2 ............................. 5/8 CR-M220DC2L ............................ 5/9 CR-M220DC3 ............................. 5/8 CR-M220DC3L ............................ 5/9 CR-M220DC4 ............................. 5/8 CR-M220DC4L ............................ 5/9 CR-M220DC4LG ....................... 5/10 CR-M230AC2 .............................. 5/8 CR-M230AC2L ............................ 5/9 CR-M230AC3 .............................. 5/8 CR-M230AC3L ............................ 5/9 CR-M230AC4 .............................. 5/8 CR-M230AC4G ........................... 5/9 CR-M230AC4L ............................ 5/9 CR-M230AC4LG ....................... 5/10 CR-MH ..................................... 5/10 CR-MH1.................................... 5/10 CR-MJ ...................................... 5/10 CR-MM ..................................... 5/10 CR-P012DC1 .............................. 5/7 CR-P012DC2 .............................. 5/7 CR-P024AC1 .............................. 5/7 CR-P024AC2 .............................. 5/7 CR-P024AC2G ............................ 5/7 CR-P024DC1 .............................. 5/7 CR-P024DC2 .............................. 5/7 CR-P048AC1 .............................. 5/7 CR-P048AC2 .............................. 5/7 CR-P048DC1 .............................. 5/7 CR-P048DC2 .............................. 5/7 CR-P110AC1 .............................. 5/7 CR-P110AC2 .............................. 5/7 CR-P110AC2G ............................ 5/7 CR-P110DC1 .............................. 5/7 CR-P110DC2 .............................. 5/7 CR-P120AC1 .............................. 5/7 CR-P120AC2 .............................. 5/7 CR-P230AC1 .............................. 5/7 CR-P230AC2 .............................. 5/7 CR-P230AC2G ............................ 5/7 CR-PH ........................................ 5/7 CR-PJ ......................................... 5/7 CR-PLC ...................................... 5/7 CR-PLS ...................................... 5/7 CR-PLSx ..................................... 5/7 CR-PM ........................................ 5/7 CR-P/M 22 ................................ 5/11 CR-P/M 42 ................................ 5/11 CR-P/M 42B ............................. 5/11 CR-P/M 42BV ........................... 5/11 CR-P/M 42C ............................. 5/11 CR-P/M 42CV ........................... 5/11 CR-P/M 42V .............................. 5/11 CR-P/M 52B ............................. 5/11 CR-P/M 52C ............................. 5/11 CR-P/M 52D ............................. 5/11 CR-P/M 62 ................................ 5/11 CR-P/M 62C ............................. 5/11 CR-P/M 62CV ........................... 5/11 CR-P/M 62D ............................. 5/11 CR-P/M 62DV ........................... 5/11 CR-P/M 62E .............................. 5/11 CR-P/M 62EV ............................ 5/11 CR-P/M 62V .............................. 5/11 CR-P/M 72 ................................ 5/11 CR-P/M 72A.............................. 5/11 CR-P/M 82 ................................ 5/11 CR-P/M 92 ................................ 5/11 CR-P/M 92C ............................. 5/11 CR-P/M 92CV ........................... 5/11 CR-P/M 92V .............................. 5/11 CR-PSS ...................................... 5/7 CR-U2S .................................... 5/12 CR-U2SM ................................. 5/12 CR-U3E .................................... 5/12 CR-U3S .................................... 5/12 CR-U3SM ................................. 5/12 CR-U012DC2 ............................ 5/12 CR-U012DC2L .......................... 5/12 CR-U012DC3 ............................ 5/12 CR-U012DC3L .......................... 5/12 CR-U 21 ................................... 5/13 CR-U024AC2 ............................ 5/12 CR-U024AC2L .......................... 5/12 CR-U024AC3 ............................ 5/12 CR-U024AC3L .......................... 5/12 CR-U024DC2 ............................ 5/12 CR-U024DC2L .......................... 5/12 CR-U024DC3 ............................ 5/12 CR-U024DC3L .......................... 5/12 CR-U 41 ................................... 5/13 CR-U 41B ................................. 5/13 CR-U 41BV ............................... 5/13 CR-U 41C ................................. 5/13 CR-U 41CV ............................... 5/13 CR-U 41V ................................. 5/13 CR-U048AC2 ............................ 5/12 CR-U048AC2L .......................... 5/12 CR-U048AC3 ............................ 5/12 CR-U048AC3L .......................... 5/12 CR-U048DC2 ............................ 5/12 CR-U048DC2L .......................... 5/12 CR-U048DC3 ............................ 5/12 CR-U048DC3L .......................... 5/12 CR-U 51B ................................. 5/13 CR-U 51C ................................. 5/13 CR-U 51D ................................. 5/13 CR-U060AC3 ............................ 5/12 CR-U 61 ................................... 5/13 CR-U 61C ................................. 5/13 CR-U 61CV ............................... 5/13 CR-U 61D ................................. 5/13 CR-U 61DV ............................... 5/13 CR-U 61E ................................. 5/13 CR-U 61EV ............................... 5/13 CR-U 61V ................................. 5/13 CR-U 71 ................................... 5/13 CR-U 71A ................................. 5/13 CR-U 81 ................................... 5/13 CR-U 91 ................................... 5/13 CR-U 91C ................................. 5/13 CR-U 91CV ............................... 5/13 CR-U 91V ................................. 5/13 CR-U110AC2 ............................ 5/12 CR-U110AC2L .......................... 5/12 CR-U110AC3 ............................ 5/12 CR-U110AC3L .......................... 5/12 CR-U110DC2 ............................ 5/12 CR-U110DC2L .......................... 5/12 CR-U110DC3 ............................ 5/12 CR-U110DC3L .......................... 5/12 CR-U120AC2 ............................ 5/12 CR-U120AC2L .......................... 5/12 CR-U120AC3 ............................ 5/12 CR-U120AC3L .......................... 5/12 CR-U125DC3 ............................ 5/12 CR-U220DC2 ............................ 5/12 CR-U220DC2L .......................... 5/12 CR-U220DC3 ............................ 5/12 CR-U220DC3L .......................... 5/12 CR-U230AC2 ............................ 5/12 CR-U230AC2L .......................... 5/12 CR-U230AC3 ............................ 5/12 CR-U230AC3L .......................... 5/12 CR-UH ...................................... 5/12 CR-U T ..................................... 5/13 D D 2,5/5-MP ..........................5/30, 73 D 2,5/5-MP1 ............................. 5/73 D 2,5/5-MP-24VAC/DC .........5/30,  73 D 2,5/5-MP-24VDC ..............5/30,  73 D 2,5/5-MP-48VAC/DC .........5/30,  73 D 2,5/5-MP-110VAC .............5/30,  73 D 2,5/5-MP-230VAC .............5/30,  73 D 2,5/5-OBIA-0030-24VAC ........ 5/36 D 2,5/5-OBIA-0030-48VAC ........ 5/36 D 2,5/5-OBIA-0030-115VAC ...... 5/36 D 2,5/5-OBIA-0030-230VAC ...... 5/36 D 2,5/5-OBIC-0030-5VDC ......... 5/36 D 2,5/5-OBIC-0030-24VDC ....... 5/36 D 2,5/5-OBIC-0030-48VDC ....... 5/36 D 2,5/5-OBIC-0030-125VDC ..... 5/36 D 2,5/5-OBOA-1000-24VAC ...... 5/36 D 2,5/5-OBOA-1000-24VAC/DC 5/36 2CDC110004C0209.pdf   472 11/26/2013   4:52:39 PM

8   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   8/4  Index Alphanumerical Type Page Type Page Type Page Type Page D 2,5/5-OBOA-1000-48VAC/DC  5/36 D 2,5/5-OBOA-1000-110VAC .... 5/36 D 2,5/5-OBOA-1000-230VAC .... 5/36 D 2,5/5-OBOC-0100-5VAC ........ 5/36 D 2,5/5-OBOC-0100-24VAC ...... 5/36 D 2,5/5-OBOC-0100-48VAC ...... 5/36 D 2,5/5-OBOC-1000-5VDC ........ 5/36 D 2,5/5-OBOC-1000-24VAC/DC 5/36 D 2,5/5-OBOC-1000-24VDC ...... 5/36 D 2,5/5-OBOC-1000-48VAC/DC 5/36 D 2,5/5-OBOC-1000-110VAC .... 5/36 D 2,5/5-OBOC-1000-230VAC .... 5/36 D 2,5/5-OBOC-2000-5VDC ........ 5/36 D 2,5/5-OBOC-2000-24VAC/DC 5/36 D 2,5/5-OBOC-2000-24VDC ...... 5/36 D 2,5/5-OBOC-2000-48VAC/DC 5/36 D 2,5/5-OBOC-2000-110VAC .... 5/36 D 2,5/5-OBOC-2000-230VAC .... 5/36 D 2,5/5-R121-24VDC ................ 5/30 D 2,5/5-R121AL-24VAC/DC ....... 5/30 D 2,5/5-R121AL-48VAC/DC ....... 5/30 D 2,5/5-R121BL-110VAC ........... 5/30 D 2,5/5-R121BL-230VAC ........... 5/30 D 2,5/5-R121L-24VDC .............. 5/30 D4/12-3-3 ............................5/54,  78 D4/12-3R-3R .......................5/54, 78 DCB ...............................5/30, 73, 79 DX111 / DX122   ......................  2/88 E EIP ............................................ 5/79 EV6D ........................................ 5/79 EPD24-TB-101-0.5A  ................ 3/75 EPD24-TB-101-1A   .................. 3/75 EPD24-TB-101-2A   .................. 3/75 EPD24-TB-101-3A   .................. 3/75 EPD24-TB-101-4A   .................. 3/75 EPD24-TB-101-6A   .................. 3/75 EPD24-TB-101-8A   .................. 3/75 EPD24-TB-101-10A  ................. 3/75 EPD24-TB-101-12A  ................. 3/75 EPD-BB500  ............................. 3/75 EPD-SB21   ............................... 3/75 F FC2 ......................... 5/30, 54, 73, 78 I IDC jumper ................................ 5/79 ILPH BdC /RS 422 - 485   ........  4/37 ILPH RS 232 /   ........................   4/37 ILPH RS 232 BdC   ...................   4/37 ILPH RS 232 / FO-P (24...42 V AC/ DC power supply)   ...................   4/37 ILPH RS 232 / FO-P (110...240 V AC/ DC power supply)   ...................   4/37 ILPH RS 232 / FO-S (24...42 V AC/ DC power supply)   ...................   4/37 ILPH RS 232 / FO-S (110...240 V AC/ DC power supply)   ...................   4/37 ILPH RS 232 / RS 232 (24-48 V DC  power supply)   .........................   4/37 ILPH RS 232 / RS 232 (115-230 V  DC power supply)   ...................   4/37 ILPH RS 232 / RS 422-485 (24-48 V  DC   .........................................   4/37 ILPH RS 232 / RS 422-485 (115-230  V DC   ......................................   4/37 ILPH RS 232-RS 485 / Ethernet   ......  4/37 ILPH RS 422 - 485 / RS 422 - 485  (24 V DC power supply)   ..........   4/37 ILPH RS 485 / FO-P (24...42 V AC/ DC power supply)   ...................   4/37 ILPH RS 485 / FO-P (110...240 V AC/ DC power supply)   ...................   4/37 ILPH RS 485 / FO-S (24...42 V AC/ DC power supply)   ...................   4/37 ILPH RS 485 / FO-S (110...240 V AC/ DC power supply)   ...................   4/37 J Jumper bar ............................... 5/79 M MAR.01  ................................  2/151 MAR.01  ..................................  4/22 MAR.02  ................................  2/151 MAR.12  ................................  2/151 Marking for Interface Modules .... 5/80 Marking for terminal blocks ........ 5/80 MOS output optocoupler plug .... 5/76 MOS output optocoupler plugs .. 5/75 MTQ22-FBP   ...........................   2/89 O OBIC 0100-5-12VDC ................. 5/67 OBIC 0100-24VDC .................... 5/67 OBIC 0100-48-60VAC/DC.......... 5/67 OBIC 0100-115-230VAC/DC ...... 5/67 OBOA 1000-24VDC ................... 5/67 OBOA 1000-48-60VAC/DC ........ 5/67 OBOA 1000-115VAC/DC ........... 5/67 OBOA 1000-230VAC/DC ........... 5/67 OBOA 2000-24VDC ................... 5/67 OBOC 1000-5-12VDC ............... 5/67 OBOC 1000-24VDC .................. 5/67 OBOC 1000-48-60VAC/DC ........ 5/67 OBOC 1000-115VAC/DC ........... 5/67 OBOC 1000-230VAC/DC ........... 5/67 OBOC 1500-24VAC/DC ............. 5/67 OBOC 5000-24VDC .................. 5/67 OBOC 5000-115VAC/DC ........... 5/67 OBOC 5000-230VAC/DC ........... 5/67 OBRIC 0100-5-12VDC ............... 5/67 OBRIC 0100-24VDC .................. 5/67 OBRIC 0100-48-60VAC/DC ....... 5/67 OBRIC 0100-115-230VAC/DC ... 5/67 OBROA 1000-24VDC ................ 5/67 OBROA 1000-48-60VAC/DC ...... 5/67 OBROA 1000-115VAC/DC ......... 5/67 OBROA 1000-230VAC/DC ......... 5/67 OBROA 2000-24VDC ................ 5/67 OBROC 1000-5-12VDC ............. 5/67 OBROC 1000-24VDC ................ 5/67 OBROC 1000-48-60VAC/DC ...... 5/67 OBROC 1000-115VAC/DC ......... 5/67 OBROC 1000-230VAC/DC ......... 5/67 OBROC 1500-24VAC/DC ........... 5/67 OBROC 5000-24VDC ................ 5/67 OBROC 5000-115VAC/DC ......... 5/67 OBROC 5000-230VAC/DC ......... 5/67 P PC9 .......................................... 5/79 PCMS ....................................... 5/79 PCMS V0 .................................. 5/73 PEF........................................... 5/79 PR3.G2 ..................................... 5/78 PR3.Z2 ..................................... 5/78 PR4 .......................................... 5/78 PR5 .......................................... 5/78 PR30 ........................................ 5/78 R RB 101 AR-24VAC/DC ............... 5/53 RB 111 A-24VAC/DC ................. 5/53 RB 111 A-48-60VAC/DC ............ 5/53 RB 111 A-115VAC/DC ............... 5/53 RB 111 A-230VAC/DC ............... 5/53 RB 111 AI-24VAC/DC ................ 5/53 RB 111 AR-24VAC/DC ............... 5/53 RB 121-5VDC ........................... 5/53 RB 121-12VDC ......................... 5/53 RB 121-24VDC ......................... 5/53 RB 121 A-24VAC/DC ................. 5/53 RB 121 A-48-60VAC/DC ............ 5/53 RB 121 A 60-230VAC/DC .......... 5/54 RB 121 A-115VAC/DC ............... 5/53 RB 121 A-230VAC/DC ............... 5/53 RB 121 AI-24VAC/DC ................ 5/54 RB 121 AR-115VAC/DC ............. 5/54 RB 121 AR-230VAC/DC ............. 5/54 RB 122 A-24VAC/DC ................. 5/54 RB 122 A-48-60VAC/DC ............ 5/54 RB 122 A-115VAC/DC ............... 5/54 RB 122 A-230VAC/DC ............... 5/54 RBR 101 AR-24VAC/DC ............ 5/53 RBR 111 A-24VAC/DC ............... 5/53 RBR 111 A-48-60VAC/DC ......... 5/53 RBR 111 A-115VAC/DC ............. 5/53 RBR 111 A-230VAC/DC ............. 5/53 RBR 111 AI-24VAC/DC .............. 5/53 RBR 111 AR-24VAC/DC ............ 5/53 RBR 122 A-24VAC/DC ............... 5/54 RBR 122 A-48-60VAC/DC ......... 5/54 RBR 122 A-115VAC/DC ............. 5/54 RBR 122 A-230VAC/DC ............. 5/54 RC55 ...................................5/30,  80 RC65 ........................................ 5/80 RC65 / RC610 ........................... 5/54 RC610 ...................................... 5/80 RLV ........................................... 5/79 RPEV ........................................ 5/79 RS 422-485   ...........................  4/37 S SC 612 ..................................... 5/54 SC612 ...................................... 5/78 T Terminal blocks .......................... 5/73 Thermostat .................................   6/4 Transistor output optocoupler plugs .. 5/75 Triac output optocoupler plug ..... 5/76 U UMC100-FBP   .........................  2/88 2CDC110004C0209.pdf   473 11/26/2013   4:52:40 PM

8 8/5   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Index Numerical 1SAR 1SAR700100R0005 C512-24  ................................... 2/106 1SAR700100R0010 C512-W  .................................... 2/106 1SAR700110R0010 C513-W  .................................... 2/106 1SFA 1SFA611410R1506  MT-150B...................................   1/39 1SFA611410R2506  MT-250B...................................   1/39 1SFA611410R3506  MT-350B...................................   1/39 1SFA611940R1060  MA16-1060 ..............................   1/39 1SFA616920R8029  KA1-8029 .................................   1/39 1SFA616920R8030  KA1-8030 .................................   1/39 1SNA 1SNA007865R2600 FC2  ............................................ 5/30 1SNA031820R1400 BNMS  R24V-1  ............................ 5/30 1SNA031847R1300 BNMS  R24V-2  ............................ 5/30 1SNA105028R2100 DCB  ........................................... 5/30 1SNA607201R1300 D  2,5/5-R121L-24VDC  ................ 5/30 1SNA607203R1500  D 2,5/5-OBOC-0100-5VAC .......   5/36 1SNA607204R1600  D 2,5/5-OBOC-0100-24VDC .....   5/36 1SNA607205R1700  D 2,5/5-OBOC-0100-48VAC......   5/36 1SNA607206R1000  D 2,5/5-OBOC-1000-5VDC .......   5/36 1SNA607207R1100  D 2,5/5-OBOC-1000-24VDC .....   5/36 1SNA607208R2200  D 2,5/5-OBOC-2000-5VDC .......   5/36 1SNA607209R2300  D 2,5/5-OBOC-2000-24VDC .....   5/36 1SNA607210R1700  D 2,5/5-OBIC-0030-24VDC .......   5/36 1SNA607211R0400  D 2,5/5-OBIC-0030-48VDC .......   5/36 1SNA607212R0500  D 2,5/5-OBIA-0030-24VAC .......   5/36 1SNA607213R0600  D 2,5/5-OBIA-0030-48VAC .......   5/36 1SNA607214R0700 D  2,5/5-OBIA-0030-115VAC  ......   5/36 1SNA607215R0000 D  2,5/5-OBIA-0030-230VAC  ......   5/36 1SNA607217R0200 D  2,5/5-R121-24VDC  .................. 5/30 1SNA607222R0700 D  2,5/5-MP-24VDC  ..................... 5/30 1SNA607224R0100 D  2,5/5-MP  ................................. 5/30 1SNA607231R0000 D  2,5/5-R121AL-24VAC/DC  ........ 5/30 1SNA607232R0100 D  2,5/5-R121AL-48VAC/DC  ........ 5/30 1SNA607238R1700  D 2,5/5-OBOA-1000-24VDC .....   5/36 1SNA607240R2500  D 2,5/5-OBOA-1000-24VAC/DC   5/36 1SNA607241R1200  D 2,5/5-OBOA-1000-48VAC/DC   5/36 1SNA607250R2700  D 2,5/5-OBOC-1000-24VAC/DC   5/36 1SNA607251R1400  D 2,5/5-OBOC-1000-48VAC/DC   5/36 1SNA607255R1000  D 2,5/5-OBOC-2000-24VAC/DC   5/36 1SNA607256R1100  D 2,5/5-OBOC-2000-48VAC/DC   5/36 1SNA607260R2100 D  2,5/5-MP-24VAC/DC  ............... 5/30 1SNA607261R1600 D  2,5/5-MP-48VAC/DC  ............... 5/30 1SNA607264R1100 D  2,5/5-R121BL-110VAC  ............ 5/30 1SNA607265R1200 D  2,5/5-R121BL-230VAC  ............ 5/30 1SNA607266R1300 D  2,5/5-MP-110VAC  ................... 5/30 1SNA607267R1400 D  2,5/5-MP-230VAC  ................... 5/30 1SNA607268R2500  D 2,5/5-OBOA-1000-110VAC ....   5/36 1SNA607269R2600  D 2,5/5-OBOA-1000-230VAC ....   5/36 1SNA607270R2300 D  2,5/5-OBOC-1000-110VAC  ....   5/36 1SNA607271R1000 D  2,5/5-OBOC-1000-230VAC  ....   5/36 1SNA607272R1100 D  2,5/5-OBOC-2000-110VAC  ....   5/36 1SNA607273R1200 D  2,5/5-OBOC-2000-230VAC  ....   5/36 1SNA607274R1300  D 2,5/5-OBIC-0030-5VDC .........   5/36 1SNA607275R1400  D 2,5/5-OBIC-0030-125VDC .....   5/36 1SNA645001R0300  RB 121 A-24VAC/DC ................   5/53 1SNA645002R0400  RB 121 A-48-60VAC/DC ...........   5/53 1SNA645003R0500  RB 121 A-115VAC/DC ..............   5/53 1SNA645004R0400  RB 121 A-230VAC/DC ..............   5/53 1SNA645005R0700  RB 121 A-24VAC/DC ................   5/53 1SNA645006R0000  RB 121 A-48-60VAC/DC ...........   5/53 1SNA645007R0100  RB 121 A-115VAC/DC ..............   5/53 1SNA645008R1200  RB 121 A-230VAC/DC ..............   5/53 1SNA645009R1300  RB 121 AI-24VAC/DC................   5/54 1SNA645010R0700  RB 121 AI-24VAC/DC................   5/54 1SNA645011R2400  RB 121 AR-230VAC/DC ............   5/54 1SNA645012R2500  RB 122 A-24VAC/DC ................   5/54 1SNA645013R2600  RB 122 A-230VAC/DC ..............   5/54 1SNA645014R2700  RB 111 A-24VAC/DC ................   5/53 1SNA645015R2000  RB 111 A-48-60VAC/DC ...........   5/53 1SNA645016R2100  RB 111 A-115VAC/DC ..............   5/53 1SNA645017R2200  RB 111 A-230VAC/DC ..............   5/53 1SNA645018R0300  RB 111 AR-24VAC/DC ..............   5/53 1SNA645019R0400  RB 101 AR-24VAC/DC ..............   5/53 1SNA645020R0100  RB 121 A 60-230VAC/DC ..........   5/54 1SNA645021R2600  OBIC 0100-24VDC ....................   5/67 1SNA645022R2700  OBIC 0100-115-230VAC/DC .....   5/67 1SNA645024R2100  OBOC 5000-24VDC ..................   5/67 1SNA645025R2200  OBOC 1500-24VAC/DC ............   5/67 1SNA645026R2300 OBOC  1000-230VAC/DC  ...........   5/67 1SNA645027R2400  OBOA 1000-24VDC ..................   5/67 1SNA645028R0500  OBOA 1000-230VAC/DC ...........   5/67 1SNA645029R0600  OBOA 2000-24VDC ..................   5/67 1SNA645032R2100  RB 121 AI-24VAC/DC................   5/54 1SNA645033R2200  RB 121 AI-24VAC/DC................   5/54 1SNA645034R2300  RB 121-5VDC ...........................   5/53 1SNA645036R2500  RB 121-5VDC ...........................   5/53 1SNA645037R2600  RB 121-12VDC .........................   5/53 1SNA645040R1500  RB 122 A-48-60VAC/DC ...........   5/54 1SNA645041R0200  RB 122 A-115VAC/DC ..............   5/54 1SNA645046R0700  RB 121 AR-115VAC/DC ............   5/54 1SNA645047R0000  OBIC 0100-5-12VDC ................   5/67 1SNA645049R1200  OBIC 0100-48-60VAC/DC .........   5/67 1SNA645050R1700  OBOC 1000-5-12VDC ...............   5/67 1SNA645051R0400  OBOC 1000-24VDC ..................   5/67 1SNA645053R0600  OBOC 1000-48-60VAC/DC .......   5/67 1SNA645054R0700 OBOC  1000-115VAC/DC  ...........   5/67 1SNA645058R1300 OBOC  5000-115VAC/DC  ...........   5/67 1SNA645059R1400 OBOC  5000-230VAC/DC  ...........   5/67 1SNA645061R0600 OBOA  1000-48-60VAC/DC  ........   5/67 1SNA645062R0700  OBOA 1000-115VAC/DC ...........   5/67 1SNA645063R0000  RB 111 AI-24VAC/DC................   5/53 1SNA645064R0100  RB 121-24VDC .........................   5/53 1SNA645065R0200  RB 121-24VDC .........................   5/53 1SNA645069R0100  RB 121-12VDC .........................   5/53 1SNA645501R0500  RB 121 A-24VAC/DC ................   5/53 1SNA645502R0600  RB 121 A-48-60VAC/DC ...........   5/53 1SNA645503R0700  RB 121 A-115VAC/DC ..............   5/53 1SNA645504R0000  RB 121 A-230VAC/DC ..............   5/53 1SNA645505R0100  RB 121 A-24VAC/DC ................   5/53 1SNA645506R0200  RB 121 A-48-60VAC/DC ...........   5/53 1SNA645507R0300  RB 121 A-115VAC/DC ..............   5/53 1SNA645508R1400  RB 121 A-230VAC/DC ..............   5/53 1SNA645509R1500  RB 121 AI-24VAC/DC................   5/54 1SNA645510R0100  RB 121 AI-24VAC/DC................   5/54 1SNA645511R2600  RB 121 AR-230VAC/DC ............   5/54 1SNA645512R2700  RBR 122 A-24VAC/DC ..............   5/54 1SNA645513R2000  RBR 122 A-230VAC/DC ............   5/54 1SNA645514R2100  RBR 111 A-24VAC/DC ..............   5/53 1SNA645515R2200  RBR 111 A-48-60VAC/DC .........   5/53 1SNA645516R2300  RBR 111 A-115VAC/DC ............   5/53 1SNA645517R2400  RBR 111 A-230VAC/DC ............   5/53 1SNA645518R0500  RBR 111 AR-24VAC/DC ............   5/53 1SNA645519R0600  RBR 101 AR-24VAC/DC ............   5/53 1SNA645520R0300  RB 121 A 60-230VAC/DC ..........   5/54 1SNA645521R2000  OBRIC 0100-24VDC .................   5/67 1SNA645522R2100  OBRIC 0100-115-230VAC/DC ...   5/67 1SNA645524R2300  OBROC 5000-24VDC ................   5/67 1SNA645525R2400  OBROC 1500-24VAC/DC ..........   5/67 1SNA645526R2500  OBROC 1000-230VAC/DC ........   5/67 1SNA645527R2600  OBROA 1000-24VDC ................   5/67 1SNA645528R0700  OBROA 1000-230VAC/DC.........   5/67 1SNA645529R0000  OBROA 2000-24VDC ................   5/67 1SNA645532R2300  RB 121 AI-24VAC/DC................   5/54 1SNA645533R2400  RB 121 AI-24VAC/DC................   5/54 1SNA645534R2500  RB 121-5VDC ...........................   5/53 1SNA645536R2700  RB 121-5VDC ...........................   5/53 1SNA645537R2000  RB 121-12VDC .........................   5/53 1SNA645540R1700  RBR 122 A-48-60VAC/DC .........   5/54 1SNA645541R0400  RBR 122 A-115VAC/DC ............   5/54 1SNA645546R0100  RB 121 AR-115VAC/DC ............   5/54 1SNA645547R0200  OBRIC 0100-5-12VDC ..............   5/67 1SNA645549R1400  OBRIC 0100-48-60VAC/DC .......   5/67 1SNA645550R1100  OBROC 1000-5-12VDC.............   5/67 1SNA645551R0600  OBROC 1000-24VDC ................   5/67 1SNA645553R0000  OBROC 1000-48-60VAC/DC .....   5/67 1SNA645554R0100  OBROC 1000-115VAC/DC ........   5/67 1SNA645558R1500  OBROC 5000-115VAC/DC ........   5/67 1SNA645559R1600  OBROC 5000-230VAC/DC ........   5/67 1SNA645561R0000  OBROA 1000-48-60VAC/DC .....   5/67 Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   474 11/26/2013   4:52:40 PM

8   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   8/6  Index Numerical 1SNA645562R0100  OBROA 1000-115VAC/DC.........   5/67 1SNA645563R0200  RBR 111 AI-24VAC/DC .............   5/53 1SNA645564R0300  RB 121-24VDC .........................   5/53 1SNA645565R0400  RB 121-24VDC .........................   5/53 1SNA645569R0000  RB 121-12VDC .........................   5/53 1SNA684202R0100  ILPH RS 232 .............................   4/37 1SNA684212R2200  ILPH RS 422 - 485 / RS 422 - 485 (24  V DC power supply)     ................................................ 4/37 1SNA684231R2500  ILPH RS 232 / RS 422-485 .......   4/37 1SNA684232R2600  ILPH BdC /RS 422 - 485 (24 V DC  power supply)   ................................................   4/37 1SNA684233R2700  ILPH RS 232 / RS 422-485 .......   4/37 1SNA684234R0200  ILPH RS 232 / RS 232 (115-230 V DC  power supply)    ................................................  4/37 1SNA684234R2000  ILPH RS 232 / RS 232 (24-48 V DC  power supply)   ................................................   4/37 1SNA684236R2200  ILPH RS 232 / FO-S (24...42 V AC/DC  power supply)     ................................................ 4/37 1SNA684237R2300  ILPH RS 232 / FO-S (110...240 V AC/ DC power supply)   ................................................   4/37 1SNA684238R0400  ILPH RS 232 / FO-P (24...42 V AC/DC  power supply)    ................................................  4/37 1SNA684239R0500  ILPH RS 232 / FO-P (110...240 V AC/ DC power supply)   ................................................   4/37 1SNA684246R0400  ILPH RS 485 / FO-S (24...42 V AC/DC  power supply)   ................................................   4/37 1SNA684247R0500  ILPH RS 485 / FO-S (110...240 V AC/ DC power supply)   ................................................   4/37 1SNA684248R1600  ILPH RS 485 / FO-P (24...42 V AC/DC  power supply)   ................................................   4/37 1SNA684249R1700  ILPH RS 485 / FO-P (110...240 V AC/ DC power supply)   ................................................   4/37 1SNA684252R0200  ILPH RS 232-RS 485 / Ethernet .   4/37 1SNA684333R2300  ILPH RS 232 / RS 422-485 (24-48 V  DC power supply)   ................................................   4/37 1SNA684334R2400  ILPH RS 232 / RS 422-485 (115-230 V  DC power supply)    ................................................   4/37 1SVR 1SVR010200R1600 CC-E  I/I-1  ..................................... 4/8 1SVR010201R0300 CC-E  I/I-2  ..................................... 4/8 1SVR010203R0500  CC-E IAC/ILPO .........................   4/11 1SVR011700R0000 CC-E/STD  .................................... 4/8 1SVR011701R2500 CC-E/RTD  .................................... 4/9 1SVR011702R2600 CC-E/TC..................................... 4/10 1SVR011703R2700  CC-E/I ......................................   4/11 1SVR011705R2100 CC-E/STD  .................................... 4/8 1SVR011706R2200 CC-E/RTD  .................................... 4/9 1SVR011707R2300 CC-E/TC..................................... 4/10 1SVR011708R0400  CC-E/I ......................................   4/11 1SVR011710R2100 CC-E  V/V  ...................................... 4/8 1SVR011711R1600 CC-E  V/I  ....................................... 4/8 1SVR011712R1700 CC-E  V/I  ....................................... 4/8 1SVR011713R1000 CC-E  I/V  ....................................... 4/8 1SVR011714R1100 CC-E  I/I  ........................................ 4/8 1SVR011715R1200 CC-E  I/I  ........................................ 4/8 1SVR011716R1300 CC-E  I/V  ....................................... 4/8 1SVR011717R1400 CC-E  I/I  ........................................ 4/8 1SVR011718R2500 CC-E  I/I  ........................................ 4/8 1SVR011719R2600 CC-E  V/V  ...................................... 4/8 1SVR011720R2300 CC-E  V/V  ...................................... 4/8 1SVR011721R1000 CC-E  V/I  ....................................... 4/8 1SVR011722R1100 CC-E  V/I  ....................................... 4/8 1SVR011723R1200 CC-E  V/V  ...................................... 4/8 1SVR011724R1300 CC-E  I/I  ........................................ 4/8 1SVR011725R1400 CC-E  I/I  ........................................ 4/8 1SVR011726R1500 CC-E  V/V  ...................................... 4/8 1SVR011727R1600 CC-E  I/I  ........................................ 4/8 1SVR011728R2700 CC-E  I/I  ........................................ 4/8 1SVR011729R2000 CC-E  V/V  ...................................... 4/8 1SVR011730R2500 CC-E  RTD/V  ................................. 4/9 1SVR011731R1200 CC-E  RTD/I  .................................. 4/9 1SVR011732R1300 CC-E  RTD/I  .................................. 4/9 1SVR011733R1400 CC-E  RTD/V  ................................. 4/9 1SVR011734R1500 CC-E  RTD/I  .................................. 4/9 1SVR011735R1600 CC-E  RTD/I  .................................. 4/9 1SVR011736R1700 CC-E  RTD/V  ................................. 4/9 1SVR011737R1000 CC-E  RTD/I  .................................. 4/9 1SVR011738R2100 CC-E  RTD/I  .................................. 4/9 1SVR011739R2200 CC-E  RTD/V  ................................. 4/9 1SVR011740R0700 CC-E  RTD/I  .................................. 4/9 1SVR011741R2400 CC-E  RTD/I  .................................. 4/9 1SVR011750R0100 CC-E  TC/V.................................. 4/10 1SVR011751R2600 CC-E  TC/I  ................................... 4/10 1SVR011752R2700 CC-E  TC/I  ................................... 4/10 1SVR011753R2000 CC-E  TC/V.................................. 4/10 1SVR011754R2100 CC-E  TC/I  ................................... 4/10 1SVR011755R2200 CC-E  TC/I  ................................... 4/10 1SVR011760R0300 CC-E  TC/V.................................. 4/10 1SVR011761R2000 CC-E  TC/I  ................................... 4/10 1SVR011762R2100 CC-E  TC/I  ................................... 4/10 1SVR011763R2200 CC-E  TC/V.................................. 4/10 1SVR011764R2300 CC-E  TC/I  ................................... 4/10 1SVR011765R2400 CC-E  TC/I  ................................... 4/10 1SVR011770R0500  CC-E IAC/V  .............................   4/11 1SVR011771R2200  CC-E IAC/I ................................   4/11 1SVR011772R2300  CC-E IAC/I ................................   4/11 1SVR011773R2400  CC-E IDC/V ..............................   4/11 1SVR011774R2500  CC-E IDC/I ...............................   4/11 1SVR011775R2600  CC-E IDC/I ...............................   4/11 1SVR011780R1100  CC-E IAC/V ..............................   4/11 1SVR011781R0600  CC-E IAC/I ................................   4/11 1SVR011782R0700  CC-E IAC/I ................................   4/11 1SVR011783R0000  CC-E IDC/V ..............................   4/11 1SVR011784R0100  CC-E IDC/I ...............................   4/11 1SVR011785R1100  CC-E IDC/I ...............................   4/11 1SVR011788R2400 CC-E  RTD/V  ................................. 4/9 1SVR011789R2500 CC-E  RTD/I  .................................. 4/9 1SVR011790R2200 CC-E  RTD/I  .................................. 4/9 1SVR011791R1700 CC-E  RTD/V  ................................. 4/9 1SVR011792R1000 CC-E  RTD/I  .................................. 4/9 1SVR011793R1100 CC-E  RTD/I  .................................. 4/9 1SVR011794R1200 CC-E  RTD/V  ................................. 4/9 1SVR011795R1300 CC-E  RTD/I  .................................. 4/9 1SVR011796R1400 CC-E  RTD/I  .................................. 4/9 1SVR011797R1500 CC-E  RTD/V  ................................. 4/9 1SVR011798R2600 CC-E  RTD/I  .................................. 4/9 1SVR011799R2700 CC-E  RTD/I  .................................. 4/9 1SVR040000R1700  CC-U/STD ................................   4/21 1SVR040001R0400  CC-U/STD ................................   4/21 1SVR040002R0500  CC-U/RTD ................................   4/21 1SVR040003R0600  CC-U/RTD ................................   4/21 1SVR040004R0700  CC-U/TC ..................................   4/21 1SVR040005R0000  CC-U/TC ..................................   4/21 1SVR040006R0100  CC-U/I ......................................   4/21 1SVR040007R0200  CC-U/I ......................................   4/21 1SVR040008R1300  CC-U/V ....................................   4/21 1SVR040009R1400  CC-U/V ....................................   4/21 1SVR040010R0000  CC-U/STDR ..............................   4/21 1SVR040011R2500  CC-U/STDR ..............................   4/21 1SVR040012R2600  CC-U/RTDR ..............................   4/21 1SVR040013R2700  CC-U/RTDR ..............................   4/21 1SVR040014R2000  CC-U/TCR ................................   4/21 1SVR040015R2100  CC-U/TCR ................................   4/21 1SVR366017R0100  MAR.01 ....................................   1/40 1SVR366017R0100  MAR.01 ....................................   1/40 1SVR366017R0100 MAR.01  .................................... 2/151 1SVR366017R0100 MAR.01  ...................................... 4/22 1SVR402902R0000 CM-HE  ..................................... 2/118 1SVR405600R0000  CR-P024AC1 ..............................   5/7  1SVR405600R1000  CR-P024DC1 ..............................   5/7  1SVR405600R2000  CR-P120AC1 ..............................   5/7  1SVR405600R3000  CR-P230AC1 ..............................   5/7  1SVR405600R4000  CR-P012DC1 ..............................   5/7  1SVR405600R5000  CR-P048AC1 ..............................   5/7  1SVR405600R6000  CR-P048DC1 ..............................   5/7  1SVR405600R7000  CR-P110AC1 ..............................   5/7  1SVR405600R8000  CR-P110DC1 ..............................   5/7  1SVR405601R0000  CR-P024AC2 ..............................   5/7  1SVR405601R1000  CR-P024DC2 ..............................   5/7  1SVR405601R2000  CR-P120AC2 ..............................   5/7  1SVR405601R3000  CR-P230AC2 ..............................   5/7  1SVR405601R4000  CR-P012DC2 ..............................   5/7  Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   475 11/26/2013   4:52:40 PM

8 8/7   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 Index Numerical 1SVR405601R5000  CR-P048AC2 ..............................   5/7  1SVR405601R6000  CR-P048DC2 ..............................   5/7  1SVR405601R7000  CR-P110AC2 ..............................   5/7  1SVR405601R8000  CR-P110DC2 ..............................   5/7  1SVR405606R0000  CR-P024AC2G ...........................   5/7  1SVR405606R1000  CR-P024DC2 ..............................   5/7  1SVR405606R3000  CR-P230AC2G ...........................   5/7  1SVR405606R7000  CR-P110AC2G ...........................   5/7  1SVR405611R0000  CR-M024AC2 .............................   5/8  1SVR405611R0100  CR-M024AC2L ...........................   5/9  1SVR405611R1000  CR-M024DC2 .............................   5/8  1SVR405611R1100  CR-M024DC2L ...........................   5/9  1SVR405611R2000  CR-M120AC2 .............................   5/8  1SVR405611R2100  CR-M120AC2L ...........................   5/9  1SVR405611R3000  CR-M230AC2 .............................   5/8  1SVR405611R3100  CR-M230AC2L ...........................   5/9  1SVR405611R4000  CR-M012DC2 .............................   5/8  1SVR405611R4100  CR-M012DC2L ...........................   5/9  1SVR405611R4200  CR-M060DC2 .............................   5/8  1SVR405611R4300  CR-M060DC2L ...........................   5/9  1SVR405611R5000  CR-M048AC2 .............................   5/8  1SVR405611R5100  CR-M048AC2L ...........................   5/9  1SVR405611R6000  CR-M048DC2 .............................   5/8  1SVR405611R6100  CR-M048DC2L ...........................   5/9  1SVR405611R7000  CR-M110AC2 .............................   5/8  1SVR405611R7100  CR-M110AC2L ...........................   5/9  1SVR405611R8000  CR-M110DC2 .............................   5/8  1SVR405611R8100  CR-M110DC2L ...........................   5/9  1SVR405611R8200  CR-M125DC2 .............................   5/8  1SVR405611R8300  CR-M125DC2L ...........................   5/9  1SVR405611R9000  CR-M220DC2 .............................   5/8  1SVR405611R9100  CR-M220DC2L ...........................   5/9  1SVR405612R0000  CR-M024AC3 .............................   5/8  1SVR405612R0100  CR-M024AC3L ...........................   5/9  1SVR405612R1000  CR-M024DC3 .............................   5/8  1SVR405612R1100  CR-M024DC3L ...........................   5/9  1SVR405612R2000  CR-M120AC3 .............................   5/8  1SVR405612R2100  CR-M120AC3L ...........................   5/9  1SVR405612R3000  CR-M230AC3 .............................   5/8  1SVR405612R3100  CR-M230AC3L ...........................   5/9  1SVR405612R4000  CR-M012DC3 .............................   5/8  1SVR405612R4100  CR-M012DC3L ...........................   5/9  1SVR405612R4200  CR-M060DC3 .............................   5/8  1SVR405612R4300  CR-M060DC3L ...........................   5/9  1SVR405612R5000  CR-M048AC3 .............................   5/8  1SVR405612R5100  CR-M048AC3L ...........................   5/9  1SVR405612R5200  CR-M060AC3 .............................   5/8  1SVR405612R6000  CR-M048DC3 .............................   5/8  1SVR405612R6100  CR-M048DC3L ...........................   5/9  1SVR405612R7000  CR-M110AC3 .............................   5/8  1SVR405612R7100  CR-M110AC3L ...........................   5/9  1SVR405612R8000  CR-M110DC3 .............................   5/8  1SVR405612R8100  CR-M110DC3L ...........................   5/9  1SVR405612R8200  CR-M125DC3 .............................   5/8  1SVR405612R8300  CR-M125DC3L ...........................   5/9  1SVR405612R9000  CR-M220DC3 .............................   5/8  1SVR405612R9100  CR-M220DC3L ...........................   5/9  1SVR405613R0000  CR-M024AC4 .............................   5/8  1SVR405613R0100  CR-M024AC4L ...........................   5/9  1SVR405613R1000  CR-M024DC4 .............................   5/8  1SVR405613R1100  CR-M024DC4L ...........................   5/9  1SVR405613R2000  CR-M120AC4 .............................   5/8  1SVR405613R2100  CR-M120AC4L ...........................   5/9  1SVR405613R3000  CR-M230AC4 .............................   5/8  1SVR405613R3100  CR-M230AC4L ...........................   5/9  1SVR405613R4000  CR-M012DC4 .............................   5/8  1SVR405613R4100  CR-M012DC4L ...........................   5/9  1SVR405613R4200  CR-M060DC4 .............................   5/8  1SVR405613R4300  CR-M060DC4L ...........................   5/9  1SVR405613R5000  CR-M048AC4 .............................   5/8  1SVR405613R5100  CR-M048AC4L ...........................   5/9  1SVR405613R6000  CR-M048DC4 .............................   5/8  1SVR405613R6100  CR-M048DC4L ...........................   5/9  1SVR405613R7000  CR-M110AC4 .............................   5/8  1SVR405613R7100  CR-M110AC4L ...........................   5/9  1SVR405613R8000  CR-M110DC4 .............................   5/8  1SVR405613R8100  CR-M110DC4L ...........................   5/9  1SVR405613R8200  CR-M125DC4 .............................   5/8  1SVR405613R8300  CR-M125DC4L ...........................   5/9  1SVR405613R9000  CR-M220DC4 .............................   5/8  1SVR405613R9100  CR-M220DC4L ...........................   5/9  1SVR405614R1100  CR-M024DC4LD .........................   5/9  1SVR405618R0000  CR-M024AC4G ...........................   5/9  1SVR405618R0100 CR-M024AC4LG  ......................... 5/10 1SVR405618R1000  CR-M024DC4G...........................   5/9  1SVR405618R1100 CR-M024DC4LG  ......................... 5/10 1SVR405618R1400 CR-M024DC4LDG  ...................... 5/10 1SVR405618R2100 CR-M120AC4LG  ......................... 5/10 1SVR405618R3000  CR-M230AC4G ...........................   5/9  1SVR405618R3100 CR-M230AC4LG  ......................... 5/10 1SVR405618R4100 CR-M012DC4LG  ......................... 5/10 1SVR405618R4300 CR-M060DC4LG  ......................... 5/10 1SVR405618R4400 CR-M012DC4LDG  ...................... 5/10 1SVR405618R5100 CR-M048AC4LG  ......................... 5/10 1SVR405618R6100 CR-M048DC4LG  ......................... 5/10 1SVR405618R7000  CR-M110AC4G ...........................   5/9  1SVR405618R7100 CR-M110AC4LG  ......................... 5/10 1SVR405618R8100 CR-M110DC4LG  ......................... 5/10 1SVR405618R8300 CR-M125DC4LG  ......................... 5/10 1SVR405618R9100 CR-M220DC4LG  ......................... 5/10 1SVR405621R0000  CR-U024AC2 ............................   5/12 1SVR405621R0100  CR-U024AC2L ..........................   5/12 1SVR405621R1000  CR-U024DC2............................   5/12 1SVR405621R1100  CR-U024DC2L ..........................   5/12 1SVR405621R2000  CR-U120AC2 ............................   5/12 1SVR405621R2100  CR-U120AC2L ..........................   5/12 1SVR405621R3000  CR-U230AC2 ............................   5/12 1SVR405621R3100  CR-U230AC2L ..........................   5/12 1SVR405621R4000   CR-U012DC2............................   5/12 1SVR405621R4100  CR-U012DC2L ..........................   5/12 1SVR405621R5000  CR-U048AC2 ............................   5/12 1SVR405621R5100  CR-U048AC2L ..........................   5/12 1SVR405621R6000  CR-U048DC2............................   5/12 1SVR405621R6100  CR-U048DC2L ..........................   5/12 1SVR405621R7000  CR-U110AC2 ............................   5/12 1SVR405621R7100  CR-U110AC2L ..........................   5/12 1SVR405621R8000  CR-U110DC2............................   5/12 1SVR405621R8100  CR-U110DC2L ..........................   5/12 1SVR405621R9000  CR-U220DC2............................   5/12 1SVR405621R9100  CR-U220DC2L ..........................   5/12 1SVR405622R0000  CR-U024AC3 ............................   5/12 1SVR405622R0100  CR-U024AC3L ..........................   5/12 1SVR405622R1000  CR-U024DC3............................   5/12 1SVR405622R1100  CR-U024DC3L ..........................   5/12 1SVR405622R2000  CR-U120AC3 ............................   5/12 1SVR405622R2100  CR-U120AC3L ..........................   5/12 1SVR405622R3000  CR-U230AC3 ............................   5/12 1SVR405622R3100  CR-U230AC3L ..........................   5/12 1SVR405622R4000  CR-U012DC3............................   5/12 1SVR405622R4100  CR-U012DC3L ..........................   5/12 1SVR405622R5000  CR-U048AC3 ............................   5/12 1SVR405622R5100  CR-U048AC3L ..........................   5/12 1SVR405622R5200  CR-U060AC3 ............................   5/12 1SVR405622R6000  CR-U048DC3............................   5/12 1SVR405622R6100  CR-U048DC3L ..........................   5/12 1SVR405622R7000  CR-U110AC3 ............................   5/12 1SVR405622R7100  CR-U110AC3L ..........................   5/12 1SVR405622R8000  CR-U110DC3............................   5/12 1SVR405622R8100  CR-U110DC3L ..........................   5/12 1SVR405622R8200  CR-U125DC3............................   5/12 1SVR405622R9000  CR-U220DC3............................   5/12 1SVR405622R9100  CR-U220DC3L ..........................   5/12 1SVR405650R0000  CR-PLS ......................................   5/7  1SVR405650R0100  CR-PLSx ....................................   5/7  1SVR405650R0200  CR-PLC ......................................   5/7  1SVR405650R1000  CR-PSS ......................................   5/7  1SVR405651R0000  CR-P/M 22 ...............................   5/11 1SVR405651R1000 CR-M2SS  ................................... 5/10 1SVR405651R1100 CR-M2LS  ................................... 5/10 1SVR405651R1200 CR-M2LC  ................................... 5/10 1SVR405651R1300 CR-M2SF  ................................... 5/10 1SVR405651R2000 CR-M3SS  ................................... 5/10 1SVR405651R2100 CR-M3LS  ................................... 5/10 Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   476 11/26/2013   4:52:40 PM

8   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   8/8  1SVR405651R3000 CR-M4SS  ................................... 5/10 1SVR405651R3100 CR-M4LS  ................................... 5/10 1SVR405651R3200 CR-M4LC  ................................... 5/10 1SVR405651R3300 CR-M4SF  ................................... 5/10 1SVR405652R0000  CR-P/M 42 ...............................   5/11 1SVR405652R1000  CR-P/M 42V .............................   5/11 1SVR405652R4000  CR-P/M 42B .............................   5/11 1SVR405652R4100  CR-P/M 42BV ...........................   5/11 1SVR405652R9000  CR-P/M 42C .............................   5/11 1SVR405652R9100  CR-P/M 42CV ...........................   5/11 1SVR405653R0000  CR-P/M 52B .............................   5/11 1SVR405653R1000  CR-P/M 52C .............................   5/11 1SVR405653R4000  CR-P/M 52D .............................   5/11 1SVR405654R0000  CR-P/M 62 ...............................   5/11 1SVR405654R0100  CR-P/M 92 ...............................   5/11 1SVR405654R1000  CR-P/M 62V .............................   5/11 1SVR405654R1100  CR-P/M 92V .............................   5/11 1SVR405654R4000  CR-P/M 62E .............................   5/11 1SVR405654R4100  CR-P/M 62EV ...........................   5/11 1SVR405655R0000  CR-P/M 62C .............................   5/11 1SVR405655R0100  CR-P/M 92C .............................   5/11 1SVR405655R1000  CR-P/M 62CV ...........................   5/11 1SVR405655R1100  CR-P/M 92CV ...........................   5/11 1SVR405655R4000  CR-P/M 62D .............................   5/11 1SVR405655R4100  CR-P/M 62DV ...........................   5/11 1SVR405656R0000  CR-P/M 72 ...............................   5/11 1SVR405656R1000  CR-P/M 72A .............................   5/11 1SVR405656R2000  CR-P/M 82 ...............................   5/11 1SVR405658R0000  CR-PM .......................................   5/7  1SVR405658R1000 CR-MM....................................... 5/10 1SVR405658R5000  CR-PJ ........................................   5/7  1SVR405658R6000 CR-MJ  ........................................ 5/10 1SVR405659R0000 CR-PH  ........................................   5/7  1SVR405659R1000 CR-MH  ....................................... 5/10 1SVR405659R1100 CR-MH1  ..................................... 5/10 1SVR405660R0000  CR-U3S ....................................   5/12 1SVR405660R0100  CR-U3E ....................................   5/12 1SVR405660R1100  CR-U3SM .................................   5/12 1SVR405661R0000  CR-U 21 ...................................   5/13 1SVR405662R0000  CR-U 41 ...................................   5/13 1SVR405662R1000  CR-U 41V .................................   5/13 1SVR405662R4000  CR-U 41B .................................   5/13 1SVR405662R4100  CR-U 41BV ...............................   5/13 1SVR405662R9000 CR-U  41C  .................................   5/13 1SVR405662R9100 CR-U  41CV  ...............................   5/13 1SVR405663R0000  CR-U 51B .................................   5/13 1SVR405663R1000 CR-U  51C  .................................   5/13 1SVR405663R4000  CR-U 51D .................................   5/13 1SVR405664R0000  CR-U 61 ...................................   5/13 1SVR405664R0100  CR-U 91 ...................................   5/13 1SVR405664R1000  CR-U 61V .................................   5/13 1SVR405664R1100  CR-U 91V .................................   5/13 1SVR405664R4000  CR-U 61E .................................   5/13 1SVR405664R4100  CR-U 61EV ...............................   5/13 1SVR405665R0000 CR-U  61C  .................................   5/13 1SVR405665R0100 CR-U  91C  .................................   5/13 1SVR405665R1000 CR-U  61CV  ...............................   5/13 1SVR405665R1100 CR-U  91CV  ...............................   5/13 1SVR405665R4000  CR-U 61D .................................   5/13 1SVR405665R4100  CR-U 61DV ...............................   5/13 1SVR405666R0000  CR-U 71 ...................................   5/13 1SVR405666R1000  CR-U 71A .................................   5/13 1SVR405666R2000  CR-U 81 ...................................   5/13 1SVR405667R0000  CR-U T .....................................   5/13 1SVR405669R0000  CR-UH .....................................   5/12 1SVR405670R0000  CR-U2S ....................................   5/12 1SVR405670R1100  CR-U2SM .................................   5/12 1SVR423418R9000 CP-RUD  ..................................... 3/51 1SVR427014R0000 CP-S  24/5.0  ............................... 3/45 1SVR427015R0100 CP-S  24/10.0  ............................. 3/45 1SVR427016R0100 CP-S  24/20.0  ............................. 3/45 1SVR427024R0000 CP-C  24/5.0  ............................... 3/45 1SVR427025R0000 CP-C  24/10.0  ............................. 3/45 1SVR427026R0000 CP-C  24/20.0  ............................. 3/45 1SVR427030R0000  CP-E 24/0.75............................   3/20 1SVR427030R2000  CP-E 48/0.62............................   3/20 1SVR427031R0000  CP-E 24/1.25............................   3/20 1SVR427031R2000  CP-E 48/1.25............................   3/20 1SVR427032R0000  CP-E 24/2.5 .............................   3/20 1SVR427032R1000  CP-E 12/2.5 .............................   3/20 1SVR427033R3000  CP-E 5/3.0 ...............................   3/20 1SVR427034R0000  CP-E 24/5.0 .............................   3/20 1SVR427034R2000  CP-E 48/5.0 .............................   3/20 1SVR427035R0000  CP-E 24/10.0............................   3/20 1SVR427035R1000  CP-E 12/10.0............................   3/20 1SVR427035R2000  CP-E 48/10.0............................   3/20 1SVR427036R0000  CP-E 24/20.0............................   3/20 1SVR427041R0000  CP-D 24/0.42 ...........................   3/10 1SVR427041R0000  CP-D 24/0.42 .............................   7/8  1SVR427041R1000  CP-D 12/0.83 ...........................   3/10 1SVR427043R0100  CP-D 24/1.3 .............................   3/10 1SVR427043R0100  CP-D 24/1.3 ...............................   7/8  1SVR427043R1200  CP-D 12/2.1 .............................   3/10 1SVR427044R0200  CP-D 24/2.5 .............................   3/10 1SVR427045R0400  CP-D 24/4.2 .............................   3/10 1SVR427049R0000 CP-D  RU  .................................... 3/51 1SVR427054R0000 CP-T  24/5.0  ..............................   3/34 1SVR427054R2000  CP-E 48/5.0 .............................   3/34 1SVR427055R0000  CP-T 24/10.0 ............................   3/34 1SVR427055R2000  CP-E 48/10.0............................   3/34 1SVR427056R0000  CP-T 24/20.0 ............................   3/34 1SVR427056R2000  CP-E 48/20.0............................   3/34 1SVR427057R0000  CP-T 24/40.0 ............................   3/34 1SVR427060R0300  CP-B 24/3.0 .............................   3/68 1SVR427060R1000  CP-B 24/10.0 ...........................   3/68 1SVR427060R2000  CP-B 24/20.0 ...........................   3/68 1SVR427065R0000 CP-B  EXT.2  ...............................   3/68 1SVR427071R0000 CP-A  RU..................................... 3/51 1SVR427075R0000 CP-A  CM  .................................... 3/51 1SVR427081R0000 CP-C  MM  ................................... 3/45 1SVR427090R0280 CP-ASI/2.8  ................................. 3/60 1SVR427090R0400 CP-ASI/4.0  ................................. 3/60 1SVR427090R0800 CP-ASI/8.0  ................................. 3/60 1SVR427095R0400 CP-ASI/4.0  DC/DC  ...................... 3/60 1SVR430005R0100  COV.01 .....................................   1/40 1SVR430005R0100 COV.01  ..................................... 2/151 1SVR430005R0100 COV.01  ....................................... 4/22 1SVR430029R0100  ADP.01 .....................................   1/40 1SVR430029R0100  ADP.01 .....................................   1/40 1SVR430029R0100 ADP.01  ..................................... 2/151 1SVR430029R0100 ADP.01  ....................................... 4/22 1SVR430043R0000  MAR.02 ....................................   1/40 1SVR430043R0000 MAR.02  .................................... 2/151 1SVR430220R9100  CT-IRS.16 .................................   1/38 1SVR430220R9300  CT-IRS.26 .................................   1/38 1SVR430220R9400  CT-IRS.36 .................................   1/38 1SVR430221R1400  CT-IRS.35 .................................   1/38 1SVR430221R7100  CT-IRS.14 .................................   1/38 1SVR430221R7300  CT-IRS.24 .................................   1/38 1SVR430230R9300  CT-IRS.26G ..............................   1/38 1SVR430231R7300  CT-IRS.24G ..............................   1/38 1SVR430261R5000  CT-VBS.18 ................................   1/38 1SVR430261R6000  CT-VBS.17 ................................   1/38 1SVR430500R2300 CM-SIS  .................................... 2/136 1SVR430710R0200 CM-MSS  (6)  ................................ 2/96 1SVR430710R9300 CM-MSS  (3)  ................................ 2/96 1SVR430711R0300 CM-MSS  (3)  ................................ 2/96 1SVR430711R1300 CM-MSS  (3)  ................................ 2/96 1SVR430711R2300 CM-MSS  (3)  ................................ 2/96 1SVR430720R0300 CM-MSS  (5)  ................................ 2/96 1SVR430720R0400 CM-MSS  (4)  ................................ 2/96 1SVR430720R0500 CM-MSS  (7)  ................................ 2/96 1SVR430800R9100 CM-MSS  (1)  ................................ 2/96 1SVR430801R1100 CM-MSS  (1)  ................................ 2/96 1SVR430810R9300 CM-MSS  (2)  ................................ 2/96 1SVR430811R0300 CM-MSS  (2)  ................................ 2/96 1SVR430811R1300 CM-MSS  (2)  ................................ 2/96 1SVR430811R9300 CM-MSS  (2)  ................................ 2/96 1SVR430851R0100 CM-ENS  ................................... 2/117 1SVR430851R0200 CM-ENS  UP/DOWN    ................. 2/117 1SVR430851R1100 CM-ENS  ................................... 2/117 1SVR430851R1200 CM-ENS  UP/DOWN    ................. 2/117 1SVR430851R1300 CM-ENS  ................................... 2/117 Index Numerical Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   477 11/26/2013   4:52:41 PM

8 8/9   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1SVR430851R2100 CM-ENS  ................................... 2/117 1SVR430851R9100 CM-ENS  ................................... 2/117 1SVR430851R9200  CM-ENS UP/DOWN  ................. 2/117 1SVR430896R000 CM-WDS  .................................. 2/142 1SVR440005R0100 COV.02  ..................................... 2/151 1SVR440029R0100 ADP.02  ..................................... 2/151 1SVR440709R0000 CL-LEC.CI000  .............................. 7/7 1SVR440709R5000 CL-LER.2O  ................................... 7/7 1SVR440710R0200 CL-LSR.CX12DC1  ......................... 7/6 1SVR440710R0300 CL-LSR.C12DC1........................... 7/6 1SVR440711R0100 CL-LSR.12DC2  ............................. 7/6 1SVR440711R0200 CL-LSR.CX12DC2  ......................... 7/6 1SVR440711R0300 CL-LSR.C12DC2........................... 7/6 1SVR440711R1200 CL-LST.CX12DC2  ......................... 7/6 1SVR440711R1300 CL-LST.C12DC2  ........................... 7/6 1SVR440712R0200 CL-LSR.CX12AC1  ......................... 7/6 1SVR440712R0300 CL-LSR.C12AC1  ........................... 7/6 1SVR440713R0100 CL-LSR.12AC2  ............................. 7/6 1SVR440713R0200 CL-LSR.CX12AC2  ......................... 7/6 1SVR440713R0300 CL-LSR.C12AC2  ........................... 7/6 1SVR440720R0200 CL-LMR.CX18DC1  ........................ 7/7 1SVR440720R0300 CL-LMR.C18DC1  .......................... 7/7 1SVR440721R0000 CL-LER.18DC2  ............................. 7/7 1SVR440721R0200 CL-LMR.CX18DC2  ........................ 7/7 1SVR440721R0300 CL-LMR.C18DC2  .......................... 7/7 1SVR440721R1000 CL-LET.20DC2  .............................. 7/7 1SVR440721R1200 CL-LMT.CX20DC2  ......................... 7/7 1SVR440721R1300 CL-LMT.C20DC2  ........................... 7/7 1SVR440722R0200 CL-LMR.CX18AC1  ........................ 7/7 1SVR440722R0300 CL-LMR.C18AC1  .......................... 7/7 1SVR440723R0000 CL-LER.18AC2  ............................. 7/7 1SVR440723R0200 CL-LMR.CX18AC2  ........................ 7/7 1SVR440723R0300 CL-LMR.C18AC2  .......................... 7/7 1SVR440799R5000 CL-LAS.FD001  ............................   7/8  1SVR440799R5100 CL-LAS.TK011  ............................   7/8  1SVR440799R6000 CL-LAS.TK001  ............................   7/8  1SVR440799R6100 CL-LAS.TK002  ............................   7/8  1SVR440799R7000 CL-LAS.MD003  ...........................   7/8  1SVR440799R8000  CL-LAS.PS002 ...........................   7/8  1SVR440821R0000 CL-LDC.LDC2  .............................   7/9  1SVR440821R1000  CL-LDC.LNDC2 ..........................   7/9  1SVR440823R0000  CL-LDC.LAC2 .............................   7/9  1SVR440823R1000  CL-LDC.LNAC2 ..........................   7/9  1SVR440839R4400 CL-LDD.K  ..................................... 7/6 1SVR440839R4400  CL-LDD.K ...................................   7/9  1SVR440839R4500 CL-LDD.XK  ................................... 7/6 1SVR440839R4500  CL-LDD.XK .................................   7/9  1SVR440841R0000 CL-LDC.SDC2  .............................. 7/6 1SVR440843R0000 CL-LDC.SAC2  .............................. 7/6 1SVR440851R0000  CL-LDR.16DC2 ...........................   7/9  1SVR440851R1000  CL-LDT.16DC2 ...........................   7/9  1SVR440851R2000  CL-LDR.17DC2 ...........................   7/9  1SVR440851R3000  CL-LDT.17DC2 ...........................   7/9  1SVR440853R0000  CL-LDR.16AC2 ...........................   7/9  1SVR440899R1000  CL-LAD.FD001 ...........................   7/9  1SVR440899R2000  CL-LAD.FD011 ...........................   7/9  1SVR440899R3000  CL-LAD.FD002 ...........................   7/9  1SVR440899R6000  CL-LAD.TK001 ...........................   7/9  1SVR440899R6100  CL-LAD.TK002 ...........................   7/9  1SVR440899R6200  CL-LAD.TK003 ...........................   7/9  1SVR440899R6300  CL-LAD.TK004 ...........................   7/9  1SVR440899R6400  CL-LAD.TK005 ...........................   7/9  1SVR440899R6500  CL-LAD.TK006 ...........................   7/9  1SVR440899R6600  CL-LAD.TK007 ...........................   7/8  1SVR440899R6700  CL-LAD.TK011 ...........................   7/9  1SVR440899R6900  CL-LAD.TK009 ...........................   7/9  1SVR440899R7000  CL-LAD.MD004 ..........................   7/9  1SVR450025R0100 CM-MSN  .................................... 2/96 1SVR450050R0000 CM-ENN  ................................... 2/117 1SVR450050R0100 CM-ENN  UP/DOWN  .................. 2/117 1SVR450051R0000 CM-ENN  ................................... 2/117 1SVR450051R0100 CM-ENN  UP/DOWN  .................. 2/117 1SVR450052R0000 CM-ENN  ................................... 2/117 1SVR450052R0100 CM-ENN  UP/DOWN  .................. 2/117 1SVR450055R0000 CM-ENN  ................................... 2/117 1SVR450056R0000 CM-SE-300  .............................. 2/118 1SVR450056R0100 CM-SE-600  .............................. 2/118 1SVR450056R0200 CM-SE-1000............................. 2/118 1SVR450056R6000 CM-KH-3  .................................. 2/118 1SVR450056R7000 CM-AH-3  .................................. 2/118 1SVR450056R8000 CM-GM-1  ................................. 2/118 1SVR450059R0000 CM-ENN  ................................... 2/117 1SVR450059R0100 CM-ENN  UP/DOWN  .................. 2/117 1SVR450080R0000 CM-KRN  ................................... 2/130 1SVR450081R0000 CM-KRN  ................................... 2/130 1SVR450082R0000 CM-KRN  ................................... 2/130 1SVR450089R0000 CM-KRN  ................................... 2/130 1SVR450090R0000 CM-KRN  ................................... 2/130 1SVR450091R0000 CM-KRN  ................................... 2/130 1SVR450099R0000 CM-KRN  ................................... 2/130 1SVR450099R1000 CM-KRN  ................................... 2/130 1SVR450116R1000 CM-CT  50/1  ............................. 2/152 1SVR450116R1100 CM-CT  75/1  ............................. 2/152 1SVR450116R1200 CM-CT  100/1............................ 2/152 1SVR450116R1300 CM-CT  150/1............................ 2/152 1SVR450116R1400 CM-CT  200/1............................ 2/152 1SVR450116R5000 CM-CT  50/5  ............................. 2/152 1SVR450116R5100 CM-CT  75/5  ............................. 2/152 1SVR450116R5200 CM-CT  100/5............................ 2/152 1SVR450116R5300 CM-CT  150/5............................ 2/152 1SVR450116R5400 CM-CT  200/5............................ 2/152 1SVR450117R1100 CM-CT  300/1............................ 2/152 1SVR450117R1200 CM-CT  400/1............................ 2/152 1SVR450117R1300 CM-CT  500/1............................ 2/152 1SVR450117R1400 CM-CT  600/1............................ 2/152 1SVR450117R5100 CM-CT  300/5............................ 2/152 1SVR450117R5200 CM-CT  400/5............................ 2/152 1SVR450117R5300 CM-CT  500/5............................ 2/152 1SVR450117R5400 CM-CT  600/5............................ 2/152 1SVR450118R1000 CM-CT  A  .................................. 2/152 1SVR450330R0000 CM-LWN..................................... 2/82 1SVR450330R0100 CM-LWN..................................... 2/82 1SVR450331R0000 CM-LWN..................................... 2/82 1SVR450331R0100 CM-LWN..................................... 2/82 1SVR450332R0000 CM-LWN..................................... 2/82 1SVR450332R0100 CM-LWN..................................... 2/82 1SVR450334R0000 CM-LWN..................................... 2/82 1SVR450334R0100 CM-LWN..................................... 2/82 1SVR450335R0000 CM-LWN..................................... 2/82 1SVR450335R0100 CM-LWN..................................... 2/82 1SVR500020R0000  CT-MFD.12 .................................   1/8  1SVR500020R1100  CT-MFD.21 .................................   1/8  1SVR500100R0000  CT-ERD.12..................................   1/8  1SVR500100R0100  CT-ERD.22..................................   1/8  1SVR500110R0000  CT-AHD.12 .................................   1/8  1SVR500110R0100  CT-AHD.22 .................................   1/8  1SVR500130R0000  CT-VWD.12 .................................   1/8  1SVR500150R0000  CT-EBD.12..................................   1/8  1SVR500160R0000  CT-TGD.12 .................................   1/8  1SVR500160R0100  CT-TGD.22 .................................   1/8  1SVR500210R0100  CT-SAD.22..................................   1/8  1SVR500211R0100  CT-SDD.22 .................................   1/8  1SVR510730R0300  CM-UFD.M21............................   2/55 1SVR550019R0000  CT-MKE ....................................   1/21 1SVR550029R8100  CT-MFE ....................................   1/20 1SVR550100R1100 CT-ERE  .....................................   1/20 1SVR550100R2100 CT-ERE  .....................................   1/20 1SVR550100R4100 CT-ERE  .....................................   1/20 1SVR550100R5100 CT-ERE  .....................................   1/20 1SVR550107R1100 CT-ERE  .....................................   1/20 1SVR550107R2100 CT-ERE  .....................................   1/20 1SVR550107R4100 CT-ERE  .....................................   1/20 1SVR550107R5100 CT-ERE  .....................................   1/20 1SVR550110R1100  CT-AHE ....................................   1/20 1SVR550110R2100  CT-AHE ....................................   1/20 1SVR550110R4100  CT-AHE ....................................   1/20 1SVR550111R1100  CT-AHE ....................................   1/20 1SVR550111R2100  CT-AHE ....................................   1/20 1SVR550111R4100  CT-AHE ....................................   1/20 1SVR550118R1100  CT-AHE ....................................   1/20 1SVR550118R2100  CT-AHE ....................................   1/20 1SVR550118R4100  CT-AHE ....................................   1/20 1SVR550120R1100  CT-ARE ....................................   1/20 Index Numerical Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   478 11/26/2013   4:52:41 PM

8   2CDC 110 004 C0209 |  Catalog Electronic Products and Relays 2013/2014  |  ABB   8/10  1SVR550120R4100  CT-ARE ....................................   1/20 1SVR550127R1100  CT-ARE ....................................   1/20 1SVR550127R4100  CT-ARE ....................................   1/20 1SVR550130R1100  CT-VWE ....................................   1/20 1SVR550130R2100  CT-VWE ....................................   1/20 1SVR550130R4100  CT-VWE ....................................   1/20 1SVR550137R1100  CT-VWE ....................................   1/20 1SVR550137R2100  CT-VWE ....................................   1/20 1SVR550137R4100  CT-VWE ....................................   1/20 1SVR550140R1100  CT-AWE  ...................................   1/21 1SVR550140R2100  CT-AWE  ...................................   1/21 1SVR550140R4100  CT-AWE  ...................................   1/21 1SVR550141R1100  CT-AWE  ...................................   1/21 1SVR550141R2100  CT-AWE  ...................................   1/21 1SVR550141R4100  CT-AWE  ...................................   1/21 1SVR550148R1100  CT-AWE  ...................................   1/21 1SVR550148R2100  CT-AWE  ...................................   1/21 1SVR550148R4100  CT-AWE  ...................................   1/21 1SVR550150R3100  CT-AWE ....................................   1/20 1SVR550151R3100  CT-AWE ....................................   1/20 1SVR550158R3100  CT-AWE ....................................   1/20 1SVR550160R1100 CT-EBE    ....................................   1/21 1SVR550167R1100 CT-EBE    ....................................   1/21 1SVR550200R1100  CT-YDE ....................................   1/21 1SVR550200R2100  CT-YDE ....................................   1/21 1SVR550200R4100  CT-YDE ....................................   1/21 1SVR550207R1100  CT-YDE ....................................   1/21 1SVR550207R2100  CT-YDE ....................................   1/21 1SVR550207R4100  CT-YDE ....................................   1/21 1SVR550210R4100  CT-SDE ....................................   1/21 1SVR550212R4100  CT-SDE ....................................   1/21 1SVR550217R4100  CT-SDE ....................................   1/21 1SVR550221R9100  CT-IRE ......................................   1/21 1SVR550228R9100  CT-IRE ......................................   1/21 1SVR550231R9100  CT-IRE ......................................   1/21 1SVR550238R9100  CT-IRE ......................................   1/21 1SVR550509R1000  CT-EKE .....................................   1/21 1SVR550509R2000  CT-EKE .....................................   1/21 1SVR550509R4000  CT-EKE .....................................   1/21 1SVR550519R1000 CT-AKE  .....................................   1/21 1SVR550519R2000 CT-AKE  .....................................   1/21 1SVR550519R4000 CT-AKE  .....................................   1/21 1SVR550800R9300 CM-MSE  ..................................... 2/96 1SVR550801R9300 CM-MSE  ..................................... 2/96 1SVR550805R9300 CM-MSE  ..................................... 2/96 1SVR550824R9100 CM-PFE  ....................................   2/33 1SVR550850R9400 CM-ENE  MAX  ........................... 2/117 1SVR550850R9500 CM-ENE  MIN  ............................ 2/117 1SVR550851R9400 CM-ENE  MAX  ........................... 2/117 1SVR550851R9500 CM-ENE  MIN  ............................ 2/117 1SVR550855R9400 CM-ENE  MAX  ........................... 2/117 1SVR550855R9500 CM-ENE  MIN  ............................ 2/117 1SVR550870R9400  CM-PVE ...................................   2/33 1SVR550871R9500  CM-PVE ...................................   2/33 1SVR550881R9400  CM-PBE ...................................   2/33 1SVR550882R9500  CM-PBE ...................................   2/33 1SVR560730R3400  CM-UFD.M22............................   2/55 1SVR630736R0300  CM-UFS.1 ................................   2/55 1SVR700101R0100 C512-D  .................................... 2/106 1SVR700102R0100 C512-E  ..................................... 2/106 1SVR700111R0100 C513-D  .................................... 2/106 1SVR700112R0100 C513-E  ..................................... 2/106 1SVR730005R0100  COV.11 .....................................   1/40 1SVR730005R0100 COV.11  ..................................... 2/151 1SVR730006R0000  MAR.12 ....................................   1/40 1SVR730006R0000 MAR.12  .................................... 2/151 1SVR730010R0200  CT-MFS.21S .............................   1/37 1SVR730010R3200  CT-MBS.22S .............................   1/37 1SVR730020R0200  CT-MVS.21S .............................   1/37 1SVR730020R3100  CT-MVS.12S .............................   1/37 1SVR730020R3300  CT-MVS.22S .............................   1/37 1SVR730021R2300  CT-MVS.23S .............................   1/37 1SVR730030R3300  CT- MXS.22S ............................   1/37 1SVR730040R3300  CT-WBS.22S.............................   1/37 1SVR730100R0300  CT-ERS.21S..............................   1/38 1SVR730100R3100  CT-ERS.12S..............................   1/38 1SVR730100R3300  CT-ERS.22S .............................   1/38 1SVR730110R3300  CT-AHS.22S .............................   1/38 1SVR730120R3100  CT-ARS.11S .............................   1/38 1SVR730120R3300  CT-ARS.21S .............................   1/38 1SVR730180R0300  CT-APS.21S .............................   1/38 1SVR730180R3100  CT-APS.12S..............................   1/38 1SVR730180R3300  CT-APS.22S..............................   1/38 1SVR730210R3300  CT-SDS.22S .............................   1/38 1SVR730211R2300  CT-SDS.23S .............................   1/38 1SVR730660R0100 CM-IWS.1S  ................................. 2/72 1SVR730670R0200 CM-IWS.2S  ................................. 2/72 1SVR730740R0100 CM-TCS.11S    ........................... 2/106 1SVR730740R0200 CM-TCS.12S    ........................... 2/106 1SVR730740R0300 CM-TCS.13S    ........................... 2/106 1SVR730740R9100 CM-TCS.21S    ........................... 2/106 1SVR730740R9200 CM-TCS.22S    ........................... 2/106 1SVR730740R9300 CM-TCS.23S    ........................... 2/106 1SVR730750R0400 CM-EFS.2S................................. 2/16 1SVR730760R0400  CM-SFS.21S.............................   2/15 1SVR730760R0500  CM-SFS.22S.............................   2/15 1SVR730830R0300 CM-ESS.1S  ................................ 2/16 1SVR730830R0400 CM-ESS.2S  ................................ 2/16 1SVR730830R0500 CM-ESS.MS  ............................... 2/16 1SVR730831R0300 CM-ESS.1S  ................................ 2/16 1SVR730831R0400 CM-ESS.2S  ................................ 2/16 1SVR730831R1300 CM-ESS.1S  ................................ 2/16 1SVR730831R1400 CM-ESS.2S  ................................ 2/16 1SVR730840R0200  CM-SRS.11S ............................   2/15 1SVR730840R0300  CM-SRS.12S ............................   2/15 1SVR730840R0400  CM-SRS.21S ............................   2/15 1SVR730840R0500  CM-SRS.22S ............................   2/15 1SVR730840R0600  CM-SRS.M1S ...........................   2/15 1SVR730840R0700  CM-SRS.M2S ...........................   2/15 1SVR730841R0200  CM-SRS.11S ............................   2/15 1SVR730841R0300  CM-SRS.12S ............................   2/15 1SVR730841R0400  CM-SRS.21S ............................   2/15 1SVR730841R0500  CM-SRS.22S ............................   2/15 1SVR730841R1200  CM-SRS.11S ............................   2/15 1SVR730841R1300  CM-SRS.12S ............................   2/15 1SVR730841R1400  CM-SRS.21S ............................   2/15 1SVR730841R1500  CM-SRS.22S ............................   2/15 1SVR730884R1300 CM-MPS.31S  .............................. 2/34 1SVR730884R3300 CM-MPS.41S  .............................. 2/34 1SVR730884R4300 CM-MPS.43S  .............................. 2/34 1SVR730885R1300 CM-MPS.11S  .............................. 2/34 1SVR730885R3300 CM-MPS.21S  .............................. 2/34 1SVR730885R4300 CM-MPS.23S  .............................. 2/34 1SVR740010R0200  CT-MFS.21P .............................   1/37 1SVR740010R3200  CT-MBS.22P .............................   1/37 1SVR740020R0200  CT-MVS.21P .............................   1/37 1SVR740020R3100  CT-MVS.12P .............................   1/37 1SVR740020R3300  CT-MVS.22P .............................   1/37 1SVR740021R2300  CT-MVS.23P .............................   1/37 1SVR740030R3300  CT-MXS.22P .............................   1/37 1SVR740040R3300  CT-WBS.22P.............................   1/37 1SVR740100R0300  CT-ERS.21P..............................   1/38 1SVR740100R3100  CT-ERS.12P..............................   1/38 1SVR740100R3300  CT-ERS.22P .............................   1/38 1SVR740110R3300  CT-AHS.22P .............................   1/38 1SVR740120R3100  CT-ARS.11P .............................   1/38 1SVR740120R3300  CT-ARS.21P .............................   1/38 1SVR740180R0300  CT-APS.21P..............................   1/38 1SVR740180R3100  CT-APS.12P..............................   1/38 1SVR740180R3300  CT-APS.22P..............................   1/38 1SVR740210R3300  CT-SDS.22P .............................   1/38 1SVR740211R2300   CT-SDS.23P ............................   1/38 1SVR740660R0100 CM-IWS.1P  ................................. 2/72 1SVR740670R0200 CM-IWS.2P  ................................. 2/72 1SVR740740R0100 CM-TCS.11P    ........................... 2/106 1SVR740740R0200 CM-TCS.12P    ........................... 2/106 1SVR740740R0300 CM-TCS.13P    ........................... 2/106 1SVR740740R9100 CM-TCS.21P    ........................... 2/106 1SVR740740R9200 CM-TCS.22P    ........................... 2/106 1SVR740740R9300 CM-TCS.23P    ........................... 2/106 1SVR740750R0400 CM-EFS.2P................................. 2/16 1SVR740760R0400  CM-SFS.21P.............................   2/15 1SVR740830R0300 CM-ESS.1P  ................................ 2/16 Index Numerical Order code  Type  Page Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   479 11/26/2013   4:52:41 PM

8 8/11   ABB | Catalog Electronic Products and Relays 2013/2014 |  2CDC 110 004 C0209 1SVR740830R0400 CM-ESS.2P  ................................ 2/16 1SVR740830R0500 CM-ESS.MP  ............................... 2/16 1SVR740831R0300 CM-ESS.1P  ................................ 2/16 1SVR740831R0400 CM-ESS.2P  ................................ 2/16 1SVR740831R1300 CM-ESS.1P  ................................ 2/16 1SVR740831R1400 CM-ESS.2P  ................................ 2/16 1SVR740840R0200  CM-SRS.11P ............................   2/15 1SVR740840R0400  CM-SRS.21P ............................   2/15 1SVR740840R0600  CM-SRS.M1P ...........................   2/15 1SVR740841R0200  CM-SRS.11P ............................   2/15 1SVR740841R0400  CM-SRS.21P ............................   2/15 1SVR740841R1200  CM-SRS.11P ............................   2/15 1SVR740841R1400  CM-SRS.21P ............................   2/15 1SVR740884R1300 CM-MPS.31P  .............................. 2/34 1SVR740884R3300 CM-MPS.41P  .............................. 2/34 1SVR740884R4300 CM-MPS.43P  .............................. 2/34 1SVR740885R1300 CM-MPS.11P  .............................. 2/34 1SVR740885R3300 CM-MPS.21P  .............................. 2/34 1SVR740885R4300 CM-MPS.23P  .............................. 2/34 1SVR750005R0100 COV.12  ..................................... 2/151 1SVR750487R8300 CM-MPN.52S  ............................. 2/34 1SVR750488R8300 CM-MPN.62S  ............................. 2/34 1SVR750489R8300 CM-MPN.72S  ............................. 2/34 1SVR750660R0200 CM-IWN.1S  ................................ 2/72 1SVR750660R0300 CM-IWN.4S  ................................ 2/72 1SVR750660R0400 CM-IWN.5S  ................................ 2/72 1SVR750669R9400 CM-IVN.S  ................................... 2/72 1SVR760487R8300 CM-MPN.52P  ............................. 2/34 1SVR760488R8300 CM-MPN.62P  ............................. 2/34 1SVR760489R8300 CM-MPN.72P  ............................. 2/34 1SVR760660R0200 CM-IWN.1P  ................................ 2/72 1SVR760660R0300 CM-IWN.4P  ................................ 2/72 1SVR760660R0400 CM-IWN.5P  ................................ 2/72 1SVR760660R0500 CM-IWN.6S  ................................ 2/72 1SVR760660R0500 CM-IWN.6P  ................................ 2/72 1SVR760669R9400 CM-IVN.P  ................................... 2/72 2CDE 2CDE601101R2001 EPD24-TB-101-1A  ...................... 3/75 2CDE601101R2002 EPD24-TB-101-2A  ...................... 3/75 2CDE601101R2003 EPD24-TB-101-3A  ...................... 3/75 2CDE601101R2004 EPD24-TB-101-4A  ...................... 3/75 2CDE601101R2006 EPD24-TB-101-6A  ...................... 3/75 2CDE601101R2008 EPD24-TB-101-8A  ...................... 3/75 2CDE601101R2010 EPD24-TB-101-10A  .................... 3/75 2CDE601101R2012 EPD24-TB-101-12A  .................... 3/75 2CDE601101R2905 EPD24-TB-101-0.5A  ................... 3/75 2CDE605100R0500 EPD-BB500  ................................ 3/75 2CDE605200R0021 EPD-SB21  .................................. 3/75 GHC GHC0110003R0001 C011-70  ..................................... 2/97 GHC0110003R0002 C011-80  ..................................... 2/97 GHC0110003R0003 C011-90  ..................................... 2/97 GHC0110003R0004 C011-100  ................................... 2/97 GHC0110003R0005 C011-110  ................................... 2/97 GHC0110003R0006 C011-120  ................................... 2/97 GHC0110003R0007 C011-130  ................................... 2/97 GHC0110003R0008 C011-150  ................................... 2/97 GHC0110003R0009 C011-160  ................................... 2/97 GHC0110003R0010 C011-170  ................................... 2/97 GHC0110003R0011 C011-140  ................................... 2/97 GHC0110033R0008 C011-3-150  ................................ 2/97 GHV6000000V0001 20-100W-MC  ................................ 6/4 GHV6000000V0001 20-100W-MC  ................................ 6/4 GHV6000000V0002 200-300W-MC  .............................. 6/4 GHV6000000V0002 200-300W-MC  .............................. 6/4 GHV6000020V0006 20W-230V-HE  ............................... 6/4 GHV6000040V0004 40W-110V-HP  ............................... 6/4 GHV6000040V0006 40W-230V-HE  ............................... 6/4 GHV6000100V0006 100W-230V-HE  ............................. 6/4 GHV6000200V0006 200W-230V-HE  ............................. 6/4 GHV6000300V0006 300W-230V-HE  ............................. 6/4 GHV6010040V0006 40W-230V-HP  ............................... 6/4 GHV6010040V0007 40W-230V-HP-E  ........................... 6/4 GHV6010100V0004 100W-110V-HP  ............................. 6/4 GHV6010100V0006 100W-230V-HP  ............................. 6/4 GHV6010100V0007 100W-230V-HP-E  ......................... 6/4 GHV6010250V0004 250W-110V-HP  ............................. 6/4 GHV6010250V0006 250W-230V-HP  ............................. 6/4 GHV6011060V0001 Thermostat  ................................... 6/4 GHV6011060V0001 Thermostat  ................................... 6/4 GHV6017100V0006 100W-230V-HP-ADJ  ..................... 6/4 GHV6017250V0006 250W-230V-HP-ADJ  ..................... 6/4 GJD6155620R0087  SK 615 562-87 .........................   1/39 GJD6155620R0088  SK 615 562-88 .........................   1/39 Index Numerical Order code  Type  Page Order code  Type  Page 2CDC110004C0209.pdf   480 11/26/2013   4:52:41 PM

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