Schneider Electric – Product catalogue – Acti9 Launch Catalogue – 2014

Acti 9 the efficiency you deserve Catalogue 2013 Low voltage

2 The safest, simplest and most efficient  system for power distribution solutions Acti 9 Safer  VisiSafe and Class 2 give complete safety for the life of your installation  More efficient   VisiTrip, super immunisation,  and automatic reclosers  increase continuity of service  and enhance reliability Protection devices Protection monitoring   and supervision  Miniature circuit breaker  Residual current circuit breaker   Vigi ™  residual current devices  Surge arrester       Indication and tripping auxiliaries   Remote control auxiliaries   Automatic recloser auxiliaries 

3 Simpler and smarter Two certifications for one product, 100 per cent MCB and RCD coordination and easy ordering and design Control and monitoring  Contactors   Impulse relays  Integrated control circuit breaker   Light indicators   Push-buttons and selector switches  Kilowatt hour meters    Communicating architecture Installation system  Isobar   IP20B terminals  Splitter block   Full range of mounting                  and wiring accessories   Multiclip Monitor and adjust  specific loads Manage loads, reduce operating  or project costs and accurately plan maintenance

4 ‘You can tell it’s a high quality product  when you hold it in your hands’ Acti 9 helps you meet developing energy efficiency and environmental certifications or requirements, now and in the future. It minimises impact from the design stage, through the installation’s lifetime of use and eventual recycling. Through both design and technology, Acti 9     provides  you with the key combination of less impact and more efficiency   that is  necessary for the environment today.  A better use of energy, from start to finish recyclable and recoverable materials,  RoHS compliant and REACH Acti 9 is your safe, efficient and simple choice  for low-voltage modular systems 100% 

5 5 of industry experience and  22 new patents make Acti 9 the new reference in low-voltage modular systems generations Padlocking  facility  Reduced width Fully insulated New isobar  with  interlocked  disconnector  function New RCBO  with tripped  indication 250A rated

6 Acti 9 We leveraged five generations of low-voltage expertise to design a precise,  high-quality modular system without compromise. Acti 9™ offers the fastest,  most flexible installation experience and completely eliminates safety concerns during maintenance and operation. Engineered to adapt to the most challenging networks and environments whilst remaining cost-effective over time, it is the most flexible, coordinated, comprehensive and innovative range of low-voltage modular devices available.  A new generation of distribution boards complements the Acti9 offer, based on the design of the proven Isobar range with added features for increased safety and measurement. Acti9 Isobar incorporates more cable space and an interlock to prevent inadvertent operation of the Isobar switch disconnector unless an outgoing device is installed. High-quality modular system without compromise The new core modular system which makes your power  distribution installation safer, simpler and more efficient   ‘In short, I optimise my own energy’ Acti 9 – iC60 F70 F32 Multi 9™ -C32 Multi 9 -C60 Acti 9: The fifth generation of modular systems Acti 9 gives you safety, simplicity and efficiency for the life span of your installation

7 safe for installers and users in the most severe environments Best choice for industrial and commercial buildings Safest operation guaranteed even in     the most demanding environments Safe 100%  Designed for safety, even in the most demanding environments  Safety matters most and Acti 9 Isobar gives you, your customers and their installations the highest level of protection available. It guarantees 100 per cent safe operation and maintenance for you and your customers. Its international certifications and numerous protection innovations allow Acti 9 to exceed even the most demanding requirements to give you total safety during maintenance, for the lifetime of your installation. Delivers complete industry-approved protection Acti 9 is fully tested, approved and certified by national and international third parties.  It guarantees that your installation is safe and compliant with all relevant safety standards and demonstrates to your customers that you use industry-approved materials and best practices. Comprehensive certification

8 part of isobar “I have no worries about the safety of the electrical   installation, the buildings and everyone inside” VisiSafe Guarantees total safety  during maintenance Fast closing mechanism Fast closure of all Acti 9 MCBs and RCCBs limits wear and reduces voltage drops, helping to prevent premature equipment aging and overheating. Integrated interlock does not allow the Isobar switch disconnector to be operated without an outgoing device fitted Guarantees long life service Safer on site Integrated padlocking The integrated padlock guarantees protection and safety of  Acti 9 remote control devices, preventing toggle movement  and inadvertent or unauthorised access.  Provides zero-risk lockdown Class 2 front face Acti 9 circuit breaker is the only device available with this level of safety. Clearances between breaker surfaces and internal parts are more than double the industry standard. It guarantees risk-free handling during the life of the installation, regardless of environment or operator experience. Promises absolute protection  against electric shocks VisiSafe VisiSafe™ guarantees the downstream circuit is always safe, regardless of  overvoltage conditions, wear or operator experience, even in the most demanding environments.  The green strip indicates the safe position of contacts. Unique safety features:•  Highest impulse voltage withstand:  Uimp = 6 kV•  Guarantees longer equipment service life despite overvoltage conditions •  Highest pollution resistance among modular devices: Pollution Degree level 3 •  A true ‘all-terrain’ product ideally suited for all environments •  Leading edge insulation voltage: 500 V•   Complete safety for operators  manoeuvring the operating handle Available only from Schneider Electric Available only from Schneider Electric

9 part of isobar Acti 9 simplifies final distribution operations in buildings and industrial facilities, giving you the right solution with the right technical characteristics for every application. As new installation standards emerge or building requirements are modified, Acti 9 can easily scale to meet your needs. It’s a flexible, open system with all-in-one, integrated components which can communicate with any building management system. Simple and smart The right solution for every application

10 100 per cent coordination between RCDs and MCBs means no more searching through technical guides or coordination tables. In addition, in the Reflex™ iC60, protection and control are a unique all-in-one concept fully covered by the manufacturer’s warranty. Guarantees 100 per cent coordination Acti 9 miniature circuit breakers comply with IEC/EN 947 (industrial) and IEC/EN 898 (tertiary) standards – two certifications in one product – making it perfect for commercial and industrial applications.  Meets two certifications Meaningful part numbers mean no mistakes and no doubts when ordering or designing. Get the product type, poles and rating in one glance. Supports intuitive ordering and design Easy to design and choose of switchboards are modified at design, cabling or commissioning stages, increasing project start-up times 30%  A9XXX 225  =  2 P,  25 A Reflex iC60 combines the functions of an MCB and contactor. Designed to evolve and adapt with the dynamic requirements of tertiary and industrial lighting control applications, it easily communicates with PLCs and BMS systems  without the need for add-ons, retrofits or extras.  Everything you need is included.  Reflex iC60: the all-in-one concept integrated  control circuit breaker Available only from Schneider Electric ComReady “Simple to choose, easy to design, install and upgrade”

11 With features like VisiTrip, super immunisation of RCDs (SI) and ARA automatic recloser auxiliary, Acti 9 system allows easier building management, reduces downtime and makes your business more competitive limiting intervention costs on distant infrastructures sites.  Designed to minimise  downtime and avoid  nuisance trips The system which streamlines  your operations workflow Efficient VisiTrip minimises downtime and reduces repair times  Identify  faults in one glance and you will easily see the operating status of your network. VisiTrip™ indicates only the faulty outgoer, allowing fast diagnosis, resolution and reclosing loads for easier building management and reduced downtime. Less downtime, more continuity of service  Super immunisation (SI) of the RCDs guarantees the highest continuity of service and electrical immunity, especially where switchgear contends with electromagnetic or chemical interference. It also meets the high continuity of service requirements in all critical power applications (hospitals, data centres, telecoms and tunnels).  Prevents unnecessary trips Acti 9 introduces a new automatic recloser auxiliary (ARA iC60) designed to limit the cost of intervention on faraway infrastructure sites. There’s no need to have permanent on-site teams responding to transient faults, limiting distant site intervention costs. No need for on-site intervention Available only from Schneider Electric VisiTrip

12 time saved on design and installation coordination between MCB and actuator 15%  100%  “Everything is simpler with Acti 9. Whatever  the application, I have no second thoughts” Provides secure connections with quick, ergonomic and safe IP20B insulated terminal shutters. Safe and secure connections Acti 9 system includes a comprehensive list of accessories: easily installed padlock system, splitter block, rotary handle  mount for switchboard doors, screw shields, sealable terminal shields, plug-in base, interpole barrier and clip-on markers. Comes with tailored accessories It adapts to new requirements and simplifies evolution of the sytem. Easy to upgrade Adapts to your installation Its ergonomic interface allows specific color coding for padlocking devices. The N indicator is easily readable for speed of servicing. Acti 9 label maker gives your installation a professional appearance. Provides greater readability Easy to operate Multiclip™ distribution system allows you to quickly add outgoers and balance phases. Multiclip offers screwless, safe connections. Evolves with changing  site requirements

13 The safest, simplest and most efficient  system for power distribution solutions Acti 9

14 Smart •  Centralise control, collect energy meter data with just a simple,  ready-to-connect communication module •  Large diversity of data available to universal Modbus protocol Efficient •  One-click, prefabricated wiring for comprehensive communication between your distribution panel and any facility management system   Safe •  Reliable, error-proof manufacturer guaranteed connections •  EMC tested for immunity, radiated and conducted safety Acti 9 communication system Meets the challenge of all your applications Interior and exterior lighting, load monitoring and cost allocation  Protection  monitoring Load control   switching 11 input/output  channels Acti 9 Smartlink: the heart of the system Available only from Schneider Electric

15 Ready to connect to any facility management solution Monitor and adjust specific loads   Detailed load control, reduced downtime and  accurately planned maintenance  Energy  metering Modbus network Modbus address   encoders 24V DC   power supply Modbus RS-485   connection Quick and easy control wiring enables complete control of your installation Energy  management system Programmable logic controllers Building  management  system Internet

16 Electrical  auxiliaries Tripping, notification, indication and remote status indication 1 pole  2 poles  3 poles 4 poles Circuit breakers 2 poles 4 poles Residual current circuit breaker 2 poles  3 poles 4 poles Installation systems IP20B terminals,splitter block,full range of mountingand wiring accessories,communicating architecture Acti 9 The safest, simplest and most efficient  system for power distribution solutions coordination between MCB and actuator 100%  safe for installers and users in the most severe environments 100%  preventative maintenance 100%  Vigi    residual current  device module

17 2 poles  3 poles 4 poles Installation systems IP20B terminals,splitter block,full range of mountingand wiring accessories,communicating architecture The safest, simplest and most efficient  system for power distribution solutions time saved on design and installation 15%  0%  down time best choice for industrial and tertiary buildings Control Contactors,  impulse relays,  indicator lights, pushbuttons, kilowatt hour meters and selector switches, etc. 2 poles3 poles  4 poles Vigi    residual current  device module Automatic recloserauxiliaries Integrated remote control circuit breaker Type 2 or 3  1 pole 1 pole + neutral  2 poles  3 poles  3 poles + neutral  4 poles Surge arresters “When I install the Acti 9 I know I don’t   have to come back to the job”

18 Circuit breakers iC60, H ICU (A) at 400V – IEC/EN 60898-1 10000 ICU (kA) at 415V – IEC/EN 60947-2 15 Type 1P, 1P+N, 2P, 3P, 4P Rating (A) 0,5 to 63 Curves B, C, D Standards IEC/BSEN 60947-2, 60898-1 Residual current circuit breakers iID RCD Type Asi, A, AC, B  Type 2P, 4P Rating (A) 16 to 125 Standards IEC/EN 61008-1 Sensitivity (mA) 10, 30, 100, 300, 300  S , 500, 500  S Residual current devices  Vigi iC60 iC60 RCBO RCD Type AC, A, SI A Type 2P, 3P, 4P 1P + N Rating (A) 25, 40, 63 6 to 45 Standards IEC/EN 61009-1 BSEN 61009-1 Sensitivity (mA) 10, 30, 100, 300, 300  S ,   500, 500  S , 1000  S 10, 30, 100 Connection between iC60 and iC60 Vigi Technical   characteristics  Terminal shields, interpole barrier, screw shields, padlocking device, clip-on terminal markersand rotary handle Electrical auxiliaries and mounting accessories Combined iOF, iSD, iMN, iMX and iMSU electrical auxiliaries between iC60 circuit breakers and iID residual current circuit breakers, automatic recloser (ARA) and remote control auxiliaries (RCA)

19 Integrated remote control MCBs Reflex, iC60H Curves B, C, D Type  2P, 3P, 4P Rating (A)  10, 16, 25, 40 Standards  IEC 60947-2  Electrical endurance 30 000 cycles (AC1)6,000 cycles (AC5 a/b)50 000 cycles (AC21) Installation and wiring Multiclip™ splitter block Acti 9 Smartlink Isobar Rating (A) 80 — 250 Degree of protection IP20 IP20 IP31 Surge arresters type 2 or 3 iPF, iPRD Type 1P, 1P+N, 2P, 3P, 3P+N, 4P I max (kA) 8, 20, 40, 65 Standards IEC 61643-1, IEC 61643-11 Degree of protection IP20/IP40 Control  iCT iTL iPB iSSW iIL iEN, iEM Function Contactors Impulse Relays Push-buttons Switches Indicator Lights Kilowatt hour meters Type 1P, 2P  3P, 4P 1P, 2P, 3P, 4P single  double  single +  indicator light 1P, 2P, 3P, 4P single  double  flashing light voltage presence single phase three phasesthree phases neutral Rating (A) 16, 25, 40, 63,100 16 & 32 20 20 to 125 40 to 6000 Lighting, time and energy management MIN IH, IHP, ITM  IC TH, THP CDS Silent electronic  and electromechanical  timers Programmable and mechanical time  switches Standard and programmable twilight switches Standard and  weekly programmable thermostats Single and  three-phase  load-shedders

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Ordering  references Acti9 Distribution boards  22  Introduction  22   A type  24   B type  28 Acti9 miniature circuit breakers  36   iC60H 1,2,3,4 pole Mcbs  36   iC60H single pole wide RCBO  40   iC60 Vigibloc  42   iC60 Auxiliaries  45   iC60 Accessories  52 Residual Current Circuit Breakers  56   iID RCCB  56 Technical 61 Dimensions 114 21

A type single phase boards Acti 9 Isobar the safest distribution board   b Fully type tested conditional short circuit rating of 16kA to BS EN 61439-3   b High performance MCB 10kA BS EN 60898 15kA BS EN 60947-2 in B, C or D  curve single and double pole   b 125A busbar rating   b Isobar disconnection to BS EN 60947-3 ensuring unused outgoing ways are  isolated   b Option of switching outgoing neutral on all boards using distributed neutral kit   b Terminal block for feeding up to 100A   b Range of incomers: switch disconnectors, residual current devices, terminal  blocks   b Single pole RCBO for new or retrofit maintaining device density   b Full range of device accessories and auxiliaries   b Knockouts for cable gland and conduit mixed to suit the installation needs without  loss of space   b Split metering options Standard, meter ready,  split metered and multi  service options Fully encapsulated busbar  system conversion of any outgoing  way into neutral Fully shrouded connections when main switch is fitted Fully shrouded neutral bars Wide range of add-on auxiliaries, e.g. shunt trips, auxiliary switches, add-on earth leakage modules, etc Non removable interlock to  prevent operation unless  an outgoing device is fitted wide range of incomers 22

B Type 3 phase distribution Acti 9 Isobar the safest distribution board   b Fully type tested conditional short circuit rating of 25kA to BS EN 61439-3   b High performance MCB 10kA BS EN 60898 15kA BS EN 60947-2 in B, C or D  curve 1, 2, 3, 4 pole   b 250A busbar rating   b Isobar disconnection to BS EN 60947-3 ensuring unused outgoing ways are  isolated   b Option of switching outgoing neutral on all boards using distributed neutral kit   b Terminal block for feeding up to 100A   b Range of incomers: switch disconnectors, residual current devices, terminal  blocks, mccb   b Single pole RCBO for new or retrofit maintaining device density   b Full range of device accessories and auxiliaries   b Knockouts for cable gland and conduit mixed to suit the installation needs without  loss of space   b Removable insulated pan assembly   b Fully shrouded neutral   b Split neutral bars   b Removable gland plates   b Optional metering, dual supply, surge protection and contactor on incoming   b Metered extension enclosures Standard, meter ready,  split metered and multi  service options Fully encapsulated busbar  system conversion of any outgoing  way into neutral Fully shrouded connections when main switch is fitted Fully shrouded neutral bars Wide range of add-on auxiliaries, e.g. shunt trips, auxiliary switches, add-on earth leakage modules, etc Non removable interlock to  prevent operation unless  an outgoing device is fitted wide range of incomers 23

  b Acti9 Isobar is a complete range of single and 3 phase   distribution boards for commercial and industrial applications   v Standard distribution boards up to 24 ways   v Multi service distribution boards up to 24 ways   v Dual incomer distribution boards up to 24 ways   v Split load distribution boards up to 24 ways   v Split metered distribution boards up to 20 ways   v Any outgoing way can be converted to switch the Neutral Alternating current (AC) 50Hz withstand 110v 230/240v conditional 25kA 25kA unconditional 25kA/50mS 25kA/50mS 17kA/200mS 17kA/200mS Direct current (DC)  24v 48v unconditional 25kA/50mS 25kA/50mS BS EN 61439-3 IEC 61439-3 Acti9 Isobar A type  distribution boards Acti 9 Isobar the safest distribution board Catalogue numbers Acti9 Isobar Standard distribution boards busbar rating 125amp incomers not included No of SP ways No of DP ways SEA9AN2 2 1 SEA9AN6 6 3 SEA9AN10 10 5 SEA9AN14 14 7 SEA9AN18 18 9 SEA9AN27 27 12 Acti9 Isobar Multi service distribution boards busbar rating 125amp incomers not included No of SP ways Useable DIN rail  9mm ways SEA9AN1008MS 10 8 SEA9AN1016MS 10 16 SEA9AN1432MS 14 32 SEA9AN616MS 6 16 SEA9AN624MS 6 24 Acti9 Isobar Split load distribution boards busbar rating 125amp incomers not included Unprotected way Protected ways SEA9AN106SL 10 6 SEA9AN610SL 6 10 SEA9AN66SL 6 6 24

Acti9 Isobar A type  distribution boards Acti 9 Isobar the safest distribution board Technical data Standard, Meter ready, Split metered Acti9 Isobar Main characteristics 110v   230/240v According to BE EN 61439-3Withstand conditional 25kA 25kA unconditional 25kA/50mS 25kA/50mS 17kA/200mS 17kA/200mS insulation voltage (Ui)Pollution degreeRated inpulse withstand voltage (Uimp)Current rating (A) direct connection 125 Switch disconnector 125 DIN mounted Power switch RCCB 100 sensetivites (mA) 30, 100, 300, 300TD Degree of protection External IP30 (IEC 60529) Internal IP20 Endurance (O-C) Isobar switch  disconnector 3000 Overvoltage category IV Operating temperature -35 to +70 0 C Storage teperature -40 to +80 0 C Connections Rating tightening torque Copper lugs cables  bare device 125 amp   b   50mm DIN switch disconnector 125 amp   b   50mm Terminal block 100 amp   b   35mm RCCB 125 amp rated bars with  non removable covers fully insulated construction padlockable in the off  position only switch disconnector for  each outgoing way Acti9 Isobar Dual supply distribution boards busbar rating 125amp incomers not included Unprotected way Protected ways SEA9AN106DS 10 6 SEA9AN26DS 2 6 SEA9AN66DS 6 6 Acti9 Isobar Split metered distribution boards busbar rating 125amp direct connected meters incoming switch disconnector included No of SP ways No of DP ways SEA9AN6S6 40A direct connected 6 6 SEA9AN10S10 63A direct connected 10 10 25

Acti9 Isobar A type  distribution boards Acti 9 Isobar the safest distribution board Weight (kG) – Dimensions (mm) Standard Multi service Split load Dual Incomer Split metered kG Height width depth 2 way   b     b     b     b   1.8 300 200 117 6 way   b     b     b     b   2.5 300 273 117 10 way   b     b   2 – 6   b   3.0 300 345 117 14 way 6 – 16, 10 – 8 5 – 6  6 – 6   b   4.8 300 417 117 18 way 6 – 24, 10 – 16, 14 – 8 5 – 10, 9 – 6 10 – 6 6 – 6 5.7 300 489 117 27 way 14 – 32   b     b   10 – 10 8.9 530 417 117 Incomers Switch disconnector rating (A) no of poles SEA91252 125 2 DIN rail only enclosures Reference Description number of rows dimensions SEA9DE16 8 SP way module enclosure 1 SEA9AN6 SEA9DE24 12 SP way module enclosure 1 SEA9AN10 SEA9DE32 16 SP way module enclosure 1 SEA9AN14 SEA9DE40 20 SP way module enclosure 1 SEA9AN18 SEA9DE64 32 SP way module enclosure 2 SEA9AN27 Residual current circuit breaker 230/240vAC rating (A) no of poles sensitivity (mA) SEA9R41263 30 63 2 SEA9R12263 100 63 2 SEA9R44263 300 63 2 SEA9211280 30 80 2 SEA9R12280 100 80 2 SEA9R14280 300 80 2 SEA9R15280 300 TD 80 2 SEA9R11291 30 100 2 SEA9R12291 100 100 2 SEA9R14291 300 100 2 SEA9R15291 300 TD 100 2 Terminal block rating (A) no of poles SEA9TB1252 125 2 26

Incomers Switch disconnector rating (A) no of poles SEA91252 125 2 Acti9 Isobar A type  distribution boards Acti 9 Isobar the safest distribution board Accessories Flush mounting kits Reference no of ways SEA9AN6FK Flush mounting kit 6 SEA9AN10FK Flush mounting kit 10 SEA9AN14FK Flush mounting kit 14 SEA9AN18FK Flush mounting kit 18 Distributed neutral kits Reference no of ways SEA9NA6 Distributed neut’l for 6 way SP+N 6 SEA9NA10 Distributed neut’l for 10 way SP+N 10 SEA9NA14 Distrib’d neut’l for 14 way SP+N 14 SEA9NA18 Distrib’d neut’l for 18 way SP+N 18 SEA9NA27 Distrib’d neut’l for 27 way SP+N 27 SEA9NKIT Phase to neutral conversion kit (pack  4) Reference Description SEA9BL Door lock SEA9PD Padlock kit for door SEA9BP Blank pole SEA9BP25 Pack of 25 x 5 pole filler SEA9BP5 single 5 pole filler SEA9TB1001 100 amp terminal block 1 pole SEA9ANWL SP&N LABELS Acti9 Isobar A type pan assemblies Reference no of ways height width depth SEA9AN6PS supplied without distributed neutral 6 202 200 87 SEA9AN10PS supplied without distributed neutral 10 202 272 87 SEA9AN14PS supplied without distributed neutral 14 202 344 87 SEA9AN18PS supplied without distributed neutral 18 202 416 87 27

  b Acti9 Isobar is a complete range of single and 3 phase    v distribution boards for commercial and industrial   v applications   v Standard distribution boards up to 24 ways   v Meter ready distribution boards up to 24 ways   v Split metered distribution boards up to 22 ways   v Any outgoing way can be converted to switch the Neutral Alternating current (AC) 50Hz withstand 230/240v 400v 415v conditional 25kA 25kA 25kA unconditional 25kA/50mS 25kA/50mS 25kA/50mS 17kA/200mS 17kA/200mS 17kA/200mS Direct current (DC) 24v 48v unconditional 25kA/50mS 25kA/50mS BS EN 61439-3 IEC 61439-3 Acti9 Isobar B type  distribution boards Acti 9 Isobar the safest distribution board Catalogue numbers Acti9 Isobar Standard distribution boards busbar rating 250amp No of TP ways No of SP ways No of DP ways SEA9BN4 4 12 6 SEA9BN6 6 18 9 SEA9BN8 8 24 12 SEA9BN12 12 36 18 SEA9BN16 16 48 24 SEA9BN18 18 54 26 SEA9BN24 24 72 36 Acti9 Isobar Meter ready distribution boards busbar rating 250amp No of TP ways No of SP ways No of DP ways SEA9BN6M 6 18 9 SEA9BN8M 8 24 12 SEA9BN12M 12 36 18 SEA9BN16M 16 48 24 SEA9BN18M 18 54 26 SEA9BN24M 24 72 36 28

Acti9 Isobar Split metered distribution boards busbar rating 125 amp lower pan assemblyNo of TP ways No of SP ways upper pan assemblyNo of TP ways No of SP ways SEA9BN1254S8 6 18 8 24 SEA9BN1258S8 8 24 8 24 SEA9BN12512S8 14 42 8 24 SEA9BN12514S6 16 48 6 18 SEA9BN12516S4 18 54 4 12 Acti9 Isobar Split metered distribution boards busbar rating 250 amp lower pan assemblyNo of TP ways No of SP ways upper pan assemblyNo of TP ways No of SP ways SEA9BN2504S8 6 18 8 24 SEA9BN2508S8 8 24 8 24 SEA9BN25012S8 14 42 8 24 SEA9BN25014S6 16 48 6 18 SEA9BN25016S4 18 54 4 12 250 amp rated bars with  non removable covers fully insulated construction padlockable in the off  position only interlocked switch  disconnector for each  outgoing way MID 3 Phase kWh kit Modbus communications and pulsed output Acti 9 Isobar the safest distribution board Acti9 Isobar B type  distribution boards 29

Acti9 Isobar B type  distribution boards Acti 9 Isobar the safest distribution board Metering kits Acti9 Standard distribution boards rating (A) connection SEA9BNKWH MID 3 Phase kWh kit Modbus communications and pulsed output height 270 (mm) 250 via CT SEA9BNKWHP MID 3 Phase kWh kit pulsed output height 270 (mm) 250 via CT SEA9BNMETE Metering enclosure for standard Acti9 Isobar boards height 270 (mm) 250 via CT Acti9 Meter ready distribution boards rating (A) connection SEA9BN3155 MID 3 Phase kWh kit Modbus communications and pulsed output integral 63 direct SEA9BN3110 MID 3 Phase kWh kit pulsed output integral 63 direct SEA9BN3255 MID 3 Phase kWh kit Modbus communications and pulsed output height 135 (mm) 125 via CT SEA9BN3210 MID 3 Phase kWh kit pulsed output height 135 (mm) 125 via CT Technical data Standard, Meter ready, Split metered Acti9 Isobar Main characteristics 230/240v 400v 415v Withstand conditional 25kA 25kA 25kA unconditional 25kA/50mS 25kA/50mS 25kA/50mS 17kA/200mS 17kA/200mS 17kA/200mS insulation voltage (Ui) 500vAC 500vAC 500vAC Pollution degree 3 3 3 Rated inpulse withstand voltage (Uimp) 6kV 6kV 6kV Current rating (A) direct connection 125/250 6kV 6kV Switch disconnector 125 DIN mounted Power switch 160-200-250 Interpact MCCB 100-160-200-225-250 Degree of protection External IP30 or IP55 (IEC 60529) Internal IP20 Endurance (O-C) Isobar switch  disconnector 3000 Overvoltage category IV Operating temperature -35 to +70 0 C Storage teperature -40 to +80 0 C Connections Rating Copper lugs Bare cables Device 125 amp 18 50mm DIN switch disconnector/Terminal block 70mm with spreader connection DIN switch disconnector 160 -250 amp 95mm 185mm with cable clamps Interpact Switch Disconnector 95mm 185mm with cable clamps NSX Moulded case circuit breaker 120 mm Terminal block 30

Acti 9 Isobar the safest distribution board Acti9 Isobar B type  distribution boards Main characteristics Acti9 Isobar IP55 According to BE EN 61439-3 230/240v 400v 415v Withstand conditional 25kA 25kA 25kA unconditional 25kA/50mS 25kA/50mS 25kA/50mS 17kA/200mS 17kA/200mS 17kA/200mS insulation voltage (Ui) 500vAC Pollution degree 3 Rated inpulse withstand voltage (Uimp) 6kV Current rating (A) 100A Degree of protection External IP30 or IP55 (IEC 60529) Internal IP20 Endurance (O-C) Isobar switch  disconnector 3000 Overvoltage category IV Operating temperature -35 to +70 0 C Storage teperature -40 to +80 0 C Catalogue numbers Acti9 Isobar Standard IP55 distribution boards busbar rating 125amp steel door No of TP ways No of SP ways No of DP ways SEA9BN6HDGR 6 18 9 SEA9BN8HDGR 8 24 12 SEA9BN12HDGR 12 36 18 SEA9BN16HDGR 16 48 24 Acti9 Isobar Standard IP55 distribution boards busbar rating 125amp transparent door No of TP ways No of SP ways No of DP ways SEA9BN6HDGK 6 18 9 SEA9BN8HDGK 8 24 12 SEA9BN12HDGK 12 36 18 SEA9BN16HDGK 16 48 24 Weight (kG) – Dimensions (mm) Standard Meter ready Split load kG Height width depth 4 way n n 9 484 470 139 6 way 6 way n 10.5 484 470 138 8 way 6 way n 11 538 470 138 12 way 12 way n 13.5 700 470 139 16 way 16 way n 16 808 470 139 18 way 18 way n 16.2 862 470 139 24 way 24 way n 22 1024 139 n n all versions 28 1294 470 139 250 amp incoming  section 4 400 470 130 IP55 kG Height width depth 6 way     b   32.4 650 600 330 8 way     b   32.9 650 600 330 12 way     b   40.1 800 600 330 16 way     b   41.4 800 600 330 31

Incommers Switch disconnector rating (A) no of poles Standard Meter ready Split metered IP55 SEA91253N 125 3P+N Int Int Int Int SEA91254 125 4 Int Int Int Int SEA9NI1603 160 3P+N Ext Ext Ext n SEA9NI1604 160 4 Ext Ext Ext n SEA9NI2003 200 3P+N Ext Ext Ext n SEA9NI2004 200 4 Ext Ext Ext n SEA9NI2254 225 4 Ext Ext Ext n SEA9NI2503 250 3P+N Ext Ext Ext n SEA9NI2504 250 4 Ext Ext Ext n n Moulded Case Circuit Breaker rating (A) no of poles Standard Meter ready Split metered IP55 SEA9NCB1004   70-100 4 Ext Ext Ext n SEA9NCB1604 112-160 4 Ext Ext Ext n SEA9NCB2004 140-200 4 Ext Ext Ext n SEA9NCB2504 175-250 4 Ext Ext Ext n Residual current circuit breaker                                   sensitivity (mA) rating (A) no of poles Standard Meter ready Split metered IP55 A9R41463 30 63 4 Int Int Int Int A9R12463 100 63 4 Int Int Int Int A9R44463 300 63 4 Int Int Int Int A9R15463 300/time delayed 63 4 Int Int Int Int A9R11480 30 80 4 Int Int Int Int A9R14491 300 100 4 Int Int Int Int A9R15491 300/time delayed 100 4 Int Int Int Int SEA9NI160RCCB adjustable 160 n Ext Ext Ext n Terminals for direct connection rating (A) no of poles Standard Meter ready Split metered IP55 SEA9TB1254   125 4 Int Int Int Int SEA9NTB2504 250 4 Ext Ext Ext n Dual source incomer rating (A) no of poles Standard Meter ready Split metered IP55 SEA9NDSI 270mm enclosure 125 4 Ext Ext Ext n Contactor incomer  rating (A) no of poles Standard Meter ready Split metered IP55 SEA9BN100CCI 270mm enclosure 100 4 Ext Ext Ext n Dual metered extension enclosure rating (A) no of poles Standard Meter ready Split metered IP55 SEA9BNDM160SD Interpact SD 160 4 Ext n n n SEA9BNDM200SD Interpact SD 200 4 Ext n n n SEA9BNDM250SD Interpact SD 250 4 Ext n n n SEA9BNDM160M NSX MCCB 160 4 Ext n n n SEA9BNDM200M NSX MCCB 200 4 Ext n n n SEA9BNDM250M NSX MCCB 250 4 Ext n n n MID 3 Phase kWh kit Modbus communications and pulsed output Single phasing kits rating (A) no of poles Standard Meter ready Split metered IP55 SEA9125SPEV 125 4 Int Int Int Int SEA9250SPEV 250 4 Int Int Int Int Acti9 Isobar B type  distribution boards Acti 9 Isobar the safest distribution board Int= Internal to the distribtion board Ext = in 400mm high extension enclouseres n  = not applicable 32

Top or Bottom Extension enclosures   height 270 (mm)               not applicable Switch disconnector Description SEA9BNEXN plain front cover for additional wiring space SEA9BNEX034N mounting of DIN devices, overall door and cutout  for 17 x 18mm poles SEA9BNEXA15N single phase add on distribution board 15 way Side Extension enclosures Reference Description No of rows total 18mm SP ways dimensions SEA9N4SXS Slotted front cover + overall door 2 34 SEA9BN4 SEA9N8SXS Slotted front cover + overall door 2 34 SEA9BN8 SEA9N12SXS Slotted front cover + overall door 3 51 SEA9NB12 SEA9N16SXS Slotted front cover + overall door 4 68 SEA9NB16 SEA9N24SXS Slotted front cover + overall door 5 85 SEA9NB24 SEA9N4SXP Plain front cover+ overall door 2 34 SEA9BN4 SEA9N8SXP Plain front cover+ overall door 2 34 SEA9BN8 SEA9N12SXP Plain front cover+ overall door 3 51 SEA9NB12 SEA9N16SXP Plain front cover+ overall door 4 68 SEA9NB16 SEA9N24SXP Plain front cover+ overall door 5 85 SEA9NB24 Accessories Reference Description Reference Description SEA9BL Door lock SEA9NB4 Distributed neut’l for 4 way TP+N SEA9PD Padlock kit for door SEA9NB6 Distributed neut’l for 6 way TP+N SEA9NEK1 Extra earth terminal bar 14 hole SEA9NB8 Distributed neut’l for 8 way TP+N SEA9NEK2 Extra earth terminal bar 20 hole SEA9NB12 Distrib’d neut’l for 12 way TP+N SEA9NEK3 Extra earth terminal 26 hole SEA9NB16 Distrib’d neut’l for 16 way TP+N SEA9NB18 Distrib’d neut’l for 18 way TP+N SEA9BN63SPL split load lit 63 amp SEA9NB24 Distrib’d neut’l for 24 way TP+N SEA9BNSJKN Side joining kit SEA9NKIT Phase to neutral conversion kit  (pack 4) SEA9BNTJKA Top/bottom joining kit for enc/ext/enc SEA9BNTJKB Top bottom kit replacing gland plate SEA9BNTJKN Joining kit B board top/bottom SEA9BP Blank pole SEA9BP25 Pack of 25 x 5 pole filler SEA9BP5 single 5 pole filler SEA9TB1001 100 amp terminal block 1 pole SEA9BNBCE7 clean earth B boards 7 hole SEA9BNBCE13 clean earth B boards 13 hole SEA9BNBCE25 Clean earth B boards 25 hole SEA9BNWL TP&N LABELS Acti 9 Isobar the safest distribution board Acti9 Isobar B type  distribution boards 33

Pan assemblies  – replacement for Acti9 Isobar and Isobar 4c distribution boards Reference Description SEA9BN4P B board replacement pan assembley SEA9BN6P B board replacement pan assembley SEA9BN8P B board replacement pan assembly SEA9BN12P B board replacement pan assembley SEA9BN16P B board replacement pan assembley SEA9BN18P B board replacement pan assembley SEA9BN24P b board replacement pan assembley Pan assemblies  – for switchboard mounting supplied with earths and neutral, phase coloured Isobar switch disconnectors Reference Description SEA9BN4E pan assembly 4 way TP+ earth and neutral SEA9BN6E pan assembly 6 way TP+ earth and neutral SEA9BN8E pan assembly 8 way TP+ earth and neutral SEA9BN12E pan assembly 12 way TP+ earth and neutral SEA9BN16E pan assembly 16 way TP+ earth and neutral SEA9BN18E pan assembly 18 way TP+ earth and neutral SEA9BN24E pan assembly 24 way TP+ earth and neutral Pan assemblies  – for switchboard mounting supplied with earths and neutral, black Isobar switch disconnectors Reference Description SEA9BN4PEV pan assembly 4 way TP+ earth and neutral SEA9BN6PEV pan assembly 6 way TP+ earth and neutral SEA9BN8PEV pan assembly 8 way TP+ earth and neutral SEA9BN12PEV pan assembly 12 way TP+ earth and neutral SEA9BN16PEV pan assembly 16 way TP+ earth and neutral SEA9BN18PEV pan assembly 18 way TP+ earth and neutral SEA9BN24PEV pan assembly 24 way TP+ earth and neutral Pan assemblies  – 3 phase without distributed neutral, supplied fitted on a  mounting plate Reference Description SEA9BN4TN 4 TP&N way panel fixing pan assm SEA9BN6TN 6 TP&N way panel fixing pan assm SEA9BN8TN 8 TP&N way panel fixing pan assm SEA9BN12TN 12 TP&N way panel fixing pan assm SEA9BN16TN 16 TP&N way panel fixing pan assm SEA9BN18TN 18 TP&N way panel fixing pan assm SEA9BN24TN 24 TP&N way panel fixing pan assm Pan assemblies  – 3 phase without distributed neutral, supplied without mounting plate Reference Description SEA9BN4PS Pan Assembley 4 way TP&N SEA9BN6PS Pan Assembley 6 way TP&N SEA9BN8PS Pan Assembley 8 way TP&N SEA9BN12PS Pan Assembley 12 way TP&N SEA9BN16PS Pan Assembley 16 way TP&N SEA9BN18PS Pan Assembley 18 way TP&N SEA9BN24PS Pan Assembley 24 way TP&N Acti9 Isobar B type  distribution boards Acti 9 Isobar the safest distribution board 34

Pan assemblies  – replacement for Acti9 Isobar and Isobar 4c distribution boards Reference Description SEA9BN4P B board replacement pan assembley SEA9BN6P B board replacement pan assembley SEA9BN8P B board replacement pan assembly SEA9BN12P B board replacement pan assembley SEA9BN16P B board replacement pan assembley SEA9BN18P B board replacement pan assembley SEA9BN24P b board replacement pan assembley Pan assemblies  – for switchboard mounting supplied with earths and neutral, phase coloured Isobar switch disconnectors Reference Description SEA9BN4E pan assembly 4 way TP+ earth and neutral SEA9BN6E pan assembly 6 way TP+ earth and neutral SEA9BN8E pan assembly 8 way TP+ earth and neutral SEA9BN12E pan assembly 12 way TP+ earth and neutral SEA9BN16E pan assembly 16 way TP+ earth and neutral SEA9BN18E pan assembly 18 way TP+ earth and neutral SEA9BN24E pan assembly 24 way TP+ earth and neutral Pan assemblies  – for switchboard mounting supplied with earths and neutral, black Isobar switch disconnectors Reference Description SEA9BN4PEV pan assembly 4 way TP+ earth and neutral SEA9BN6PEV pan assembly 6 way TP+ earth and neutral SEA9BN8PEV pan assembly 8 way TP+ earth and neutral SEA9BN12PEV pan assembly 12 way TP+ earth and neutral SEA9BN16PEV pan assembly 16 way TP+ earth and neutral SEA9BN18PEV pan assembly 18 way TP+ earth and neutral SEA9BN24PEV pan assembly 24 way TP+ earth and neutral Pan assemblies  – 3 phase without distributed neutral, supplied fitted on a  mounting plate Reference Description SEA9BN4TN 4 TP&N way panel fixing pan assm SEA9BN6TN 6 TP&N way panel fixing pan assm SEA9BN8TN 8 TP&N way panel fixing pan assm SEA9BN12TN 12 TP&N way panel fixing pan assm SEA9BN16TN 16 TP&N way panel fixing pan assm SEA9BN18TN 18 TP&N way panel fixing pan assm SEA9BN24TN 24 TP&N way panel fixing pan assm Pan assemblies  – 3 phase without distributed neutral, supplied without mounting plate Reference Description SEA9BN4PS Pan Assembley 4 way TP&N SEA9BN6PS Pan Assembley 6 way TP&N SEA9BN8PS Pan Assembley 8 way TP&N SEA9BN12PS Pan Assembley 12 way TP&N SEA9BN16PS Pan Assembley 16 way TP&N SEA9BN18PS Pan Assembley 18 way TP&N SEA9BN24PS Pan Assembley 24 way TP&N Pan assemblies  – accessories Reference Description SEA9BINCKIT 250 amp incoming terminal block Acti 9 Isobar the safest distribution board Acti9 Isobar B type  distribution boards 35

36 iC60H circuit breakers  (curve B, C, D) Protection Circuit protection  (1) VDE approved only.   b iC60H circuit breakers are multi-standard circuit breakers which combine the  following functions:    v circuit protection against short-circuit currents,   v circuit protection against overload currents,   v suitable for industrial isolation according to IEC/EN 60947-2, standard.   v fault tripping indication by a red mechanical indicator in circuit breaker front face. Alternating current (AC) 50/60 Hz Breaking capacity (Icu) according to IEC/EN 60947-2  Service breaking capacity (Ics) Voltage (Ue) Ph/Ph (2P, 3P, 4P) 12 to 133 V 220 to 240 V 380 to 415 V 440 V Ph/N (1P) 12 to 60 V 100 to 133 V 220 to 240 V – Rating (In) 1 to 4 A 70 kA 70 kA 70 kA 50 kA 100 % of Icu 6 to 40 A 42 kA 30 kA 15 kA 10 kA 50 % of Icu  50/63 A 42 kA – 15 kA 10 kA 50 % of Icu Breaking capacity (Icn) according to IEC/EN 60898-1 Voltage (Ue) Ph/Ph 400 V Ph/N 230 V Rating (In) 1 to 63 A 10000 A Direct current (DC)  Breaking capacity (Icu) according to IEC/EN 60947-2  Service breaking capacity (Ics) Voltage (Ue) Between +/- 12 to 48 V 72 V 100 to 133 V 220 to 250 V Number of poles 1P 2P (in series) 3P (in series) 4P (in series) Rating (In) 1 to 63 A 20 kA 10 kA 10 kA 20 kA 10 kA 100 % of Icu  BS/EN 60947-2 BS/EN 60898-1 Catalogue numbers iC60H circuit breaker  Type 1P 2P 3P 4P 1 2 1 2 3 4 1 2 3 4 5 6 1 2 3 4 5 6 7 8 Calibre (In) Courbe Courbe Courbe Courbe B C D B C D B C D B C D 1 A A9F53101 A9F54101 A9F55101 A9F53201 A9F54201 A9F55201 A9F53301 A9F54301 A9F55301 A9F53401 A9F54401 A9F55401 2 A A9F53102 A9F54102 A9F55102 A9F53202 A9F54202 A9F55202 A9F53302 A9F54302 A9F55302 A9F53402 A9F54402 A9F55402 3 A A9F53103 – – – – – – – – – – – 4 A A9F53104 A9F54104 A9F55104 A9F53204 A9F54204 A9F55204 A9F53304 A9F54304 A9F55304 A9F53404 A9F54404 A9F55404 6 A A9F53106 A9F54106 A9F55106 A9F53206 A9F54206 A9F55206 A9F53306 A9F54306 A9F55306 A9F53406 A9F54406 A9F55406 10 A A9F53110 A9F54110 A9F55110 A9F53210 A9F54210 A9F55210 A9F53310 A9F54310 A9F55310 A9F53410 A9F54410 A9F55410 16 A A9F53116 A9F54116 A9F55116 A9F53216 A9F54216 A9F55216 A9F53316 A9F54316 A9F55316 A9F53416 A9F54416 A9F55416 20 A A9F53120 A9F54120 A9F55120 A9F53220 A9F54220 A9F55220 A9F53320 A9F54320 A9F55320 A9F53420 A9F54420 A9F55420 25 A A9F53125 A9F54125 A9F55125 A9F53225 A9F54225 A9F55225 A9F53325 A9F54325 A9F55325 A9F53425 A9F54425 A9F55425 32 A A9F53132 A9F54132 A9F55132 A9F53232 A9F54232 A9F55232 A9F53332 A9F54332 A9F55332 A9F53432 A9F54432 A9F55432 40 A A9F53140 A9F54140 A9F55140 A9F53240 A9F54240 A9F55240 A9F53340 A9F54340 A9F55340 A9F53440 A9F54440 A9F55440 50 A A9F53150 A9F54150 A9F55150 A9F53250 A9F54250 A9F55250 A9F53350 A9F54350 A9F55350 A9F53450 A9F54450 A9F55450 63 A A9F53163 A9F54163 A9F55163 A9F53263 A9F54263 A9F55263 A9F53363 A9F54363 A9F55363 A9F53463 A9F54463 A9F55463 Width in 9-mm modules 2 4 6 8 E45092 E45094 PB1 11065-40 PB1 11069-40

 37 Catalogue numbers iC60H circuit breaker  Type 1P 2P 3P 4P 1 2 1 2 3 4 1 2 3 4 5 6 1 2 3 4 5 6 7 8 Calibre (In) Courbe Courbe Courbe Courbe B C D B C D B C D B C D 1 A A9F53101 A9F54101 A9F55101 A9F53201 A9F54201 A9F55201 A9F53301 A9F54301 A9F55301 A9F53401 A9F54401 A9F55401 2 A A9F53102 A9F54102 A9F55102 A9F53202 A9F54202 A9F55202 A9F53302 A9F54302 A9F55302 A9F53402 A9F54402 A9F55402 3 A A9F53103 – – – – – – – – – – – 4 A A9F53104 A9F54104 A9F55104 A9F53204 A9F54204 A9F55204 A9F53304 A9F54304 A9F55304 A9F53404 A9F54404 A9F55404 6 A A9F53106 A9F54106 A9F55106 A9F53206 A9F54206 A9F55206 A9F53306 A9F54306 A9F55306 A9F53406 A9F54406 A9F55406 10 A A9F53110 A9F54110 A9F55110 A9F53210 A9F54210 A9F55210 A9F53310 A9F54310 A9F55310 A9F53410 A9F54410 A9F55410 16 A A9F53116 A9F54116 A9F55116 A9F53216 A9F54216 A9F55216 A9F53316 A9F54316 A9F55316 A9F53416 A9F54416 A9F55416 20 A A9F53120 A9F54120 A9F55120 A9F53220 A9F54220 A9F55220 A9F53320 A9F54320 A9F55320 A9F53420 A9F54420 A9F55420 25 A A9F53125 A9F54125 A9F55125 A9F53225 A9F54225 A9F55225 A9F53325 A9F54325 A9F55325 A9F53425 A9F54425 A9F55425 32 A A9F53132 A9F54132 A9F55132 A9F53232 A9F54232 A9F55232 A9F53332 A9F54332 A9F55332 A9F53432 A9F54432 A9F55432 40 A A9F53140 A9F54140 A9F55140 A9F53240 A9F54240 A9F55240 A9F53340 A9F54340 A9F55340 A9F53440 A9F54440 A9F55440 50 A A9F53150 A9F54150 A9F55150 A9F53250 A9F54250 A9F55250 A9F53350 A9F54350 A9F55350 A9F53450 A9F54450 A9F55450 63 A A9F53163 A9F54163 A9F55163 A9F53263 A9F54263 A9F55263 A9F53363 A9F54363 A9F55363 A9F53463 A9F54463 A9F55463 Width in 9-mm modules 2 4 6 8   b Increased product service life thanks to:    v overvoltage resistance by high level of industrial performances conception  (pollution degree, rated impulse withstand voltage and insulation voltage),   v high performance limitation (see limitation curves),   v fast closing independent of the speed of actuation of the toggle.    b Remote indication, open/closed/tripped, by optional auxiliary contacts.   b Top or bottom electrical feeding. Visi-trip window    b Fault tripping is indicated by a red  mechanical indicator on the front face Positive contact indication   b Suitable for industrial isolation according to   IEC/EN 60947-2 standard.   b The presence of the green strip guarantees  physical opening of the contacts and allows  operations to be performed on the downstream  circuit in complete safety iC60H circuit breakers  (curve B, C, D) (cont.) Protection Circuit protection  E45095 E45097   b Double clip for  dismounting with comb  busbar in place   b Insulated terminals IP20   b Large circuit  labelling area   b Insulated terminals IP20

38 iC60H circuit breakers (curve B, C, D) (cont.) Protection Circuit protection  Connection  Without accessory With accessories DB405585 Rating Tightening torque Copper cables 50 mm²  Al terminal Screw-on connection for ring terminal Multi-cables terminal Rigid Flexible  or ferrule Rigid  cables Flexible cables 1 to 25 A 2 N.m 1 to 25 mm 2 1 to 16 mm 2 – Ø 5 mm – – 32 to 63 A 3.5 N.m 1 to 35 mm 2 1 to 25 mm 2 50 mm 2 3 x 16 mm 2 3 x 10 mm 2 DB122945 DB122946 6.5 mm 14 mm DB122935 DB1 18789 DB1 18787 PZ2 Technical data Main characteristics According to IEC/EN 60947-2 Insulation voltage (Ui)  500 V AC Pollution degree  3 Rated impulse withstand voltage (Uimp)  6 kV Thermal tripping Reference temperature 50 °C Magnetic tripping B curve 4 In ± 20 % C curve 8 In ± 20 % D curve 12 In ± 20 % Utilization category A According to IEC/EN 60898-1 Limitation class 3 Rated making and breaking capacity of an   individual pole (Icn1) Icn1 = Icn Additional characteristics  Breaking capacity  under 1 pole with IT  380-415 V isolated  neutral system   (case of double fault) 40 A 4 kA 50/63 A 3 kA Degree of protection (IEC 60529)  Device only IP20 Device in modular   enclosure IP40 Insulation classe II Endurance (O-C) Electrical 10,000 cycles Mechanical 20,000 cycles Overvoltage category (IEC 60364) IV Operating temperature  -35°C to +70°C Storage temperature  -40°C to +85°C Tropicalization (IEC 60068-1) Treatment 2 (relative humidity 95 % to 55°C)  DB123310 DB123312 Clip on DIN rail 35 mm. Indifferent position of installation. DB123314 IP20 IP40

 39 Weight (g) Circuit-breaker  Type iC60H 1P 125 2P 250 3P 375 4P 500 iC60H circuit breakers  (curve B, C, D) (cont.) Protection Circuit protection  Dimensions (mm) DB405584 72 54 36 50 5.5 85 4.6 64 69.5 78.5 18 4P 3P 2P 1P 45

40 Protect Circuit protection Accessory Padlocking device   b Used to lock the toggle in the “open” or “closed” position by 4 mm diameter  padlock (not supplied).   b The single-phase iC60H RCBO’s self-contained residual current device carries  out complete protection of final circuits:   v protection against short-circuits and cable overloads   v protection of persons against electric shock by direct contact   (10, 30 mA sensitivities),   v protection of persons against electric shock by indirect contact   (100 mA sensitivity),   v protection of equipment against fires set by leakage currents   (100 mA sensitivity).   b The neutral is not interrupted when the device is tripped. Hence iC60H RCBO can  be used on most circuits, except for the ones operating under TT or IT earthing  systems. IEC 61009-1,  IEC 61009-2-2, BS EN 61009-1 AS/NZS 61009.1  Catalogue numbers iC60H RCBO  10000 1P+N A  Width in 9-mm modules B curve Voltage rating (V) Sensitivity (IΔn) 10 mA 30 mA 100 mA DB405038 240 Rating  (In) 6 A – A9D31806 – 2 10 A – A9D31810 – 16 A – A9D31816 – 20 A – A9D31820 – 25 A – A9D31825 – 32 A – A9D31832 – 40 A – A9D31840 – 45 A – A9D31845 – C curve Voltage rating (V) Sensitivity (IΔn) 10 mA 30 mA 100 mA DB405038 110 Rating  (In) 10 A – A9D19810 – 2 16 A – A9D19816 – 20 A – A9D19820 – 25 A – A9D19825 – 32 A – A9D19832 – 240 Rating  (In) 6 A A9D10806 A9D11806 A9D12806 10 A A9D10810 A9D11810 A9D12810 16 A A9D10816 A9D11816 A9D12816 20 A A9D10820 A9D11820 A9D12820 25 A A9D10825 A9D11825 A9D12825 32 A A9D10832 A9D11832 A9D12832 40 A A9D10840 A9D11840 A9D12840 45 A A9D10845 A9D11845 A9D12845 Operating frequency 50…60 Hz Accessory Type Padlocking device (bag of 10 pieces) A9A27049 iC60H RCBO 10, 30 and 100 mA Alternating current (AC) 50/60 Hz Breaking capacity (Icn) according to IEC 61009-1  Voltage (Ue) Ph/N 110 V 240 V Rating (In) 6 to 45 A 10000 A 10000 A

 41 iC60 RCBO 10, 30 and 100 mA Protect Circuit protection Dimensions (mm) DB405565 110 18 45 19 72 20 45 55 15 5.5 45 19 72 20 45 55 15 5.5 110 36 iC60N RCBO, iC60H RCBO iC60H2 RCBO Weight (g)  iC60 RCBO iC60N RCBO 205 iC60H RCBO 205 iC60H2 RCBO 332 DB123309 DB12331 1 Clip on DIN rail 35 mm. Indifferent position of installation. DB123313 IP20 IP40 Technical data Main characteristics iC60H RCBO Insulation voltage (Ui) Rated impulse withstand voltage (Uimp) Rated residual operating current (IΔn) 10, 30, 100 mA Thermal tripping Reference temperature Temperature deratingLimitation classSurge current withstand (8/20 μs) without trippingRated nominal breaking capacity (Icn) 10,000 A Phase/earth rated residual breaking and making capacity (IΔm) 7,500 A Additional characteristics  Degree of protection Device onlyDevice in modular enclosure Endurance (O-C) ElectricalMechanical Operating temperature Storage temperatureTropicalization

42 DB405571 Country approval pictograms IEC/EN 61009-1 Catalogue numbers Vigi iC60 add-on residual current devices  Type A  Width in 9 mm modules Product  Vigi iC60  Auxiliaries  Without auxiliaries  2P Sensitivity 10 mA 30 mA 100 mA 300 mA DB122462 Rating 25 A A9V00625 3 63 A – A9V02663A9V01663 A9V03663 A9V06663 4 4P Sensitivity 10mA 30 mA 100 mA 300 mA DB122464 Rating 63 A – A9V02763 – A9V06763 7 Voltage rating (Ue) 230 – 240 V, 400 – 415 V    Except 110 V Operating frequency 50/60 Hz Vigi iC60 add-on residual current devices (type A) Protection Earth leakage protection    b Combined with iC60 circuit breaker, the Vigi iC60 provide:   v protection of persons against electric shock by direct contact (y 30 mA),    v protection of persons against electric shock by indirect contact (u 100 mA),    v protection of installations against the risk of fire (300 mA). PB104464-45 PB104469-45

 43 Vigi iC60 add-on residual current devices (AC, A,  SI  types)  (cont.) Protection Earth leakage protection  Visi-trip window    b Fault tripping is indicated by a red  mechanical indicator on the front face.   b Large circuit labelling area PB104466-40   b Test button   b Insulated terminals IP20    b Screw-shield enabling  connection checking and  retightening SI  type The  SI  type provides increased immunity from electrical interference and polluted or  corrosive environments.

44 Vigi iC60 add-on residual current devices (A type) Protection Earth leakage protection  Connection  DB122948 Type Rating Tightening torque Copper cables Rigid Flexible or ferrule Vigi iC60 25 A 2 N.m 1 to 25 mm 2 1 to 16 mm 2 40 to 63 A 3.5 N.m 1 to 35 mm 2 1 to 25 mm 2 DB122945 DB122946 PZ2 14 mm 6.5 mm Technical data Main characteristics  Insulation voltage (Ui)  500 V Pollution degree  3 Rated impulse withstand voltage (Uimp)  6 kV According to IEC/EN 61009-1 Surge current  withstand (8/20 μs)  without tripping A type (no selective s) 250 Â A type (selective s) 3 k Additional characteristics  Degree of protection  Device only IP20 Device in modular enclosure IP40 Insulation classe II Operating  temperature  AC type -5°C to +60°C  A and  SI  types -25°C to +60°C Storage temperature  -40°C to +85°C  DB123310 DB123312 Clip on DIN rail 35 mm. Indifferent position of installation. DB123314 IP20 IP40

 45 Electrical auxiliaries for iC60, iID, iDPN Vigi, iSW-NA, RCA and ARA ProtectionCircuit protectionEarth leakage protection Tripping auxiliaries:  IEC/EN 60947-1   b iMN: undervoltage release    b iMNs: delayed undervoltage release   b iMNx: undervoltage release, independant from supply voltage   b iMX: shunt release    b iMX+OF: shunt release with open/close contact. EN 50550   b iMSU: overvoltage release  Indication auxiliaries:  IEC/EN 60947-5-1   b iOF: open/close contact   b iSD: fault indicating contact    b iOF/SD+OF: open/close contact and switchable OF or SD contact. IEC/EN 60947-5-4   b iOF+SD24: open/close contact OF and default indicating contact SD with Ti24  interface. b The electrical auxiliaries are combined with iC60 circuit breakers, iID residual current circuit breakers, remote tripping switch disconnector iSW-NA , RCA remote controls and ARA automatic reclosers; they enable tripping or remote indication of their position (open/closed/tripped) upon a fault.  b They are fastened by clips (without tools) to the left side of the breaker.  b The  iOF/SD+OF auxiliary is a 2-in-1 product: via a mechanical selector switch, it provides two contacts, OF+SD or OF+OF. b The iOF+SD24 auxiliary can report open/ closed (OF) status information and intentional or  fault tripping of the associated device (SD) to  the Acti 9 Smartlink or a programmable logic controller via the TI24 interface (24 V DC). DB404939

46 Electrical auxiliaries for iC60, iID, RCA and ARA (cont.) ProtectionCircuit protectionEarth leakage protection d Tripping devices must be mounted first. Comply with the position of the SD function. iSW-NA : the iSD auxiliary contact must be associated with an auxiliary (iMN, iMX, iMX+OF); it indicates that the remote tripping  switch disconnector has been tripped open. The mounting order for the various auxiliaries must be complied with. The tripping auxiliaries (iMN, iMX) should be mounted first, as close as possible to  the circuit breaker or the residual current circuit breaker. Then, the indicating  auxiliaries (iOF, iSD) should be mounted, complying with their position shown in the  following table. + + DB123593 Indicating auxiliaries Tripping auxiliaries Remote control Device Vigi iC60 PB104474-25   PB104475-25   PB104496-25   ARA automatic recloser orRCA remote control iC60 circuit breaker oriID residual current circuit breaker  Vigi iC60 add-on residual current device 1 (iOF/SD+OF or iOF+SD24 or iSD) 1 iOF/SD+OF 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. – PB104437-25 iC60 PB104466-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) 2 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. None 1 iOF+SD24 2 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. None None 3 iMSU max. 1 iSD 1 iSD 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. – PB104472-25 iID/iSW-NA – None 1 (iSD or iOF or iOF/SD+OF or iOF+SD24) 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. PB106256-25 ARA PB104437-25 iC60 PB104466-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) None PB104472-25 iID – None 1 (iSD or iOF or iOF/SD+OF or iOF+SD24) 1 (iMX or iMN or iMSU) max. PB106253-25 RCA PB104437-25 iC60 PB104437-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) None

 47 Indicating auxiliaries Tripping auxiliaries Remote control Device Vigi iC60 PB104474-25   PB104475-25   PB104496-25   ARA automatic recloser orRCA remote control iC60 circuit breaker oriID residual current circuit breaker  Vigi iC60 add-on residual current device 1 (iOF/SD+OF or iOF+SD24 or iSD) 1 iOF/SD+OF 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. – PB104437-25 iC60 PB104466-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) 2 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. None 1 iOF+SD24 2 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. None None 3 iMSU max. 1 iSD 1 iSD 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. – PB104472-25 iID/iSW-NA – None 1 (iSD or iOF or iOF/SD+OF or iOF+SD24) 1 (iMN, iMNs, iMNx or iMX, iMX+OF or iMSU) max. PB106256-25 ARA PB104437-25 iC60 PB104466-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) None PB104472-25 iID – None 1 (iSD or iOF or iOF/SD+OF or iOF+SD24) 1 (iMX or iMN or iMSU) max. PB106253-25 RCA PB104437-25 iC60 PB104437-25 Vigi iC60 1 iOF 1 (iSD or iOF or iOF/SD+OF) None +

48 PB104477-35 DB1 18804 DB1 18805 Electrical auxiliaries for iC60, iID, iDPN Vigi, iSW-NA, RCA and ARA (cont.) ProtectionCircuit protectionEarth leakage protection PB104478-35 PB104480-35 (Ua) Voltages measured between the phase and the neutral conductor, at which the iMSU device must control the associated protective device.  Tripping   Auxiliaries  iMN iMNs iMNx iMSU iMX iMX+OF Type Undervoltage release Overvoltage release  Shunt release Instantaneous Delayed  Independent of the supply voltage With Open/Close auxiliary contact Function    b Trips the device with which it is combined when its input voltage decreases   (between 70 % and 35 % Un). Prevents device closing again until its input voltage is  restored    b Tripping of the associated device by  opening of the control circuit  (e.g. push-button, dry contact)   b Switches off the power supply by opening the breaker  with which it is combined, in the event that the phase/ neutral voltage is exceeded (loss of neutral). For a  four-phase network, use three iMSU tripping auxiliaries    b Trips the breaker when powered   b Not tripping on transient voltage dip   (up to 0.2 s)   b A drop in the supply voltage does not  trip the associated device   b A locking push-button control allows  the circuit protected (e.g. machine  control) to be placed in safety  configuration   b Includes an open/close contact (OF) to indicate  the “open” or “closed” position of the breaker  Wiring diagrams U E2 N/ L1 L2 E1   U 12 C2 11 (L/+) C1 (N/-) 14 U Use     b Emergency stoppage by normally closed push button    b Ensures the safety of power supply circuits for several machines by preventing  “uncontrolled” restarting   b Emergency stoppage with fail-safe  principle   b Insensitive to control circuit voltage  variation to increase service continuity Important: Before any servicing  operation switch off the mains power  supply (voltage presence at terminals  E1/E2)   b Protection of equipment against overvoltages on the  electrical network  (neutral conductor break)   b Voltage monitoring between phase and neutral  conductors   b Emergency stoppage by normally open push  button    b Emergency stoppage by normally open push  button    b Remote indication of the position of the  associated breaker  Catalogue numbers A9A26960 A9A26961 A9A26959 A9A26963 A9A26969 A9A26971 A9A26500 A9A26476 A9A26477 A9A26478 A9A26946 A9A26947 A9A26948 iC60, iID, iDPN Vigi, iSW-NA, RCA  et ARA   b     b     b     b     b     b     b     b     b     b     b     b     b   iC60, iID double terminals   b     b     b     b     b     b     b     b     b     b     b     b     b   Technical specifications  Rated voltage   (Ue) V AC 220…240 48 115 220…240 220…240 380…415 230 100…415 48 12…24 100…415 48 12…24 V DC – 48 – – – 110…130 48 12…24 110…130 48 12…24 Standardised operating and  non-response to voltage times  (Ua) – – – – – – 255 V AC 275 V AC 300 V AC 350 V AC 400 V AC – – – – – – Maximum operating time – – – – – – No tripping 15 s 5 s 0.75 s 0.20 s – – – – – – Minimum non-response time – – – – – – 3 s 1 s 0.25 s 0.07 s – – – – – – Operating  frequency Hz 50/60 400 50/60 50/60 50/60 50/60 50/60 Red mechanical indicator On front face On front face On front face On front face On front face On front face Test function – – – – – – Width in 9 mm modules 2 2 2 2 2 2 Operating current – – – – – y  24 V DC 10 mA mini, 6 A maxi 48 V DC 2 A y  130 V DC 1 A y  240 V AC 6 A 415 V AC 3 A Number of contacts – – – – – 1 NO/NC Operating  temperature °C -35…+70 -35…+70 -35…+70 -35…+70 -35…+70 -35…+70 Storage  temperature °C -40…+85 -40…+85 -40…+85 -40…+85 -40…+85 -40…+85

 49 Tripping   Auxiliaries  iMN iMNs iMNx iMSU iMX iMX+OF Type Undervoltage release Overvoltage release  Shunt release Instantaneous Delayed  Independent of the supply voltage With Open/Close auxiliary contact Function    b Trips the device with which it is combined when its input voltage decreases   (between 70 % and 35 % Un). Prevents device closing again until its input voltage is  restored    b Tripping of the associated device by  opening of the control circuit  (e.g. push-button, dry contact)   b Switches off the power supply by opening the breaker  with which it is combined, in the event that the phase/ neutral voltage is exceeded (loss of neutral). For a  four-phase network, use three iMSU tripping auxiliaries    b Trips the breaker when powered   b Not tripping on transient voltage dip   (up to 0.2 s)   b A drop in the supply voltage does not  trip the associated device   b A locking push-button control allows  the circuit protected (e.g. machine  control) to be placed in safety  configuration   b Includes an open/close contact (OF) to indicate  the “open” or “closed” position of the breaker  Wiring diagrams U E2 N/ L1 L2 E1   U 12 C2 11 (L/+) C1 (N/-) 14 U Use     b Emergency stoppage by normally closed push button    b Ensures the safety of power supply circuits for several machines by preventing  “uncontrolled” restarting   b Emergency stoppage with fail-safe  principle   b Insensitive to control circuit voltage  variation to increase service continuity Important: Before any servicing  operation switch off the mains power  supply (voltage presence at terminals  E1/E2)   b Protection of equipment against overvoltages on the  electrical network  (neutral conductor break)   b Voltage monitoring between phase and neutral  conductors   b Emergency stoppage by normally open push  button    b Emergency stoppage by normally open push  button    b Remote indication of the position of the  associated breaker  Catalogue numbers A9A26960 A9A26961 A9A26959 A9A26963 A9A26969 A9A26971 A9A26500 A9A26476 A9A26477 A9A26478 A9A26946 A9A26947 A9A26948 iC60, iID, iDPN Vigi, iSW-NA, RCA  et ARA   b     b     b     b     b     b     b     b     b     b     b     b     b   iC60, iID double terminals   b     b     b     b     b     b     b     b     b     b     b     b     b   Technical specifications  Rated voltage   (Ue) V AC 220…240 48 115 220…240 220…240 380…415 230 100…415 48 12…24 100…415 48 12…24 V DC – 48 – – – 110…130 48 12…24 110…130 48 12…24 Standardised operating and  non-response to voltage times  (Ua) – – – – – – 255 V AC 275 V AC 300 V AC 350 V AC 400 V AC – – – – – – Maximum operating time – – – – – – No tripping 15 s 5 s 0.75 s 0.20 s – – – – – – Minimum non-response time – – – – – – 3 s 1 s 0.25 s 0.07 s – – – – – – Operating  frequency Hz 50/60 400 50/60 50/60 50/60 50/60 50/60 Red mechanical indicator On front face On front face On front face On front face On front face On front face Test function – – – – – – Width in 9 mm modules 2 2 2 2 2 2 Operating current – – – – – y  24 V DC 10 mA mini, 6 A maxi 48 V DC 2 A y  130 V DC 1 A y  240 V AC 6 A 415 V AC 3 A Number of contacts – – – – – 1 NO/NC Operating  temperature °C -35…+70 -35…+70 -35…+70 -35…+70 -35…+70 -35…+70 Storage  temperature °C -40…+85 -40…+85 -40…+85 -40…+85 -40…+85 -40…+85 DB123012 DB1 18808 Electrical auxiliaries for iC60, iID, iDPN Vigi, iSW-NA, RCA and ARA (cont.) ProtectionCircuit protectionEarth leakage protection PB104496-35 PB104481-35 DB1 18806 PB104479-35

50 Indication Auxiliaries  iOF iSD iOF/SD+OF iOF+SD24 Type Open/close  auxiliary contact Fault indicating contact Double open/close or fault indicating contact Double open/close and fault indicating contact Function    b Changeover contact  indicates “open” or “closed”  position of the breaker   b Changeover contact  indicates position of the  breaker; upon:   v electrical fault   v action on tripping auxiliary   b Same indication as   VISI-TRIP   b The iOF/SD+OF auxiliary is a  2-in-1 product: via a mechanical  selector switch, it provides two  contacts, OF+SD or OF+OF   b 2 contacts (1 NO + 1 NC)  can report the signalling  information of the associated  device to the Acti 9 Smartlink  or a programmable logic  controller:    v electrical fault   v actuation of the tripping  auxiliary   v “Open” or “Closed”  position of the associated  device Wiring diagrams OF position  SD position Use     b Remote indication of   the position of the associated  breaker    b Remote indication of   tripping upon a fault of the  associated breaker   b Remote indication of position  and/or tripping upon a fault of the  associated breaker   b Remote indication of  position and tripping upon a  fault of the associated  breaker Catalogue numbers  A9A26924 A9A26869 A9A26927 A9A26855 A9A26929 A9A26897 iC60, iID, iDPN Vigi, iSW-NA,  RCA et ARA   b   –   b   –   b     b   iC60, iID double terminals –   b   –   b     b     b   Technical specifications  Rated voltage (Ue) V AC 240…415 240…415 240…415 – V DC 24…130 24…130 24…130 24 Operating  frequency Hz 50/60 50/60 50/60 – Red mechanical indicator – On front face On front face On front face Test function On toggle On toggle On toggle On toggle Width in 9 mm modules 1 1 1 1 Operating current 24 V DC 10 mA mini, 6 A maxi 2 mA mini, 50 mA maxi 48 V DC 2 A – 60 V DC 1.5 A – 130 V DC 1 A – 240 V AC 6 A – 415 V AC 3 A – Number of contacts 1 NO/NC 1 NO/NC 1 NO/NC + 1 NO/NC 1 NO/NC Operating  temperature °C -35…+70 -35…+70 -35…+70 -25…+70 Storage  temperature °C -40…+85 -40…+85 -40…+85 -40…+85 DB1 1881 1 DB1 18812 DB1 18810 DB1 18813 DB124318 PB104474-35 PB104476-35 PB104475-35 PB107750-35 Electrical auxiliaries for iC60, iID, iDPN Vigi, iSW-NA, RCA and ARA (cont.) ProtectionCircuit protectionEarth leakage protection

 51 Electrical auxiliaries for iC60, iID, iDPN Vigi, iSW-NA, RCA and ARA (cont.) ProtectionCircuit protectionEarth leakage protection Connection  DB123061 4 mm 10 mm PZ1 Type Tightening torque Copper cables Multi-cables terminal Rigid Flexible Rigid cables Cables with ferrule Indication auxiliaries 1 N.m 1 to 4 mm 2 0.5 to 2.5 mm 2 2 x 2.5 mm 2 2 x 1.5 mm 2 Tripping auxiliaries 1 N.m 1 to 6 mm 2 0.5 to 4 mm 2 2 x 2.5 mm 2 2 x 2.5 mm 2 DB122945 DB123007 DB12301 1 DB123008 Ti24 connector connection DB123580 Type Catalogue numbers  Copper cables Rigid Flexible Ti24 interface A9XC2412 1 x 0,5 à 1,5 mm 2 1 x 0,5 à 1,5 mm 2 DB122945 DB123553 Spring-loaded terminals 10 mm 0.4 x 2.5 mm Ti24 prefabricated cables connection Type Catalogue numbers  Length Connection for Acti 9 Smartlink PB107754-10 6 short prefabricated A9XCAS06 100 mm 6 medium-sized prefabricated A9XCAM06 160 mm 6 long prefabricated A9XCAL06 870 mm Connection for PLC type terminals PB107755-14 6 long prefabricated on a  single side A9XCAU06 870 mm DB404941 24V SDOF0V iOF+SD24

52 Mounting  Accessories Rotary handle Plug-in base Padlocking device  Function  Front or side-mounted control   b Degree of protection: IP55 rotary handle   b Installation:   v the control mechanism is mounted on the device   v the rotary handle is fixed to the front or side of the  enclosure   b Front-mounted (on door or faceplate)   b Prevents the door from opening when the device is  in the ON position (can be deactivated)   b Can be padlocked when the device is in the “open”  position (can be padlocked with the device in the  “closed” position subject to adaptation)    b Can be locked by padlock of (dia. 5 to 8 mm), not  supplied with the device   b Pushbutton: iID test available in the front face of the  rotary handle   b The Laser Square tool brings  the accurency to align the circuit  breaker and the rotary handle Allows a breaker to be removed or replaced  quickly, without handling the connections   b Degree of protection: IP20   b Consists of:    v a base to be fastened on a rail (or panel)   v 2 “blades” to be fastened in the device’s  terminals   b Connection: tunnel terminals for cable up to  35 mm 2  rigid, 25 mm 2  flexible,    b Installation:   v in universal enclosure   v on horizontal rail   b Height: 178 mm   b Not compatible with Vigi iC60 and auxiliaries   b Can be locked by padlock of (dia. 6 mm), not  supplied with the device Used to padlock breaker in open or closed position   b Padlock diameter: 3 to 6 mm   b Sealable (max. diameter: 1.2 mm)   b Locking in ON position does not prevent tripping of the breaker in the event of  faults   b Suitable for IEC/EN 60947-2 compliant disconnection Catalogue  numbers A9A27005 A9A27006 A9A27008 GVAPL01 A9A27003 (1 per pole) MCB RCBO Operating sub-assembly + + A9A26970 A9A27049 Black handle Red handle No handle Set of 1 1 1 1 1 10  10 Suitability iC60   b 2P, 3P, 4P   b     b   iSW   b 2P, 3P, 4P   b     b   iC60 + Vigi iC60   b 2P, 3P, 4P –   b   iID   b     b y  63 A   b   Reflex iC60 or  RCA+iC60 or  ARA+iC60 – –   b   ARA+iID    – –   b   Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW ProtectionCircuit protectionEarth leakage protection PB104509-35 PB104508-35 PB106297_10

 53 Mounting  Accessories Rotary handle Plug-in base Padlocking device  Function  Front or side-mounted control   b Degree of protection: IP55 rotary handle   b Installation:   v the control mechanism is mounted on the device   v the rotary handle is fixed to the front or side of the  enclosure   b Front-mounted (on door or faceplate)   b Prevents the door from opening when the device is  in the ON position (can be deactivated)   b Can be padlocked when the device is in the “open”  position (can be padlocked with the device in the  “closed” position subject to adaptation)    b Can be locked by padlock of (dia. 5 to 8 mm), not  supplied with the device   b Pushbutton: iID test available in the front face of the  rotary handle   b The Laser Square tool brings  the accurency to align the circuit  breaker and the rotary handle Allows a breaker to be removed or replaced  quickly, without handling the connections   b Degree of protection: IP20   b Consists of:    v a base to be fastened on a rail (or panel)   v 2 “blades” to be fastened in the device’s  terminals   b Connection: tunnel terminals for cable up to  35 mm 2  rigid, 25 mm 2  flexible,    b Installation:   v in universal enclosure   v on horizontal rail   b Height: 178 mm   b Not compatible with Vigi iC60 and auxiliaries   b Can be locked by padlock of (dia. 6 mm), not  supplied with the device Used to padlock breaker in open or closed position   b Padlock diameter: 3 to 6 mm   b Sealable (max. diameter: 1.2 mm)   b Locking in ON position does not prevent tripping of the breaker in the event of  faults   b Suitable for IEC/EN 60947-2 compliant disconnection Catalogue  numbers A9A27005 A9A27006 A9A27008 GVAPL01 A9A27003 (1 per pole) MCB RCBO Operating sub-assembly + + A9A26970 A9A27049 Black handle Red handle No handle Set of 1 1 1 1 1 10  10 Suitability iC60   b 2P, 3P, 4P   b     b   iSW   b 2P, 3P, 4P   b     b   iC60 + Vigi iC60   b 2P, 3P, 4P –   b   iID   b     b y  63 A   b   Reflex iC60 or  RCA+iC60 or  ARA+iC60 – –   b   ARA+iID    – –   b   Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW (cont.) ProtectionCircuit protectionEarth leakage protection PB104492-15 P135159-40 DB123599

54 Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW (cont.) ProtectionCircuit protectionEarth leakage protection Security  Accessories Screw shield Terminal shield Inter-pole barrier Spacer  Function Prevents any contact with the connecting  screws   b Upgrades degree of protection to IP20D   b Sealable, max. diameter 1.2 mm Prevents any contact with the terminals   b Upgrades degree of protection   to IP20D   b Sealable, max. diameter 1.2 mm   b Set of two, for upstream and  downstream terminals   b For 3 poles: A9A26975 + A9A26976   b For 4 poles: 2 X A9A26976 Enhances insulation  between connections:  cables, terminals,   lugs, etc   b Used to:    v complete rows    v separate devices. Width: 1 x 9 mm module   b Allows cable routing  from one row to another,  (above and below),   up to 6 mm 2 Catalogue  numbers A9A26982 A9A26981 A9A26975 A9A26976 A9A27001 A9A27062 Set of 12 x 1 pole 20 x 4 poles (splittable) 2 x 1 pole 2 x 2 poles 10 5 Suitability iC60 –   b     b     b     b     b   iSW – –   b     b     b     b   Vigi iC60   b   – – – –   b   iID    –   b   –   b     b     b   Reflex iC60 or  RCA+iC60 or  ARA+iC60 –   b     b     b     b     b   ARA+iID    –   b   –   b     b     b   PB104489-14 PB104502-35 PB104503-35 PB104484-30 PB104483-35 PB104488-14

DB1 18780 DB1 18781 DB1 18783 DB1 18787 DB122935 DB1 18789 DB1 18785  55 Connection Accessories Multi-cable terminal 50 mm² terminal Al Screw-on connection for ring terminal Function  For 3 copper cables:    b Rigid up to 16 mm 2     b Flexible up to 10 mm 2 For aluminium cables from   16 to 50 mm 2 For lug tipped cables,   front or rear mounting 5 mm Catalogue   numbers 19091 19096 27060 27053 Set of 4 3 1 8 iC60 y 25 A Reflex iC60 y 25 A – – –   b   iC60 25 A Reflex iC60 40 A,  iSW   b     b     b     b   Vigi iC60 –  –  –  –  iID   b     b     b     b   iDPN Vigi –  –  –    b   iSW-NA   b     b     b     b   Tightening torque 2 N.m 10 N.m 2 N.m Lenght stripping 11 mm 13 mm – Tools to use Dia. 5 mm or PZ2 Hc 1/5″ or 5 mm Dia. 5mm Marking  Accessories Marker strip Used for connection identification Catalogue numbers 0: AB1-R01: AB1-R12: AB1-R23: AB1-R34: AB1-R4 5: AB1-R56: AB1-R67: AB1-R78: AB1-R89: AB1-R9 A: AB1-GAB: AB1-GBC: AB1-GCD: AB1-GDE: AB1-GEF: AB1-GFG: AB1-GGH: AB1-GHI: AB1-GI J: AB1-GJK: AB1-GKL: AB1-GLM: AB1-GMN: AB1-GNO: AB1-GOP: AB1-GPQ: AB1-GQR: AB1-GR S: AB1-GST: AB1-GTU: AB1-GUV: AB1-GVW: AB1-GWX: AB1-GXY: AB1-GYZ: AB1-GZ +: AB1-R12-: AB1-R13blank: AB1-RV Set of 250 iC60, Reflex iC60,  iSW   b 4 markers max. per pole Vigi iC60    b 4 markers max. per device iID   b 4 markers max. per device iDPN Vigi   b 4 markers max. per device iSW-NA   b 4 markers max. per device Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW (cont.) ProtectionCircuit protectionEarth leakage protection

56 iID residual current circuit breakers (AC type) IEC/EN 61008-1 PB104472-40 PB104473-40 Catalogue numbers iID residual current circuit breakers Type AC  Width in 9 mm module Product iID Auxiliaries 2P Sensitivity 10 mA 30 mA 100 mA 300 mA 500 mA 300 mA s 500 mA s DB122476 Rating 16 A A9R10216 – – – – – – 4 25 A A9R10225 A9R41225 – A9R44225 A9R16225 – – 40 A – A9R41240 A9R12240 A9R44240 A9R16240 – – 63 A – A9R41263 A9R12263 A9R44263 A9R16263 A9R15263 – 80 A – A9R11280 A9R12280 A9R14280 – A9R15280 – 100 A – A9R11291 A9R12291 A9R14291 – A9R15291 – 4P Sensitivity 10 mA 30 mA 100 mA 300 mA 500 mA 300 mA s 500 mA s DB122477 Rating 25 A – A9R41425 – A9R44425 A9R16425 – – 8 40 A – A9R41440 A9R12440 A9R44440 A9R16440 A9R15440 A9R17440 63 A – A9R41463 A9R12463 A9R44463 A9R16463 A9R15463 A9R17463 80 A – A9R11480 A9R12480 A9R14480 A9R16480 A9R15480 A9R17480 100 A – A9R11491 A9R12491 A9R14491 – A9R15491 – Voltage rating (Ue) 2P 230 – 240 V 4P 400 – 415 V Operating frequency 50/60 Hz   b The iID residual current circuit breakers provide:   v protection of persons against electric shock by direct contact (y 30 mA),    v protection of persons against electric shock by indirect contact (u 100 mA),    v protection of installations against the risk of fire (300 mA or 500 mA). Protection Earth leakage protection

 57 Catalogue numbers iID residual current circuit breakers Type A  Width in 9 mm module Product iID Auxiliaries 2P Sensitivity 10 mA 30 mA 100 mA 300 mA 500 mA 300 mA s DB122476 Rating 16 A A9R20216 – – – – – 4 25 A A9R20225 A9R21225 – A9R24225 – – 40 A – A9R21240 – A9R24240 – A9R25240 63 A – A9R21263 – A9R24263 – A9R25263 100 A – A9R21291 – A9R24291 – A9R25291 4P Sensitivity 10 mA 30 mA 100 mA 300 mA 500 mA 300 mA s DB122477 Rating 25 A – A9R21425 – A9R24425 – – 8 40 A – A9R21440 A9R22440 A9R24440 A9R26440 A9R25440 63 A – A9R21463 A9R22463 A9R24463 A9R26463 A9R25463 80 A – A9R21480 – A9R24480 – A9R25480 100 A – A9R21491 – A9R24491 A9R26491 A9R25491 Voltage rating (Ue) 2P 230 – 240 V 4P 400 – 415 V Operating frequency 50/60 Hz PB104472-40 IEC/EN 61008-1 PB104473-40 iID residual current circuit breakers (A type)   b The iID residual current circuit breakers provide:   v protection of persons against electric shock by direct contact (y 30 mA),    v protection of persons against electric shock by indirect contact (u 100 mA),    v protection of installations against the risk of fire (300 mA or 500 mA). Protection Earth leakage protection

58 iID residual current circuit breakers ( SI  type) Catalogue numbers iID residual current circuit breakers Type SI   Width in 9 mm module Product iID Auxiliaries 2P Sensitivity 10 mA 30 mA 300 mA 300 mA s 500 mA s DB122476 Rating 16 A – – – – – 4 25 A A9R30225 A9R61225 – – – 40 A – A9R61240 – A9R35240 – 63 A – A9R61263 – A9R35263 – 100 A – – – A9R35291 – 4P Sensitivity 10 mA 30 mA 300 mA 300 mA s 500 mA s DB122477 Rating 25 A – A9R61425 – – – 8 40 A – A9R61440 – A9R35440 A9R37440 63 A – A9R61463 A9R34463 A9R35463 A9R37463 80 A – A9R31480 – A9R35480 A9R37480 100 A – A9R31491 A9R34491 A9R35491 – Voltage rating (Ue) 2P 230 – 240 V 4P 400 – 415 V Operating frequency 50/60 Hz   b The iID residual current circuit breakers provide:   v protection of persons against electric shock by direct contact (y 30 mA),    v protection of persons against electric shock by indirect contact (u 300 mA),    v protection of installations against the risk of fire (300 mA or 500 mA). The  SI  type provides increased immunity from electrical interference and polluted or  corrosive environments. PB104472-40 IEC/EN 61008-1 PB104473-40 Protection Earth leakage protection

 59 Visi-trip window   b Fault tripping is indicated by a red  mechanical indicator on the front face PB104472-40   b Double clip for  dismounting with comb  busbar in place   b Insulated terminals IP20   b Test button SI  type The  SI  type provides increased immunity from electrical interference and polluted or  corrosive environments. Positive contact indication   b Suitable for industrial isolation according to   IEC/EN 60947-3 standard   b The presence of the green strip guarantees  physical opening of the contacts and allows  operations to be performed on the downstream  circuit in complete safety Protection Earth leakage protection iID residual current circuit breakers (AC, A,  SI  types)  (cont.) PB104548-40   b Large circuit labelling area

60 Technical data Main characteristics Insulation voltage (Ui)  500 V Pollution degree  3 Rated impulse withstand voltage (Uimp)  6 kV According to IEC/EN 61008-1 Making and breaking capacity (Im/IDm) 1500 A Surge current  withstand (8/20 μs)  without tripping AC and A types (no selective s) 250 Â AC, A types (selective s) 3 k SI  type 3 k Conditional rated  short circuit current  (Inc/IDc) With iC60N/H/L Equal to breaking capacity of iC60 With fuse 10,000 A Additional characteristics  Degree of protection  Device only IP20 Device in modular enclosure IP40 Insulation classe II Endurance (O-C) Electrical (AC1) 16 to 63 A 15,000 cycles 80 to 100 A 10,000 cycles Mechanical 20,000 cycles Operating  temperature  AC type -5°C to +60°C  A and  SI  types -25°C to +60°C Storage temperature  -40°C to +85°C  iID residual current circuit breakers (AC, A,  SI  types) Connection  Without accessory With accessories DB122947 Type Tightening torque Copper cables 50 mm²  Al terminal Screw-on connection for ring terminal Multi-cables terminal Rigid Flexible  or ferrule Rigid  cables Flexible cables iID 3.5 N.m 1 to 35 mm 2 1 to 25 mm 2 50 mm 2 Ø 5 mm 3 x 16 mm 2 3 x 10 mm 2 DB122945 DB122946 PZ2 14 mm DB122935 DB1 18789 DB1 18787 Protection Earth leakage protection 6.5 mm DB123310 DB123312 Clip on DIN rail 35 mm. Indifferent position of installation. DB123314 IP20 IP40

 61 Technical advice Principal of catalogue number  Pg 62 Dissipated power, Impedance and Voltage drop  Pg 63 Tripping curves   Pg 66 Influence of ambient temperature   Pg 72 Short-circuit current limiting   Pg 79 Direct current applications   Pg 97 400 Hz network  Pg 111

62 Principle of catalogue numbers ProtectionCircuit protectionEarth leakage protection iID, iC60, Vigi iC60, Reflex iC60, switches Range Family Code Internal code Poles Code Rating (A) Code Acti 9 (A9) iID R 0 0 0 00 Vigi iC60 V 1P 1 0.5 70 iC60 F 2P 2 0.75 71 Auxiliaries and accessories A 3P 3 1 01 Switches S 4P 4 1.6 72 Reflex iC60 C 1N 5 2 02 1P+N 6 2.5 73 3P+N 7 3 03 4 04 6 06 6.3 76 8 08 10 10 12.5 82 13 13 16 16 20 20 25 25 32 32 40 40 50 50 63 63 80 80 100 91 125 92 A9 R 15 2 63 Comb busbar and comb busbar accessories Range Family Code Type Type of installation Number of poles Dimensioning Acti 9 ( A9 ) Comb  busbar X Comb busbar 1P 1 Comb busbar Number of 18  mm modules (approximately) Fork teeth F Horizontal H Pin teeth P 2P 2 Accessories Number of  pieces per cat.  no. Auxiliarisable A 3P 3 Accessories 4P 4 End-piece E Double terminals D 4P balanced, with neutral 5 Tooth cover T Single terminal M 3P balanced for single-poles 6 Connector C A9 X P H 4 12

 63 Dissipated power, Impedance and Voltage drop Technical Advice Rating (A) 0.5 1 1.6 2 2.5 3 4 6 6.3 10 12.5 13 16 20 25 32 40 50 63 80 100 125 Circuit breakers iC60 2.3 2.3 1.9 2.2 2.4 1.3 2 2 2.1 2.2 2.7 2.8 3.6 4 5.6 iC60L-MA 0.7 0.2 0.6 0.9 1.1 1.5 1.6 0.8 2 2.3 1.9 2.2 2.4 2.7 1.8 2.5 3 3.1 3.5 3.6 4 5.6 RCCB iID 2P 0.8 0.9 2.6 2.6 3 5 4P 0.7 1.9 1.5 2.6 4.3 2.7 3.6 5.6 Add-on residual current devices Vigi iC60 10 mA 3 30 mA 1.4 1.1 2.3 100 mA 1.1 2.3 300 mA 1.3 0.9 2.3 500 mA 1.1 0.9 2.3 1000 mA 2.3 Contactors iCT/iCT+ Power circuit 0.6 0.9 1.4 1.5 3.4 4 Control circuit See module CA904007 Impulse relays iTL/iTL+ Power circuit 0.6 1.5 Control circuit See module CA904008 Push-buttons iPB 0.6 Selector switches iSSW 0.8 iCMA/iCMB/iCMC/ iCMD/iCMV 0.4 Switch-disconnectors iSW 0.8 1.3 1.1 1.8 3.4 4.2 iSW-NA 2P 0.7 1.8 3 5 4P 0.6 1.5 2.5 4.1 Indication auxiliaries iOF, iSD, iOF/SD+OF See module CA908028 Déclencheurs auxiliaires iMN, iMNs, iMNx,  iMX+OF, iMX, iMSU See module CA908029 Indicator lights iIL 0.3 Note: When the enclosure’s thermal balance, consider the 4P devices load is only on 3 phases Impedance calculation: Z = P / I² Z: impedance in Ohms P: dissipated power in Watts (table values) I: rating in Amperes Voltage drop calculation: U = P / I U: voltage drop in Volts P: dissipated power in Watts (table values) I: rating in Amperes The following table indicates the average dissipated power per pole in W for a  current equal to the rating of the device and at the operating voltage.  Acti 9 products

64 Dissipated power, Impedance and Voltage drop (cont.) Technical Advice Rating (A) 0.5 1 1.6 2 2.5 3 4 6 6.3 10 12.5 13 16 20 25 32 40 50 63 80 100 125 Circuit breakers DPN 2.5 1.9 2.1 2.6 2.7 2.7 3.3 3.2 4.7 4.7 4.6 5.8 C60/C60H-DC 2.2 2.3 2.6 2.2 2.4 2.7 1.8 2.5 2.5 3 3.1 3.5 4.3 4.8 6.1 C120 1.3 2.1 2.3 2.5 3.2 3.1 3.2 3 3.2 2 4.1 NG125 1.7 2.4 2.7 2.7 3.8 3.8 4.2 3.8 4.8 4.3 7.9 C60L-MA 2.4 2.5 2.4 3 2 2.5 2.6 3 4.6 NG125L-MA 3 2 2 3.1 2.5 3.2 4 5.5 6 RCCB ID Type A/AC 1.4 3.6 4.4 7.2 18 28 ID Type B 1.2 2.9 7.2 12 18 28 Contactors CT/CT+ Power circuit 0.9 1.4 Control circuit See module 92020 Impulse relays TL/TL+ Power circuit 0.9 1.4 Control circuit See module 92011 Push-buttons PB 0.6 Selector switches CM 0.8 CMA/CMB/CMC/CMD/ CMV 0.4 Switch-disconnectors I 0.8 1.3 1.1 1.8 3.4 4.2 I-NA 3.2 3.2 NG125NA 5.5 6 7 9 Indication auxiliaries OF, SD, OF/SD+OF See module 92605 Tripping auxiliaries MN, MNs, MNx, MX+OF,  MX, MSU See module 92605 Indicator lights V 0.3 Note: When the enclosure’s thermal balance, consider the 4P devices load is only on 3 phases Impedance calculation: Z = P / I² Z: impedance in Ohms P: dissipated power in Watts (table values) I: rating in Amperes Voltage drop calculation: U = P / I U: voltage drop in Volts P: dissipated power in Watts (table values) I: rating in Amperes The following table indicates the average dissipated power per pole in W for a  current equal to the rating of the device and at the operating voltage.  Multi 9 products

 65 Technical advice Tripping curves In t Thermal tripping limits Electromagnetic  tripping limits min. max. DB124179 The following curves show the total fault current breaking time, depending on its  amperage. For example: based on the curve on page 3, an iC60 circuit breaker of  curve C, 20 A rating, will interrupt a current of 100 A (5 times the rated current In) in:   b 0.45 seconds at least   b 6 seconds at most. The circuit breakers’ tripping curves consist of two parts:    b tripping of overload protection (thermal tripping device): the higher the current, the  shorter the tripping time   b tripping of short-circuit protection (magnetic tripping device): if the current exceeds  the threshold of this protection device, the breaking time is less than 10 milliseconds. For short-circuit currents exceeding 20 times the rated current, the time-current  curves do not give a sufficiently precise representation. The breaking of high  short-circuit currents is characterized by the current limiting curves, in peak current  and in energy. The total breaking time can be estimated at 5 times the value of the  ratio (I 2 t)/(Î) 2 . Verification of the discrimination between two circuit breakers  By superimposing the curve of a circuit breaker on that of the circuit breaker installed  upstream, one can check whether this combination will be discriminating in cases of  overload (discrimination for all current values, up to the magnetic threshold of the  upstream circuit breaker). This verification is useful when one of the two circuit  breakers has adjustable thresholds; for fixed-threshold devices, this information is  provided directly by the discrimination tables. To check discrimination on short circuit, the energy characteristics of the two devices  must be compared.

66 Technical advice Tripping curves According to IEC/EN 60898-1 standards iC60 According to IEC/EN 60898-1 (reference temperature 30°C) Curves B, C, D rating up to 4 A Curves B, C, D rating 6 A to 63 A DB124180 t(s) I / In 0,01 0,1 1 10 100 1000 1 3…5 5…10 10…14 C D B DB124185 t(s) 0,01 0,1 1 10 100 1000 I / In 1 C D B 3…5 5…10 10…14 C120N/H DPN, DPN N (circuit-breaker and residual current device) According to IEC/EN 60898-1 (reference temperature 30°C) According to IEC/EN 60898-1 (reference temperature 30°C) Curves B, C, D Curves B, C, D DB124207 t(s) I / In 0,01 0,1 1 10 100 1000 1 C D B 3…5 5…10 10…14 DB124208 t(s) I / In 0,01 0,1 1 10 100 1000 1 C D B 3…5 5…10 10…14 3600 s for I/In = 1.45 3600 s for I/In = 1.13 60 s  for I/In = 2.55 1 s  for  I/In = 2.55 3600 s for I/In = 1.45 3600 s for I/In = 1.13 60 s  for I/In = 2.55 1 s  for  I/In = 2.55 Alternative current 50/60 Hz 3600 s for I/In = 1.45 3600 s for I/In = 1.13 60 s  for I/In = 2.55 1 s  for  I/In = 2.55 3600 s for I/In = 1.45 3600 s for I/In = 1.13 60 s  for I/In = 2.55 1 s  for  I/In = 2.55

 67 Technical advice Tripping curves According to IEC/EN 60898-1 standards Alternative current 50/60 Hz C60 According to IEC/EN 60898-1 (reference temperature 30°C) Curves B, C, D DB405822 t(s) 0,01 0,1 1 10 100 1000 I / In 1 3…5 6.4…9.6 10…14 C D B 3600 s for I/In = 1.45 3600 s for I/In = 1.13 60 s  for I/In = 2.55 1 s  for  I/In = 2.55

68 Technical advice Tripping curves According to IEC/EN 60947-2 standards iC60 According to IEC/EN 60947-2 (reference temperature 50°C) Curves B, C, D rating up to 4 A Curves Z, K rating up to 4 A DB124181 t(s) I / In 0,01 0,1 1 10 100 1000 1 4 ±20% 8 ±20% 12 ±20% C D B DB124182 I / In t(s) 0,01 0,1 1 10 100 1000 K Z 1 3 ±20% 12 ±20% Curves B, C, D rating 6 A to 63 A Curves Z, K rating 6 A to 63 A DB124186 t(s) 0,01 0,1 1 10 100 1000 I / In 1 D B C 4 ±20% 8 ±20% 12 ±20% DB124187 I / In 1 t(s) 0,01 0,1 1 10 100 1000 K Z 3 ±20% 12 ±20% 3600 s for I/In= 1.3  3600 s for I/In = 1.3 3600 s for I/In = 1.3 3600 s for I/In = 1.3 3600 s for I/In = 1.05 3600 s for I/In = 1.05 3600 s for I/In = 1.05 3600 s for I/In = 1.05 Alternative current 50/60 Hz

 69 Technical advice Tripping curves According to IEC/EN 60947-2 standards Alternative current 50/60 Hz Reflex iC60N/H NG125a/N/H/L According to IEC/EN 60947-2 (reference temperature 50°C) According to IEC/EN 60947-2 (reference temperature 40°C) Curves B, C, D Curves B, C, D DB124210 t(s) I / In 0,01 0,1 1 10 100 1000 1 C D B 4 ±20% 8 ±20% 12 ±20% DB12421 1 t(s) I / In 0,01 0,1 1 10 100 1000 1 C D B 4 ±20% 8 ±20% 12 ±20% C60 According to IEC/EN 60947-2 (reference temperature 50°C) Curves B, C, D DB405823 t(s) 0,01 0,1 1 10 100 1000 C D B I / In 1 4 ±20% 8.5 ±20% 12 ±20% 3600 s for I/In= 1.3  3600 s for I/In = 1.3 3600 s for I/In = 1.05 3600 s for I/In = 1.05 3600 s for I/In= 1.3  3600 s for I/In = 1.05

70 Technical advice Tripping curves According to IEC/EN 60947-2 standards iC60N/H/L According to IEC/EN 60947-2 (reference temperature 50°C) Curves B, C, D rating up to 4 A Curves Z, K rating up to 4 A DB124184 t(s) 0,01 0,1 1 10 100 1000 I / In 1 B C D 5.7 ±20% 11.3 ±20% 17 ±20% DB124450 I / In t(s) 0,01 0,1 1 10 100 1000 K Z 1 4.2 ±20% 17 ±20% Curves B, C, D rating 6 A to 63 A Curves Z, K rating 6 A to 63 A DB124188 t(s) 0,01 0,1 1 10 100 1000 I / In B C D 1 5.7 ±20% 11.3 ±20% 17 ±20% DB124451 I / In t(s) 0,01 0,1 1 10 100 1000 K Z 1 4.2 ±20% 17 ±20% 3600 s for I/In = 1.05 3600 s for I/In = 1.3 3600 s for I/In = 1.05 3600 s for I/In = 1.3 3600 s for I/In = 1.3 3600 s for I/In = 1.05 3600 s for I/In = 1.3 3600 s for I/In = 1.05 Direct current

 71 Technical advice Tripping curves According to IEC/EN 60947-2 standards C60H-DC C60 According to IEC/EN 60947-2 (reference temperature 25°C) According to IEC/EN 60947-2 (reference temperature 50°C) Curve C Curves B, C, D DB124304 t(s) I / In 0,01 0,1 1 10 100 1000 1 C 7…10 DB405840 t(s) 0.01 0.1 1 10 100 1000 I / In 1 4.5…6.8 9.6…14.4 13.6..20.4 B C D NG125a/N/H/L According to IEC/EN 60947-2 (reference temperature 40°C) Curves B, C, D DB124184 t(s) I / In 0,01 0,1 1 10 100 1000 C D B 1 5.7 ±20% 11.3 ±20% 17 ±20% 3600 s for I/In = 1.05 3600 s for I/In = 1.3 Direct current 3600 s for I/In = 1.05 3600 s for I/In = 1.3

72 Influence of ambient temperature Technical Advice  Influence of temperature on the operation Devices Characteristics influenced by temperature  Temperature Min. Max. DPN, C60H-DC, C60, C120, NG125,  C60PV-DC circuit breakers Tripping on overload  -30°C +70°C Tripping on overload -25°C +60°C iC60N circuit breakers Tripping on overload -35°C +70°C Circuit breakers With Vigi (AC) Tripping on overload  -5°C +60°C With Vigi (A,  SI ) -25°C +60°C Reflex iC60 Tripping on overload -25°C +60°C C60H RCBO,  Tripping on overload -15°C +60°C C60NA-DC, SW60PV-DC switch- disconnectors Maximum operating current -25°C +70°C Maximum operating current -5°C +60°C iID residual current  circuit breakers AC Maximum operating current -5°C +60°C A,  SI -25°C +60°C Switches iSW Maximum operating current -20°C +50°C iSW-NA -35°C +70°C Protection auxiliaries None -35°C +70°C RCA, ARA control auxiliaries None -25°C +60°C iCT contactors Installation conditions -5°C +60°C iTL impulse relays None -20°C +50°C iCT, iTL auxiliaries None -20°C +50°C Distribloc Maximum operating current -25°C +60°C Multiclip Maximum operating current -25°C +60°C Note: the temperature considered is the temperature viewed through the device. Circuit breakers High temperatures   b A rise in temperature causes lowering of the thermal threshold   (tripping on overload).   b Protection is still ensured: the tripping threshold remains lower than the current  acceptable by the cable (I z )   b To prevent nuisance tripping, it should be checked that this threshold remains  higher than the maximum operating current (I B ) of the circuit, defined by:   v the rated load currents,   v the coefficients of expansion and simultaneity of use. If the temperature is sufficiently high for the tripping threshold to become lower than  the operating current I B , switchboard ventilation should be provided for. Low temperatures   b A fall in temperature increases the thermal tripping threshold of the circuit breaker.   b There is no risk of nuisance tripping: the threshold remains higher than the  maximum operating current of the circuit (I B ) demanded by the loads.   b It should be checked that the cable remains suitably protected, i.e. that its  acceptable current (I z ) is higher than the values shown in the following tables   (in amperes). When the ambient temperature could vary within a broad range, both these aspects  must be taken into account:    b the difference between the maximum operating current of the circuit (I B ) and the  tripping threshold of the circuit breaker for the minimum ambient temperature,   b the difference between the strength of the cable (I Z ) and the maximum tripping  threshold of the circuit breaker for the maximum ambient temperature.

 73 Technical Advice  Influence of ambient temperature (cont.) Maximum permissible current   b The maximum current allowed to flow through the device depends on the ambient  temperature in which it is placed.   b The ambient temperature is the temperature inside the enclosure or switchboard  in which the devices are installed.    b The reference temperature is in a halftone colour for the different devices.    b When several devices operating simultaneously are mounted side by side in a  small enclosure, a temperature rise in the enclosure results in a reduction in the  operating current. A reduction coefficient of 0.8 will then have to be assigned to the  rating (already derated, if applicable, depending on the ambient temperature).   b Example: Depending on the ambient temperature and the method of installation, the table  below shows how to determine, for an iC60, the operating currents not to be  exceeded for ratings 25 A, 32 A and 40 A (reference temperature 50°C). Operating current not to be exceeded (A) Installation conditions (IEC 60947-2) iC60 alone Several iC60 in the same enclosure  (calculate with the reduction coefficient  indicated below) Ambient  temperature (°C) 35°C 50°C 65°C 35°C 50°C 65°C Type Nominal  rating (A) Actual rating (A) iC60 25 26.35 25 23.57 26.35 x 0.8 = 21 25 x 0.8 = 20 23.57 x 0.8 = 19 32 34 32 29.9 34 x 0.8 = 27 32 x 0.8 = 25.6 29.9 x 0.8 = 24 40 42.5 40 37.34 42.5 x 0.8 = 34 40 x 0.8 = 32 37.34 x 0.8 = 30

74 C120 derating table (IEC 60898-1) C120 Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 10 A 12.9 12.7 12.5 12.2 12 11.8 11.5 11.3 11 10.8 10.5 10.3 10 9.7 9.4 9.1 8.8 8.5 8.2 7.9 7.5 16 A 19.4 19.1 18.8 18.6 18.3 18 17.8 17.5 17.2 16.9 16.6 16.3 16 15.7 15.4 15.1 14.7 14.4 14 13.7 13.3 20 A 24.6 24.2 23.9 23.5 23.2 22.8 22.4 22 21.6 21.2 20.8 20.4 20 19.6 19.1 18.7 18.2 17.7 17.3 16.8 16.2 25 A 30.9 30.5 30 29.5 29.1 28.6 28.1 27.6 27.1 26.6 26.1 25.5 25 24.4 23.9 23.3 22.7 22.1 21.5 20.8 20.1 32 A 38.9 38.4 37.9 37.3 36.8 36.2 35.6 35 34.5 33.9 33.3 32.6 32 31.4 30.7 30 29.3 28.6 27.9 27.2 26.4 40 A 49.8 49.1 48.3 47.6 46.8 46 45.2 44.4 43.5 42.7 41.8 40.9 40 39.1 38.1 37.1 36.1 35.1 34.1 33 31.8 50 A 62.2 61.3 60.4 59.4 58.4 57.5 56.5 55.4 54.4 53.3 52.2 51.1 50 48.8 47.7 46.4 45.2 43.9 42.6 41.2 39.8 63 A 78.6 77.5 76.3 75 73.8 72.5 71.3 69.9 68.6 67.3 65.9 64.5 63 61.5 60 58.4 56.8 55.2 53.5 51.7 49.9 80 A 98.4 97 95.6 94.2 92.7 91.2 89.7 88.1 86.6 85 83.4 81.7 80 78.3 76.5 74.7 72.8 70.9 69 67 64.9 100 A 124.5 122.6 120.7 118.8 116.9 114.9 112.9 110.9 108.8 106.6 104.5 102.3 100 97.7 95.3 92.9 90.4 87.8 85.2 82.5 79.6 125 A 157 154.6 152.2 149.7 147.1 144.6 141.9 139.2 136.5 133.7 130.9 128 125 122 118.8 115.6 112.3 108.9 105.4 101.8 98 Technical Advice  Influence of ambient temperature (cont.) IEC 60898-1

 75 Technical Advice  Influence of ambient temperature (cont.) Tertiary/Industry (IEC 60947-2) DPN derating table (IEC 60947-2) DPN Ambient temperature (°C) Rating Curve -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 1 A B, C, D 1.69 1.66 1.62 1.59 1.55 1.51 1.47 1.43 1.39 1.35 1.3 1.26 1.21 1.16 1.11 1.06 1 0.94 0.88 0.81 0.73 2 A B, C, D 2.68 2.64 2.6 2.56 2.52 2.48 2.44 2.4 2.36 2.32 2.28 2.23 2.19 2.14 2.1 2.05 2 1.95 1.9 1.85 1.79 3 A B, C, D 4.03 3.97 3.91 3.86 3.8 3.74 3.68 3.61 3.55 3.49 3.42 3.36 3.29 3.22 3.15 3.07 3 2.92 2.85 2.77 2.68 4 A B, C, D 5.26 5.19 5.12 5.05 4.98 4.9 4.83 4.75 4.67 4.6 4.52 4.43 4.35 4.27 4.18 4.09 4 3.91 3.81 3.72 3.62 6 A B, C, D 7.51 7.42 7.34 7.25 7.16 7.07 6.98 6.89 6.8 6.7 6.61 6.51 6.41 6.31 6.21 6.11 6 5.89 5.78 5.67 5.56 10 A B 12.5 12.3 12.2 12.1 11.9 11.8 11.6 11.5 11.3 11.2 11 10.8 10.7 10.5 10.3 10.2 10 9.8 9.7 9.5 9.3 10 A C, D 13 12.9 12.7 12.5 12.3 12.2 12 11.8 11.6 11.4 11.2 11 10.8 10.6 10.4 10.2 10 9.8 9.6 9.3 9.1 13 A B 17 16.7 16.5 16.3 16.1 15.8 15.6 15.4 15.1 14.9 14.6 14.4 14.1 13.8 13.6 13.3 13 12.7 12.4 12.1 11.8 13 A C, D 17.2 16.9 16.7 16.5 16.2 16 15.7 15.5 15.2 15 14.7 14.4 14.2 13.9 13.6 13.3 13 12.7 12.4 12.1 11.7 16 A B, C 20.6 20.4 20.1 19.8 19.6 19.3 19 18.7 18.5 18.2 17.9 17.6 17.3 17 16.7 16.3 16 15.7 15.3 15 14.6 16 A D 20.8 20.5 20.2 20 19.7 19.4 19.1 18.8 18.5 18.2 17.9 17.6 17.3 17 16.7 16.3 16 15.7 15.3 14.9 14.6 20 A B 25.7 25.3 25 24.7 24.4 24 23.7 23.4 23 22.7 22.3 21.9 21.6 21.2 20.8 20.4 20 19.6 19.2 18.8 18.3 20 A C, D 26 25.7 25.3 25 24.6 24.3 23.9 23.6 23.2 22.8 22.4 22 21.7 21.3 20.8 20.4 20 19.6 19.1 18.7 18.2 25 A B, C, D 32 31.6 31.2 30.8 30.4 30 29.6 29.2 28.7 28.3 27.8 27.4 26.9 26.5 26 25.5 25 24.5 24 23.5 22.9 32 A B, C, D 41.6 41.1 40.5 40 39.4 38.9 38.3 37.7 37.1 36.5 35.9 35.3 34.7 34 33.4 32.7 32 31.3 30.6 29.9 29.1 40 A B, C, D 52.7 52 51.3 50.6 49.8 49.1 48.3 47.6 46.8 46 45.2 44.4 43.5 42.7 41.8 40.9 40 39.1 38.1 37.1 36.1 iC60, Reflex iC60 derating table (IEC 60947-2) iC60 Ambient temperature (°C) Rating -35 -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 0.5 A 0.66 0.65 0.64 0.63 0.63 0.62 0.61 0.6 0.59 0.58 0.57 0.56 0.55 0.54 0.53 0.52 0.51 0.5 0.49 0.48 0.47 0.45 1 A 1.32 1.3 1.28 1.27 1.25 1.23 1.21 1.2 1.18 1.16 1.14 1.12 1.1 1.08 1.06 1.04 1.02 1 0.98 0.96 0.93 0.91 2 A 2.79 2.75 2.71 2.67 2.63 2.58 2.54 2.5 2.45 2.4 2.36 2.31 2.26 2.21 2.16 2.11 2.05 2 1.94 1.89 1.83 1.76 3 A 4.21 4.15 4.08 4.02 3.96 3.89 3.83 3.76 3.69 3.62 3.55 3.48 3.4 3.32 3.25 3.17 3.08 3 2.91 2.82 2.73 2.64 4 A 5.62 5.54 5.46 5.37 5.29 5.2 5.11 5.02 4.93 4.83 4.74 4.64 4.54 4.44 4.33 4.22 4.11 4 3.88 3.76 3.64 3.51 6 A 8.55 8.42 8.29 8.16 8.03 7.89 7.75 7.61 7.46 7.31 7.16 7.01 6.85 6.69 6.52 6.35 6.18 6 5.81 5.62 5.43 5.22 10 A 13.3 13.2 13 12.8 12.6 12.5 12.3 12.1 11.9 11.7 11.5 11.3 11.1 10.9 10.7 10.5 10.2 10 9.8 9.5 9.3 9 13 A 17.1 16.9 16.7 16.4 16.2 16 15.8 15.5 15.3 15.1 14.8 14.6 14.3 14.1 13.8 13.6 13.3 13 12.7 12.4 12.1 11.8 16 A 21.1 20.8 20.6 20.3 20 19.7 19.5 19.2 18.9 18.6 18.3 18 17.7 17.3 17 16.7 16.3 16 15.7 15.3 14.9 14.5 20 A 26 25.7 25.4 25 24.7 24.4 24.1 23.7 23.4 23 22.7 22.3 21.9 21.6 21.2 20.8 20.4 20 19.6 19.2 18.7 18.3 25 A 31.9 31.6 31.2 30.8 30.4 30.1 29.7 29.3 28.9 28.5 28.1 27.6 27.2 26.8 26.4 25.9 25.5 25 24.5 24.1 23.6 23.1 32 A 42 41.5 41 40.5 39.9 39.4 38.8 38.2 37.7 37.1 36.5 35.9 35.3 34.6 34 33.3 32.7 32 31.3 30.6 29.9 29.1 40 A 52.6 51.9 51.3 50.6 49.9 49.2 48.5 47.8 47.1 46.4 45.6 44.9 44.1 43.3 42.5 41.7 40.9 40 39.1 38.2 37.3 36.4 50 A 67.1 66.3 65.4 64.5 63.5 62.6 61.6 60.7 59.7 58.7 57.7 56.7 55.6 54.5 53.4 52.3 51.2 50 48.8 47.6 46.3 45 63 A 86.3 85.1 83.9 82.7 81.4 80.1 78.9 77.6 76.2 74.9 73.5 72.1 70.7 69.2 67.7 66.2 64.6 63 61.4 59.7 57.9 56.1 Reflex iC60 C60 derating table (IEC 60947-2) C60 Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 0.5 A 0.68 0.67 0.66 0.65 0.64 0.63 0.62 0.61 0.6 0.59 0.58 0.56 0.55 0.54 0.53 0.51 0.5 0.49 0.47 0.46 0.44 0.75 A 0.93 0.92 0.91 0.9 0.89 0.88 0.87 0.86 0.85 0.83 0.82 0.81 0.8 0.79 0.78 0.76 0.75 0.74 0.72 0.7 0.68 1 A 1.31 1.3 1.28 1.27 1.25 1.23 1.21 1.19 1.17 1.15 1.13 1.11 1.09 1.07 1.05 1.02 1 0.98 0.95 0.93 0.91 2 A 2.55 2.59 2.56 2.52 2.49 2.45 2.41 2.37 2.34 2.3 2.26 2.22 2.17 2.13 2.09 2.04 2 1.95 1.91 1.88 1.84 3 A 3.81 4.04 3.98 3.92 3.85 3.79 3.73 3.66 3.59 3.52 3.45 3.38 3.31 3.23 3.16 3.08 3 2.92 2.83 2.82 2.76 4 A 4.9 4.86 4.81 4.76 4.7 4.65 4.59 4.54 4.48 4.42 4.37 4.31 4.25 4.19 4.13 4.06 4 3.94 3.87 3.81 3.74 6 A 7.93 7.82 7.71 7.6 7.49 7.38 7.27 7.15 7.03 6.91 6.79 6.66 6.54 6.41 6.27 6.14 6 5.86 5.71 5.56 5.42 8 A 10.37 10.23 10.09 9.96 9.82 9.68 9.54 9.4 9.25 9.11 8.96 8.81 8.65 8.49 8.33 8.17 8 7.83 7.65 7.47 7.31 10 A 13.3 13.2 13 12.8 12.6 12.4 12.2 12 11.8 11.6 11.4 11.2 10.9 10.7 10.5 10.2 10 9.8 9.5 9.2 9 13 A 17 16.9 16.6 16.4 16.2 15.9 15.7 15.4 15.2 14.9 14.7 14.4 14.1 13.9 13.6 13.3 13 12.7 12.4 12.1 11.8 16 A 20 19.8 19.5 19.3 19.1 18.8 18.6 18.4 18.1 17.9 17.6 17.3 17.1 16.8 16.6 16.3 16 15.7 15.4 15.1 14.8 20 A 26.9 26.6 26.2 25.8 25.4 25 24.6 24.2 23.7 23.3 22.9 22.4 22 21.5 21 20.5 20 19.5 18.9 18.4 17.9 25 A 32.9 32.5 32.1 31.6 31.1 30.7 30.2 29.7 29.2 28.7 28.2 27.7 27.2 26.7 26.1 25.6 25 24.4 23.8 23.2 22.6 32 A 41.5 41.1 40.5 40 39.4 38.9 38.3 37.7 37.1 36.5 35.9 35.3 34.7 34 33.4 32.7 32 31.3 30.6 29.9 29.1 40 A 53.7 52.9 52.2 51.4 50.6 49.8 49 48.2 47.3 46.5 45.6 44.7 43.8 42.9 42 41 40 39 37.9 36.9 35.8 45 A 60.8 60.1 59.2 58.3 57.4 56.5 55.5 54.6 53.6 52.6 51.6 50.5 49.5 48.4 47.3 46.2 45 43.8 42.6 41.4 40.1 50 A 65 64.3 63.5 62.6 61.7 60.8 59.9 59 58.1 57.1 56.2 55.2 54.2 53.2 52.1 51.1 50 48.9 47.8 46.7 45.5 63 A 85.5 84.6 83.3 82 80.7 79.4 78 76.7 75.3 73.9 72.4 70.9 69.4 67.9 66.3 64.7 63 61.3 59.5 57.8 56

76 C60H-DC derating table (IEC 60947-2) C60H-DC Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 0.5 A 0.63 0.62 0.61 0.6 0.59 0.58 0.56 0.55 0.54 0.53 0.51 0.5 0.49 0.47 0.46 0.44 0.43 0.41 0.39 0.38 0.36 1 A 1.18 1.17 1.15 1.14 1.12 1.1 1.09 1.07 1.05 1.04 1.02 1 0.98 0.96 0.94 0.92 0.9 0.88 0.86 0.84 0.82 2 A 2.54 2.5 2.45 2.41 2.36 2.31 2.26 2.21 2.16 2.11 2.06 2 1.94 1.88 1.82 1.76 1.7 1.63 1.56 1.48 1.41 3 A 3.78 3.71 3.65 3.58 3.51 3.45 3.38 3.3 3.23 3.16 3.08 3 2.92 2.84 2.75 2.66 2.57 2.48 2.38 2.27 2.17 4 A 5.08 4.99 4.9 4.81 4.71 4.62 4.52 4.42 4.32 4.22 4.11 4 3.89 3.77 3.65 3.53 3.4 3.27 3.13 2.98 2.83 5 A 6 5.92 5.83 5.74 5.66 5.57 5.48 5.39 5.29 5.2 5.1 5 4.9 4.8 4.69 4.58 4.47 4.36 4.24 4.12 4 6 A 7.26 7.15 7.04 6.94 6.83 6.71 6.6 6.48 6.37 6.25 6.12 6 5.87 5.74 5.61 5.47 5.33 5.19 5.04 4.89 4.73 10 A 12.6 12.4 12.2 11.9 11.7 11.5 11.3 11 10.8 10.5 10.3 10 9.7 9.5 9.2 8.9 8.6 8.3 7.9 7.6 7.2 13 A 15.5 15.3 15.1 14.9 14.6 14.4 14.2 14 13.7 13.5 13.3 13 12.8 12.5 12.2 12 11.7 11.4 11.1 10.8 10.5 15 A 18.6 18.3 18 17.7 17.4 17.1 16.7 16.4 16.1 15.7 15.4 15 14.6 14.3 13.9 13.5 13 12.6 12.2 11.7 11.2 16 A 19.4 19.1 18.9 18.6 18.3 18 17.6 17.3 17 16.7 16.3 16 15.7 15.3 14.9 14.6 14.2 13.8 13.4 13 12.5 20 A 24.1 23.7 23.4 23 22.7 22.3 21.9 21.6 21.2 20.8 20.4 20 19.6 19.2 18.7 18.3 17.9 17.4 16.9 16.4 15.9 25 A 30.4 29.9 29.5 29 28.5 28.1 27.6 27.1 26.6 26.1 25.5 25 24.5 23.9 23.3 22.7 22.1 21.5 20.9 20.2 19.6 30 A 37.4 36.7 36.1 35.5 34.9 34.2 33.5 32.9 32.2 31.5 30.7 30 29.2 28.5 27.7 26.8 26 25.1 24.2 23.2 22.3 32 A 38.5 37.9 37.4 36.8 36.2 35.7 35.1 34.5 33.9 33.3 32.6 32 31.4 30.7 30 29.3 28.6 27.9 27.1 26.3 25.5 40 A 48.9 48.2 47.4 46.7 45.9 45.1 44.3 43.5 42.6 41.8 40.9 40 39.1 38.2 37.2 36.2 35.2 34.2 33.1 32 30.8 50 A 59.9 59.1 58.3 57.4 56.5 55.6 54.7 53.8 52.9 52 51 50 49 48 46.9 45.9 44.8 43.6 42.5 41.3 40.1 63 A 78.2 76.9 75.6 74.3 73 71.7 70.3 68.9 67.5 66 64.5 63 61.4 59.8 58.2 56.5 54.7 52.9 51.1 49.1 47.1 C120 derating table (IEC 60947-2) C120 Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 10 A 14.5 14.3 14 13.8 13.5 13.3 13 12.7 12.5 12.2 11.9 11.6 11.3 11 10.7 10.3 10 9.7 9.3 8.9 8.5 16 A 21.2 21 20.7 20.4 20.1 19.8 19.4 19.1 18.8 18.5 18.2 17.8 17.5 17.1 16.8 16.4 16 15.6 15.2 14.8 14.4 20 A 27 26.6 26.3 25.9 25.5 25 24.6 24.2 23.8 23.3 22.9 22.4 22 21.5 21 20.5 20 19.5 18.9 18.4 17.8 25 A 33.7 33.3 32.8 32.3 31.8 31.3 30.8 30.2 29.7 29.1 28.6 28 27.5 26.9 26.3 25.6 25 24.4 23.7 23 22.3 32 A 42.7 42.1 41.5 40.9 40.3 39.7 39 38.4 37.7 37.1 36.4 35.7 35 34.3 33.5 32.8 32 31.2 30.4 29.6 28.7 40 A 54.8 54 53.2 52.4 51.5 50.7 49.8 48.9 48 47.1 46.1 45.2 44.2 43.2 42.1 41.1 40 38.9 37.7 36.6 35.3 50 A 69.1 68.1 67 65.9 64.8 63.7 62.6 61.5 60.3 59.1 57.9 56.7 55.4 54.1 52.8 51.4 50 48.6 47.1 45.5 43.9 63 A 87.1 85.8 84.5 83.1 81.8 80.4 78.9 77.5 76 74.5 73 71.4 69.8 68.2 66.5 64.8 63 61.2 59.3 57.4 55.4 80 A 103.7 102.4 101 99.7 98.3 96.9 95.5 94.1 92.6 91.1 89.6 88.1 86.5 84.9 83.3 81.7 80 78.3 76.5 74.7 72.9 100 A 137.6 135.5 133.5 131.4 129.2 127.1 124.8 122.6 120.3 118 115.6 113.1 110.6 108.1 105.5 102.8 100 97.2 94.2 91.2 88.1 125 A 174.6 171.9 169.2 166.4 163.6 160.7 157.8 154.9 151.8 148.7 145.6 142.4 139.1 135.7 132.2 128.7 125 121.2 117.3 113.3 109.1 Tertiary/Industry (IEC 60947-2) (cont.) Technical Advice  Influence of ambient temperature (cont.) C60PV-DC derating table (IEC 60947-2) C60PV-DC Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 1 A 1.18 1.17 1.15 1.14 1.12 1.1 1.09 1.07 1.05 1.04 1.02 1 0.98 0.96 0.94 0.92 0.9 0.88 0.86 0.84 0.82 2 A 2.54 2.5 2.45 2.41 2.36 2.31 2.26 2.21 2.16 2.11 2.06 2 1.94 1.88 1.82 1.76 1.7 1.63 1.56 1.48 1.41 3 A 3.78 3.71 3.65 3.58 3.51 3.45 3.38 3.3 3.23 3.16 3.08 3 2.92 2.84 2.75 2.66 2.57 2.48 2.38 2.27 2.17 5 A 6 5.92 5.83 5.74 5.66 5.57 5.48 5.39 5.29 5.2 5.1 5 4.9 4.8 4.69 4.58 4.47 4.36 4.24 4.12 4 8 A 9.64 9.5 9.36 9.22 9.08 8.93 8.78 8.63 8.48 8.32 8.16 8 7.83 7.67 7.49 7.31 7.13 6.95 6.76 6.56 6.36 10 A 12.6 12.4 12.2 11.9 11.7 11.5 11.2 11 11.8 10.5 10.3 10 9.7 9.4 9.2 9.9 8.6 8.2 7.9 7.6 7.2 13 A 15.5 15.3 15.1 14.8 14.6 14.4 14.2 14 13.7 13.5 13.2 13 12.7 12.5 12.2 12 11.7 11.4 11.1 10.8 10.5 15 A 18.6 18.3 18 17.7 17.4 17.1 16.7 16.4 16.1 16.7 15.4 15 14.6 14.3 13.9 13.5 13 12.6 12.2 11.7 11.2 16 A 19.4 19.1 18.9 18.6 18.3 18 17.6 17.3 17 16.7 16.3 16 15.7 15.3 14.9 14.6 14.2 13.8 13.4 13 12.5 20 A 24.1 23.7 23.4 23 22.7 22.3 21.9 21.6 21.2 20.8 20.4 20 19.6 19.2 18.7 18.3 17.9 17.4 16.9 16.4 15.9 25 A 30.4 29.9 29.5 29 28.5 28.1 27.6 27.1 26.6 26.1 25.5 25 24.5 23.9 23.3 22.7 22.1 21.5 20.9 20.2 19.6 30 A 37.4 36.7 36.1 35.5 34.9 34.2 33.5 32.9 32.2 31.5 30.7 30 29.2 28.5 27.7 26.8 26 25.1 24.2 23.2 22.3

 77 C60H RCBO derating table (IEC 61009-1) C60H RCBO Ambient temperature (°C) Rating -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 6 A 8.3 8.15 7.99 7.83 7.67 7.50 7.33 7.16 6.98 6.79 6.6 6.41 6.21 6 5.78 5.56 10 A 12.9 12.7 12.5 12.3 12.1 11.9 11.6 11.4 11.2 11 10.7 10.5 10.3 10 9.7 9.5 16 A 20.9 20.6 20.3 19.9 19.6 19.2 18.8 18.4 18.1 17.7 17.3 16.9 16.4 16 15.6 15.1 20 A 26.3 25.9 25.4 25 24.5 24.1 23.6 23.1 22.6 22.1 21.6 21.1 20.6 20 19.4 18.8 25 A 31.5 31 30.6 30.1 29.6 29.2 28.7 28.2 27.7 27.2 26.6 26.1 25.6 25 24.4 23.8 32 A 39.2 38.7 38.2 37.7 37.2 36.6 36.1 35.5 35 34.4 33.8 33.2 32.6 32 31.4 30.7 40 A 50.2 49.5 48.8 48 47.3 46.5 45.8 45 44.2 43.4 42.6 41.7 40.9 40 39.1 38.2 45 A 55.5 54.7 54 53.2 52.5 51.7 50.9 50.1 49.3 48.5 47.6 46.8 45.9 45 41.9 41 Technical Advice  Influence of ambient temperature (cont.) Tertiary/Industry (IEC 60947-3) SW60-DC derating table (IEC 60947-3) SW60PV-DC Ambient temperature (°C) Rating +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +60 +70 50 A 63 61 60 58 56 54 52 50 48 46 41 35 NG125 derating table (IEC 60947-2)  NG125 Ambient temperature (°C) Rating -30 -25 -20 -15 -10 -5 0 +5 +10 +15 +20 +25 +30 +35 +40 +45 +50 +55 +60 +65 +70 10 A 13.7 13.5 13.2 13 12.8 12.5 12.3 12 11.7 11.5 11.2 10.9 10.6 10.3 10 9.7 9.4 9 8.7 8.3 7.9 16 A 20.3 20.1 19.8 19.5 19.2 18.9 18.6 18.3 18 17.7 17.4 17 16.7 16.4 16 15.7 15.3 14.9 14.5 14.1 13.7 20 A 26 25.6 25.3 24.9 24.5 24 23.6 23.2 22.8 22.3 21.9 21.4 21 20.5 20 19.5 19 18.5 17.9 17.4 16.8 25 A 33.8 33.2 32.7 32.1 31.5 30.9 30.3 29.7 29.1 28.4 27.8 27.1 26.4 25.7 25 24.3 23.5 22.7 21.9 21 20.1 32 A 41.2 40.6 40 39.4 38.8 38.2 37.5 36.9 36.2 35.6 34.9 34.2 33.5 32.7 32 31.2 30.5 29.7 28.8 28 27.1 40 A 53.5 52.7 51.8 51 50.1 49.1 48.2 47.3 46.3 45.3 44.3 43.3 42.2 41.1 40 38.9 37.7 36.5 35.2 33.9 32.5 50 A 66.3 65.2 64.2 63.1 62.1 61 59.8 58.7 57.5 56.4 55.1 53.9 52.6 51.3 50 48.6 47.2 45.8 44.3 42.7 41.1 63 A 83.4 82.1 80.8 79.5 78.1 76.8 75.4 73.9 72.5 71 69.5 67.9 66.3 64.7 63 61.3 59.5 57.7 55.8 53.9 51.8 80 A 100.4 99.1 97.8 96.4 95 93.6 92.2 90.8 89.3 87.8 86.3 84.8 83.2 81.6 80 78.3 76.6 74.9 73.1 71.3 69.4 100 A 133.4 131.3 129.1 127 124.8 122.5 120.2 117.9 115.5 113.1 110.6 108 105.4 102.7 100 97.2 94.3 91.3 88.2 85 81.6 125 A 165.2 162.7 160.1 157.5 154.8 152.1 149.3 146.5 143.6 140.7 137.7 134.6 131.5 128.3 125 121.6 118.1 114.6 110.9 107 103.1 Tertiary/Industry (IEC 60947-2) (cont.)

78 DB123331 Spacer cat. no. A9A27062 Switches   b In all cases, the switches are correctly protected against overloads by a circuit  breaker with a lower or equal rating, operating at the same ambient temperature. iCT contactors In the case of contactor mounting in an enclosure for which the interior temperature is  in a range between 50°C and 60°C, it is necessary to use a spacer,   cat. no. A9A27062, between each contactor. Splitter blocks In the event of a temperature higher than 40°C, the maximum acceptable current is  limited to the values in the table below: Type Temperature 40°C 45°C 50°C 55°C 60°C Multiclip 80 A 80 76 73 69 66 Distribloc 63 A 63 60 58 55 53 Technical Advice  Influence of ambient temperature (cont.)

 79 DB125768 DB125767 Technical Advice Short-circuit current limiting Definition The limiting capacity of a circuit breaker is its ability to lessen the effects of a short  circuit on an electrical installation by reducing the current amplitude and the  dissipated power.  Benefits of limiting Long installation service life Thermal effects Lower temperature rise at the conductor level, hence increased service life for  cables and all components that are not self-protected (e.g. switches, contactors, etc.) Mechanical effects Lower electrodynamic repulsion forces, hence less risk of deformation or breakage  of electrical contacts and busbars. Electromagnetic effects Less interference on sensitive equipment located in the vicinity of an electric circuit. Savings through cascading Cascading is a technique derived directly from current limiting: downstream of a  current-limiting circuit breaker it is possible to use circuit breakers of breaking  capacity lower than the prospective short-circuit current (in line with the cascading  tables). The breaking capacity is heightened thanks to current limiting by the  upstream device. Substantial savings can be achieved in this way on switchgear and  enclosures. Discrimination of protection devices The circuit breakers’ current limiting capacity improves discrimination with the  protection devices located upstream: this is because the required energy passing  through the upstream protection device is greatly reduced and can be not enough to  cause it to trip. Discrimination can thus be natural without having to install a  time-delayed protection device upstream.  Acti 9 circuit breaker current limiting Profiting from Schneider Electric’s experience and expertise in the field of short- circuit current breaking, the circuit breakers of the Acti 9 range have a top-level  current limiting characteristic for modular devices.  This assures them of optimal protection of the entire power distribution system. I²sc A² Prospective  energy 100% Limited  energy 100% t Isc Prospective  peak Isc Limited  peak Isc Limited Isc Prospective Isc t tc Prospective current and real limit current.

80 DB125769 Technical Advice Short-circuit current limiting (cont.) Representation: Current limiting curves The current limiting capacity of a circuit breaker is reflected by 2 curves which give,  as a function of the prospective short-circuit current (current which would flow in the  absence of a protection device):   b the real peak current (limited)   b the thermal stress (in A²s), this value, multiplied by the resistance of any element  through which the short-circuit current passes, gives the power dissipated by this  element. The straight line “10 ms” representing the energy A²s of a prospective short-circuit  current of a half-period (10 ms) indicates the energy that would be dissipated by   the short-circuit current in the absence of limiting by the protection device (see  example). Example  What is the energy limited by an iC60N 25 A circuit breaker for a prospective  short-circuit current of 10 kA rms. What is the quality of current limiting?  as shown in the graph opposite:  b  this short-circuit current (10 kA rms) is likely to dissipate up to  1,000 kA 2 s  b  the iC60N circuit breaker reduces this thermal stress to: 35  kA 2 s, which is 22 times less. Example of use: Stresses acceptable by the cables The following table shows the thermal stresses acceptable by the cables depending  on their insulation, their composition (Cu or Al) and their cross section. Cross-section  values are expressed in mm² and stresses in A²s. S (mm²) 1.5 2.5 4 6 10 PVC Cu 2.97 x 10 4 8.26 x 10 4 2.12 x 10 5 4.76 x 10 5 1.32 x 10 6 Al 5.41 x 10 5 PRC Cu 4.10 x 10 4 1.39 x 10 5 2.92 x 10 5 6.56 x 10 5 1.82 x 10 6 Al 7.52 x 10 5 S (mm²) 16 25 35 50 PVC Cu 3.4 x 10 6 8.26 x 10 6 1.62 x 10 7 3.21 x 10 7 Al 1.39 x 10 6 3.38 x 10 6 6.64 x 10 6 1.35 x 10 7 PRC Cu 4.69 x 10 6 1.39 x 10 7 2.23 x 10 7 4.56 x 10 7 Al 1.93 x 10 6 4.70 x 10 6 9.23 x 10 6 1.88 x 10 7 Example Is a Cu/PVC cable of cross section 10 mm² protected by a NG125L device? The above table shows that the acceptable stress is 1.32 x 10 6  A²s. Any short-circuit  current at the point where a NG125L device (Icu = 25 kA) is installed will be limited,  with a thermal stress of less than 2.2 x 10 5  A²s. (Curve on page  ? ). The cable is therefore always protected up to the breaking capacity of the circuit  breaker.  10000 100000 1000000 100 1000 100 10 1 0,1 0,01 ≤1 4 6 8 -10 16 20 -25 32 -40 50 -63 2 -3 10 ms 400 3 Limited energy ( A² s) Prospective current (kA rms)

 81 DPN (MCB and RCBO) 1P+N / 3P / 3P+N Peak current Thermal stress DB124267 Peak  current (kA) Prospective short-circuit current (kA eff.) 0,1 1 10 100 10 1 0,1 0,01 1 2 3 – 4 10 16 – 25 32 – 40 DB124265 Thermal  stress  (A²s) Prospective short-circuit current (kA eff.) 100 1 000 10 000 100 000 1 000 000 0,01 0,1 1 10 1 2 10 10 ms 3 – 4 16 – 25 32 – 40 DPN N (MCB and RCBO) 1P+N / 3P / 3P+N Peak current Thermal stress DB124264 0,1 1 10 100 10 1 0,1 0,01 1 2 10 3 – 4 16 – 25 32 – 40 Peak  current (kA) Prospective short-circuit current (kA eff.) DB124266 100 1 000 10 000 100 000 1 000 000 0,01 0,1 1 10 1 2 10 10 ms 3 – 4 16 – 25 32 – 40 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC) Technical Advice Short-circuit current limiting (cont.)

82 Technical Advice Short-circuit current limiting (cont.) iC60N 1P / 1P+N / 2P / 3P / 4P Peak current Thermal stress DB124280 Peak  current (kA) Prospective short-circuit current (kA eff.) 0,1 1 10 100 100 10 1 0,1 0,01 y 1 4 6 8 – 10 16 20 – 25 32 – 40 50 – 63  2 – 3 DB124281 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 10000 100000 1000000 100 1000 100 10 1 0,1 0,01 y 1 4 6 8 -10 16 20 -25 32 -40 50 -63 2 -3 10 ms iC60H 1P / 1P+N / 2P / 3P / 4P Peak current Thermal stress DB124284 Peak  current (kA) Prospective short-circuit current (kA eff.) 0,1 1 10 100 10 100 1 0,1 0,01 y 1 4 6 8 – 10 16 20 – 25 32 – 40 50 – 63 2 – 3 DB124285 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 10000 100000 1000000 100 1000 100 10 1 0,1 0,01 y 1 4 6 8 -10 16 20 -25 32 -40 50 -63 2 -3 10 ms Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC)

 83 Technical Advice Short-circuit current limiting (cont.) iC60L 1P / 2P / 3P / 4P Peak current Thermal stress DB124288 Prospective short-circuit current (kA eff.) Peak  current (kA) 0,1 1 10 100 100 10 1 0,1 0,01 y 1 4 6 8 – 10 16 20 – 25 32 – 40 50 – 63 2 – 3 DB124289 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 10000 100000 1000000 100 1000 100 10 1 0,1 0,01 y 1 4 6 8 -10 16 20 -25 32 -40 50 -63 2 -3 10 ms Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC)

84 Technical Advice Short-circuit current limiting (cont.) C60a 1P / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405716 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405712 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 C60N 1P / 1P+N / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405719 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405715 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA)

 85 C60H 1P / 1P+N / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405717 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405713 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 C60L 1P / 2P / 3P / 4P Peak current Thermal stress DB405718 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405714 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Technical Advice Short-circuit current limiting (cont.)

86 C120N, H 1P / 2P / 3P / 4P Peak current DB124293 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 15 20 15 30 2 9 1 cos phi = 0.3  = 0.5  = 0.8  = 0.9  = 0.95 87 6 5  = 0.7 Prospective short-circuit current (kA eff.) Peak current (kA)   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H   v 5: 10-16 A   v 6: 20-25 A   v 7: 32-40 A   v 8: 50-63 A   v 9: 80-125 A Thermal stress DB405604 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5 2 1 16A 25A 32A 50A 125A 100A 63A 10A 20A 40A 80A 10ms Prospective short-circuit current (kA eff.) Thermal  stress (A²s)   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC) Technical Advice Short-circuit current limiting (cont.)

 87 NG125a, N, H, L 1P / 2P / 3P / 4P Peak current DB124299 Prospective short-circuit current (kA eff.) Peak current (kA) 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 100 50 40 30 20 15 4 2 6 5 7 8 9 1 3 cos phi = 0.3  = 0.5 = 0.7  = 0.8  = 0.9  = 0.95   b Circuit breaker type in accordance with the mark:   v 1: NG125a   v 2: NG125N   v 3: NG125H   v 4: NG125L   v 5: 10 -16 A   v 6: 20-25 A   v 7: 32-40 A   v 8: 50-63 A   v 9: 80-125 A Thermal stress DB405607 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 10A 16A 20A 25A 32A 40A 50A 80A 125A100A 63A 10ms 1 2 3 4 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5   b Circuit breaker type in accordance with the mark:   v 1: NG125a 80-100-125 A   v 2: NG125N   v 3: NG125H   v 4: NG125L Limitation curves for network Ue: 380-415 V AC (Ph/N 220-240 V AC) Technical Advice Short-circuit current limiting (cont.)

88 C60N 2P / 3P / 4P Peak current Thermal stress DB405727 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405723 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 10 ms Limitation curves for network Ue: 440 V AC Prospective short-circuit current (kA eff.) Peak  current (kA) Prospective short-circuit current (kA eff.) Peak  current (kA) Technical Advice Short-circuit current limiting (cont.)

 89 C60H 2P / 3P / 4P Peak current Thermal stress DB405725 100 10 1 100 10 1 4 6 0 16 – 25 40 63 DB405721 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 10 ms C60L 2P / 3P / 4P Peak current Thermal stress DB405726 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405722 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 0.5 0.75 1 2 3 4 6 10 – 16 20 – 25 32 – 40 50 – 63 10 ms Limitation curves for network Ue: 440 V AC Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Technical Advice Short-circuit current limiting (cont.)

90 C120N, H 2P / 3P / 4P Peak current DB124294 Prospective short-circuit current (kA eff.) Peak current (kA) 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 15 20 15 30 2 7 cos phi = 0.3  = 0.5  = 0.8  = 0.9  = 0.95 6 5 4 3  = 0.7 1   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H   v 3: 0-16 A   v 4: 20-25 A   v 5: 32-40 A   v 6: 50-63 A   v 7: 80-125 A Thermal stress DB405605 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 2 16A 25A 32A 50A 125A 100A 63A 10A 20A 40A 80A 1 10ms 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H Limitation curves for network Ue: 440 V AC Technical Advice Short-circuit current limiting (cont.)

 91 NG125a, N, H, L 2P / 3P / 4P Peak current DB124300 Prospective short-circuit current (kA eff.) Peak current (kA) 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 100 50 40 30 20 15 2 9 8 10 1 3 cos phi = 0.3  = 0.5 = 0.7  = 0.8  = 0.9  = 0.95 6 4 11 12 5 7   b Circuit breaker type in accordance with the mark:   v 1: NG125a 3, 4P   v 2: NG125N 2, 3, 4P   v 3: NG125H 3, 4P   v 4-5: NG125H 2P/NG125L 3, 4P   v 6: NG125L 2P   v 7: NG125 LMA 2, 3, 4P   v 8: 10 -16 A   v 9: 20-25 A   v 10: 32-40 A   v 11: 50-63 A   v 12: 80-125 A Thermal stress DB405608 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 10A 16A 20A 25A 32A 40A 50A 125A 2 3 6 100A 63A 1 7 5 4 80A 10ms 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5   b Circuit breaker type in accordance with the mark:   v 1: NG125a 3, 4P   v 2: NG125N 2, 3, 4P   v 3: NG125H 3, 4P   v 4-5: NG125H 2P/NG125L 3, 4P   v 6: NG125L 2P   v 7: NG125LMA 2, 3, 4P Limitation curves for networkUe: 550 V AC Technical Advice Short-circuit current limiting (cont.)

92 C60a 1P / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405706 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405702 10 ms 0.5 0.75 1 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 C60N 1P / 1P+N / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405709 100 10 1 100 10 1 4 6 10 16 – 25 40 63 DB405705 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 Limitation curves for network Ue: 220-240 V AC (Ph/N 110-130 V AC) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Technical Advice Short-circuit current limiting (cont.)

 93 C60H 1P / 1P+N / 2P / 3P / 3P+N / 4P Peak current Thermal stress DB405707 100 10 1 100 10 1 04 6 10 16 – 25 40 63 DB405703 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 1 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 C60L 1P / 2P / 3P / 4P Peak current Thermal stress DB405708 100 10 1 100 10 1 4 6 10 16 40 63 DB405704 10000 100000 1000000 100 10 1000 100 10 1 0.1 0.01 10 ms 0.5 0.75 01 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 Technical Advice Short-circuit current limiting (cont.)  Limitation curves for network Ue: 220-240 V AC (Ph/N 110-130 V AC) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA) Prospective short-circuit current (kA eff.) Prospective short-circuit current (kA eff.) Peak  current (kA) Peak  current (kA)

94 Technical Advice Short-circuit current limiting (cont.) C120N, H 1P / 2P / 3P / 4P Peak current DB124292 Prospective short-circuit current (kA eff.) Peak current (kA) 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 15 20 15 30 2 9 1 cos phi = 0.3  = 0.5  = 0.8  = 0.9  = 0.95 8 7 65  = 0.7   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H   v 5: 10-16 A   v 6: 20-25 A   v 7: 32-40 A   v 8: 50-63 A   v 9: 80-125 A Thermal stress DB405603 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 2 10ms 1 16A 25A 32A 50A 125A 100A 63A 10A 20A 40A 80A 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5   b Circuit breaker type in accordance with the mark:   v 1: C120N   v 2: C120H Limitation curves for network Ue: 220-240 V AC (Ph/N 110-130 V AC)

 95 Technical Advice Short-circuit current limiting (cont.) NG125a, N, H, L 1P / 2P / 3P / 4P Peak current DB124298 Prospective short-circuit current (kA eff.) Peak current (kA) 1 2 10 1 2 4 10 3 5 8 6 7 9 20 5 6 7 8 9 4 3 100 50 40 30 20 15 4 3 2 6 5 7 8 9 1 cos phi = 0.3  = 0.5 = 0.7  = 0.8  = 0.9  = 0.95   b Circuit breaker type in accordance with the mark:   v 1: NG125a   v 2: NG125N   v 3: NG125H   v 4: NG125L   v 5: 10-16 A   v 6: 20-25 A   v 7: 32-40 A   v 8: 50-63 A   v 9: 80-125 A Thermal stress DB405606 Prospective short-circuit current (kA eff.) Thermal  stress (A²s) 1 2 3 4 10A 16A 40A 125A 100A 80A 63A 50A 32A 25A 20A 10ms 10 10 10 10 10 6 5 2 4 3 0.1 1 10 100 5 5 5 5 5   b Circuit breaker type in accordance with the mark:   v 1: NG125a 80-100-125 A   v 2: NG125N   v 3: NG125H   v 4: NG125L Limitation curves for network Ue: 220-240 V AC (Ph/N 110-130 V AC)

96 Technical Advice Short-circuit current limiting (cont.) C60H-DC curve C 1P (220 V) – 2P (440 V) Peak current Thermal stress DB123588 0.1 1 10 100 100 10 1 0.1 0.01 ≤ 1 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 Prospective short-circuit current (kA eff.) Peak  current (kA) DB123591 10000 100000 1000000 100 1000 100 10 1 0.1 0.01 0.5 – 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 10 ms Prospective short-circuit current (kA eff.) Thermal  stress (A²s) Limitation curves for direct current network C60H-DC curve C 1P (250 V DC) – 2P (500 V DC) Peak current Thermal stress DB123589 0.1 1 10 100 100 10 1 0.1 0.01 ≤ 1 2 3 4 6 10 16 20 – 25 32 – 40 50 – 63 Prospective short-circuit current (kA eff.) Peak  current (kA) DB124306 10000 100000 1000000 100 1000 100 10 1 0.1 0.01 0.5 – 2 3 4 6 10 16 10 ms 50 – 63 32 – 4020 – 25 Prospective short-circuit current (kA eff.) Thermal  stress (A²s)

 97 Technical advice Circuit breakers for direct current applications 24 V – 48 V direct current applications Typical applications  Direct current has been used for a long time and in many fields. It offers major  advantages, in particular immunity to electrical interference. Moreover, direct-current  installations are now simpler, because they benefit from the development of power  supplies with electronic converters and batteries.   b Communication or measurement network:   v 48 V DC switched telephone network,    v 4-20 mA current loop.    b Electrical supply for industrial PLCs:   v PLCs and peripheral devices (24 or 48 V DC).    b Auxiliary uninterruptible direct current power supply:    v relays or electronic protection units for MV cubicles,   v switchgear opening / closing trip units,    v LV control and monitoring relays,   v indicator lights,   v circuit-breaker or on/off switch motor drives,   v power contactor coils,   v control/monitoring and supervision devices with communication that can be  powered via a separate uninterruptible power supply.    b 24 to 48 V DC wind application:   v isolated homes,   v cottages, bungalows, mountain refuges,    v pumps, street lighting,   v measuring instruments, data acquisition,   v telecommunication relays,   v industrial applications. Types of direct current networks  According to the types of DC networks illustrated below, we can identify the risks to  the installation and define the best means of protection.  For further information on the types of networks and the faults that characterise them, refer to the  direct current circuit breaker (LV) selection guide, 220E2100.indd.  For all these configurations, we propose a single protection solution that depends  only on the requirement for the nominal current In and the short-circuit current Isc at  the installation point concerned.  The second important point in our solution is the fact that the protection is  implemented by non-polarised circuit breakers that can operate efficiently, whatever  the direction of the direct current. DB124236 Earthed Isolated from earth I : Earthed (or grounded) polarity (in this case negative) II : Earthed mid-point  III : Isolated polarities  1 pole (1P isolation)  2 poles (2P isolation) 2 poles 2 poles DB124075 DB124067 DB124076 DB124068 D E 2 poles (1P isolation 1P+N) DB124387 Worst-case faults Fault A and fault B (if only one polarity is protected)  Fault B Double fault A and D or C and E  Isc

98 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications DB124383 24 – 48 V direct current protection solution The performance levels shown in the tables below correspond to the most critical  faults according to the network configuration.    b Breaking on one pole.    b Fault between polarity and earth (Fault A). Standard solution depending on the network and the requirements of the installation (In / Isc) In addition to the parameters shown on the following pages, the tables below  illustrate our range of circuit breakers according to the nominal current of the load  and short-circuit current at the point of installation.   b Circuit breaker rating.   b Breaking capacity of the circuit breaker. 1 pole isolation solution (1P) DB405575 Breaking capacity (kA) Icu IEC 60947-2 Maximum  rating (A) y 10  y 15  y 20  y 25  y 36  y 63  y 80  y 125  u 125  y 50  C120H iC60H NG125N NG125H NG125L Compact NSX y 4.5

 99 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications ( ) 3P NG125N connected in a two-pole configuration to reach 125 A (1P / 2P NG125 has a  maximum rating of 80 A).  1 pole isolation solution (1P+N) Specific use of the iDPN range in a network with one polarity earthed and both poles  isolated: compact solution (1P+N in 18 mm). 2 pôles isolation solution (2P) DB405576 DB124384 DB124385 DB124386 Breaking capacity (kA) Icu IEC 60947-2 Maximum  rating (A) y 10 y 15  y 20  y 25  y 36 y 63  y 80  y 125 u 125  y 50  y 4.5 C120H iC60H NG125N NG125N NG125H NG125L Compact NS D E DB404549 DB124077 y 6 y 40 y 63 iDPN N Breaking capacity (kA) Icu IEC 60947-2 Maximum  rating (A) ( ) iC60a breaking capacity Icu = 10 kA.

100 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Constraints related to “direct current” applications  In direct current, inductors and capacitors do not disturb the operation of the  installation in steady state. Capacitors are charged and inductors no longer oppose  changes in the current.  However, they create transient phenomena when the circuit opens or closes, during  which time the current varies. Actual loads have both characteristics and generate  oscillatory phenomena.  Type of load Inductive load An inductive load will tend to lengthen the current interrupt or establishment time,  because the inductance L then opposes the change in the current (Ldi/dt).  The transient phenomenon will mainly be characterised by a time constant imposed  by the load and whose value corresponds approximately to the interrupt or closing  time that the switchgear has to withstand. In addition, during the interrupt time, the  switchgear must be able to withstand the additional energy stored in the inductor in  steady state.  An inductive load therefore requires particular attention with respect to its time  constant.  A low value (typically  5 ms) facilitates interruption.  Capacitive load During a closing operation, a capacitive load will cause an inrush current due to the  load on the capacitor, virtually under short-circuit condition at the beginning of the  phenomenon.  On opening, it will tend to discharge. The time constant is generally very low ( 1 ms)  and its effect is secondary with respect to the inrush current. A capacitive load will  require particular attention to the inrush or discharge current surges.  DB124240 U S i S L R E Ri U L  = L di/dt DB124241 E/R τ  = L/R i t Inductive load DB404550 i S C E Req E S U L Rsource + Rcables  DB124243 τ  = i i = E/Req E t Rsource   + Rcables  Iinrush = Rsource C Capacitive load

 101 Technical advice Time constant L/R When a short-circuit occurs across the terminals of a direct current circuit, the  current increases from the operating current ( In) to the short-circuit current Isc  during a time depending on the resistance R and the inductance L of the short- circuited loop.  The equation that governs the current in this loop is:  U = Ri + Ldi/dt .  A short-circuit current is established (neglecting In with respect to Isc)   by the equation:  i = Isc (1 – exp(-t/ τ )) , where  τ  = L/R  is the time constant used to establish the short-circuit.  In practice, after a time  t = 3 τ  the short-circuit is considered to be established,  because the value of exp(-3) = 0.05 is negligible compared to 1. The lower the corresponding time constant (e.g. battery circuit), the faster a  short-circuit is established.  L/R Description DC applications 2 ms Very fast short-circuit   b Photovoltaic applications 5 ms Fast short-circuit established   b Resistive or slightly inductive circuits:    v indicator light   v trip units (MN, MX)   v motor armatures    v battery charger/uninterruptible power supply  (UPS)   b Capacitive circuits: electronic controller  15 ms Standardised value used in  standard IEC 60947-2    b Inductive circuits:   v electromagnetic coil   v contactor coil   v motor inductor  30 ms Slower short-circuit  established   b Highly inductive circuits:   v electromagnetic coil   v contactor coil   v motor inductor  In general, the system time constant is calculated under worst case conditions,  across the terminals of the generator.  Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications DB124245 DB124246 R L Isc 95 63 40 τ t 2 τ 3 τ 4 τ % Isc Isc

102 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Tripping curves We can choose our solution according to the inrush currents generated by our loads,  in the same way as for alternating current. In direct current, the same thermal  tripping curves are obtained as in alternating current. The only difference is that the  magnetic thresholds are offset by a coefficient √2 compared to the curves obtained  in alternating current.  Characteristics of the various curves and their applications:  Curves Magnetic thresholds DC applications  AC DC Z 2.4 to 3.6 In 3.4 to 5 In   b Resistive loads   b Loads with electronic circuits B 3.2 to 4.8 In 4.5 to 6.8 In   b Motor inductor: starting current 2 to 4 In    b Battery charger/Uninterruptible power supply  (UPS) C 6.4 to 9.6 In 9.05 to 13.6 In   b Electronic controller D et K 9.6 to 14.4 In 13.6 to 20.4 In   b Electromagnetic coil: inrush overvoltage   10 to 20 Un   b LV relay   b Trip units (MN, MX)   b Indicator light   b PLCs (industrial programmable   logic controllers)  The figures opposite are iC60 tripping curves showing DC magnetic thresholds and  normative limits  Example Protection of the 4 mm 2  cable supplying a load at In = 30 A with a 32 A rating and a  tripping curve that allows the starting current for this load to be absorbed. DB124188 t(s) 0,01 0,1 1 10 100 1000 I / In B C D 1 5.7 ±20% 11.3 ±20% 17 ±20% 3600 s for I/In = 1.3 3600 s for I/In = 1.05 Curves B, C, D, ratings 6 A to 63 A DB124244 t(s) 0,01 0,1 1 10 100 1000 I (A) 100 1000 10 4 mm 2  cable  fusion curve Starting current iC60, 32 A  C curve Curve C, rating 32 A (AC magnetic thresholds in dotted lines) DB124451 I / In t(s) 0,01 0,1 1 10 100 1000 K Z 1 4.2 ±20% 17 ±20% 3600 s for I/In = 1.3 3600 s for I/In = 1.05 Curves Z, K, ratings 6 A to 63 A

DB124248  103 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications T Total discrimination.No discrimination. Continuity of service of the solutions  Discrimination of the direct current protection devices  Discrimination is a key element that must be taken into account right from the design  stage of a low-voltage installation to allow continuity of service of the electrical  power. Discrimination involves coordination between two circuit breakers connected in  series, so that in the event of a fault, only the circuit breaker positioned immediately  upstream of the fault trips. A discrimination current Is is defined as:    b I fault Is: only D2 removes the fault, discrimination ensured,    b I fault Is: both circuit breakers may trip, discrimination not ensured.  Discrimination may be partial or total, up to the breaking capacity of the downstream  circuit breaker. To ensure total discrimination, the characteristics of the upstream  device must be higher than those of the downstream one.  The same principles apply to designing both direct current and alternating current  installations. Only the limit currents change when direct current is used.  Once again, we find the same concepts of discrimination:   b total : up to the breaking capacity of the downstream device. Our tests have been  performed at up to 25 kA or 50 kA depending on the breaking capacity of the devices  in question.   b partial : indication of the discrimination limit current Is. Discrimination is ensured  below this value; above this value, the upstream device participates in the breaking  process,    b none : no discrimination ensured, the upstream and downstream circuit breakers  will trip. For further information about the discrimination concept for protection devices in  general, refer to technical supplement 557E4300, “Discrimination of modular circuit  breakers”. Total discrimination solutions In the following tables, we offer you solutions that favour continuity of service (total  discrimination between circuit breakers), for different short-circuit currents. DB124247 Only D2 trips D1 and   D2 trip Ifault 0 D2 Is

104 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Total discrimination: 20 kA Upstream   Curve C  Time constant (L/R) = 15 ms iC60H C120H NS In (A) 10 – 16 20 – 25 32 40 50 – 63 80 100 125 u 100 Downstream iC60H Curves B,C y  3 T T T T T T T T T 4 T T T T T T T T 6 T T T T T T 10 T T T T 13 T T T T 16 to 25 T T T T 32 T T T 40 T T 50 – 63 T T Total discrimination: 36 kA Upstream   Curve C  Time constant (L/R) = 15 ms NG125H NS In (A) 80 u 100 Downstream NG125H Curves B,C 10 T T 16 to 63 T Total discrimination: 50 kA Upstream   Curve C  Time constant (L/R) = 15 ms NG125L NS In (A) 80 u 100 Downstream NG125L Curves B,C 10 T T 16 to 63 T T Total discrimination.No discrimination.

 105 Technical advice Circuit breakers for direct current applications 24 V – 48 V direct current applications DB124251 DB124249 Coordination with loads  As seen above, the circuit-breaker characteristics chosen depend on the type of load  downstream of the installation. The rating depends on the size of the cables to be protected and the curves depend  on the load inrush current. Product selection according to the load inrush current  When certain “capacitive” loads are switched on, very high inrush currents appear  during the first milliseconds of operation. The following graphs show the average DC  non-tripping curves of our products for this time range (50 μs to 10 ms). iC60 DB124249 Ipeak/In t(ms) 0,01 0,1 1 10 100 1000 10 1 Curve D Curve B Curve C NG125 / C120 DB124250 t(ms) 0,01 0,1 1 10 100 1000 10 1 Ipeak/In Curve D Curve B Curve C This information allows us to select the most appropriate product, according to the  load specifications: curve and rating. Example When an iC60 is used with a load with current peaks in the order of 200 In during the  first 0.1 millisecond, a curve C or D product must be installed.  Ipeak/In t(ms) 0,01 0,1 1 10 100 1000 10 1 Curve D Curve B Curve C 0,1 100 200 1000 0,1 200

106 Technical advice Circuit breakers for direct current applications 24 V – 48 V direct current applications Personal protection Personal protection (earth-leakage protection) is not mandatory for this voltage  range (24-48 V DC). In fact, according to the standards currently in force, the minimum ventricular  fibrillation current If for human beings is in the order of 25 mA for alternating current  (50 Hz), whereas for direct current, it is more than 50 mA.  The table below shows the data according to the standards and conditions:  Environment Voltage specifications AC DC Dry environment Zman = 2000 Ohm Uf = Z x If 50 V 100 V Wet environment Zman = 1000 Ohm Uf = Z x If 25 V 50 V With  Z corresponding to the impedance of the human body in the different types of environment,  If being the current passing through the body and Uf the minimum contact voltage required to  reach the danger current.  Under normal operating conditions, this voltage range ( 50 V) is therefore not  dangerous to human beings. DB124238 DB124239 DB124237 Uf If Z man Standards: IEC 60479-2, NF C 15100, IEC 60755.

 107 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Examples of applications Industrial applications Monitoring of agro-food tanks with 24 V DC converters for probes and  other sensors    b Isolated network:   v Isc = 20 kA,   v In = 40 A. Solution iC60H 2P 40 A + 24 V converters DB124258 In U Tank 1  probe  Tank 2  probe  Tank 3  probe  Tank 4  probe  Isc Control of industrial process measurement by 12/24/48 V DC control   b Isolated network:   v Isc = 20 kA,   v In = 40 A. Solution iC60H 2P 40 A + DC solid-state relays  DB124261 In U Isc Load 1 Load 2 Load 3

108 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications 24 V DC generator power supply protection   b Earthed network:    v Isc = 10 kA / In = 63 A,   v Isc = 10 kA / In = 20 A. Solution iC60H 2P 63 A + iC60N 2P 20 A + DC loads  DB124262 In 1 In 2 Isc 1 AC network Load 1 Isc 2 DC network Load 2 Load 3

 109 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Tertiary applications Control and monitoring of the 48 V DC emergency lighting distribution for a shopping centre    b Mid-point of the network:   v Isc = 20 kA,   v In = 125 A. Solution NG125H 3P 125 A + power contactors DB124259 U/2U/2 In Isc Shopping   centre lighting  Zone 1 Shopping   centre lighting  Zone 2 Shopping   centre lighting  Zone 3 Shopping   centre lighting  Zone 4

110 Technical advice Circuit breakers for direct current applications (cont.) 24 V – 48 V direct current applications Power supply protection by 24 V DC direct current generator   b Earthed network:    v Isc 1  = 10 kA / In = 40 A,   v Isc 2  = 10 kA / In = 2/4/6 A. Solution iC60H 2P 40 A + iC60H 2P 2/4/6 A + PLC inputs + DC loads The Phaseo network failure solution provides the installation (or part thereof) with a  24 V DC power supply in the event of a mains voltage failure:    b throughout the mains failure, to ensure the continuity of service of the installation.   b during a limited time to allow:   v data to be backed up,   v actuators to be put in the fallback position,   v a generating set to be started up,    v the operating systems to be shut down,   v remote supervision data to be transmitted. DB124282 In 1 In 2 + AC  network DC  network Load 1 Input 1 Input 2 PLC Input 3 Load 2 Isc 1 Isc 2

 111 Technical Advice 400 Hz network Compatibility of 50/60 Hz equipment with a 400 Hz network The performance of products designed for domestic frequencies of 50/60 Hz is  impacted by the specific properties of networks of 400 Hz frequency. Phenomena due to the increased frequency influence the behaviour of the copper  components of transformers, cables and protective equipment. Some types of equipment designed for 50/60 Hz networks may not be suitable. You should check whether or not a product is compatible and also apply any  correction factors given by the manufacturer. Circuit breakers  Depending on the technologies used, modular circuit breakers designed for  50/60 Hz can be used at 400 Hz. To choose the performance of a modular circuit breaker:   b do not take any thermal derating into account   (In at 400 Hz is equivalent to In at 50 Hz).   b increase the magnetic tripping threshold, according to the table below.   b check that the short-circuit current on the installation is less than the breaking  capacity of the circuit breaker. The breaking capacity of the circuit breakers at a  frequency of 400 Hz is the same as at frequencies of 50/60 Hz. This characteristic is  generally complied with, due to the fact that the short-circuit current of a 400 Hz  generator is relatively low. In most cases, the generator Isc does not exceed four  times the rated current. Circuit breaker Curve Magnetic trip thresholds 50 Hz 400 Hz Tolerance iDPN, DPN B 4 In 6 In ± 20 % C 8 In 12 In D 12 In 18 In iC60 B 4 In 5.6 In C 8 In 11.2 In D 12 In 16.8 In C60 B 4 In 5.1 In C 8.5 In 10.9 In D 12 In 15.4 In C120 The NG125 and C120 circuit breakers are not suitable for networks  of 400 Hz frequency. Refer to the Compact NSX offer. NG125

112 Technical Advice 400 Hz network (cont.) Compatibility of residual current devices at 400 Hz: Depending on the type and the technology employed, a residual current device  designed for a frequency of 50/60 Hz will or will not be capable of ensuring protection  for users in accordance with the requirements of the standard. Type of protection and type of equipment Use possible on network of 400 Hz frequency Limit A type Not compatible Trip threshold exceeding the  limit given by the curve AC type Not recommended Excessive sensitivity with  risk of unwanted tripping  (poor guarantee of continuity  of service) Si  type iID YES Vigi iC60 Not compatible Trip threshold exceeding the  limit given by the curve DPN Vigi, Vigi  DPN YES Note: The choice of an iID residual current circuit breaker ensures protection for users at 400 Hz  while ensuring good continuity of service. At 400 Hz, the test function of residual current devices designed for 50/60 Hz is not operational due to the increase in the trip threshold. Auxiliary function Voltmetric releases If a circuit breaker needs to be provided with a voltmetric release whose control  circuit is powered by the 400 Hz network, it is necessary to use a release auxiliary of  appropriate characteristics for 400 Hz networks: Type Voltage Cat. no. Undervoltage release iMN 115 V AC – 400 Hz A9A26959 15 F f 50/60 100 300 ƒ(Hz) 1000 10 5 6 1 400 Frequency  factor Frequency  Variations in the ventricular fibrillation threshold for shock durations exceeding the period of  cardiac cycle (as per IEC 60479-2). Earth leakage protection devices  The residual current device trip thresholds designed for 50/60 Hz increase with the  frequency, but since the human body is less sensitive to the passage of a current at  400 Hz, protection is still ensured for the users. According to the IEC 60479-2 standard, at 400 Hz the ventricular fibrillation  threshold is higher by a ratio of 6 (which means that the physiological effect of a  180 mA current at 400 Hz will be the same as that of a 30 mA current at 50/60 Hz).

 113 Dimensions

114 Dimensions (mm) Part number A B C SEA9AN2 200 300 117 SEA9AN6 273 300 117 SEA9AN10, SEA9AN26DS 345 300 117 SEA9SNI4, SEA9AN26SL, SEA9AN66DS, SEA9AN616MS, SEA9ANI08MS 417 300 117 SEA9ANI8, SEA9AN6S6, SEA9AN5I0SL, SEA9AN96SL, SEA9ANI06DS, SEA9AN624MS, SEA9ANI016MS, SEA9ANI48MS 489 300 117 SEA9AN27, SEA9ANI0SI0, SEA9ANI432MS 417 530 117 Datum 12 ø6.25 ø13 Key hole slot dimensions Distribution boardsA type

 115 9 Dimensions (mm) ™ Part number A B SEA9BN4,SEA9BN6 484 386 SEA9BN8 538 440 SEA9BN12 700 602 SEA9BN16, MGBN18 862 710 SEA9BN24 1024 872 SEA9BN split metering 1294 1192 Distribution boardsB type

116 Dimensions (mm) Part number Number of  Dimensions (mm)Height  Width Depth SEA9BN6HDGK/G-R 6 650 600 290 SEA9BN8HDGK/G-R 8 650 600 290 SEA9BN12HDGK/G-R 12 850 600 290 SEA9BN16HDGK/G-R 16 850 600 290 Denotes the maximum depth dimensions with key fitted. 525 625 575/775 max. 700/900max. M8 ø12 ø7 10 10 B board extension box enclosures Part number A SEA9BNEXN 124 SEA9BNEX034N 140 SEA9BNKWH 124 SEA9BNEXA15N 140 SEA9BN100CCI 140 SEA9BNDSI 124 270 470 A 60 60 65 65 Heavy duty distribution board (100A)IP55 weatherproof

 117 Weight (g) Circuit-breaker  Type iC60H 1P 125 2P 250 3P 375 4P 500 iC60H circuit breakers   Protection Circuit protection  Dimensions (mm) DB405584 72 54 36 50 5.5 85 4.6 64 69.5 78.5 18 4P 3P 2P 1P 45

118 Vigi iC60 add-on residual current devices Protection Earth leakage protection  Dimensions (mm) Vigi iC60 25 A DB122766   2P 4P Vigi iC60 40 and 63 A 2P 4P 54 54 91 45 91 91 91 91 91 91 101 36 27 36 36 54 63 72 63 72 54 73.5 44 5.5 20 91 45 101 73.5 44 5.5 20 54 54 91 45 91 91 91 91 91 91 101 36 27 36 36 54 63 72 63 72 54 73.5 44 5.5 20 91 45 101 73.5 44 5.5 20 Weight (g) Add-on residual current devices Type Vigi iC60 2P 165 4P 245

 119 iC60 RCBO 10, 30 and 100 mA Protect Circuit protection Dimensions (mm) DB405565 110 18 45 19 72 20 45 55 15 5.5 45 19 72 20 45 55 15 5.5 110 36 iC60N RCBO, iC60H RCBO Weight (g)  iC60 RCBO iC60H RCBO 205

120 Dimensions (mm) DB124223 iOF/SD+OF iOF, iSD iOF+SD24 iMN, iMNs, iMNx, iMSU, iMX, iMX+OF 90 9 67.5 63.5 44 5.5 86 9 45 67.5 63.5 44 5.5 45 67.5 63.5 49.5 5.5 45 45 86 85 17.5 9 68 66 44 5.5 88 Technical data Weight (g) Electrical auxiliaries Type iMN 69 iMNs 72 iMNx 79 iMSU 68 iMX 64 iMX+OF 68 iOF 32 iSD 33 iOF/SD+OF 43 iOF+SD24 25 Electrical auxiliaries for iC60, iID, RCA and ARA ProtectionCircuit protectionEarth leakage protection

 121 Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW (cont.) ProtectionCircuit protectionEarth leakage protection Dimensions (mm) DB124149 19 65 5 177 54 DB124152 88.5 96 360 18.5 10 10 85 18.5 135 75 18.5 47 17 75 Handle Adapter mechanism Plug-in base Rotary handle DB124148 72 54 36 6 36 20 81 20 4P3P 1P+N/2P DB124143 16 27 17 DB124150 44 18 9 5 15 45 85 Inter-pole barrier Padlocking device Spacer DB124144 18 51.5 35 49 DB124145 36 51.5 35 49 DB405964 34 18 45 7  30 10 Ø8 Ø4 Ø8 Ø4 40 128 113 56 Terminal shield 1P Terminal shield 2P Wall mounted DB124146  11.5 11 31 9 106 DB124147 72 54 36 18 4P3P2P1P 11 25 106 9 Screw shield 1P (A9A26982) Screw shield 4P (A9A26981)

122 Accessories for iC60, iID ,  iDPN Vigi, iSW-NA, Reflex iC60, RCA, ARA, iSW (cont.) ProtectionCircuit protectionEarth leakage protection Rotary handle installation Dimensions (mm) DB124142 iC60 Z (mm) 2P 25.3  3P 25.3  4P 43  4P + Vigi 43  3P + Vigi 43  2P + Vigi 25.3 iID  Z (mm) 2P 25.3  4P 25.3 D = P – 128 mm P (mm) F (mm) 300 5  500 11  166 P 500  D F 159 19 F 5 12 13 15 6 GVAPL01 Z Z Z 6.3 17.5 2 36 36 4.2 50 45° ± 2° iC60 3P iC60 4P iID 4P 117 56 85 112 18.5 18.5 47 Rotary handle: front mounted control DB124141 A iC60 X (mm) 2P 44.5  3P 44.5  4P 62  Y (mm) 76.8  2P + Vigi 44.5  76.8 76.8  3P + Vigi 62  94.5 94.5  4P + Vigi 62  94.5  117 44 82 iID/iSW-NA  X (mm) Y (mm) 2P 44.5  4P 44.5  76.876.8 19 D D = L – X L Y 494 mm – A Rotary handle: side mounted control

 123 Dimensions (mm) DB122775   85 96 44 5.5 20 2 P 4 P 72 36 69 45 Weight (g) Residual current circuit breakers Type iID 2P 210 4P 370 iID residual current circuit breakers (AC, A,  SI  types)  (cont.) Protection Earth leakage protection

UK contact details –  0870 608 8 608 Fax  0870 608 8 606  Ireland contact details –  01 601 2200 Fax  01 601 2201 As the global specialist in energy management with operations in more  than 100 countries, Schneider Electric offers integrated solutions across  multiple market segments, including leadership positions in energy  and infrastructure, industrial processes, building automation, and data  centres/networks, as well as a broad presence in residential applications.  Schneider Electric is dedicated to making individuals’ and organisations’ energy safe, reliable, efficient, productive and green from Power Plant to Plug TM . We are changing our brand names and becoming one Schneider Electric.  You’ll get the same great quality products, but from one name you can remember and trust. This provides you and your customers with the reassurance associated with Schneider Electric. Some of our market leading brands have already become Schneider Electric including Merlin Gerin, Telemecanique, Square D, GET, Mita, Sarel, Himel, Thorsman,  Tower and TAC. Working as one Schneider Electric makes it clearer that our ranges are highly compatible for integrated solutions.   Schneider Electric Ltd Schneider Electric Limited is a company registered in England and Wales. Registered number: 1407228. Registered office: Stafford Park 5, Telford, Shropshire TF3 3BL. © 2013 Schneider Electric. All Rights Reserved. Schneider Electric, Active Energy Management,  Compact, EcoStruxure, ION Enterprise, iRIO, Make the most of your energy, Masterpact,  Micrologic, Power Plant To Plug, Modbus, and PowerLogic are owned by Schneider Electric  Industries SAS, or its affiliated companies in the United States and other countries.  As standards, specifications and designs change from time to time, please ask for confirmation  of the information given in this publication. SE7856   MAR  2013 United KingdomStafford Park 5, TelfordShropshire TF3 3BLTel: 0870 608 8 608Fax: 0870 608 8 606www.schneider-electric.com/uk IrelandHead office, Block aMaynooth Business CampusMaynooth, Co. KildareTel: (01) 601 2200Fax: (01) 601 2201www.schneider-electric.com/ie member of