Catálogo Painel de MT: Premset

P remset   Medium Voltage Distribution Catalogue | 2013 15 kV  Compact modular vacuum switchgear With Shielded Solid Insulation System Make the most of your energy

2 AMTED399053EN

3 AMTED310010EN General contents Premset Overview 9 Building your solution 21 General characteristics 33 Core units 37 Protection, monitoring   and control 51 Connections 77 Technical appendix 83

Innovation for  MV distribution Medium Voltage Distribution Premset 15 kV Compact modular   vacuum switchgear  Reliability Safety Flexibility Efficiency

5 AMTED310010EN Efficiency Smart grid and advanced management solutions across your network Medium Voltage Distribution Premset 15 kV Compact modular   vacuum switchgear   The electricity market is changing. Every day, end-users’ expectations  increase and suppliers worldwide gain a greater awareness of energy’s  environmental impact. Meanwhile, overall consumption is steadily growing.  But as this reliance on electricity grows globally, the ways in which we produce,  distribute, and use energy must also evolve. The solution will involve not only  smarter demand, but also smarter supply and a smarter grid. Intelligent, smart grid-ready solutions To meet these challenges, we need to enhance our electrical distribution networks  with intelligent, smart grid-ready solutions that bring a new level of efficiency through  advanced monitoring and control.This is precisely what Premset architecture is designed to do, enhancing your  installation with such features as:   b Feeder automation, with switchgear including built-in communication and local  intelligence   b Load management, with integrated smart metering   b Asset management, with advanced switchgear and transformer monitoring   b Automatic Transfer System, with integrated source transfer solution to reduce  power supply interruption. Architecture with distributed intelligence The intelligent electronic devices (IEDs) used in Premset solutions allow easy  integration, based on a standard communications protocol, with a plug-and-play  scanning system for easy configuration.All this adds up to a flexible system with integrated Web technology,   pre-engineered and pre-tested, which you can easily upgrade as necessary.   With Premset architecture, you can easily build a smarter MV distribution system. Intelligent  Electronic Devices Communication Network Radio / GSM /  GPRS / Ethernet PM104061

6 AMTED310010EN Reliability Long-lasting performance with the  Shielded Solid Insulation System (2SIS) Medium Voltage Distribution Premset 15 kV Compact modular   vacuum switchgear   In addition to its impressive ability to maintain optimal performance   in any environment, the Shielded Solid Insulation System also combines  robustness with a flexible and modular design, allowing its functional blocks  to be used in any combination. Extending protection to  the  entire switchgear assembly Premset switchgear is the first global product to offer  shielded solid insulation throughout.The system is applicable for all network functions,  including:   b Load break switches or circuit breakers   b Integrated metering units   b Current and voltage transformers. Enhanced safety, reduced  internal arcing risk Shielded solid insulation extends equipment   service life, resulting in a lower total cost   of ownership (TCO).And, with no part of the main circuit exposed   to free air, you also:   b Reduce the risk of internal arcing   b Eliminate maintenance   b Improve the safety of life and property. 2SIS is applicable for  any function such as  load break switches   or circuit breakers,   new compact   meteringfunctions,   or current and voltage  transformers. Shielded Solid   Insulation System   (2SIS) PM100599 PM100595

7 AMTED310010EN 1 2 3 Safety An intuitive 3-in-1 architecture for   breaking, disconnection, and earthing Medium Voltage Distribution Premset 15 kV Compact modular   vacuum switchgear With its 3-in-1 switchgear design, the Premset system’s breaking,  disconnection, and earthing functions are all integrated into a single  disconnecting switch or disconnecting circuit breaker.There are also only three possible operating positions:   closed, open and disconnected, and earthed. Simple and user-friendly operation The Premset 3-in-1 system has proven itself to be the most reliable   and end-user friendly MV switchgear system, providing:   b Earthing in a single operation   b Intuitive mimic diagram and operation   b Direct downstream earthing   b Positively driven built-in interlocks   b Easy front access to cable test injection points. Intuitive operation reduces worker risk With only two operations from line to earth – one to open and disconnect,   and one to earth – the Premset range optimises operating safety,   keeping all aspects as simple as possible.Additionally, standard built-in safety interlocking between the main and earthing  functions is keyless and positively driven, making every interaction with the unit   safe and easy. The safest MV switchgear in its class This three-position scheme provides an integrated cable test feature,   implemented by dedicated earthed rods, accessible from the front,   without needing to enter the cable box or dismantle cable terminations. position scheme Closed Open and  disconnected Earthed PM104062

8 AMTED310010EN Flexibility A compact and modular design   for all functions Medium Voltage Distribution Premset 15 kV Compact modular   vacuum switchgear Every aspect of the system is designed with the intention  of making installation and adaptations as seamless   as possible, including:   b Straightforward assembly with identical busbar and  cable connections for the entire range    b Easy-to-install patented universal flat power  connection system    b Easy cabling since all cable connections are   at a height of 700 mm   b Associated with innovative maintenance program for  your total peace of mind Premset is a range of functional switchgear, with the added advantages of   a simplified and modular architecture. The end result is a system that is easy  to choose, easy to use, and cost effective, facilitating both installation and  modifications. Fast, stress-free installation, upgrading,   and maintenance Because the range uses the same design for every configuration, customising   the switchgear to your needs is easier than ever before. And with its standardised dimensions, reduced footprint, and simple front power connections, time and money  spent installing Premset switchgear is greatly reduced. Premset Maintenance & Service program: Reduction of total cost of ownership and easy budget control   b Optimized maintenance program according to the installation environment and operation  conditions   b Total budget control through services agreement Improved availability & “best in class” life time of equipment   b Preventive maintenance adapted to local operation conditions will ensure extended life  time of the equipment   b Specific predictive maintenance program, linked with the high technology design of  Premset, will help to know and act before any serious failure occurs (diagnostic of metallic  painting, diagnostic of ageing & circuit breaker...)   These programs will contribute to the reduction of down time and critical loss and to the  improved safety & securityPeace of mind due to our reactivity commitment   b Through our services agreement, we assure  a total peace of mind: even a failure occurs,  our Field Services Engineers will go on site within the defined time in the agreement to fix the  issue and change parts if needed. Upgrading is easy, using the same auxiliaries, accessories and monitoring devices for  the entire range. ‘Plug and play’ design also allows on-site additions without any  special training, tools, or adjustments.Lastly, end-of-life management is easier, because SF6-free design eliminates worries  about future regulations, greatly reducing labour and administrative considerations.   1 2     3 3 ways that total cost of ownership (TCO) is reduced: Up to 30% The increase in life  expectancy due to  the absence of  pressurised gases. Trouble-free  installation With a reduction of up to 50% in footprint.  (Circuit breaker is up to two times smaller than existing  Air Insulated Switchgears.) Easy cabling All cables connections  are aligned in front at  a height of 700 mm.Extended possibilities  of cable entry arrangements: bottom-front, bottom-rear, top-rear etc.  Modular combination Optimized circuit breakers PM100021

9 AMTED310010EN Overview Contents Presentation 10 Architecture and components  12 Distributed intelligence 16

10 AMTED310010EN Overview Presentation Shielded Solid Insulation System The entire main circuit is solid insulated with epoxy or EPDM, eliminating all  live parts in free air:   b Insensitive to harsh environments (humidity, dust, pollution, etc.)   b Drastic reduction of risk of phase-to-phase faults. The solid insulation is shielded, i.e. its surface is at earth potential everywhere   (no electrical field in free air):   b System is “accidentally touchable” in accordance with PA class of IEC 62271-201   b No need for regular cleaning of the insulation surface   b Extended life expectancy. All functions with shielded solid insulation have a longer life expectancy,  including the M06S compact metering unit. Innovative single line diagram, new arrangement   of main functions The Premset single line diagram is composed of:   b Disconnecting load break switch or disconnecting circuit breaker using  vacuum interrupters   b Earthing switch within sealed tank with air at atmospheric pressure    v MV cables can be directly earthed, via fault-making earthing switch,   without the contribution of any other device   v the arrangement of two devices in series provides double isolation between   busbars and cables   v the system does not contain SF6 and is RoHS compliant, for your total peace of  mind regarding end of life treatment and environmental concerns. “3 in 1” integrated core units All the necessary functions: breaking, disconnection and earthing,   are embedded in a single device:   b Simple operation, with just 3 positions for all units:   connected – opened & disconnected – earthed   b Intuitive mimic diagram, with two clear and reliable indicators (in accordance with  IEC 62271-102)   b All safety interlocks between functions are built-in as standard, positively driven,  failsafe and without keys.This applies to all types of circuit breakers and load-break switches. Consistent range of switches and circuit breakers   to suit any application The range of core units is composed of 2 switches and 4 circuit breakers:   b I06T: simple load-break switch for cable incomers or feeders   b I06H: fast closing switch for transfer between multiple sources   b D01N and D02N: fast clearing circuit breakers for fuseless MV/LV transformer  overcurrent protection   b D06N: simple circuit breaker for general protection   b D06H: O-CO heavy duty circuit breaker with reclosing capacity for line protection. Modular system architecture, simplifying installation  and upgrading The entire range of core units is optimised for dedicated applications, sharing:   b Same dimensions and footprint, 375 mm width in particular   b Same auxiliaries such as electrical operation devices, accessories and options    b Same easy operation and possibility of installation against a wall   b Extensive cable entry possibilities including bottom-front, bottom-rear, top-rear, etc.   b Same cable connections with type C bushings, 700 mm high. The latter is applicable as well to other units, such as:    b Compact metering M06S with shielded solid insulation   b Direct incomers G06   b Voltage transformers VTM, VTP, VTM-D, VTP-D. Shielded Solid Insulation System PM100018 PM100595 PM100015 Operation of   earthing switch Breaking and disconnection Operation of   main switch Earthing switch

11 AMTED310010EN Overview Presentation Innovative auxiliary features Live cable interlock:   b Electrical interlock to prevent the earthing of live cables. Cable test device, interlocked with earthing switch, simplifying cable testing  and diagnosis:   b Cable testing without accessing cable box or dismantling cable connections   b Test device connection  from the front of the switchboard, while cables remain  earthed    b Failsafe interlocks with earthed star point. Circuit breaker testing with dedicated device for primary injection:   b Primary test current injection without disconnecting CTs or modifying relay  settings.New controller for source changeover. Ready for smart grids D06H heavy duty circuit breaker:   b Dedicated to line management (with reclosing capacity and O-CO cycle)   b Very small footprint (375 mm width). Built-in self-powered protection, embedding communicationIntegrated metering and power measurement functions:   b Compact metering unit with 375 mm width and shielded solid insulation    b Integration of power measurement in feeders without additional space. Feeder automation features:   b Modular architecture for scalable solutions (distributed intelligence)   b Linked by field bus using standard RJ45 Modbus protocol   b Easy to integrate in SCADA systems via multiple protocols (IEC 61850)   b Embedded web interface. PM100506 2.25 m 1.75 m

12 AMTED310010EN Overview Architecture and components Premset switchboards are made up of functional units, each representing   a type-tested assembly composed of a basic core unit and other functional  blocks designed to work together in any combination. The core units are optimised for each typical application and   the assembly for ms a totally insulated functional unit insensitive to   the environment.This Premset medium voltage system makes it possible to meet most   of your application needs.   b Flexibility and simplicity in the design of functional units for any application   b Safety and reliability of type-test assemblies   b Space savings   b Freedom from environmental constraints   b Shorter delivery and the possibility of making last minute modifications   b Easy extension and upgrades. Functional unit = An assembly of functional blocks Switchboard =   + Functional  unit  4  Core unit   b Switch   b Circuit breaker   b Metering unit   b Riser unit  1  LV cabinet   b Protection (VIP, Sepam)   b Measurement   b Control 2  Cable test 3  Top connections   b Busbars   b Cables 5  Bottom  connections   b Cables   b Bars 6  Bottom  compartment   b Cable box   b Reduced height   b Extra plinth DM100008 DM100000

13 AMTED310010EN Overview Architecture and components 1 2 Different  heights 3 5 4 7 7 6 7 8 Unsurpassed simplicity with mix-and-match  modular architecture based on functional blocks Different heights  and depths Different  types 1 Low Voltage cabinet 2 Cable test 3 Top connections 4 Core unit 5 Bottom connections 6 Bottom compartment 7 Sensors (CTs and VTs) 8 Gas exhaust duct PM100597

14 AMTED310010EN Overview Architecture and components Modular  busbar system with shielded   solid insulation Vacuum bottles with shielded solid insulation   for breaking and disconnection Integrated air-insulated earthing switch  enclosed in tank with   shielded solid insulation Built-in voltage and current  sensors  for optimised protection and control,  available in versions with shielded  solid insulation where required Front aligned cable  connections   with shielded solid insulation,   designed for easy clamping  Unsurpassed safety and reliability with 2SIS   Shielded Solid Insulation System PM100598

15 AMTED310010EN Overview Architecture and components Current and voltage transformers integrated   in main functions 1 2 3 5 6 4 1   Current transformers located under the core unit    b Dedicated current transformer for VIP integrated  self-powered protection (CuaCUb)   b Low power current transformer for Sepam or any  conventional relay (TLPU1)   b 1 A ring-type current transformer for Sepam or any  conventional relay (ARU2). 2 Current transformers located around bushings   b Zero sequence current transformer for VIP high  sensitivity earth fault protection (CSHU)   b Measurement current transformer for fault passage  indication and power measurement (ARU1)   b Zero sequence current sensors (CTR2200). 3 Current transformers located around cables    b Ring-type current transformer for power  measurement or metering (ARC6)   b Earth fault toroidal current transformer for high  sensitivity earth fault protection (CSH120/200)   b Zero sequence currents sensors (MF1). 4 Low Power Voltage Transformers located under   the core unit or  5   in the busbar system   b  Low Power Voltage Transformer for protection   or measurement (VLPU1). 6 Voltage transformers located behind the cables   b Phase-to-earth voltage transformers  (VRT4). PM100042

16 AMTED310010EN Overview Distributed intelligence With Premset, intelligence can be added to functional units by integrating  protection, control and monitoring IEDs (Intelligent Electrical Devices). The IEDs have dedicated locations and cabling and are daisy-chained  throughout the various functional units using RJ45 connectors   and Modbus protocol.A gateway can be used to connect the IEDs to supervision systems   via Ethernet, TCP-IP and/or radio-frequency communication.   Premset is  Web-enabled to let you access information on your electrical  installation via a PC with a standard Web browser. PM100016 Radio / GSM /  GPRS / Ethernet Radio GSM GPRS R200 Protection  Power Meter/Quality  Network control & monitoring   Sensors Communication Network PE57570p

17 AMTED310010EN Overview Distributed intelligence Premset switchboards are designed to integrate  distributed intelligence for feeder automation,  protection and energy quality applications. 1  - Fault detection   b Fault Passage Indicators:  Flair 21D/22D, Flair 23DM     b Voltage indicators:  VPIS, VDS   b Voltage relay:  VD23 2  - Protection   b Self-powered:  VIP 40 and VIP 45, VIP 400 and VIP 410   b Auxiliary powered:  Sepam and Micom ranges 3  - Measurement   b Ammeter:  AMP21D   b Power Meter:  PM200   b Power/Quality Meter:  PM800 4  - Local control   b Motor control: SC100   b Control panel: SC-MI 5  - Remote control   b Embedded intelligent devices   b Switch controller for local communication network:  SC100   b Switch controller for remote communication network :  SC110   b Remote communication network (GSM/GPRS/Ethernet/Radio):  R200   b Automatic Transfer System:  ATS100   b Backup power supply:  PS100. 1 2 3 4 5 5 5 Energy quality applications 5 Energy  costs Continuity   of service Power  quality DM100033 PE58402 PS100 R200 SC100 SC-MI ATS100 PM200 VIP 410 Flair 22D

18 AMTED310010EN Overview Distributed intelligence Distributed architecture for easy installation,  operation and scalability The IEDs (Intelligent Electrical Devices) used in the Premset system have been  designed  to optimise substation performance and compactness. They can be used to build a robust distributed architecture suited to harsh  environments.   b   Modular architecture for scalable solutions from local control up to complex  feeder automation, optimising cost and performance by letting you choose only what  you need   b Each IED is  fully integrated in a functional unit with a dedicated location and  cabling   b Pre-engineered, pre-tested and cost effective, the system includes   the necessary sensors, switchgear interfaces, power supplies, communication  solutions and HMIs   b Easy integration based on field bus communication between IEDs with a plug  and play system that scans and configures the system   b The field bus uses standard RJ45 Modbus protocol open to third-part devices   b Each IED has a compatible XML description file based on CIM (Common Information  Model) / IEC 61850 standard. This allows easy configuration to communicate with  any RTU (Remote Teminal Unit) or SCADA (Supervisory Control And Data  Acquisition) system. Ready for smart grids In the 80s and 90s, RTUs (Remote Terminal Units) were mainly used in feeder  automation applications to improve energy availability and reduce the number   and duration of outages. Today RTUs have evolved to integrate functions such as  automatic meter reading and load management.Ready for the future, the Premset system R200 RTU has downloadable  firmware to keep pace with these and other evolving possibilities of smart  grids. Web technology Premset integrates Web technologies so that access to information on your electrical  installation is as easy as opening a Web page. All you need is a standard Web browser and a PC connected via:   b Your local area network   b A pluggable connection to the Premset switchboard   b A mobile network access (3G, GPRS, etc.). VIP self-powered protection relay for higher MV  network availability VIP relays are self-powered while Sepam relays require an auxiliary power supply. Self-powered protection relays increase the availability of the MV network   and are perfectly suited to most applications.   b Insensitive to voltage drop due to faults   b Not dependent on UPS systems   b Less dependent on the external environment (EMC, LV overvoltages) because  they require no external connections.In addition, the VIP 410 offers enhanced sensitivity to low earth-fault currents   and provides additional diagnostics with time-stamped logs thanks to a dual power  supply and a communication port. Circuit breaker for improved MV/LV transformer  protection With the VIP 40/45, Premset circuit breakers provide MV/LV transformers superior  protection compared to traditional MV switch-fuse solutions - at an equivalent  lifetime cost. The main advantages are:   b Better discrimination with other MV and LV protection devices   b Improved protection performance for inrush current, overloads, low magnitude  phase-faults and earth-faults   b Greater harsh climate withstand.   b Fast clearing time, to limit the consequences of internal arcing in the transformer. VIP 400/410 VIP 40/45  DM100034 IP Communication network PM100576 PM100573 PE58300

19 AMTED310010EN Overview Distributed intelligence Auto-adapting Fault Passage Indicator with remote  communication for higher power network availability The Flair range offers cost-effective auto-adapting fault passage indicators (FPI)   that can be fully integrated in the cubicle. In addition to the Flair 21D /22D self-powered FPIs, the range includes   the Flair 23DM , a powerful IED with a communication port.   b The Flair 23DM is linked to the voltage presence indication system (VPIS)   to confirm faults by undervoltage instead of current measurement, thereby avoiding  transient faults   b The Flair 23DM provides an integrated output voltage relay for automatic transfer  switch (ATS100) or other applications   b Phase fault and standard earth fault detection are maintained even if the power  supply is lost. The auxiliary power supply is only needed for communication   and the voltage presence relay   b The communication port provides the current values, records diagnostic  information (voltage drops, transient fault indications) and makes it possible   to modify settings remotely. Sepam protection and control units Sepam series 20 and series 40 digital protection relays take full advantage of  Schneider Electric’s experience in electrical network protection to meet your needs.   b Effective protection of life and property   b Accurate measurements and detailed diagnostics   b Integral equipment control   b Local or remote indication and operation The Sepam range complies with IEC 61850. Backup power supply for MV/LV substations Backup power supplies (UPSs or batteries) are now common in industrial and  commercial premises. However, they often represent a weak link in the power supply  chain and their failure can have serious consequences. Given the harsh environment and critical nature of substations, the Premset system  includes the PS100, a dedicated solution with a high insulation level designed to  provide 24 hours of backup power to electronic devices.Maintenance is easy with:   b Just one battery to replace   b End-of-life alarm possible via Modbus communication. VLPU1  ( )  voltage sensors (LPVTs)   for load management Traditional voltage sensors are used for protection and tariff metering. With the  advent of smart grids, there is a growing need for voltage sensors in MV substations  for load management applications.Traditional VTs are not suitable because of their size, certain ferroresonance  problems that can appear and above all the necessity of disconnecting them for  cable or cubicle power frequency tests.Low Power Voltage Transformers (LPVT) provide a compact and cost-effective  protection and measurement solution without the drawbacks of traditional VTs.   They offer a wide operating range, avoiding the difficulty of choosing the right VT.   For all these reasons, the VLPU1 (LPVT type) sensors are the ideal solution for  Premset switchboards. LPCTs for Sepam Low Power Current Transfomers (LPCT) use optimised technology that offers   a number of advantages in Premset cubicles.   b Simpler selection: a single sensor can be used for both measurement and  protection over the entire range of operating currents   b Easy and safe installation: the LPCT output is plugged directly into the Sepam  relay with no risk of overvoltage when disconnecting   b Flexibility of use: easy adaptation to changes in power levels and/or protection  settings during MV system design or service life   b High accuracy up to the short-time circuit current with low saturation   b Compact design: small size and weight allows easy integration in Premset cubicles. Flair FPI PE57785 PM100592 PS100 PM100587 Sepam PE88030 ( ) Consult us for availability LPCT

20 AMTED399053EN

21 AMTED310010EN Building your solution Contents Main applications  22 Incomer and feeder functions 26 Busbar sectionaliser functions 28 Protection functions 30 Voltage transformer functions 31

22 AMTED310010EN Building your solution Main applications Why Premset? Premset switchboards are modular and insensitive to harsh environments.For these reasons, they offer the highest reliability and efficiency for a wide  range of applications. Typical applications Premset applications can be found in all Medium Voltage secondary distribution  substations. Buildings and industry   b MV/MV consumer substation direct connection   b MV/LV consumer substation double feeder   b MV/LV consumer substation loop connection   b MV/LV consumer substation radial connection   b MV/LV consumer substation with MV backup   b MV private network   b MV/LV substation. Distribution networks   b MV/MV switching substation   b MV/LV distribution substation   b MV/LV Ring Main Unit   b MV distributed generation. Premset advanced communication possibilities open the way to applications   such as:   b Local control up to complex feeder automation   b MV Automatic Transfer System (ATS)   b RTU with new Smart Grid functions for load management. PM104063 PM104064 PM104065 PE5813

23 AMTED310010EN Building your solution

24 AMTED310010EN Building your solution G G HV/MV MV/LV consumer substation  double feeder MV/LV consumer substation  loop connection MV/LV consumer substation  radial connection MV/LV  substation MV private  network MV/MV consumer substation  direct connection MV/LV consumer substation  with MV backup M M M M M M M G G HV/MV MV/MV switching substation MV/LV distribution  substation Distributed generation  MV/LV distribution  substation (Ring Main Unit) Main applications Distribution network selection chart Line incomer or Line feeder Generator incomer Line protection Transformer protection General protection Bus section Bus riser DM100032EN

25 AMTED310010EN Building your solution Main applications Buildings & Industry selection chart G G HV/MV MV/LV consumer substation  double feeder MV/LV consumer substation  loop connection MV/LV consumer substation  radial connection MV/LV  substation MV private  network MV/MV consumer substation  direct connection MV/LV consumer substation  with MV backup M M M M M M M G G HV/MV MV/MV switching substation MV/LV distribution  substation Distributed generation  MV/LV distribution  substation (Ring Main Unit)

26 AMTED310010EN Building your solution Incomer and feeder functions Function  Line incomer/ Line feeder Single-line diagram  Core unit type I06T I06H D06H G06 See details   Page 38 39 42 43 Core unit Disconnecting  switch with  lever-operated  mechanism and  integrated earthing  switch Disconnecting switch  with stored-energy  OCO mechanism  and integrated  earthing switch Disconnecting circuit  breaker with  stored-energy OCO  mechanism and  integrated earthing  switch Direct connection  to busbars Earthing switch     v  ( ) b     v  ( ) Cable testing device 81 b b b Live cable interlock  ( ) 65 v v v  Protection (only one option possible)VIP 40/45 Self-powered 54 VIP 400 Self-powered 55 v VIP 410 Dual powered 55 v Sepam 20 Auxiliary powered 57 v Sepam 40 Auxiliary powered 57 v  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 v v v Flair 23DM  Fault passage indicator 61 v v v  Integrated measurement (only one option possible)AMP21D Ammeter 66 v v v PM200 Power Meter 67 v v v v PM800 Power/Quality Meter 67 v v v v  Control Electrical operation  70 v v v Additional opening coil (MX or MN) 70 v     v  ( 1 ) Auxiliary contacts 70 v v v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 v v v v VD23 Voltage relay 64 v v v  Metering current transformers (only one option possible)ARC5 Ring CTs 48 AD12 DIN CTs 48 ARM3 Block CTs 48  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 VDF11 DIN VTs 49 VRQ2 Block VTs 49 VRT4 Screened VTs 60 v v v v  Phase-to-phaseVDC11 DIN VTs 49 VRC2 Block VTs 49 VRU2 Auxiliary power 49  VT protectionFuses b  Compulsory   v  Optional            (1) Possible only with VIP ( ) Core units without earthing switch: consult us for availability DM10001 1 DM10001 1 DM100013 DM100014

27 AMTED310010EN Building your solution Incomer and feeder functions Function  Line incomer/ Line feeder Generator  incomer Single-line diagram  Core unit type M06S M06A D06H See details   Page 44 45 42 Core unit Solid-insulated  earth-screened   metering unit Air-insulated metering unit  (750 mm wide) Disconnecting circuit  breaker with   stored-energy OCO  mechanism and  integrated earthing   switch Earthing switch     v  ( ) Cable testing device 81 b Live cable interlock  ( ) 65 v  Protection (only one option possible)VIP 40/45 Self-powered 54 VIP 400 Self-powered 55 v VIP 410  Dual powered 55 v Sepam 20 Auxiliary powered 57 v Sepam 40 Auxiliary powered 57 v  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 Flair 23DM  Fault passage indicator 61  Integrated measurement (only one option possible)AMP21D Ammeter 66 PM200 Power Meter 67 v PM800 Power/Quality Meter 67 v  Control Electrical operation  70 v Additional opening coil (MX or MN) 70     v  (1) Auxiliary contacts 70 v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 v v v VD23 Voltage relay 64 v  Metering current transformers (only one option possible)ARC5 Ring CTs 48 v AD12 DIN CTs 48 v ARM3 Block CTs 48 v  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 v VDF11 DIN VTs 49 v VRQ2 Block VTs 49 v VRT4 Screened VTs 60 v  Phase-to-phaseVDC11 DIN VTs 49 v VRC2 Block VTs 49 v VRU2  Auxiliary power 49  VT protectionFuses v b  Compulsory   v  Optional        (1) Possible only with VIP ( ) Consult us for availability DM100016-A DM100017-A DM100013

28 AMTED310010EN Building your solution Busbar sectionaliser functions (Bus section + Bus riser) Function  Bus section Single-line diagram  Core unit type D06H I06T See details   Page 42 38 Core unit Disconnecting circuit  breaker with  stored-energy OCO  mechanism and  integrated earthing  switch Disconnecting  switch with  lever-operated  mechanism and  integrated earthing  switch Earthing switch     v  (1)     v  ( ) Cable testing device 81 Live cable interlock  ( ) 65  Protection (only one option possible)VIP 40/45 Self-powered 54 VIP 400 Self-powered 55 v VIP 410  Dual powered 55 v Sepam 20 Auxiliary powered 57 v Sepam 40 Auxiliary powered 57 v  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 Flair 23DM Fault passage indicator 61  Integrated measurement (only one option possible)AMP21D Ammeter 66 PM200 Power Meter 67 PM800 Power/Quality Meter 67  ControlElectrical operation 70 v v Additional opening coil (MX or MN) 70 v Auxiliary contacts 70 v v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 v v VD23 Voltage relay 64 v v  Metering current transformers (only one option possible)ARC5 Ring CTs 48 AD12 DIN CTs 48 ARM3 Block CTs 48  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 VDF11 DIN VTs 49 VRQ2 Block VTs 49  Phase-to-phaseVDC11 DIN VTs 49 VRC2 Block VTs 49 VRU2 Auxiliary power 49  VT protectionFuses b  Compulsory   v  Optional    (1) Core units without earthing switch: consult us for availability ( ) Consult us for availability DM100020 DM100021

29 AMTED310010EN Building your solution Busbar sectionaliser functions (Bus section + Bus riser) Function  + Bus riser Busbar  earthing Single-line diagram  Core unit type I06T G06 M06S M06A ES-B   See details   Page 38 43 44 45 43 Core unit Disconnecting  switch with  lever-operated  mechanism and  integrated earthing  switch Direct riser to  busbar Solid-insulated  earth-screened metering unit Air-insulated metering  unit (750 mm wide) Earthing switch  for busbar  earthing Earthing switch     v  (1) Cable testing device 81 Live cable interlock  ( ) 65  Protection (only one option possible)VIP 40/45 Self-powered 54 VIP 400 Self-powered 55 VIP 410 Dual powered 55 Sepam 20 Auxiliary powered 57 Sepam 40 Auxiliary powered 57  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 Flair 23DM Fault passage indicator 61  Integrated measurement (only one option possible)AMP21D Ammeter 66 PM200 Power Meter 67 PM800 Power/Quality Meter 67  ControlElectrical operation 70 v Additional opening coil (MX or MN) 70 Auxiliary contacts 70 v v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 v v v v VD23 Voltage relay 64 v  Metering current transformers (only one option possible)ARC5 Ring CTs 48 v AD12 DIN CTs 48 v ARM3 Block CTs 48 v  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 v VDF11 DIN VTs 49 v VRQ2 Block VTs 49 v  Phase-to-phaseVDC11 DIN VTs 49 v VRC2 Block VTs 49 v VRU2  Auxiliary power 49  VT protectionFuses v b  Compulsory   v  Optional    (1) Core units without earthing switch: consult us for availability ( ) Consult us for availability DM100022 DM100023 DM100016-B DM100017-B DM100015

30 AMTED310010EN Building your solution Protection functions Function  Line   protection MV/LV transformer protection General  protection 100 A 200 A Single-line diagram  Core unit type D06H D01N D02N D06N See details   Page 42 40 40 41 Core unit Disconnecting circuit  breaker with  stored-energy OCO  mechanism and  integrated earthing  switch Disconnecting circuit  breaker with latching  mechanism and  integrated earthing  switch Disconnecting circuit  breaker with latching  mechanism and  integrated earthing  switch Disconnecting circuit  breaker with latching  mechanism and  integrated earthing  switch Earthing switch b b b b Cable testing device 81 b v v v Live cable interlock  ( ) 65 v v v  Protection (only one option possible)VIP 40/45 Self-powered 54 v v VIP 400 Self-powered 55 v v v v VIP 410 Dual powered 55 v v v v Sepam 20 Auxiliary powered 57 v v v v Sepam 40 Auxiliary powered 57 v v  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 Flair 23DM  Fault passage indicator 61  Integrated measurement (only one option possible)AMP21D Ammeter 66 PM200 Power Meter 67 v v v v PM800 Power/Quality Meter 67 v v v v  Control Electrical operation 70 v v v v Additional opening coil (MX or MN) 70 v v v v Auxiliary contacts 70 v v v v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 v v v v VD23 Voltage relay 64 v v v v  Metering current transformers (only one option possible)ARC5 Ring CTs 48 AD12 DIN CTs 48 ARM3 Block CTs 48  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 VDF11 DIN VTs 49 VRQ2 Block VTs 49  Phase-to-phaseVDC11 DIN VTs 49 VRC2 Block VTs 49 VRU2  Auxiliary power 49  VT protectionFuses b  Compulsory   v  Optional ( ) Consult us for availability DM100013 DM100013 DM100013 DM100019

31 AMTED310010EN Building your solution Voltage transformer functions Function  Voltage transformer Single-line diagram  Core unit type VTM VTP   VTM-D   VTP-D   See details   Page 46 46 46 46 Core unit Metering voltage transformer: three 2SIS  (1)   phase-to-earth VTs   Auxiliary power voltage transformer: one 2SIS  (1)    phase-to-phase VT Metering voltage transformer: three 2SIS  (1)    phase-to-earth VTs, with  D01N circuit-breaker  protection Auxiliary power voltage  transformer:    one 2SIS   (1)  phase-to- phase VT, with D01N  circuit-breaker protection Earthing switch b b Cable testing device 81 Live cable interlock  ( ) 65  Protection (only one option possible)VIP 40/45 Self-powered 54 b b VIP 400 Self-powered 55 VIP 410  Dual powered 55 Sepam 20 Auxiliary powered 57 Sepam 40 Auxiliary powered 57  Fault passage indicator (only one option possible)Flair 21/22D Fault passage indicator 61 Flair 23DM  Fault passage indicator 61  Integrated measurement (only one option possible)AMP21D Ammeter 66 PM200 Power Meter 67 PM800 Power/Quality Meter 67  ControlElectrical operation 70 v v Additional opening coil (MX or MN) 70 v v Auxiliary contacts 70 v v  Voltage indication (only one option possible)VPIS or VDS Voltage indication 63 VD23 Voltage relay 64  Metering current transformers (only one option possible)ARC5 Ring CTs 48 AD12 DIN CTs 48 ARM3 Block CTs 48  Metering voltage transformers (only one option possible) Phase-to-earthVRU1 Screened VTs 49 b b VDF11 DIN VTs 49 VRQ2 Block VTs 49  Phase-to-phaseVDC11 DIN VTs 49 VRC2 Block VTs 49 VRU2  Auxiliary power 49 b b  VT protectionFuses b  Compulsory   v  Optional    (1) 2SIS: Shielded Solid Insulation System ( ) Consult us for availability DM100027 DM100027 DM100028 DM100028

32 AMTED399053EN

33 AMTED310010EN General characteristics Contents Characteristics  34 Standards  34 Internal arc fault withstand 35 Operating conditions  36

34 AMTED310010EN General characteristics Characteristics   Standards Dimensions Uniform dimensions for the entire system   b Width: 375 mm for all switch, circuit breaker and metering units with shielded solid  insulation   b Air-insulated metering units and metering incomer: 750 mm wide, but still fully  compatible with the rest of the system   b Depth: 910 mm (1135 mm with internal arc exhausting)  (2)   b Height: 1550 to 1995 mm, depending on LV equipment. With low height bottom compartment (500 mm) it can be reduced to a minimum of  1350 mm   b Cable connections: 700 mm high front-aligned connections (500 mm with  low-height bottom compartment). (2) For front cable connection. IEC standards Premset units meet all the following recommendations, standards and specifications:   b IEC 62271-1: High-voltage switchgear and controlgear -   Part 1: Common specifications   b IEC 62271-200: High-voltage switchgear and controlgear -   Part 200: A.C. metal-enclosed switchgear and controlgear for rated voltage above 1 kV   and up to and including 52 kV   b IEC 62271-103 (replaces IEC 60265-1):   Switches for rated voltages above 1 kV and less than 52 kV   b IEC 62271-100: High-voltage switchgear and controlgear -   Part 100: High-voltage alternating current circuit breakers   b IEC 62271-102: High-voltage switchgear and controlgear -   Part 102: High-voltage alternating current disconnectors and earthing switches   b IEC 62271-206 (replaces IEC 61958): High-voltage prefabricated switchgear   and controlgear assemblies - Voltage presence indicating systems   b IEC 60529: Degrees of protection provided by enclosures (IP Code)   b IEC 60044-8: Instrument transformers - Part 8: Low Power Current Transducers   b IEC 60044-1: Instrument transformers - Part 1: Current transformers   b IEC 60044-2: Instrument transformers - Part 2: Voltage transformers   b IEC 60255: Electrical relays. 700 mm front cabling 375 mm 910 or  1135 mm 1550 to   1995 mm PM100599 Main electrical characteristics VoltageRated voltage Ur (kV rms) 7.2 12 15 Rated frequency f (Hz) 50/60 Insulation levelRated short-duration power-frequency withstand voltageCommon value   (1) Ud 50/60 Hz 1min (kV rms) 42 Across the isolating  distance Ud 50/60 Hz 1min (kV rms) 48  Rated lightning impulse withstand voltageCommon value   (1) Up 1.2/50 ms (kV peak) 60 75 95 ( ) 95 Across the isolating  distance Up 1.2/50 ms (kV peak) 70 85 110 ( ) 110 CurrentBusbar current Ir (A rms) 630 Rated short-time  withstand  current & duration  Ik x tk (kA rms) 20 kA x 4s 21 kA x 3s 25 kA x 3s Please, consult us (1)To earth and between phases.

35 AMTED310010EN General characteristics Internal arc fault withstand Standard IEC 62271-200 defines internal arc  classifications to characterise the performance  level for protection of persons against effects of  internal arcing fault. It also clarifies the testing  procedure and acceptance criteria.The aim of this classification is to show that an  operator situated around the switchboard would   be protected against the effects of an internal fault. Drastically reduced risk of internal fault Premset shielded solid insulation technology provides phase-per-phase insulation   and screening, and thereby drastically reducing the risk of an internal fault.   The probability of an internal arcing fault is extremely low because phase-to-phase  clearances in free air are eliminated. In any case, the internal arc withstand of Premset has been tested in every  compartment in accordance with the edition 2 of the IEC 62271-200 standard,   both for standard and arc-control versions. Standard version qualified for neutral networks   with arc extinction coil earthing system The effect of low phase-to-earth internal faults has been type-tested for the standard  version of Premset. Premset is IAC qualified for earth fault current of 100 A (IAe). It has successfully  passed all the tests in every compartment, in accordance with the latest edition of   the IEC 62271-200 standard (edition 2). This demonstrates the ability of standard  Premset to withstand internal arcing for tuned (Petersen coil) neutral networks  without any specific precautions. Arc-control version, 21 kA x 1 s class A-FLR ( )  Four-sided internal arc protection  The effect of high internal faults, up to 21 kA, has been type-tested on a special version  of Premset designed for arc control with two options for gas exhausting. Premset has successfully passed all the type tests of standard IEC 62271-200 (5  acceptance criteria). The thermal and mechanical forces that an internal arc can produce are perfectly  absorbed by the enclosure. An operator situated around the Premset switchboard  during an internal fault will not be exposed to the effects of arcing. Operators are safe, whatever the installation layout:   b Access to all four sides when not installed against a wall   b Front or lateral access when installed against a rear wall. Two gas exhausting options   b Option 1: 21 kA x 1 s A-FLR ( ), bottom exhausting in 400 x 600 mm minimum  trench for installation in rooms with low ceilings   b Option 2: 21 kA x 1 s A-FLR ( ), top exhausting into a top tunnel for installation   in rooms with total height   2 m and/or when the use of the trench for exhausting   is not possible. Installation against a wall  For detailed civil engineering information, please refer to page 86. Note: When 500 mm LCA is selected, 16kA/1s IAC is max reached ( ) IAC (internal arc classification): classification code refers   to different types of accessibility according to standard IEC 62271-200. A: access restricted to authorised personnel only F: access to the front side L: access to the lateral side R: access to the rear side. DM100004 Option 2 DM100005 Option 1

36 AMTED310010EN General characteristics Operating conditions Partition class and loss of service continuity category   b Partition class of compartments accessible for maintenance (i.e. cable box,  voltage transformer compartment, etc.):  PM  (1)   b Loss of service continuity category:  LSC2A  (2) Protection index   b All external faces of the switchgear:  IP3X   b Between compartments: IP2X   b Main circuit and all HV parts: IP67 (except M06A metering cubicles). Mechanical impact strength   b IK07 for standard version. Flooding   b Service continuity ensured for 3 days of flooding for all functions   (except air insulated metering M06A)   b After flooding, accessories, auxiliaries and relays may require maintenance   or replacement. Environmental characteristics Altitude   b Up to 3000 m, no particular precautions except screened  cable connections   b Over 3000 m, standard precautions: shielded cable  connections and 10% dielectric derating every 1000 m Temperature   (indoor version)   b Storage : from – 40°C° to + 80 C°   b Operation: from – 15°C to + 40°C ( )  (normal conditions) IEC 60721 - level 3K6   b Operation: from – 40°C to + 65°C    (consult us for special precautions) Condensation / humidity   b IEC 60721   level 3K6 & 3Z7 Chemical / pollution   b IEC 60721   level 3C2 Dust   b IEC 60721   level 3S2 Fire and extinguishability   b Test at 850°C according to IEC 60695-2-10 /-11 /-12 ( ) For -25°C please consult us Outdoor version Consult us for specific outdoor IP54 version. Specific version Cable in and out in 1 single cubicle with cable entries from the bottom. (1) PM class according to IEC 62271-200: metallic partitioning between compartments.(2) LSC2A (loss of service continuity) according to IEC 62271-200: this category offers the possibility of keeping other compartments energised when opening a main circuit compartment. 

37 AMTED310010EN Core units Contents Disconnecting switch I06T - General purpose I06H - Heavy-duty 38 Disconnecting circuit breaker D01N, D02N - MV/LV transformer protection  D06N - General protection D06H - Heavy-duty line protection  40 Busbar sectionaliser G06 - Bus riserES-B - Busbar earthing switch 43 Metering M06S - 2SIS compact meteringM06A - Air-insulated meteringVTM, VTP - Voltage transformerVTM-D, VTP-D - Voltage transformer with circuit-breaker protection  44 Current and voltage transformers for metering Current transformers (ARC5, AD12, ARM3)Voltage transformers (VRU1, VDF11, VDC11, VRQ2, VRC2, VRU2) 48

38 AMTED310010EN Core units Disconnecting switch I06T - General purpose The I06T core unit is a “3 in 1” device combining  the functions of a load break switch, disconnector  and associated earthing switch. It can be used in  various functional units.   b 3 positions (closed, open & disconnected,  earthed) with direct earthing of cables   b Intuitive operation and clear mimic panel  indications   b Built-in failsafe  interlocks between main switch  and earthing switch. Basic equipment   b ‘3 in 1’’ core unit integrating load breaking, disconnection and earthing functions  as well as shielded solid insulation.   b Main switch   v vacuum disconnecting load-break switch providing both load breaking and  disconnection functions   v anti-reflex lever-operated mechanism (CIT type), independent of operator action.   b Earthing switch   v combined with the main switch   v full failsafe interlocking with the main switch   v air technology in sealed-for-life tank at atmospheric pressure   v anti-reflex lever-operated mechanism, independent of operator action.   b Totally SF6-free solution based on vacuum and air breaking technologies. Accessories Locking   b Standard built-in padlocking facility for main switch, earthing switch and interlock  (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for main switch in “open & disconnected” position   v 1 or 2 keylocks for earthing switch in “cables earthed” position   v 1 or 2 keylocks for earthing switch in “line” position. Interlocking   b Standard built-in interlock between main switch and earthing switch   b Optional interlock between cable box door and earthing switch (prevents opening  of the door unless the earthing switch is in “cables earthed” position)   b Optional interlock between main switch and cable box door (prevents closing of  the main switch when the door is open).Auxiliary switches   b For main switch:   v standard: 2 changeover contacts (1 for units with electrical operation)   v optional: up to 2 additional blocks of 4 changeover contacts.   b For earthing switch:   v optional: 1 changeover contact. Operation counter   b Optional for main switch. Contact visibility   b Optional windows allow direct visual check to ensure that earthing switch main  contacts are effectively in earthed position. Technical characteristics DM10001 1  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 No-load mechanical endurance   of main switch M1 class  (IEC 62271-103) Number of  cycles 1000   Electrical endurance of main switch  E3 class  (IEC 62271-103) Number of  cycles 100 Making capacity endurance   of main switch  E3 class  (IEC 62271-103) Number of  cycles 5 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000  Making capacity endurance   of earthing switch E2 class  (IEC 62271-102) Number of  cycles 5 PM10001 1

39 AMTED310010EN Core units Disconnecting switch I06H - Heavy-duty The I06H   core unit is a “3 in 1” device combining  the functions of a load break switch, disconnector  and associated earthing switch. It is designed for  heavy duty or multiple incomers:   b 3 positions (closed, open & disconnected,  earthed) with direct earthing of cables   b Intuitive operation and clear mimic panel  indications   b Built-in failsafe interlocks between main switch  and earthing switch. Basic equipment   b ‘‘3 in 1’’ core unit integrating load breaking, disconnection and earthing functions  as well as shielded solid insulation.   b Main switch   v vacuum disconnecting load-break switch providing both load breaking and  disconnection functions   v pushbutton-operated stored energy mechanism (O-CO type), independent of  operator action.   b Earthing switch   v combined with the main switch   v full failsafe interlocking with the main switch   v air technology in sealed-for-life tank at atmospheric pressure   v anti-reflex lever-operated mechanism, independent of operator action.   b Totally SF6-free solution based on vacuum and air breaking technologies. Accessories Locking   b Standard built-in padlocking facility for main switch, earthing switch and interlock  (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for main switch in “open & disconnected” position   v 1 or 2 keylocks for earthing switch in “cables earthed” position   v 1 or 2 keylocks for earthing switch in “line” position. Interlocking   b Standard built-in interlock between main switch and earthing switch   b Optional interlock between cable box door and earthing switch (prevents opening  of the door unless the earthing switch is in “cables earthed” position)   b Optional interlock between main switch and cable box door (prevents closing of  the main switch when the door is open).Auxiliary switches   b For main switch:   v standard: 2 changeover contacts (1 for units with electrical operation)   v optional: up to 2 additional blocks of 4 changeover contacts.   b For earthing switch:   v optional: 1 changeover contact. Operation counter   b Optional for main switch. Contact visibility   b Optional windows allow direct visual check to ensure that earthing switch main  contacts are effectively in earthed position. Technical characteristics PM100013 DM10001 1  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 No-load mechanical endurance   of main switch M2 class  (IEC 62271-103) Number of  cycles 5000   Electrical endurance of main switch  E3 class  (IEC 62271-103) Number of  cycles 100 Making capacity endurance   of main switch  E3 class  (IEC 62271-103) Number of  cycles 5 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000  Making capacity endurance   of earthing switch E2 class  (IEC 62271-102) Number of  cycles 5

40 AMTED310010EN Core units Basic equipment   b “3 in 1” core unit integrating breaking, disconnection and earthing functions as well  as shielded solid insulation   b Disconnecting circuit breaker   v vacuum disconnecting circuit breaker providing both breaking and disconnection  functions   v CI1 type operating mechanism featuring pushbutton opening and antireflex  lever-operated closing, both independent of operator action   v designed to work with VIP 40 and VIP 45 relays for optimum protection of MV/LV  transformers.   b Earthing switch   v combined with the circuit breaker   v full failsafe interlocking with the circuit breaker   v air technology in sealed-for-life tank at atmospheric pressure   v anti-reflex lever-operated mechanism, independent of operator action.   b Totally SF6-free solution based on vacuum and air breaking technologies. Accessories Locking   b Standard built-in padlocking facility for circuit breaker, earthing switch and interlock  (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for main switch in “open & disconnected” position   v 1 or 2 keylocks for earthing switch in “cables earthed” position   v 1 or 2 keylocks for earthing switch in “line” position. Interlocking   b Standard built-in interlock between circuit breaker and earthing switch   b Optional interlock between cable box door and earthing switch (prevents opening  of the door unless the earthing switch is in “cables earthed” position)   b Optional interlock between circuit breaker and cable box door (prevents closing of  the circuit breaker when the door is open).Auxiliary switches   b For circuit breaker:   v standard: 2 changeover contacts for contact position (1 for units with electrical  operation) and 1 NO contact for trip indication (VIP relay only)   v optional: up to 2 additional blocks of 4 changeover contacts.   b For earthing switch:   v optional: 1 changeover contact. Operation counter   b Optional for circuit breaker. Contact visibility   b Optional windows allow direct visual check to ensure that earthing switch main  contacts are effectively in earthed position. Technical characteristics The D01N and D02N core units are a “3 in 1”  devices combining the functions of a 100 A   or 200 A circuit breaker, disconnector and  associated earthing switch. They are dedicated   to MV/LV transformer protection.   b 3 positions (closed, open & disconnected,  earthed)    b Intuitive operation and clear mimic panel  indications   b Built-in failsafe interlocks between circuit  breaker and earthing switch. Disconnecting circuit breaker D01N, D02N - MV/LV transformer  protection PM100009 DM100013  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 No-load mechanical endurance   of circuit breaker M1 class  (IEC 62271-100) Number of  cycles 2000 Electrical endurance of circuit breaker   E2 class  (IEC 62271-100) Number of  cycles Acc. E2 class, without reclosing duty Operating sequence CO - 15 s - CO Maximum number of operations at Isc 30 Total clearing time at Isc Fault detection to arc  extinguishing (ms)  60 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000 Making capacity endurance   of earthing switch E2 class  (IEC 62271-102) Number of  cycles 5

41 AMTED310010EN Core units Disconnecting circuit breaker D06N - General protection The D06N core unit is a “3 in 1” device combining  the functions of a standard duty 630 A circuit  breaker, disconnector and associated earthing  switch. It is dedicated to general protection of  installations:   b 3 positions (closed, open & disconnected,  earthed) with direct earthing of cables   b Intuitive operation and clear mimic panel  indications   b Built-in failsafe interlocks between circuit  breaker and earthing switch. Basic equipment   b “3 in 1” core unit integrating breaking, disconnection and earthing functions as well  as shielded solid insulation   b Disconnecting circuit breaker   v vacuum disconnecting circuit breaker providing both breaking and disconnection  functions   v CI1 type operating mechanism featuring pushbutton opening and antireflex  lever-operated closing, both independent of operator action.   b Earthing switch   v combined with the circuit breaker   v full failsafe interlocking with the circuit breaker   v air technology in sealed-for-life tank at atmospheric pressure   v anti-reflex lever-operated mechanism, independent of operator action   b Totally SF6-free solution based on vacuum and air breaking technologies. Accessories Locking   b Standard built-in padlocking facility for circuit breaker, earthing switch and interlock  (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for circuit breaker in “open & disconnected” position   v 1 or 2 keylocks for earthing switch in “cables earthed” position   v 1 or 2 keylocks for earthing switch in “line” position. Interlocking   b Standard built-in interlock between circuit breaker and earthing switch   b Optional interlock between cable box door and earthing switch (prevents opening  of the door unless the earthing switch is in “cables earthed” position)   b Optional interlock between circuit breaker and cable box door (prevents closing of  the circuit breaker when the door is open).Auxiliary switches   b For circuit breaker:   v standard: 2 changeover contacts for contact position (1 for units with electrical  operation) and 1 NO contact for trip indication (VIP relay only)   v optional: up to 2 additional blocks of 4 changeover contacts.   b For earthing switch:   v optional: 1 changeover contact. Operation counter   b Optional for circuit breaker. Contact visibility   b Optional windows allow direct visual check to ensure that earthing switch main  contacts are effectively in earthed position. Technical characteristics PM100015 DM100013  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 Capacitive breaking capacity (IEC 62271-100) Capacitive  break class CC1 / LC1 No-load mechanical endurance   of circuit breaker M1 class  (IEC 62271-100) Number of  cycles 2000 Electrical endurance of circuit breaker   E2 class  (IEC 62271-100) Number of  cycles Acc. E2 class, without reclosing duty Operating sequence CO - 15 s - CO Maximum number of operations at Isc 30 Total clearing time at Isc Fault detection to arc  extinguishing (ms)  100 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000 Making capacity endurance   of earthing switch E2 class  (IEC 62271-102) Number of  cycles 5

42 AMTED310010EN Core units Disconnecting circuit breaker D06H - Heavy-duty line protection The D06H core unit is a “3 in 1” device combining  the functions of a heavy-duty 630 A circuit breaker,  disconnector and associated earthing switch. It is  dedicated to protection of incoming lines or  feeders, thanks to extended mechanical endurance  and fast auto-reclosing.   b 3 positions (closed, open & disconnected,  earthed) with direct earthing of cables   b Intuitive operation and clear mimic panel  indications   b Built-in failsafe interlocks between circuit  breaker and earthing switch. Basic equipment   b “3 in 1” core unit integrating breaking, disconnection and earthing functions as well  as shielded solid insulation   b Disconnecting circuit breaker   v vacuum disconnecting circuit breaker providing both breaking and disconnection  functions   v stored energy type operating mechanism (O-CO) with pushbutton opening   and closing and spring charging using a lever   v heavy-duty operating cycle (O-0.3 s-CO-15 s-CO).   b Earthing switch   v combined with the circuit breaker   v full failsafe interlocking with the circuit breaker   v air technology in sealed-for-life tank at atmospheric pressure   v anti-reflex lever-operated mechanism, independent of operator action.   b Totally SF6-free solution based on vacuum and air breaking technologies. Accessories Locking   b Standard built-in padlocking facility for circuit breaker, earthing switch and interlock  (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for circuit breaker in “open & disconnected” position   v 1 or 2 keylocks for earthing switch in “cables earthed” position   v 1 or 2 keylocks for earthing switch in “line” position. Interlocking   b Standard built-in interlock between circuit breaker and earthing switch   b Optional interlock between cable box door and earthing switch (prevents opening  of the door unless the earthing switch is in “cables earthed” position)   b Optional interlock between circuit breaker and cable box door (prevents closing of  the circuit breaker when the door is open).Auxiliary switches   b For circuit breaker:   v standard: 2 changeover contacts for contact position (1 for units with electrical  operation) and 1 NO contact for trip indication (VIP relay only)   v optional: up to 2 additional blocks of 4 changeover contacts.   b For earthing switch:   v optional: 1 changeover contact. Operation counter   b Optional for circuit breaker. Contact visibility   b Optional windows allow direct visual check to ensure that earthing switch main  contacts are effectively in earthed position. Technical characteristics PM100600 DM100013  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 Capacitive breaking capacity (IEC 62271-100) Capacitive  break class CC2 / LC2 No-load mechanical endurance   of circuit breaker M2 class  (IEC 62271-100) Number of  cycles 10 000 Electrical endurance of circuit breaker   E2 class  (IEC 62271-100) Number of  cycles Acc. E2 class, with reclosing duty Operating sequence O - 0.3 s - CO -15 s - CO Maximum number of operations at 100% Isc 50 Total clearing time at Isc Fault detection to arc  extinguishing (ms)  100 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000 Making capacity endurance of  earthing switch E2 class  (IEC 62271-102) Number of  cycles 5

43 AMTED310010EN Core units Busbar sectionaliser G06 - Bus riser ES-B - Busbar earthing switch The G06 core unit is a simple 630 A bus riser.   b It can be used in various functional units:   direct cable incomers, bus risers, bus sections,  auxiliary voltage units, etc. The ES-B core unit is dedicated to busbar earthing:   b The main application is coupled busbars   (2 incomers + 1 bus coupler system) but it can   also be used for any application requiring busbar  earthing prior to accessing the busbars G06 Basic equipment   b Bus section (with optional earthing switch) with shielded solid insulation, designed  for easy integration in various Premset functional units ES-B   Basic equipment   b Earthing switch with shielded solid insulation, directly connected to the busbar  system. Based on the same earthing switch device used in other core units for  cable-side earthing.   b Earthing switch   v air technology in sealed-for-life tank at atmospheric pressure for a totally SF6-free  solution   v anti-reflex lever-operated mechanism, independent of operator action. Accessories Locking   b Standard built-in padlocking facility (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 or 2 keylocks for locking the ES-B fonction in “open” position. Auxiliary switches   b 1 optional changeover contact. Technical characteristics (GO6 and ES-B) DM100014 G06  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 No-load mechanical endurance  M1 class  (IEC 62271-102) Number of  cycles 1000 Making capacity endurance E2 class  (IEC 62271-102) Number of  cycles 5 DM100015

44 AMTED310010EN Core units Metering M06S - 2SIS compact metering The M06S core unit is a compact metering unit,  insensitive to harsh environments thanks to 2SIS  design.   b A cost-effective alternative to traditional  air-insulated metering units   b Fully compatible with the Premset system,   the M06S core unit can be used in a wide range   of applications requiring metering. Basic equipment   b 2SIS design (Shielded Solid Insulation System), composed of:   v bus riser with shielded solid insulation (see G06, page 43)   v 3 ring-type current transformers with shielded solid insulation   v 3 phase-to-earth voltage transformers with shielded solid insulation, located in  front compartment to provide easy access for maintenance and easy disconnection  for commissioning.   b The M06S metering core unit is fully compatible with the Premset system:   same dimensions as the other core units (375 mm wide) and fully compatible with  busbar or cable connections   b Featuring compact and modular design, the M06S metering unit can be used in   a wide range of applications requiring tariff metering, including metered incomers,  feeders and risers. Current and voltage transformers The M06S integrates 3 current transformers and 3 voltage transformers,   all with shielded solid insulation and compatible with digital meters.   b Current transformers: ring-type ARC5 (see page 48)   b Voltage transformers: phase-to-earth VRU1 (see page 49) Accessories Locking of front panel   b Standard built-in padlocking facility (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 keylock to prevent access to the voltage transformers. Technical characteristics PM100579 DM100016-A DM100016-B PM100584  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65

45 AMTED310010EN Core units Metering M06A - Air-insulated metering The M06A core unit is a traditional air-insulated  metering unit.   b Designed for easy adaptation to any type of  conventional block CT or VT   b Compatible with the Premset connection system. The M06A is twice the width (750 mm) of the  equivalent M06S 2SIS solution. Basic equipment   b Air-insulated design, composed of:   v bare copper primary circuit, in totally closed IP3X metal housing   v low-voltage cabinet   v 2 or 3 block-type current transformers   v 2 or 3 phase-to-earth or phase-to-phase block-type voltage transformers.   b The M06A metering core unit is fully compatible with the Premset system,   thanks to its flat interfaces for downstream and upstream connections.   b Voltage transformers can be connected upstream or downstream of the current  transformers and associated with optional fuse protection   b Wide choice of arrangements, addressing a wide range of applications requiring  tariff metering including metered incomers, feeders and risers (see below). Current and voltage transformers   b Block-type current transformers (see page 48):   v DIN 42600 t8 standard dimensions (AD12)   v Schneider Electric type (ARM3).   b Voltage transformers (see page 49)   v DIN 42600 t9 standard dimensions (phase-to-earth VDF11 and phase-to-phase  VDC11)   v Schneider Electric type (phase-to-earth VRQ2 and phase-to-phase VRC2).   b Optional fuses for voltage transformers: length 360 mm, diameter 45 mm. Accessories Locking of front panel   b Standard built-in padlocking and sealing facility (shackle diameter   9 mm)   b Optional keylocking facilities with flat or tubular key types:   v 1 keylock to prevent access to the sensor compartment. Technical characteristics Choice of arrangements Bus riser   metering Bus riser   metering Metered   feeder / incomer Busbars   metering DM100017-A DM100017-B PM100593  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65 Internal arc proof, type tested IAC cat A-FLR, 21 kA 1 s

46 AMTED310010EN Core units Metering VTM   , VTP - Voltage transformer VTM-D, VTP-D - Voltage transformer with  circuit-breaker protection The VTM and VTP core units are voltage  transformer units, directly connected to the  busbars and dedicated to power supply or  metering.They are compact and insensitive to harsh  environments thanks to 2SIS design. VTM, VTP  Voltage transformer units Basic equipment   b 2SIS design (Shielded Solid Insulation System), composed of:   v bus riser with shielded solid insulation (see G06, page 43)   v VTM unit: three VRU1 phase-to-earth screened voltage transformers dedicated to  power metering (see page 49)   v VTP unit: one VRU2 phase-to-phase screened voltage transformer dedicated to  auxiliary power supply (see page 50)   b The VTM and VTP core units are fully compatible with the Premset system: same  dimensions as the other core units (375 mm wide) and fully compatible with busbar  connections. Accessories Locking of front panel   b Standard built-in padlocking and sealing facility (shackle diameter   9 mm)   b Optional keylocking facility with flat or tubular key types:   v 1 keylock to prevent access to the voltage transformers. Technical characteristics (VTM, VTP) VTM-D, VTP-D Voltage transformer units,   with circuit-breaker protection Basic equipment   b 2SIS design (Shielded Solid Insulation System), composed of:   v 100 A disconnecting circuit breaker with associated earthing switch  (see D01,  page 40)   v VTM-D unit: three VRU1 phase-to-earth screened voltage transformers,  dedicated to power metering (see page 49)   v VTP-D unit: one VRU2 phase-to-phase screened voltage transformer, dedicated  to auxiliary power supply (see page 50). Accessories Please refer to accessories and auxiliaries of D01N core unit, page 40. Technical characteristics (VTM-D, VTP-D)  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (A r ms) 100 Rated short-time withstand current  and duration Ik  (kA r ms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity Isc (kA r ms) 20 21 21 25 25 25 Rated making capacity of circuit breaker   and earthing switches Icm (kA peak) 52 54 54 65 65 65 No-load mechanical endurance   of circuit breaker M1 class  (IEC 62271-100) Number of  cycles 1000 Electrical endurance of circuit breaker   E2 class  (IEC 62271-100) Number of  cycles Acc. E2 class, without reclosing duty Operating sequence O - 15 s - CO Maximum number of operations at Isc 5 Total clearing time at Isc Fault detection to  arc extinguishing (ms)  60 No-load mechanical endurance   of earthing switch M0 class  (IEC 62271-102) Number of  cycles 1000 Making capacity endurance   of earthing switch E2 class  (IEC 62271-102) Number of  cycles 5 DM100027 DM100028  Rated voltage Ur (kV) 7.2 12 15 Rated current Ir (Arms) 630 Rated short-time withstand current  and duration Ik (kArms) 20 21 21 25 25 25 tk (s) 4 1 3 1 2 3 Short-circuit breaking capacity  Isc (kArms) 20 21 21 25 25 25 Rated making capacity of circuit breaker and  earhing switches Icm (kApeak) 52 54 54 65 65 65

47 AMTED310010EN Core units AMTED310010EN

48 AMTED310010EN Core units Current and voltage  transformers for metering Current transformers Summary of current and voltage transformers for metering Metering current transformers Metering voltage transformers Type Functional unit type Type Functional unit type ARC5 Ring M06S VRU1 Screened Phase to earth M06S / VTM / VTM-D AD12 Block DIN M06A VDF11 Block DIN Phase to earth M06A  ARM3 Block M06A  VRQ2 Block Phase to earth M06A  VDC11 Block DIN Phase to phase M06A VRC2 Block Phase to phase M06A Auxiliary power supplyVRU2 Screened Phase to phase VTP / VTP-D PE58382 ARC5 The ARC5 is a ring-type current transformer used in the  M06S 2SIS metering   core unit.   b Compact dimensions for easy installation on a Premset bus riser   b Cost-effective compared to standard MV CT block or DIN solutions. ARC5 characteristics Rated & insulation voltage 0.72 / 3 kV Thermal withstand 25 kA x 3 s Transformation ratio 100/5 200/5 400/5 600/5 Power with cl 0.2S Fs   5 5 VA DE52378 AD12 The AD12 is a DIN type medium voltage current transformer used in the  M06A  air-insulated metering core unit.   b Widely used type of current transformer with overall dimensions   in accordance with DIN 42600 Teil 8 standard 12 kV size   b High accuracy over the entire measurement range. AD12 characteristics Rated & insulation voltage 17.5 & 38/95 kV (1 min power frequency withstand / lightning impulse withstand) Thermal withstand 25 kA x 3 s Transformation ratio 25/5 50/5 100/5 150/5 200/5 300/5 400/5 600/5 Transformation ratio    (2 secondary wirings) 25-50/5 50-100/5 100-200/5 150-300/5 200-400/5 300-600/5 Power with cl 0.2S Fs   5 2.5  VA 2.5 to 10 VA 2.5 to 15 VA Power with cl 0.2 Fs   5 2.5  VA 2.5 to 10 VA 2.5 to 15 VA Power with cl 0.5 Fs   10 2.5 to 5 VA 2.5 to 15 VA PE58383 ARM3 The ARM3 is a block type medium voltage current transformer used in the  M06A  air-insulated metering core unit.   b Standard type of current transformer for Schneider Electric applications.   b High accuracy over the entire measurement range. ARM3 characteristics Rated & insulation voltage 17.5 & 38/95 kV (1 min power frequency withstand / lightning impulse withstand) Thermal withstand 25 kA x 3 s Transformation ratio 25/5 50/5 100/5 150/5 200/5 300/5 400/5 600/5 Transformation ratio    (2 secondary wirings) 25-50/5 50-100/5 100-200/5 150-300/5 200-400/5 300-600/5 Power with cl 0.2S Fs   5 2.5 to 10 VA 2.5 to 15 VA Power with cl 0.2 Fs   5 2.5 to 10 VA 2.5 to 15 VA Power with cl 0.5 Fs   10 2.5 to 15 VA cl: accuracy class Fs: Safety factor Three different types   of current transformers   are used for tariff  metering on Premset  switchboards. They are all designed  for easy installation   and a long trouble-free  service life.Compliance with  standard IEC 60044-1   and 50/60 Hz frequency  for all current  transformers.

49 AMTED310010EN Core units Current and voltage  transformers for metering Voltage transformers Different types of  voltage transformers   are used for tariff  metering on Premset  switchboards. They are all designed  for easy installation   and a long trouble-free  service life.Compliance with  standard IEC 60044-1   and 50/60 Hz frequency  for all voltage  transformers. PE5841 1 VRU1 The VRU1 is a phase-to-earth screened voltage transformer used in 2SIS  M06S   and  VTM and VTM-D metering core units.   b Compact dimensions and design for easy installation in Premset core units   b Easy front access for disconnection for commissioning or replacement    b 2SIS design for insensitivity to harsh environments. VRU1 characteristics Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 6/3 kV 6.6/3 kV 6/3 kV 10/3 kV 11/3 kV 10/3 kV 13.8/3 kV  15/3 kV 1st secondary 100/3 V  110/3 V 100/3 V 100/3 V  110/3 V 100/3 V 110/3 V  100/3 V Power and accuracy class 10 VA cl 0.2 2nd secondary 100/3 V  110/3 V 100/3 V 100/3  V  110/3  V 100/3 V 110/3 V  100/3 V Power and accuracy class 30 VA 3P PE58446 PE58399 VDC11 or VDF11 VDF11 phase-to-earth and VDC11 phase-to-phase voltage transformers are used   in the  M06A air-insulated metering unit.   b Widely used type of voltage transformer with overall dimensions in accordance  with DIN 42600 Teil 9 standard 12 kV size   b Easy to adapt to local practices or specifications. VDC11 VDF11 VDC11 characteristics Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV Primary 3 to 6.6 kV 6 kV 6 to 11 kV Secondary 100 V 110 V 100 V 100 V  110 V Power and accuracy class 5 VA to 15 VA cl 0.2 5 VA to 50 VA cl 0.5 VDF11 characteristics Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 3/3 to 6.6/3 kV 6/3 kV 6/3 to 11/3 kV 10/3 kV 10/3 to 15/3 kV 1st secondary 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V Power and accuracy class 5 VA to 10 VA cl 0.2  5 VA to 20 VA cl 0.5  2nd secondary 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V Power and accuracy class 30 VA 3P PE58408 PE58403 VRQ2 or VRC2 VRQ2 phase-to-earth and VRC2 phase-to-phase voltage transformers are used   in the  M06A air-insulated metering unit.   b Standard type of voltage transformer for Schneider Electric applications,   VRQ2 or VRC2 already used in SM6 and RM6 metering cubicles. VRQ2 VRC2 VRC2 characteristics  Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 3 to 6.6 kV 6 kV 6 to 11 kV 10 kV 10 to 15 kV Secondary 100 V 110 V 100 V 100 V  110 V 100 V 100 V  110 V Power and accuracy class 5 VA to 30 VA cl 0.2 5 VA to 50 VA cl 0.5 VRQ2 characteristics Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 3/3 to 6.6/3 kV 6/3 kV 6/3 to 11/3 kV 10/3 kV 10/3 to 15/3 kV 1st secondary 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V Power and accuracy class 5 VA to 30 VA cl 0.2  5 VA to 50 VA cl 0.5 2nd secondary 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V 100/3 V 100/3 V   110/3 V Power and accuracy class 30 VA 3P

50 AMTED310010EN Core units Current and voltage  transformers for metering Voltage transformers PE58412 VRU2 for auxiliary power supply The VRU2 is a phase-to-phase screened voltage transformer. It is used in  VTP and VTP-D auxiliary power supply functions.   b Compact dimensions and screened design for easy installation in Premset core  units, insensitivity to harsh environments   b Designed to withstand power frequency tests (no need for disconnection during  commissioning)   b Power: 300 VA continuous, 500 VA for 1 minute. VRU2 characteristics Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 6 and 6.6 kV 6 kV 10 and 11 kV 10 kV 13.8 and 15 kV Secondary 230 V Accuracy class cl 3 (for 30 VA)

51 AMTED310010EN Protection, monitoring   and control Contents Protection Selection guide VIP 40 and VIP 45 VIP 400 and VIP 410 VIP integrated systemSepam series 20 and series 40 Sensors and actuators- Current transformers: TLPU1, ARU2, CSH120/200- Voltage transformers: VLPU1, VRT4 52 Fault passage indicators  Flair 21D, 22D and 23DM  61 Voltage indicator and relay  VPIS and VDS VD23 voltage relay Live cable interlocks 63 Integrated measurement  AMP21D ammeter PM200 series Power Meter PM800 series Power Meter & Quality Meter Sensors- Current transformers: ARU1, ARC6, ARC7- Voltage transformers: VLPU1, VRT4 66 Control  Local and electrical operation mechanismsElectrical operation auxiliaries: MCH, XF, MX, MNElectrical operation auxiliaries: SC100 Architecture of feeder automation Easergy R200 control unit Automatic Transfer System: ATS100 PS100 high-availability power supply  69

52 AMTED310010EN Protection, monitoring   and control Protection Selection guide VIP self-powered integrated protection Optimised performance for Premset   b Integrated protection relay   v complete engineered and pre-tested protection system: dedicated CT and low  power actuator (Mitop)   v savings on space and cabling time   b Self-powered protection   b Optimised for Premset: core unit switchgear and protection designed to work  together in an optimum manner:   v optimisation of the breaking time   b Simple protection, easy to implement   b Perfectly adapted to dedicated applications. VIP 40 and VIP 45:   designed for D01N and D02N transformer protection circuit  breakers   b MV/LV 100 A (D01N) or 200 A (D02N) transformer protection   b Dedicated protection curve to protect against overloads, short-circuits and earth  faults with straight-forward settings   b Fast clearing time or transformer short-circuits (  60 ms): no fuse needed. VIP 400 and VIP 410:   designed for D06N and D06H general protection circuit breakers   b Substation protection (incomers, feeders, bus risers) using D06N (standard duty)  or D06H (heavy duty) 630 A circuit breakers    b MV/LV transformer protection instead of VIP 40 and VIP 45 if more functions are  required   b DT (Definite Time) and standard IDMT (Inverse Definite Minimum Time) tripping  curves   b Switchgear diagnostics   b Multi-language display   b VIP 410 includes a dual supply (self-powered plus auxiliary) for communication  and high sensitivity earth fault protection. High sensitivity sensors A VIP integrated protection system is composed of sensors, a processing unit and   an actuator, designed together to provide the highest level of reliability and sensitivity  from 0.2 A to 20 In for VIP 400 and VIP 410 and 5 A to 20 In for VIP 40 and VIP 45  (see page 56). Sepam range protection Protection relays of the Sepam range are also available and have the following  characteristics:   b External auxiliary power   b Open range   b From basic to more sophisticated protection   b Standard CTs and trip actuators (see page 59). MiCOM range MiCOM protection provides the user with a choice of cost-optimised solutions for  specific protection requirements within the distribution network. The MiCOM relay series offers  comprehensive protective function solutions for all power supply systems as well as for various functional and  hardware project stages. Sepam range MiCOM range Premset functional units including a circuit breaker  core unit (D01N, D02N, D06N, D06H) can be  equipped for protection with:   b A VIP 40, VIP 45, VIP 400 or VIP 410 relay,  integrated in an optimised functional block to form  a protection system dedicated to the application   b An external Sepam series 20 or series 40 relay   or other compatible relay. VIP 400 and VIP 410 VIP 40 and VIP 45  PM100576 PE88030 PM102898 PM100573

53 AMTED310010EN Protection, monitoring   and control Protection Selection guide Quick selection table VIP series   Integrated self-powered protection optimised for Premset Sepam   series General Transformer  protection General  protection VIP 40 VIP 45 VIP 400 VIP 410   Sepam 20 Sepam 40  Protection functionsPhase overcurrent (ANSI 50-51) b b b b b b Earth fault phase (ANSI 51N) Standard (sum of current method) b b b b b High sensitivity (earth fault CTs) b b b Thermal overload (ANSI 49) b b b b Cold load pick-up b b b Other protection functions  (1) b b  Measurement functionsPhase current b b b b b b Earth current b b b b b Phase peak demand current b b b b b b Load history Cumulative time b b b b  Control and monitoring functionsTrip indication Local (with origin of the fault) b b b b b b Remote (one contact) b b b b b b Output relays b  (2) b b Trip circuit supervision (ANSI 74TC) b b b b b b Time-tagged events Local on display (5 last trips) b b b b Remote, via communication b b b External tripping input b b b Overcurrent and breaking profile Number of phase and earth trips  (3)   b b b b Serial communication port Modbus RS485 b b b Digital inputs/outputs for control functions b b  Power supplyType of supply Self-powered or auxiliary Self Self Self Dual  (4) Auxiliary Auxiliary Minimum 3 phase load currents   to activate the VIP 4 A 4 A 7 A  (5) – (1)  See Sepam user guide.(2)  Signalling relays: (use of output relays may be change):    O1 = phase fault (I , I , I )    O2 = earth fault (Io , Io )    O3 = thermal overload alarm. (3)  The number of trips is displayed in 4 levels:    For D01 and D02:   200 A,   2 kA,   8 kA,   8 kA    For D06 and D06H:   630 A,   10 kA,   20 kA,   20 kA. (4)  The protection is self-powered. Auxiliary power is used only for communication and high sensitivity earth fault protection.(5) 14 A with 630 A CBs. ( ) Consult us for availability

54 AMTED310010EN Protection, monitoring   and control Protection VIP 40 and VIP 45 Application   b Entry level MV/LV transformer protection   b Dependent-time phase overcurrent tripping curve dedicated to MV/LV transformer  protection   b Definite-time earth fault protection   b Phase current and peak demand current measurement. Main features Self-powered operation   b Energised by the CTs: no auxiliary power needed. Complete pre-tested protection system   b Functional block ready to be integrated. Designed for Premset to protect transformers   b Designed for D02N 200 A and D01N 100 A circuit breakers to replace fuse-switch  solutions   b Setting is as simple as fuse selection   b Maximum setting possibilities consistent with circuit breaker characteristics. Phase overcurrent protection   b Tripping curve optimised for MV/LV transformer protection   b Protection against overloads and secondary and primary short-circuits   b Second harmonic restraint filtering   b Only one setting (I  )   b Discrimination with LV circuit breakers or LV fuses   b Compliant with TFL (Time Fuse Link) operating criteria. Earth fault protection   b Definite-time tripping curve   b Settings: Io  (phase current sum method) and to   b Second harmonic restraint element. Measurement   b Load current on each phase   b Peak demand current. Front panel and settings   b Current measurements displayed on a 3 digit LCD   b Settings with 3 dials (I  , Io  , to  ) protected by a lead-sealable cover   b Trip indication powered by dedicated integrated battery with reset by pushbutton  or automatically. Other features   b Complete pre-tested solution that eliminates complicated CT selection   b Complies with MV protection relay standard IEC 60255   b No PC or specific tool required for setting or commissioning   b Maximum setting possibilities consistent with circuit breaker features   b Self-powered by dual core CTs: CUa   b Environment: -40°C / +70°C. Primary injection test   b A primary injection circuit may be permanently installed (option) through the CTs,  inside the Premset cubicle, to test the physical integrity of the complete protection  system including the CTs   b The test is carried out without disconnecting the CTs and the VIP 40 and VIP 45  displays the injected current during testing   b If required, a temporary VIP 40 and VIP 45 test mode can be activated to test   the tripping of the circuit breaker by pressing a test pushbutton. Test with the Pocket Battery module   b This accessory can be connected on the VIP 40 and VIP 45 front plate to energise   the relay to carry out a quick test even when the relay is not powered   (the temporary “VIP 40/45 test mode” can be activated for the circuit breaker). Dual core CTs in a block under   the core unit Schneider Electric recommends circuit breakers  for transformer protection instead of fuses.   They offer the following advantages:   b Easy to set   b Better discrimination with other MV and LV  protection devices   b Improved protection performance for inrush  currents, overloads, low magnitude phase faults  and earth faults   b Greater harsh climate withstand   b Reduced maintenance and spare parts   b Availability of additional functions such as  measurement, diagnostics and remote monitoringAnd with the recent development of low cost circuit  breakers and self-powered relays,  life time costs  are now equivalent to those  of traditional MV  switch fuse solutions. Dual core CTs: for power and for measurement Mitop VIP DM100009 PM100574

55 AMTED310010EN Protection, monitoring   and control Protection VIP 400 and VIP 410 Applications   b MV distribution substation incomer or feeder protection relay   b MV/LV transformer protection. VIP 410 ready for smart grids Dual supply for communication with:   b DMS and RTUs   b Remote alarming   b Time stamped events   b Measurements of current, load history, overcurrent and breaking profile. Dedicated to intelligent MV loops with automation:   b Remote configuration   b Setting groups selectable according to the configuration of the MV loop   b Remote asset management   b Plug and play system with Easergy RTUs (R200) to integrate all protocols   (IEC 60870-104, DNP3, IEC 61850) and remote Web pages. Main features VIP 400: Self-powered protection relay This version is energised by the current transformers (CTs). It does not require   an auxiliary power supply to operate.   b Overcurrent and earth fault protection   b Thermal overload protection   b Current measurement functions. VIP 410: Dual powered protection relay   b Offers the same self-powered functions as the VIP 400   b In addition, the VIP 410 has an AC or DC auxiliary supply to power certain  additional functions that cannot be self-powered:   v sensitive earth fault protection   v external tripping input   v cold load pick-up   v communication (Modbus RS485 port)   v signalling   b If the auxiliary power fails during an MV short-circuit, the protection functions   are maintained. Other features   b Designed for Premset D02N 200 A and D06N 630 A circuit breakers   b Complete pre-tested solution that eliminates complicated CT selection   b Complies with MV protection relay standard IEC 60255   b No PC or specific tool required for setting or commissioning   b Self-powered by dual core CTs   b Environment: - 40°C / +70°C. Primary injection test A primary injection circuit may be permanently installed (option) through the CTs,  inside the Premset cubicle, to test the physical integrity of the complete protection  system including the CTs.   b The test is carried out without disconnecting the CTs and the VIP relay displays  the injected current during testing   b If required, a temporary VIP test mode can be activated to test the tripping   of the circuit breaker by pressing a test pushbutton. Test with the Pocket Battery module   b This accessory can be connected on the VIP relay front plate to energise the relay  to carry out a quick test even though the relay is not powered. This module also  makes it possible to test the circuit breaker. Tests of protection system and circuit breaker   b VIP 400 is a self-powered relay energised   by the CTs; it does not require an auxiliary   power supply to operate   b VIP 410 is a dual powered relay offering self- powered functions and additional functions  powered by an AC or DC auxiliary supply. PM100580 DM100040 VIP Test pocket battery Injection test case

56 AMTED310010EN Protection, monitoring   and control Protection VIP integrated system High sensitivity sensors VIP integrated protection system The VIP integrated protection system is composed of sensors, a processing unit and  an actuator, designed together to provide the highest level of reliability and sensitivity  from 0.2 A to 20 In for VIP 400 and VIP 410 and 5 A to 20 In for VIP 40 and VIP 45. Sensors The sensors are made up of one block of three CTs with rated and insulation  voltages of 0.72 kV / 3 kV - 1 min, providing both measurement and power outputs.   b The measurement sensor is based on Low Power Current Transformer (LPCT)  technology as defined by standard IEC 60044-8, ensuring excellent accuracy:   v 5P30 for protection   v class 1 for measurement.   b The power supply winding ensures calibrated self-powering of the relay even for  currents of just a few Amperes    v e.g. 7 A is sufficient for operation of the VIP 400 with a 200 A circuit breaker, up to  its saturation level   v e.g. 4 A is for operation of the VIP 40 up to its saturation level.   b Optionally, the VIP 410 can be associated with an earth fault current transformer  (a single zero-sequence CT) dedicated to sensitive earth fault protection with a low  threshold down to 0.2 A.   b The protection sensors are located under the core unit, the earth fault sensors  around the bushings or on the cables. The connection between all these elements,  sensors and the relay is prefabricated and protected against external aggression,  providing a higher level of reliability. Actuators   b The actuator is a dedicated low power tripping coil (Mitop) specifically designed   to operate with the sensors and the processing unit with minimum energy.    b The integrity of the Mitop circuit is continuously supervised   (Trip Circuit Supervision function). Connection diagrams CUaCubDedicated   current sensors  (power and  measurement) CSHU for VIP 410 only  CSH120/200Optional zero sequence sensor  (2 possible options and locations) Test pocket battery Mitop Injection test L1 L2 L3 Mitop Injection test L1 L2 L3 AC/DC supply OC EF Ext. trip Thermal Communication  RS485 Test pocket battery VIP 40, VIP45 & VIP 400 VIP 410 The VIP series is an integrated protection system:   b Dedicated sensors located under the core unit  provide protection and measurement outputs   b Optional additional earth fault sensors are  available   b Actuators are low power tripping coils (Mitop). DM100029 DM100030 DM100035

57 AMTED310010EN Protection, monitoring   and control Protection Sepam series 20 and series 40 1   Base unit, with various types of User Machine Interfaces (UMI)   b Basic UMI   b Advanced UMI with graphical LCD screen 2   Remote advanced UMI 3   10 logic inputs and 8 output relays   b 4 outputs on the base unit + 1 optional module providing 10 inputs and 4 outputs 4   Communication port   b Connection to 1 or 2 S-LAN and/or E-LAN networks   b Modbus, Modbus TCP/IP, IEC 60870-5-103, DNP3 and IEC 61850 communication  protocols   b RS485 ( 2 or 4 wire) or fibre optic network 5   Temperature data from 8 or 16 sensors   b Pt100, Ni100 or Ni120 6   1 analog output   b 0-10 mA, 4-20 mA or 0-20 mA 7   Software tools   b Sepam parameter and protection settings and control function customisation   b Recovery and display of disturbance recording data   b Local or remote operation via an E-LAN Series 20 and series 40 relays and optional modules Standard   IEC 61850 Sepam series 20 and series 40 are families   of digital current and voltage protection relays   for MV public and industrial distribution networks:   b Sepam series 20 for standard applications   b Sepam series 40 for demanding applications. 1 2 3 4 5 6 7 PE101 19

58 AMTED310010EN Protection, monitoring   and control Protection Sepam series 20 and series 40 Series 20 Series 40  Protections Current b b b b b b b Voltage b b b b b b Frequency b b b b b b Specifics Breaker  failure Disconnection  by rate of  change of  frequency Directional  earth fault Directional   earth fault   and phase  overcurrent Directional  earth fault  Applications Substation S20 S24 S40  S50  (3) S41  S51  (3) S42  S52  (3) S43  S53  (3) S44  S54  (3) Busbar B21 B22 Transformer T20 T24 T40  T50  (4) T42  T52  (4) Generator G40 Capacitor  Characteristics Logic inputs 0 to 10 0 to 10 0 to 10 Logic outputs 4 to 8 4 to 8 4 to 8 Temperature sensors 0 to 8 0 to 8 0 to 16 Channel Current 3 I + Io 3 I + Io Voltage 3V + Vo 3V, 2U + Vo LPCT  (1) b b Communication ports 1 to 2 1 to 2 1 to 2 IEC61850 Protocol b b b Redundancy b Control Matrix  (2) b b b Logic equation editor b Other Backup battery 48 hours (1) LPCT: low-power current transformer complying with standard IEC 60044-8.(2) Control matrix for simple assignment of information from the protection, control and monitoring functions.(3) S5X applications are identical to S4X applications with the following additional functions:   b Earth fault and phase overcurrent cold load pick-up   b Broken wire detection   b Fault locator. (4) T5X applications are identical to T4X applications with the following additional functions:   b Earth fault and phase overcurrent cold load pick-up   b Broken wire detection. PE88022 PE88022 DE59605 DE59606 DE59607

59 AMTED310010EN Protection, monitoring   and control Protection Sensors and actuators for Sepam series  20 and series 40 or third party relays:  Current transformers The Sepam series 20 and series 40 includes  sensors and actuators.   b Sensors can be:   v TLPU1 standard LPCT sensors placed under the  core unit   v ARU2 current transformers.   b Actuators are additional shunt trip coils   b 50/60 Hz frequency for all sensors. TLPU1 (LPCT) A standard Low Power Current Transformer (LPCT) of the TLPU1 type can be located  under the core unit. LPCTs provide a precise and stable voltage output over a single  large range.TLPU1 characteristics LPCT standard  IEC 60044-8 Rated voltage Ur 0.72 kV Insulation voltage Ud 3kV - 1 min Thermal withstand current Ith (kA) - t(s) 25 kA - 3 s Measurement class 5P250 - 0.5  Rated primary current  I1n 100 A Secondary voltage Vs 22.5 mV at 100 A Rated burden  2 kΩ ARU2  A standard ring type current transformer of the ARU2 type (1 A, 5P20 class) can be  located under the core unit. ARU2 characteristics CT standard IEC 60044-1 Rated voltage Ur 0.72 kV Insulation voltage Ud 3 kV - 1 min Thermal withstand current Ith (kA) - t(s) 25 kA - 3 s Transformation ratio  100/1 200/1 - 400/1 - 600/1 Rated burden 1.5 VA 2.5 VA Protection class 5P-20 CSH120/200   b For Sepam or third party protection relays, if the sensitive earth fault protection is  required, an earth fault toroidal CT of the CSH120 or CSH200 type around the  cables should be installed. TLPU1 (LPCT type) ARU2 CTs  Sensitive earth fault protection may require CSH  sensors to be installed around the cables. DM100036 DM100037 DM100038 CSH120/200

60 AMTED310010EN Protection, monitoring   and control Protection Sensors and actuators for Sepam series  20 and series 40 or third party relays:  Voltage transformers  VLPU1  ( ) The VLPU1 is a Low Power Voltage Transformer.   Resistive divisor technology is used, ensuring small size, a wide range of ratings   in a single device and avoiding ferroresonance problems. Provided with a flat  interface, fully compatible with the connection system, the sensor can be located  under the core unit or anywhere in the busbar system and does not need to be  disconnected during commissioning and cable tests. It does not require any fuse  protection.VLPU1 characteristics LPVT voltage transformer IEC 60044-7 Earth screened b Phase-to-earth b Insulation level  17.5-42-95 kV Operating voltage  3/3  to 15/3 kV Ratio 10/3 / 1.625/3 V Accuracy class 1 - 3P Rated burden  4 MΩ VRT4 The VRT4 is a phase-to-earth screened voltage transformer, placed behind   the cables. Totally insensitive to harsh atmosphere effects, it does not require   any fuse protection. A flexible connection to the front T-type cable plugs   can be easily disconnected for commissioning tests.VRT4 characteristics Standard IEC 60044-2 Voltages 7.2-20-60 kV 7.2-32-60 kV 12-28-75 kV 12-42-75 kV 17.5-38-95 kV Primary 6/3 kV 6.6/3 kV 6/3 kV 10/3 kV 11/3 kV 10/3 kV 13.8/3 kV 15/3 kV 1st secondary 100/3 V  110/3 V 100/3 V 100/3 V  110/3 V 100/3 V 110/3 V  100/3 V Power and accuracy class 10 VA cl 0.2 2nd secondary 100/3 V  110/3 V 100/3 V 100/3  V  110/3  V 100/3 V 110/3 V  100/3 V Power and accuracy class 30 VA 3P ( ) Consult us for availability PE58413

61 AMTED310010EN Protection, monitoring   and control Fault passage indicators Flair 21D, 22D and 23DM Flair 21D, 22D, 23DM is a family of DIN format   fault passage indicators. They are small in size,  self-powered and adapt automatically to the  network.These devices use cutting-edge technology to  detect earth faults on underground MV networks  with isolated, resistor-earthed or directly earthed  neutral and overcurrents on all networks.   b Self-powered, the fault current passage  detection and indication system operates  continuously   b Adjustment-free, they are immediately   operational (numerous manual adjustments   are however possible)   b Compact, their DIN format easily fits   in MV cubicles   b Smart, they offer an ammeter/digital maximeter  function   b Comprehensive, the Flair 23DM version  incorporates a highly sophisticated voltage  presence/absence relay function with RJ45  Modbus communication.   b Earth fault sensitivity  as low as 5 A   b Display of settings  and faulty phase    b Automatic reset Applications and main features The Flair range increases your power availability by providing indicators suitable for fault locating and MV network load management.   b Indication of phase-phase and phase-earth faults   b Display of settings   b Indication of the faulty phase   b Display of the load current including peak demand and frequency   b Fault passage indication and voltage detection combination (Flair 23DM)   b RJ45 communication (Flair 23DM only). These fault passage indicators are reliable and easy to use.   b Automatic setting on the site   b Fault indication with LED or outdoor lamp   b 15-year battery life for Flair 22D   b More accurate fault detection if Flair 22D or 23DM is connected to voltage  presence indication system (VPIS) voltage output   b Can be factory-mounted in Premset cubicles or added on the site   b Easy on-site addition without removing MV cables using split-type current sensor. Fault detection functions Overcurrent detection   b Automatic mode for adjustment-free calibration of detection thresholds   b Manual mode for special override settings:   v Flair 21D: 4 detection thresholds from 200 A to 800 A, in 200 A increments,   selectable via microswitches   v Flair 22D and Flair 23DM: 8 detection thresholds from 100 A to 800 A, in 50 A  increments, configurable via the front panel keypad.   b Fault acknowledge time:   v Flair 21D: 40 ms   v Flair 22D and Flair 23DM (configurable via the front panel keypad)  - Type A from 40 to 100 ms in 20 ms increments  - Type B from 100 to 300 ms in 50 ms increments. Earth fault detection The detector checks the 3 phases for current variations (di/dt).   A time delay of 70 s is applied for fault confirmation by the upstream   protective device.   b Automatic mode for adjustment-free calibration of detection thresholds   b Manual mode for special override settings:   v Flair 21D: 6 detection thresholds from 40 to 160 A, via microswitches   v Flair 22D and Flair 23DM (configurable via the front panel keypad):  - Type A from 20 to 200 A, in 10 A increments  - Type B from 5 to 30 A in 5 A increments and 30 to 200 A in 10 A.   b Inrush function: prevents unnecessary detection in the event of load switch-on.  Incorporates a 3 s time delay for fault filtering at network power up.   The Inrush function can be disabled via configuration on Flair 22D and 23DM. Fault indication function Signalling As soon as a fault is confirmed, the indication device is activated.   b Fault indication via a red LED on the front panel   b Indication of the faulty phase (earth fault) on LCD display   b Optional remoting of indication to external flashing lamp   b Activation of a contact for retransmission to the SCADA system. Indication reset   b Automatic reset upon load current recovery (configurable time delay on Flair 22D  and Flair 23DM)   b Manual reset via front panel button   b Reset via external Reset input   b Reset by time delay: fixed (4 hr) for Flair 21D and adjustable using front   panel keypad (2 hr to 16 hr) for Flair 22D and Flair 23DM. Flair 21D Flair 22D PE57783 PE57784

62 AMTED310010EN Protection, monitoring   and control Fault passage indicators Flair 21D, 22D and 23DM   Display principle   b The load current is displayed continuously   b When a fault is detected, the faulty phase is indicated   b Use the buttons on the front panel to scroll through settings and measurements. Selection table Flair   Flair 21D Flair 22D Flair 23DM Power supply Self-powered b b b Dual-powered b   (1) b Detection Overcurrent b b b Earth-fault b b b Display  (4 digit LCD) Ammeter b b b Maximeter b b b Options SCADA interface (relay) b b b External lamp b b b External reset b b Extended setting (keypad) b b Communication 2-voltage output relays b Serial communication port b (1) By lithium battery  Characteristics per product  Model Description  Fault passage indicator with single power supply (self-powered)Flair 21D Detector with autonomous power supplyExternal indicator lamp output powered by battery (BVP)  Fault passage indicator with dual power supplyFlair 22D Detector with autonomous power supply and lithium batteryExternal indicator lamp output powered by the Flair (BVE)Interface with VPIS-VO possible to confirm the fault by voltage absence  Fault passage indicator with dual power supply and voltage presence/absenceFlair 23DM Detector with 24-48 Vdc external and autonomous power supplyExternal indicator lamp output powered by the Flair (BVE)Voltage presence and absence detector (same as for VD23)Interface with VPIS-VO needed for the voltage presence Standard applications Flair 21D Maintenance-free, adjustment-free fault detector Flair 22D Fault detector for networks with very low load current ( 2 A) with possibility   of manual adjustments. Flair 23DM Adapted to Feeder Automation. Forwarding of current measurement,   fault passage indication and voltage outage information to the SCADA   via a serial communication port. Combination fault passage indicator and voltage detector, ideal for use   with an Automatic Transfer System. Clear, comprehensive display L3  L2 L1 Reset Reset VPIS-VO option Flair 21D Flair 22D Flair 23DM SCADA  Reset Connection diagrams Sensors The Flair 21D, 22D, 23DM range uses   an integrated detection system composed   of indicators and dedicated CTs.Integrated sensors are normally placed around   the bushings. Split CTs can be placed around  cables for retrofit purposes. L3  L2 L1 L3  L2 L1 Indication Indication Indication Reset VPIS-VO option Voltage relays + - Com RS485 Flair 22D Easergy L1 L2 L3 I max. EMS58352 A Esc Test Reset DE58715 DM1000048

63 AMTED310010EN Protection, monitoring   and control Voltage indicator and relay VPIS and VDS PE56830 PB103790 Voltage presence indicators  A voltage presence indicating device can be integrated in all the functional units,  either on the cable or busbar side. It can be used to check whether or not a voltage   is present across the cables.Two devices are available:   b VPIS: Voltage Presence Indicator System, as defined by standard IEC 62271-206   b VDS: Voltage Detecting System, as defined by standard IEC 61243-5. The VPIS can be fitted with a voltage output (VPIS-VO) dedicated to various voltage  detection applications such as automatic transfer switches, voltage absence or  presence contacts, live-cable earthing switch lockout, etc. Voltage sensors A voltage sensor is integrated in all the functional units. It provides a signal with   an accuracy of 5% to the VPIS through a 30 pF capacitive divider. The sensor is integrated in the tightening cap used to secure the busbar or cable  connections. The voltage can be detected either on the cable side or the busbar side. Phase concordance unit This unit is used to check phase concordance. Pocket battery for VIP This unit is used to power the VIP 40, VIP 45, VIP 400 and VIP 410 units,   making it possible to operate and test the protection system.   It can also be used to power Schneider Electric LV circuit breakers. VPIS Phase concordance unit Voltage  presence  sensors Voltage presence sensors on busbars or cables Pocket battery PE56366 PM100033

64 AMTED310010EN Protection, monitoring   and control Voltage indicator and relay VD23 voltage relay The VD23 is a voltage detecting system for  automatic transfer system or interlock  applications.   b Various combinations:   v presence or absence voltage relay   v zero sequence voltage relay   v phase-to-neutral or phase-to-phase voltage   v phase selection.   b Easy to install:   v compact 96 x 48 mm DIN format   v terminal connection for VPIS-VO   v no need for HV transformer   v hot installation   v auto-adaptation of nominal voltage.   b Optional communication port and fault detector   (Flair 23DM). Features The VD23 is a compact voltage relay for 3 kV to 36 kV, 50/60 Hz medium voltage networks. It is associated with a capacitive divider and a VPIS-VO.   b 2 output relays based on 2 functional modes:   v R1 = Voltage presence (typically used for automatic transfer switching)   v R2 = Voltage absence (typically used for interlocking of earthing switch).   b Thresholds can be set as a percent of phase-to-neutral voltage (V),   phase-to-phase voltage (U) or residual voltage (VO)   b All combinations of voltage conditions are possible:   v 3 phases and residual: V1+V2+V3+VO   v 3 phases: V1+V2+V3 or U12+U13+U23   v single phase: Vo, V1, V2, V3, U12, U13 or U23   b Output is a tripping order via two output relays with a normal or inverse active  position   b Signalling and tripping outputs may be set with a delay. Display principle   b Voltage value (% of Un) of L1, L2 and L3 shown on the display   b Voltage presence/absence indication via LED   b Settings by front pushbuttons and LCD   v thresholds, delays and smart parameters   v display of all settings on LCD.   b Auto-adaptation of the nominal system voltage   b Check on voltage status. Advanced settings All the combinations can be set with microswitches on the rear of  the device.   The use of two relays provides safety backup operation for each combination6 microswitches:  1: Ph-N voltage(V) / Ph-Ph voltage(U) 2: Direct / inverse action on output relays 3: Phase 1 used / not used 4: Phase 2 used / not used 5: Phase 3 used / not used 6: Residual voltage used / not used 1   2    3   4   5   6 10 Wiring  (with VPIS-VO) All the combinations can be set with microswitches on the rear of the device.   The use of two relays provides safety backup operation for each combination. VD23 PE57787 VPIS-VO VD23 L1 L2 L3 DM100060 Voltage presence 24-48  Vdc Voltage absence

65 AMTED310010EN Protection, monitoring   and control Live cable interlock   ESL MN VPIS-VO Functions The “live cable interlock” function is an electrical interlock preventing the operator  from closing the earthing switch on live cables. Even if all the earthing switches integrated in Premset core units have full making  capacity performance, it may be useful to avoid creating intempestive faults by  inadvertently earthing live cables. Principle The system is composed of:   b A mechanical locking assembly acting directly on the line / earth selector, including  an override key that can be used to bypass the locking device   b An undervoltage coil for failsafe operation of the mechanical lockout system   (see MN, page 70)   b A dedicated electronic auxiliary-powered voltage relay (ESL) fitted with an auxiliary  contact for remote indication of “locked” position   b A VPIS indicator on the cable side, with a voltage output (VPIS-VO), to detect   and send the voltage signal to the relay. Operation   b Normal case : the system is powered by auxiliary power. It is then impossible   to move the selector from “line” to “earth”, as long as voltage is detected on the cable  by the VPIS.   b In case of auxiliary power loss, cables live or not, a failsafe features blocks the  system so the selector cannot be operated.   Override is possible only by unlocking the system with key or when auxiliary power   is restored. Technical data   b Auxiliary power:    v 24-48 VDC: ESL100 A   v 110-220 VAC / 110-250 VDC: ESL100 E   b Key types:   v tubular   v flat.   b Undervoltage coil: see MN, page 70. DM100024 AC/DC  supply

66 AMTED310010EN Protection, monitoring   and control L1 L2 L3 Integrated measurement AMP 21D ammeter   b Traditionally, three analogue dial-type ammeters  were installed on MV feeders with a costly and  bulky TC to power them . These devices had poor  accuracy (cl. 1.5) and no maximeters to provide  feedback on the maximum load   b Now, with the AMP 21D digital ammeter,   all feeders can be equipped with small TCs   that provide accurate measurements and   a maximeter function, all at a lower price   b The AMP 21D is self-powered to display   currents continuously   b Its compact DIN format easily fits in Premset MV  cubicles   b Versatile, it displays phase current and  maximum current. Functions The Easergy Amp 21D is an ammeter dedicated to the display of the load current   on Medium Voltage networks. It is particularly suited to network load management applications.   b Display of the 3 phase currents: I1 , I2 , I3 (range: 3 A to 800 A)   b Display of the 3 phase current maximums: M1, M2 , M3 (range: 3 A to 800 A). Display principle   b Load currents are displayed by default, with continuous scrolling of L1, then L2,  then L3.   b The maximeter is displayed by pressing a dedicated pushbutton, with continuous  scrolling of maximum currents M1, then M2, then M3.   b The maximums are reset by pressing a combination of two pushbuttons. Design Small enclosure   b DIN format: 93 x 45 mm   b Secured, extraction-proof mounting   b Terminal connections. Technical data Application Frequency 50 Hz and 60 Hz Load current Minimum current 3 A Measurement Range Phase current 3 to 800 A  Accuracy (I   630 A) ± 3%, ± 2 A Reset of maximeter Manual from device Yes Power supply Self powered From the current sensors I load 3 A Battery No Auxiliary supply No Display Display 4 digits LCD Current per phase Yes (resolution 1 A) Maximeter current per phase Yes Sensors Phase CTs 3 ring or split core CT Other Test Yes Connection diagram AMP 21D AMP 21D PE57786 DM100050

67 AMTED310010EN Protection, monitoring   and control Integrated measurement PM200 series Power Meter PM800 series Power Meter & Quality Meter The PowerLogic PM800 series is designed to:   b Improve power system reliability and reduce  downtime by helping you monitor, troubleshoot   and prevent power quality issues   (the PM870 includes sag and swell detection   and configurable waveform capture)   b Measure and manage non-electrical utilities  using up to five different channels for optimal  management of your electrical installation   and higher productivity. The PowerLogic PM200 series help you:   b Reduce energy costs   b Improve power quality   b Improve continuity of service for optimal  management of your electrical installation   and higher productivity. PM200 series Power Meter Applications and main features The PowerLogic  Power Meter series 200 is perfectly suited to sub-billing   and cost allocation. It offers all the measurement capabilities required to monitor  an electrical installation in a compact 96 x 96 mm unit.With its large display, you can monitor all three phases at the same time.   The anti-glare-display features large 11 mm high characters and powerful back  lighting for easy reading even under extreme lighting conditions and viewing angles.The Power Meter series 200 is available in  three versions:   b PM200, basic version   b PM200P, basic version plus two pulse outputs for energy metering   b PM210, basic version plus an RS485 port for Modbus communication. Characteristics   b Requires only 50 mm behind the mounting surface   b Fault passage indication and volts   b Large backlit display with integrated bar charts   b Intuitive use   b Power and current demand   b Energy class 1 as defined by IEC 62053-21   b Auxiliary supply for PM devices are 110 to 240 Vac and 110 Vdc. PM800 series Power & Quality Meter Applications and main features The PowerLogic Power Meter series 800 is perfectly suited to:   b Sub-billing, cost allocation and utility bill verification   b Remote monitoring of an electrical installation   b Mid-range power quality analysis and energy management   b Utility contract optimisation and load preservation. The PM800 offers all the high performances measurement capabilities needed   to monitor an electrical installation in a compact 96 x 96 mm unit. Its large easy-to-read display lets you view the three phases and neutral   at the same time.Characteristics   b Large, anti-glare display with white back-light   b Summary screens with multiple values   b Custom alarming with time stamping   b Individual harmonic magnitudes and angles and waveform capture (PM850   and 870)   b Voltage and current disturbance (sags and swells) detection and configurable  waveform capture (PM870)   b Extensive and non-volatile on-board memory   b IEC 62053-22 class 0.5S for real energy ensures accurate energy measurement  for sub-billing and cost allocation   b Trend curves and short-term forecasting (PM850 and PM870)   b Five channels for WAGES (water, air, gas, electricity, steam) metering capability  on all models (a single channel can aggregate pulses from multiple inputs)   b Modular and upgradeable   b Optional remote display (as far as 10 m from the metering unit)   b Optional Ethernet communication port offers Modbus TCP/IP protocol, e-mail   on alarm, web server and Ethernet-to-serial gateway   b Auxiliary supply for PM devices are 110 to 240 Vac and 110 Vdc. PE86217 PE86158

68 AMTED310010EN Protection, monitoring   and control Integrated measurement Sensors for PM 200, PM800   or third party power monitors Dedicated current and voltage transformers are  available for measurements. They are designed   to be integrated in Premset core functions to avoid  extra cubicles. They are fully compatible with the PM Power Meter  series, but can also be used with third party devices. Current transformers ARU1 The ARU1 is a block comprising three ring-type current transformers used   on the phases of all the switchgear units:  I06, D01N / D02N, D06N and D06H. ARU1 characteristics Standard IEC 60044-1 Rated voltage 0.72 kV Insulation voltage 3 kV - 1 min Transformation ratio 100/1 200/1 400/1 600/1 Thermal withstand 25 kA x 3 s 25 kA x 3 s 25 kA x 3 s 25 kA x 3 s Class 0.5 s 0.5 s 0.5 s 0.5 s Power with cl 0.5 s 2.5 VA cl 0.5 2.5 VA cl 0.5 2.5 VA cl 0.5 2.5 VA cl 0.5 ARC6  ( ) ARC6 is a ring-type CTs placed around cables. It offers higher accuracy than the  ARU1 type presented above. It is not compatible with small cable boxes and can only  be installed on single-core screened cables.ARC6 ARC6 Standard IEC 60044-1 Transformation Ratio 100/5 150/5 200/5 300/5 400/5 600/5 Ith (kA) 25 25 25 25 25 25 t (s) 3 3 3 3 3 3 MeasurementClass 0.2S 0.2S 0.2S 0.2S 0.2S 0.2S Power 5VA 5VA 5VA 15VA 15VA 15VA ProtectionClass 5P 5P 5P 5P 5P 5P Power 1 VA 2.5 VA 2.5 VA 5 VA 7.5 VA 10 VA Voltage transformers VLPU1  ( ) , VRT4 The voltage sensors used for protection (VLPU1 or VRT4) can also be used   for power measurement. The entire PowerLogic PM range is fully compatible with them.   See page 60 for their description and technical characteristics. ARU1 ARC6 DM100038 ( ) Consult us for availability VRT4 PM100042

69 AMTED310010EN Protection, monitoring   and control Control Local and electrical operation mechanisms Three operating mechanisms meet all the needs   of the various core units of the Premset range.They provide trouble-free and user-friendly  operation over the entire life of your switchgear.They share the same range of auxiliaries for  electrical operation and remote indications. A rational range of operating mechanisms Three operating mechanisms have been designed together with the core units   to optimise performance and ensure user-friendly operation.They are totally integrated within the core units and will operate over the total life  expectancy of the switchgear. Periodic checkup of the mechanism can be done to ensure the performance  depending on the environmental conditions. All three mechanisms share the same features:   b Intuitive operation principles   b Positive indications and easy-to-read mimic diagrams   b Range of auxiliaries including motor-mechanism, opening coils (MX, MN), closing  coils (XF) and auxiliary switches   b Range of accessories including padlocking and keylock devices   b Earthing switch mechanism, fully and safely interlocked with the main device. Three mechanisms   b Lever type (CIT): lever-operated for closing and opening   b Latching type (CI1): lever-operated for closing, pushbutton-operated for opening  and fast tripping by coil or actuator (Mitop)   b Stored energy type (OCO): pushbutton-operated for closing and opening,  lever-operated for mechanical energy charging, fast tripping by coil or actuator  (Mitop). Can be closed by a coil (XF) and can operate an OCO cycle without  recharging. A rational range of electrical control auxiliaries All functional units of a Premset switchboard can be electrically operated using   the same auxiliary components:   b Motor mechanism: MCH   b Opening coil: shunt trip release MX   b Opening coil: undervoltage release MN   b Closing coil: XF. They are easy to add to a core unit without special tooling or training. This makes it  possible for installers to make last-minute modifications on-site.Main characteristics Mechanisms  CIT CI1 OCO Core units I06T D01N, D02N, D06N I06H, D06H Operation Manual Electrical Manual Electrical Manual Electrical Opening Lever MCH Push  button MX Push  button MX Closing Lever MCH Lever MCH Push  button XF Charging When  closing When  closing When  closing When  closing Lever MCH Additional   opening by coil  (1) No MX2 or MN MX2 or MN (1) Possible only with VIP tripping relays, because used by Sepam or other external relays   as an actuator. Please note that VIP 410 and Sepam relays include an “external tripping input” function. PM100009 PM100600 PM10051 1 CIT mechanism in I06T unit CI1 mechanism in D02N unit OCO mechanism in D06H unit

70 AMTED310010EN Protection, monitoring   and control Control Electrical operation auxiliaries MCH, XF, MX, MN Motor mechanism (MCH) The MCH electrical motor mechanism is used to charge the main springs that store  the operating energy for the core unit mechanism.   b On the CIT mechanism, it allows electrical opening and closing of the core unit.   b On the CI1 mechanism, it allows electrical charging and closing of the core unit.   b On the OCO mechanism, it allows electrical charging of the core unit.   The motor mechanism is equipped with a “spring charged” limit switch that stops  spring charging when the springs are fully charged. This contact is also used   to indicate the “spring charged” status.MCH characteristics Power supply 24-30 V DC, 48-60 V AC/DC,   100-130 V DC, 110-130 V AC, 200-250 V DC, 220-240 V AC Threshold 0.85 to 1.1 Un Consumption (VA or W)  180 Motor overcurrent 2 to 3 In for 0.1 s Charging time 6 s maximum Operating rate 3 cycles maximum per minute Shunt closing release (XF) and opening release (MX) XF shunt closing release This release, dedicated to the OCO mechanism, allows electrical closing as soon as  the springs are charged. MX shunt trip release This release, dedicated to the CI1 or OCO mechanisms, allows electrical opening of  the core unit. It can lock the unit in open position as long as the remote order is  maintained.XF and MX characteristics Power supply 24-30 V DC, 48-60 V AC/DC,   100-130 V DC, 110-130 V AC, 200-250 V DC, 220-240 V AC Threshold XF 0.85 to 1.1 Un MX 0.7 to 1.1 Un Consumption   (VA or W) Triggering 200 (for 200 ms)Latched 4 Undervoltage release (MN) This release allows the electrical opening of the core unit in the event of an undervoltage.  It can be used also for positive opening and locking in case of an emergency caused  by a voltage drop, loss of auxiliary power, etc. It can be associated with a time delay  unit.MN characteristics Power supply 24-30 V DC, 48-60 V AC/DC,   100-130 V DC, 110-130 V AC, 200-250 V DC, 220-240 V AC Threshold Opening 0.35 to 0.7 Un Closing 0.85 Un Consumption   (VA or W)  Triggering 200 (for 200 ms)Latched 4.5 “On/Off” auxiliary position contacts These auxiliary contacts indicate the “open” or “closed” position of the circuit breaker.   b Rotary type changeover contacts directly controlled by the circuit breaker mechanism.   b Indication contacts are proposed:   v for standard relaying applications   v for low level control applications with PLCs or electronic circuits. This version is compatible with Sepam series 20, series 40 and series 80 units. Characteristics Breaking capacity (A) Standard Minimum load: 100 mA/24 V Cos j: 0.3 V AC 240/380 10/6   (1) Utilisation category:   AC12/DC12 480 10/6   (1) 690 6 V DC 24/48 10/6   (1) 125 10/6   (1) 250 3 MCH motor mechanism XF and MX shunt closing releases  Time delay unit for MN undervoltage release PM100002 PM100582 PM100001 Rotary type contacts (OC) PM100032 (1)  Standard contacts: 10 A   Optional contacts: 6 A (temperature derating)

71 AMTED310010EN Protection, monitoring   and control Control Electrical operation auxiliaries  SC100 and SC110 The SC100 and SC110 is an intelligent electronic  device designed to control and monitor all the  components involved in the remote control of core  units.   It integrates all the necessary functions   for trouble-free remote control:   b Electrical interlocking   b Remote control supervision   b Front panel interface for local operation   b Built-in Modbus communication and “Plug and  play” design makes the SC100 and SC110 and the  remote control facility:   v easy to use   v easy to upgrade. SC100 universal intelligent controller SC100 and SC110 is a compact device with digital inputs and outputs to monitor   all the components associated with the electrical operation of the core unit:   MCH, MX, XF, auxiliary contacts. It can be associated with a control panel (SC-MI) and wireless remote control  options. Switchgear control functions   b Coil and motor operation   b Information on core unit status: main switch, earthing switch, lever insertion, etc.   b Built-in electrical interlocks: anti-pumping and anti-reflex functions   b External interlocking feature   b Lockout of electrical operation after tripping (option)   b Modbus communication for remote control via data transmission. Switchgear monitoring   b Diagnosis information: motor consumption, etc.   b Core unit auxiliary contacts status   b Logging of time-stamped events   b Modbus communication for remote indication of monitoring information. SC100 - SC110 types SC100-A SC100-E SC110-A SC110-E 24-60 Vdc b b 110-250 Vdc/Vac b b Network communication b b SC-MI control panels SC-MI 10 SC-MI 20 On/Off pushbuttons b b Remote/local switch b The SC100 and SC110  is installed in the Low Voltage cabinet  of the functional unit. It controls and monitors all the devices  needed for electrical operation: MCH, MX, XF, auxiliary  contacts. SC110A 3 RJ45 Modbus plugs SC-MI control panel SC100 Modbus MCH MX  XF DM100025 PM100038 PM100043 Auxiliary  contacts ( ) Consult us for availability

72 AMTED310010EN Protection, monitoring   and control Control Architecture of feeder automation Continuity of service guaranteed by an overall  telecontrol solution Schneider Electric offers you a complete solution, including:   b The Easergy R200 telecontrol interface   b Premset switchgear that can be easily adapted for telecontrol   b The SCADA and DMS system. DM100010EN Network  control centre HV/MV Communication network Premset Premset Premset Premset Premset Premset Easergy R200 Easergy R200 Easergy R200 MV ring PE58301 Telvent DMS system Premset range, more than ready Premset switchgear is perfectly suited to telecontrol thanks to options such as:   b LV control cabinet including an R200 RTU   b Motorised operating mechanism   b Auxiliary fault and position indication contacts   b Current sensors for fault detection. DM100007 Communication  network: radio,  PSTN, GSM/GPRS,  Ethernet … Feeder automation Substation automation

73 AMTED310010EN Protection, monitoring   and control Control Easergy R200 control unit Built-in solutions for protecting, monitoring   and controlling your installation.Energy availability   b Measurement   b Remote fault detection   b Remote control and protection devices. Easy to use   b Compact design with built-in devices -   no engineering required   b Scalable with “just enough” dedicated solutions  from monitoring to remote control   b Robust devices designed for harsh  environments   b Easy and safe plug and play connection   b Open to standard protocols, ensuring easy  SCADA connection. Easergy R200: an interface designed for telecontrol  of MV networks Easergy R200 is a Remote Terminal Unit (RTU) intended for typical remote  management applications in the Energy industry and for MV infrastructures   in general.The Easergy R200 “plug and play” RTU integrates all the functional units necessary  for remote supervision and control of an MV switchboard cubicle:   b Transmission of switch open/close orders   b Exchanges with the control centre. Easergy R200 is of proven reliability and availability, ready to ensure switchgear  operation at any time. It is simple to set up and to operate. Communication Easergy R200 can manage both “serial type” and IP protocols. It is thus possible to mix serial and IP transmission media in a given application.Communication possibilities are continuously evolving to keep pace with your needs:   b IEC 870-5-101 and IEC 870-5-104 protocols   b DNP3 serial and TCP protocols   b Modbus serial and TCP protocols   b Other proprietary protocols. An extensive choice of integrated modems and interfaces:   b RS232/485 serial interface   b GSM/GPRS modem   b 3G Modem   b Voice modem (PSTN)   b FSK radio modem   b FFSK radio modem   b Ethernet port. Easergy R200 incorporates a Web data server in HTML page form for data  configuration and monitoring. All that is needed to log on is a PC with a Web browser.Remote access is possible via GSM, GPRS, Ethernet or PSTN transmission  networks and can be implemented in parallel from the remote control centre.Thanks to this remote access and its capability to send e-mails and SMSs,   the R200 offers you a cost-effective solution to monitor your MV substation   without a SCADA system.The embedded Web server allows local monitoring of the substation. Premset R200 ( ) Consult us for availability PM100016 PE57570p

74 AMTED310010EN Protection, monitoring   and control DM100061 Control Automatic Transfer System: ATS100 An MV power supply interruption is unacceptable,  especially in critical applications.  The Premset system therefore proposes   an automatic source transfer solution. Source transfer  The ATS100 drives automatic transfer from the normal MV source to the back-up  source in order to keep supplying the MV substation in case of failure of the normal  source. ATS100 can drive either Load Break Switch or Circuit Breaker. There are 3 types of ATS100 depending of single line diagram and sources:  ATS100-ACO : 2 line incomers  L1 and L2 can be either normal or backup source. Upon loss of Normal source,  Backup source will automatically supply the substation. When Normal source  recover there are 3 possibilities depending of the configuration : •  Self-return : The Normal source will automatically supply the substation •  No-return : Only a manual operation will be possible for Normal  to supply again  the substation. •  Auto-return : The Normal source will automatically supply the substation only in  case of loss of the back-up sources:  ATS100-GEN ( ): 1 line and 1 generator  incomers L1 and L2 can be either Line or Generator source. Only the Line can be the Normal  source. Upon loss of it, Generator source will automatically be started and the supply  the substation. When Line source recover there are 3 possibilities depending of the  configuration : •  Self-return : The Line source will automatically supply the substation and  generator will be shut down •  No-return : Only a manual operation will be possible for Line  to supply again the  substation. •  Auto-return : The Line source will automatically supply the substation only in case  of loss of the generator sources:  ATS100-BTA : 2 line incomers with bus tie Normal situation is L1 and L2 closed and Bus Tie open. In case of loss of one of the  lines, the bus tie is automatically closed to recover the supply of the substation.  When both lines are back, depending of the configuration, the Normal situation is  automatically recovered or not. Characteristics • Switch response time  :   3s • Parallel coupling : configurable to avoid black-out when restoring normal situation • Load shedding  : configurable to adapt load to the capacity of the generator or to  restart loads in sequence after black-out. • Time delay before changing source : configurable up to 120s  • Time delay before recovering normal situation : configurable up to 30mn • Remote communication : Ethernet, GSM, GPRS, or 3G communication with    IEC 870-5-101 and IEC 870-5-104 protocols   DNP3 serial and TCP protocols   Modbus serial and TCP protocols • WebServer : Easergy ATS100 incorporates a Web data server in HTML page form  for data configuration and monitoring. All that is needed to log on is a PC with a Web  browser. Typical diagram M M 2 VPIS-VOs Flair 23DM Flair 23DM SC110 SC110 ATS100 Field bus L1 L2 Voltage sensor: dedicated version of VPIS   with Voltage Output signal. Voltage detector + Fault Passage Indicator: a relay   is activated when a loss of voltage is detected from  the VPIS voltage output signal. If a fault current is  detected, the Automatic Transfer System is locked out  in order to avoid closing the healthy line on the fault. Based on inputs coming from the Flair 23DMs, the  decision is made to switch from one line to the other. Communication facilities may be added. Communication to SCADA or BMS (optional) Web Server: configuration, diagnostics, alar ms, logs. 2 Flair 23DMs 1 ATS100 +  switch or CB function SCADA, BMS ATS100-ACO: 2 line incomers ATS100 ATS100-GEN: 1 line and 1  generator incomers ATS100-BTA : 2 line incomers  with bus tie  ( ) Consult us for availability DM1031001

75 AMTED310010EN Protection, monitoring   and control Control PS100 high-availability power supply Backup solution for MV switchgear power needs   in the event of micro outages and power  interruptions.   b Easy maintenance with only one battery    b Remote battery monitoring   b High level of insulation to protect the electronic  devices in harsh MV environments   b End-of-life alarm possible via Modbus  communication   b Compliant with standards IEC 60 255-5   (10 kV level). PS100 backup power supply for MV substations Applications The power supply unit supplies backup operating power for:   b MV switchgear motor mechanisms and circuit breaker coils   b Transmission equipment (e.g. radio)   b Control units such as RTU (R200) or Automatic Transfer System (ATS100)   b Protection relays, Fault Passage Indicators and others electronic devices. High availabilty power supply A battery ensures uninterrupted operation of the whole substation in the event of loss  of the main supply. The backup power supply unit:   b Includes a regulated and temperature-compensated charger   b Stops the battery before deep discharge   b Carries out a battery check every 12 hours   b Measures battery ageing   b Forwards monitoring information via a Modbus communication port and   output relays. PS100 benefits Only one battery Traditional backup power supplies require a set of 2 or 4 batteries to produce   24 V or 48 V, with complicated replacement and adjustment of the battery pack. The PS100 needs only one battery, simplifying replacement.The battery is a standard sealed lead-acid 12 V battery with a 10-year service.   It can be purchased easily, anywhere in the world. Improved availability of MV substations The PS100 is designed to ride through power network interruptions of up to 48 hours.   It is associated with a battery selected to meet the required backup time. For example, a 38 Ah battery provides 12 hours of backup time to a Premset  switchboard including 4 Sepam units.The PS100 protects and optimises the battery with state-of-the-art monitoring.   A Modbus communication port forwards monitoring data to allow optimised  maintenance operations. Additional energy backup The PS100 stops supplying power and reserves an “additional energy backup”   to restart the installation after an extended power interruption.The “additional energy backup” can be enabled with a local pushbutton to provide  energy for restarting the protection relays and operating the MV switchgear. Withstands severe substation environments The PS100 includes 10 kV insulation, electronic protection against overvoltage   and overloads, and automatic restart after a fault. Main features   b DIN rail mounting for easy integration in any LV cabinet   b 2 power supply outputs:   v 12 Vdc - 18 W continuous - 100 W 20 s (for modem, radio, RTU, etc.)   v 48 Vdc or 24 Vdc - 300 W /1 minute (for switchgear operating mechanism motors)  and 90 W / continuous for protection relays, electronic devices, etc.   b RJ45 Modbus communication port   b 2 output relays (AC supply ON, Battery ON)   b Diagnosis with LEDs   b 1 sealed lead-acid 12 V battery with a 10-year service life (from 7 Ah to 40 Ah)   b Power supply paralleling available with a 2nd PS100   b - 40°C to +70°C operating temperature. Range   b PS100-48V  48 Vdc power supply and battery charger   b PS100-24V   24 Vdc power supply and battery charger   b Bat24AH  24 Ah long life battery   b Bat38AH  38 Ah long life battery. PM100592 DM100006 PS100 Battery PS100 +

76 AMTED399053EN

77 AMTED310010EN Connections Contents Busbar and cable arrangements  78 Cable connections 79 Network cable testing and diagnosis device  81

78 AMTED310010EN Connections Busbar and cable arrangements   b 2SIS connections with shielded solid  insulation, eliminating all electric fields   in open air. Periodic checkup of the  mechanism can be done to ensure the  performance depending on the  environmental conditions.   b Flat and smooth interface between  connections, allowing flexibility   and misalignment in any direction:   easier floor installation.   b Only one cable connection set, used  everywhere: many possibilities for cable  entry arrangements. PM100023 PM100601 PM100024 DM100047 PM100026 Universal system of power connections The Premset system is based on a set of common elements,  used throughout the system:   b 2 types of bar elements, used to make up the busbar system  as well as risers and downstream connections between cubicles.   b One set of 3 connections for cables, used in various directions:  front, rear, bottom, top…The connection interface between these elements is always the  same (Schneider Electric patented design), allowing a wide variety  of arrangements.For example, the set of cable connections can be fitted in different  directions to implement various cable entry arrangements: front  bottom, top rear, bottom rear, direct connection to busbars, cable  in cable out, etc. Cable connections with  shielded solid insulation PM100025 PM100027 Busbars with shielded solid  insulation ( ) ( ) Rear bottom cable option

79 AMTED310010EN Connections   b Only one type of bushing to simplify   installation, but various arrangements   of connections to fit any application.   b Large choice of cable box and bottom  compartment dimensions. Cable connections Bottom compartment The bottom compartment is the lower part of Premset cubicles. It has been designed  separately from the rest of the cubicle to offer different versions. It comes in two different heights to match the space required for cable bending and  switchgear installation:   b Standard height, for cable connections at a height of 700 mm.   b Low-height version for cable connections at a height of 500 mm, allowing  installation of switchgear in rooms with low ceilings (total height of switchgear as low  as 1350 mm, depending on LV cabinet dimensions).   b For higher installations, raising plinths can be fitted as accessories, with two  different heights. Cable connections   b Cable boxes are available in 3 different depths to meet the needs of various types  of installations: number of cables, type of connections, bending radius of cables,  surge arresters.  Cable boxes can be interlocked with main and earthing switches (see core unit  pages) and can be fitted with two transparent windows (not compatible with internal  arc performance).   b Cable bushings are standardised “type C”, M16 screw type bushings as defined  by standard IEC 60137, in order to simplify the choice and installation of connections.   b Cable connections are always horizontally aligned, 700 or 500 mm high  depending on height of the bottom compartment (please refer to dimension drawings  in the technical appendix). 290   (1) 700 or 500 290   (1) 450   (1) 350   (1) 520 260 DM100046 PM100022 LV cabinet Top connection Cable test Core unit Bottom connection Bottom compartment D06H (1) + 10 mm without internal arc performance.  As an option, 2 raising  plinths are available (260  and 520 mm dimensions) PM100000

80 AMTED310010EN Connections Here are some examples of compatible cable  connections. As the Premset system is designed  with shielded solid insulation, we strongly  recommend using directed field cable connectors  for better reliability and longer life expectancy. Compatible cable connections ( ): Not compatible with IAC Please note that the dielectric performance of cable box is reduced down to 75kV BIL when using unscreened connections Cable connections Supplier Performance  Reference 1 cable/ phase 1 cable/ phase +  Surge  Arrester 1 cable/ phase +  VRT4  cable/ phase +  Surge  Arrester  + VRT4 2 cables  / phase  ( 1 ) Cross  section  (mm 2 ) Type Euromold (Nexans) Up to 15 kV, 630 A 400LB x 25 to 300 Elbow connector 400TB x x 35 to 300 T connector 430TB x 35 to 300 T connector 440TB x x 185 to 630 T connector 400TB / 440TB + 440PB-XSA x X ( ) Surge Arrestor 430TB + 300SA x Surge Arrestor NKT Cables GmbH Up to 12 kV, 630 A CB12-630 x 25 to 300 T connector CB12-630 + CSA12 x T connector CB12-630 + CC12-630 x Surge Arrestor Up to 15 kV, 630 A CB24-630 x 25 to 300 Surge Arrestor CB24-630 + CSA24 x Coupling Connector CB24-630 + CC24-630 x 25 to 300 Coupling Connector Suedkabel Up to 12 kV, 630 A SET 12 x 185 to 300 Elbow connector SEHDT 13 x 300 to 500 T connector SET B + SEHDK 13.1 x 240 to 300 Coupling Connector Up to 15 kV, 630 A SET 24 x 95 to 240 Elbow connector SEHDT 23 x 300 to 630 T connector SET B + SEHDK 23.1 x 150 to 240 Coupling Connector Tyco Up to 15 kV, 630 A RSTI x6Lxx x 400 to 630 T connector RSTI L56xx x 25 to 300 T connector RSTI L56SAxxxx x T connector RSTI L56xx + RSTI-C-L56SAxxxx x Surge Arrestor RSTI x6Lxx + RSTI CC L56xx x 25 to 300 Coupling Connector ABB Kabeldon Up to 12 kV, 630 A CSE-A 12630 x 25 to 630 T connector 2xCSE-A 12-630 x 25 to 630 Coupling Connector Up to 15 kV, 630 A CSE-A 24630 x 25 to 630 T connector 2xCSE-A 12-630 x 25 to 630 Coupling Connector Prysmian FMCTs-400 x X ( ) T connector (1) For 2 cables /phase + surge arrester, please consult us

81 AMTED310010EN Connections Cable testing and cable diagnosis Medium voltage cable testing is a demanding task that leaves  no room for error   b Work is carried out on the main circuit with a high-voltage test bench   b Earthing is removed during testing   b Access to the main circuit for test connections may require access to the cable box  and dismantling of cable termination insulation   b Procedures must be followed strictly to ensure the safety of personnel   b Cable connections must be properly reassembled to restore full insulation Safe and easy cable access with Premset Premset switchboards can be fitted with a dedicated cable  testing device that greatly increases safety during cable testing   b Cable testing can be carried out without accessing the cable box (cables remain  connected) and without touching the cable terminations   b The test device can be connected from the front of the switchboard, prior to removing  the earth link, in total safety   b Earth link removal is the last operation to be carried out, using a special earthing  bar disconnection system, without any operation of the main switching device or  main earthing switch   b Earth link removal featuring full failsafe interlocking, i.e. the earth link can be opened  only if the main earthing switch is closed (cable earthed) and the main earthing switch  can be opened only if the earthing link is closed   b Test bench connections are delivered separately. They can also be adapted locally  to any specific test set. The cable testing device can be used on both ends of cable to  be tested, in order to isolate completely the cable section from  the network. Technical characteristics Cable testing device can be used for various testing and diagnosis purposes:   b DC tests up to 36 kV DC x 15 min   b Very low frequency testing from 0.1 Hz up to 20 kV x 30 min (sinusoidal signal),   and 28 kV x 30 min for cos 2  signal.   b 50/60 Hz dielectric tests up to 14 kV x 1 min   b Tan Delta diagnosis: power dissipation 18 kV. Performance characteristics have been validated in accordance with standard   IEC 62271-200, edition 2. Network cable testing   and diagnosis device Premset offers an original primary circuit  arrangement allowing direct access to cable  conductors without operating the main switches   or dismantling the cables connections.Combined with a dedicated cable test device,   it provides maximum operator safety during   cable testing and diagnosis. PM102715 PM100028 DM100059 Double isolating gap  during testing Safe and fully   interlocked device Direct access to cable  conductor without  operating the main switch Cable

82 AMTED399053EN

83 AMTED310010EN Technical appendix Dimensions  84 Civil engineering & gas exhausting 86 VIP tripping curves VIP 40 and VIP 45 tripping curveVIP 400 and VIP 410 tripping curves 88

84 AMTED310010EN Technical appendix Dimensions Dimensions Unit type Height  (1) Width Depth  (2) Weight   (mm) (mm) (mm) (kg) I06T 1350 375 910 200 I06H   1350 375 910 200 D06H 1350 375 910 200 G06 1350 375 910 100 M06S 1350 375 910 200 M06A 1350 750 910 350 D01N 1350 375 910 200 D02N 1350 375 910 200 D06N 1350 375 910 200 VTM 1350 375 910 150 VTP 1350 375 910 150 VTM-D 1350 375 910 250 VTP-D 1350 750 910 250 (1) Minimum height with low voltage cabinet A, cable termination height 500 mm and no cable  testing device. (2) Without internal arc exhausting. Floor preparation Units may be installed on ordinary concrete floors, with or without trenches  depending on the type and cross-section of cables. Required civil works are identical for all units. Fixing of units With each other The units are simply bolted together to form the MV switchboard (bolts supplied).To the floor   b For switchboards comprising up to three units, the four corners of the switchboard  must be secured to the floor using:   v bolts (not supplied) screwed into nuts set into the floor using a sealing pistol   v threaded rods grouted into the ground   b For switchboards comprising more than three units, the number and position of  fixing points depends on local criteria (earthquake withstand capacities, etc.). 1076 826 375 Front fixings 4 holes Ø 12 4 holes Ø 12 315 Chimney 375 Front fixings 284 Fixing with internal arc exhausting Fixing without internal arc exhausting DM100043EN

85 AMTED310010EN Technical appendix Dimensions DM100041 DM100042 Cable termination height: 500 mm Cable termination height: 700 mm D & E B C A 500 B1 B2 B3 H1 D1 40 75.5 75.5 D2 112 112 375 H2 H3 H4 79 139 239 D & E B C A 700 B1 B2 B3 H1 79 139 239 D1 40 75.5 75.5 D2 112 112 375 H2 H3 H4 H1 LV cabinet A (when no cable testing device) 1350 H2 LV cabinet D & E 1461 H3 LV cabinet B 1573 H4 LV cabinet C 1795 B1 Non internal arc 1336 B2 Internal arc bottom exhaust 1349 B3 Internal arc top exhaust 1664 D1 Without internal arc exhausting 910 D2 With internal arc exhausting 1135 Note: dimensions are the same for bar-connected cubicles. H1 LV cabinet A (when no cable testing device) 1550 H2 LV cabinet D & E 1661 H3 LV cabinet B 1773 H4 LV cabinet C 1995 B1 Non internal arc 1536 B2 Internal arc bottom exhaust 1549 B3 Internal arc top exhaust 1864 D1 Without internal arc classification 910 D2 With internal arc classification 1135 Note: dimensions are the same for bar-connected cubicles.

86 AMTED310010EN Technical appendix ≥ 100 mm ≥ 100 mm ≥ 100 mm ≥ 100 m m Layout of a bottom exhaust   internal arc switchboard  P R ≥ 50 mm ≥ 50 mm Civil engineering &   gas exhausting DM100049 DM100064 DM100065 Cable connection and cable trench Cable  insulation Cable Cross-section  (mm 2 ) Bending  radius Cable trench   depth P Dry insulation Single-core y  150 500 400 185 to 300 600 520 Three-core y  150 550 660 185 650 770 Paper  impregnated non-draining  type Single-core y  150 500 580 185 to 300 675 800 Three-core y  95 635 750 150 to 300 835 970 Note: trench depths can be reduced and sometimes eliminated by adding a plinth. Layout of a top exhaust   internal arc switchboard Trench depth  P  for Premset without plinth

87 AMTED310010EN Technical appendix 520 DM102574 DM102575 Additional raising plinths If the trench depth is too small to take in account the proper bending of cables, the  switchboard can be fitted with optional raising plinth. These plinths exist in two different heights, 260mm or 520mm, which moreover can  be stacked together in order to reach a total height of 780mm. The cell is to be assembled on the plinth prior to fix the whole on the floor. 260 260 / 520 260 / 520 857 340 4 holes Ø 12 DM102577 DM102578 DM102579

88 AMTED310010EN Technical appendix VIP tripping curves VIP 40 and VIP 45 tripping curve DM100031 1  Overload 2   Secondary short-circuit 3   Primary short-circuit 4   Activation of discrimination  with a Low Voltage circuit breaker. 1 2 3 I / I t (s) 10000 1000 100 10 1 1 10 100 0.1 0.01 4 Phase overcurrent protection   (ANSI 50-51)

89 AMTED310010EN Technical appendix VIP tripping curves VIP 400 and VIP 410 tripping curves IEC Standard Inverse Time Curve   (IEC/SIT or IEC/A) IEC Very Inverse Time Curve   (IEC/VIT or IEC/B) DM100051 DM100052 10.80.6 t(s) 100 10 1 0.1 0.01 1   10 I/Is    TMS21.5 0.1 0.05 0.02 0.40.3 0.2 1 0.8 0.6 t(s) 1000 100 10 1 0.1 0.01 1   10 I/Is    TMS21.5 0.1 0.05 0.02 0.4 0.30.2

90 AMTED310010EN Technical appendix VIP tripping curves VIP 400 and VIP 410 tripping curves IEC Long Time Inverse Curve   (IEC/LTI) IEC Extremely Inverse Time Curve   (IEC/EIT or IEC/C) DM100053 DM100054 1 0.8 0.6 t(s) 1000 100 10 1 0.1 0.01 1   10 I/Is    TMS2 1.5 0.1 0.05 0.02 0.4 0.30.2 1 0.8 0.6 t(s) 10000 1000 100 10 1 0.1 1   10 I/Is    TMS2 1.5 0.1 0.05 0.02 0.4 0.30.2

91 AMTED310010EN Technical appendix VIP tripping curves VIP 400 and VIP 410 tripping curves IEEE Moderately Inverse Curve   (IEEE/MI or IEC/D) IEEE Very Inverse Curve   (IEEE/VI or IEC/E) DM100055 DM100056 10 86 t(s) 100 10 1 0.1 0.01 1   10 I/Is    TD15 12 1 2 0.5 5 43 10 8 6 t(s) 1000 100 10 1 0.1 0.01 1   10 I/Is    TD15 12 2 1 0.5 5 4 3

92 AMTED310010EN Technical appendix VIP tripping curves VIP 400 and VIP 410 tripping curves IEEE Extremely Inverse Curve   (IEEE/EI or IEC/F) RI Curve DM100057 DM100058 10 8 6 t(s) 1000 100 10 1 0.1 0.01 1   10 I/Is    TD15 12 2 1 0.5 5 4 3 1 0.80.6 t(s) 100 10 1 0.1 0.01 1   10 I/Is    TMS21.5 0.1 0.05 0.02 0.40.3 0.2

93 AMTED310010EN Notes

94 AMTED310010EN Notes

95 AMTED310010EN Notes

AMTED310010EN 11-2013 As standards, specifications and designs change from time   to time, please ask for confirmation  of the information given   in this publication. Design: Schneider Electric Industries SAS Photos: Schneider Electric Industries SAS Printed: Altavia Connexion - Made in France 35, rue Joseph Monier  CS 30323  F - 92506 Rueil Malmaison Cedex (France)  Tel: +33 (0)1 41 29 70 00 RCS Nanterre 954 503 439  Capital social 896 313 776 € www.schneider-electric.com Schneider Electric Industries SAS AR T837848   ©  Schneider  Electric  Industries  SAS  - All  rights  reserved This document has been  printed on recycled paper 10-31-1247