All rights reserved. Neither this catalogue nor any part of it may be copied using any method or for any purposes. Most studies are legally protected.

Issued: January 2014 Copyright by All rights reserved. Neither this catalogue nor any part of it may be copied using any method or for any purposes. Most studies are legally protected. Remark: Due to constant technical advancement the manufacturer reserves rights for the implementation of technical changes without any notice. Authors of this document kindly request Users for submitting their remarks on errors, deficiencies or any inconsistency noticed in this document on email address office@elektromontaz1.pl.

MEDIUM VOLTAGE SWITCHGEAR 12kV; 17.5kV and 24kV METAL CLAD TYPE Technical catalogue Katowice, January 2014

Contents 1. Introduction...6 2. Switchgear description...6 Types of fields Basic technical data 3. Switchgear construction...9 Structure Distribution panel compartments Busbar system Earthing protection Cable connections Interlocking and protection against improper operations page 4. Switchgear equipment...14 Switching equipment Measuring equipment Protection equipment 5. Main circuit, auxiliary circuit diagrams and switchgear automation...15 6. Switchgear packaging, transport and installation...15 7. Equipment delivered with the switchgear...16 8. Figures...16 9. Data sheets...24 5

1. Introduction The catalogue presents medium voltage switchgears: - with air insulation, - metal clad, - compartment, withdrawable type, - with a single busbar system, - nominal voltage up to 24kV, - adapted for interior installation. 2. Switchgear description The switchgear is intended for switching stations of companies which generate, transmit and use electric power. It is compliant with standards (IEC) PN-EN 62271-200 and (IEC) PN-EN 62271-1, it provides a degree of protection up to IP54 for casing and IP2X for internal partitions, according to (IEC) PN-EN 60529. The switchgear is suitable for operation under normal conditions defined by the standard (IEC) PN-EN 62271-1 for interior distribution and control equipment. The switchgear was designed in such a way as to ensure safe normal operation, inspection and service. The switchgear is a frameless structure made of riveted, hot-dip galvanized steel sheets. This is a multi-compartment cubicle whose walls and partitions form a self-supporting structure. The switchgear cubicle is divided into compartments: connection compartment, busbars compartment, main device compartment (with a withdrawable unit) and auxiliary circuits compartment Doors and side shields of the outermost panels (rear shields for the wall installation version) are covered, as a standard, with a powder coat of grey colour (RAL 7032) or another colour, upon the customer s order.. Types of fields The switchgear consists of panels with various functions. These are: - incoming (supply) panel with a circuit breaker and voltage measurement, - outgoing (outlet) panel with a circuit breaker or contactor, - left / right coupling panel or rear cable connection, with a circuit breaker, - left / right coupling panel or rear cable connection, with a bridge, - measurement panel, with earthing, - panel with a load-break switch. The withdrawable unit may be equipped with a circuit-breaker, contactor, bridge, set of transformers with fuses or block with fuses. It can assume the following positions: connected, test/disconnected and removed (beyond the panel). Interlocks are used for the withdrawable unit with the circuit-breaker or contactor that make it possible to perform switching activities only in the connected and test/disconnected positions. Withdrawing or slipping the withdrawable unit to/from the operation position is possible only if the main connector is open. The main connector may only be closed if it is fed from the auxiliary circuits. 6

Switchgear characteristics: - an air insulation, - hot galvanised sheet structure, riveted without welding, - Loss of Service Continuity Category LSC2B (three compartments of the main circuit), - high level of operational safety, - IAC classification AFLR, - interlocking and protection against any improper connecting operation, - rear wall installation option (access only from the front side), - wide range of the main device and panel types, - possible to expand with more panels, - easy operation. The switchgear ensures a high level of operational safety through: - high resistance of the metal enclosure to internal arc impact, - interlocking of improper connecting operations or door opening, - handling the withdrawable unit with door closed, - use of compartments where partitions provide the IP2X protection level, - visual control possible with sight glasses, - signalling of voltage in the panels. 7

BASIC TECHNICAL DATA OF SWITCHGEARS Parameters [Unit of measure] Types 12 17.5 24 12 Rated voltage [kv] 12 17.5 24 24 24 12 of main busbars and supply panel [A] 1250 1600 2500 4000 1250 1600 2500 1250 1250 2500 1250 2500 1250 1600 4000 [kv] 28 38 38 50 50 50 42 [kv] 75 85 95 125 125 125 75 withstand current [ka/3s] 31.5 40 40 31.5 31.5 25 25 31.5 31.5 40 Rated peak [ka] 80 100 100 80 80 63 63 80 80 100 31.5 40 40 31.5 31.5 25 25 31.5 31.5 40 [ka] /1s /1s /0.5s /1s /1s /1s /1s /1s /1s /0.5s IP3X, IP4X, IP3X, IP54 IP4X IP3X IP3X, IP4X IP3X Height of panel [mm] 2150 1) 2250 1) 2150 1) Width of panel [mm] 650 800 1000 1000 800 1000 1000 1000 800 1000 800 1000 800 1000 1000 Depth of panel [mm] 1575 1675 1675 1575 1725 1600 1688 1675 Conformity with standards PN-EN 62271-200; PN-EN 62271-1 GOST 1516.3-96 GOST 14693-90 1) the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high. Details of auxiliary circuits cubicle dimensions are available on the Figure 3. The switchgear is suitable for operation under normal conditions defined by the standard (IEC) PN-EN 62271-1 for interior distribution and control equipment. According to the standard, the limit environmental conditions for switchgear operation are the following: - maximum altitude above sea level up to 1000 m - ambient temperature: - maximum temperature +40 ºС - average temperature over 24h +35 ºС - minimum temperature -5 ºС - maximum relative humidity 95 % - atmosphere: normal, non-corrosive and unpolluted. 8

3. Switchgear construction Structure The switchgear panel is constructed as a cubicle with four separate functional compartments: А - busbar compartment (main circuits), В - main device compartment (main circuits), С - connection compartment (main circuits), D - auxiliary circuits compartment (low voltage circuits). The switchgear cubicle is a riveted steel structure of bent steel sheets, without welding. Its walls and partitions form a self-supporting structure. The cubicles are constructed of hot galvanised sheets 2 mm thick. The sheets are joined with steel flat head rivets of high strength. The functional compartments are limited by internal partitions, vertical or horizontal. Internal partitions are fixed to side walls, which reinforces and stabilises the whole casing. Additionally, the external walls of the switchgear s outermost panels have double side shields, screwed to them; the shields are made of painted 2 mm sheets. The switchgear may be manufactured as a free standing installation or for installation of the rear wall. In the case of the rear wall version, the rear door with interlocks are replaced with a screwed down shield. The front strip between the main device compartment door and the connection compartment door, as well as the level partition between the two compartments, are both removable, which significantly facilitates maintenance. The internal partitions provide safe access to the main devices compartment and connection compartment, even if the busbars are live. According to the LSC (Loss of Service Continuity) category, the switchgear is compliant with LSC2B. This condition is fulfilled by three-compartment switchgears when the withdrawable unit is in the off position. 9

Doors of the main circuit compartments are made of black painted 3 mm steel sheet. Doors are fitted with hinges and locks that are able to withstand explosion loads. The hinges allow for opening doors at 135. Side edges of doors are protected by lock bolts and hinges. Top and bottom door edges are stiffened with stiffening sections, specially shaped and welded in. The main device compartment door is fitted with an inspection hole for visual control of the withdrawable unit position and connection activity. The door structure allows for mechanical switching off of the circuit breaker in the connected position, through the closed door. Vent flaps. In the upper part of the main circuit compartments, there are openings of exhaust ventilation ducts, closed with flaps. Their task is to discharge the pressure created inside the compartment as a result of an internal arc fault. A sudden increase of pressure inside the switchgear compartment breaks the plastic screws and opens vent flaps which may work with limit switches installed on the switchgear roof. The limit switches, controlled with the opening flaps, generate a pulse triggering the power circuit breaker. This limits the consequences of the short-circuit arc formed inside the cubicle compartment. The withdrawable unit is a system comprising a running gear and depending on function comprising also: circuit breaker, contactor, a set of voltage transformers with fuses or a short-circuiting block. The running gear provides a mechanical connection between the withdrawable unit and the switchgear panel. Its stationary part is coupled with the panel by two-sided locking in the slideway notches. The movable part of the running gear moves between the connected and test/disconnected position with a lead screw, hand-driven with a crank or motor drive, with the door closed. The connected position and the test/disconnected position are signaled by the position indicator once the unit gets into proper position. Movable partitions in the main device compartment are presented as a part of the main device compartment description. Distribution panel compartments The busbars compartment is inaccessible during normal operation. For maintenance works, the busbars are accessible from the cubicle top, if the exhaust flaps are dismantled. The compartment is closed on both sides with bushing plates made of nonmagnetic steel sheet. The plates protect the neighbouring panels in case an electric arc appears in the busbar compartment. The bushing plates with bushing insulators are elements which support the busbars. Distribution busbars branch off from the main busbars and get into the support bushing insulators which separate the busbar compartment from the main device compartment. 10

The main device compartment is accessible after its door is opened in the interlock-controlled mode. The main device compartment contains the withdrawable unit, as well as all the elements necessary for its co-operation with the distribution panel, such as: slideways of the withdrawable unit, movable partitions, support bushing insulators with inter-compartment contacts built-in, elements of door interlocking and earthing switch interlocking, as well as control circuit sockets. The non-magnetic steel plate which separates the main device compartment from the connection compartment and busbar compartment is fitted with support bushing insulators. Distribution busbars and inter-compartment contacts are set in the insulators. The main device compartment is fitted with metal movable partitions with their actuating mechanism. They are to separate the compartment space from the stationary contacts, which may be live, when the withdrawable unit is in the test/disconnected position or removed position. After the withdrawable unit is shifted from the connected position to the test/disconnected position, they cover the support bushing insulator holes and close the access to the live inter-compartment contacts; the protection level remains compliant with IP2X. There is a safe insulation space between the contacts and the closed cover. If the withdrawable unit shifts from the test/disconnected position to the connected position, the movable partitions draw aside and the stationary contacts are uncovered, which allows for connecting the circuit breaker contacts. The sight glass allows for visual inspection of mechanical indicators of the circuit breaker state and the drive loading state. The connection compartment is designed to connect cables or busbars and it is accessible by opening the compartment door (the front one in the rear wall installation version and front and rear ones in the free standing version) in the interlocking controlled mode. This compartment is fitted with current transformers, earthing switches and (depending on the operational needs) optional: voltage transformers, earth-fault current transformer and surge arresters. The voltage transformers are installed in the front part of the connection compartment. The earthing switch is hand-operated. Its loading state is signalled with a position indicator. The compartment bottom is closed with a sectional floor cover which is a cable channel plate at the same time. The plate holes are protected with rubber cable channels. The cables are fixed with cable clips set on brackets. The auxiliary circuits compartment (low voltage compartment) is made as a control cabinet and it is completely separated from the high voltage zone of the switchgear. The cabinet has its own metal casing and it is prefabricated independently from the power part of the switchgear. As it is assembled, it can be fitted with devices at a separate stand and only then fixed to the switchgear cubicle. It is designed for the installation of: protection units, inspection, control and measurement apparatus, as well as automatic control elements. The cabinet is installed on the switchgear roof, above the main device compartment. The cabinet bottom, as well as its rear and side walls, have many openings for cable and conductor channels. The holes are covered with plates that may be removed as needed. For apparatus installation, a perforated installation plate is designed on the rear wall of the cabinet. The apparatus may also be installed on side walls. The cabinet structure may be customised in agreement with the manufacturer. 11

Busbar system Main busbars In the switchgear, there is a single three-phase busbar system with a triangular arrangement of phases. They run in a separate compartment. Copper flat busbars have been selected, with rounded edges, of the following intersections: - in the 12 kv switchgear: for 1250 A current 100х10 R5 mm for 1600 A current 2х(60х10 R5 mm) for 2500 A current 2х(100х10 R5 mm) for 3150 A current 3х(100х10 R5 mm) for 4000 A current 4х(100х10 R5 mm) - in the 17.5 kv switchgear: for 1250 A current 100х10 R5 mm for 1600 A current 2х(60х10 R5 mm) - in the 24 kv switchgear: for 1250 A current 100х10 R5 mm, for 2500 A current 2х(100х10 R5 mm). The main busbars are supported by the distribution busbars running from the support bushing insulators and by the bushing insulators installed in the side partitions. The distribution busbars are made of: - copper flat busbars with rounded edges, of the following intersections: for 630 A current 40х10 R5 mm for 1250 A current 2х(40х10 R5 mm) for 1600 A current 2х(60х10 R5 mm) for 2000 A current 2х(80х10 R5 mm) for 2500 A current 2х(100х10 R5 mm) for 3150 A current 3х(100х10 R5 mm) for 4000 A current 4х(100х10 R5 mm) Insulation elements The switchgear has been equipped with insulators made of epoxide resins. In the connection compartment, busbars are supported by the supporting insulators. For supporting busbars or channelling them between the switchgear panels, bushing insulators have been set in bushing plates of the panels' side walls. The channel in the partition between the main device compartment and the busbar compartment and connection compartment is provided by the support bushing insulator. Three types of insulators are used, depending on the current and voltage. Earthing protection There is an earthing conductor in each enclosure (a copper bus with 40x5mm or 40x10mm section) located at the bottom, on the back of the enclosure. These conductors between the enclosures are connected by bridges forming an earthing bus conductor. The bus conductor ends with terminals on the right and left hand side of the switchgear used to connect it to the facility s earthing system. Connecting cables The connection compartment is designed to lead one- or multi-core cables in plastic insulation. We recommend cable fittings manufactured by Tyco Electronics (Raychem), a company whose products we distribute. 12

Interlocking and protection against improper operations The switchgear is equipped with mechanical and electrical interlocking, compliant with the standard or additional requirements, to improve the safety of operation: Mechanical interlocks: 1) making it impossible to slide in or out the withdrawable unit into the connected position when the circuit-breaker is closed (required by the standard), 2) allowing the circuit-breaker to be opened or closed only in connected and test/disconnected positions (required by the standard), 3) allowing the earthing switch to be closed only in test/disconnected or removed position of the withdrawable unit, 4) not allowing the withdrawable unit to be shifted from the test/disconnected position into the connected position if the earthing switch is closed, 5) preventing the main device compartment door from opening if the withdrawable unit is in its connected or intermediate position, 6) preventing the cable compartment door from opening if the earthing switch is open, 7) allowing to change the position of movable element in the panel provided it is locked. If the switchgear manufacturer agrees, it is possible to use additional key interlocks. Electrical interlocks: 1) prevents the circuit breaker from tripping when the auxiliary circuits are not live; the circuit breaker may be tripped out only mechanically (required by the standard), 2) prevents the movable element from shifting to the connected position without feeding the control circuits, 3) prevents access to the earthing switch drive when closing the earthing switch is conditioned by additional factors (e.g. the busbar earthing switch can only be closed if the withdrawable units of a particular section are in the off position), 4) prevents access to the movable element drive if its shifting is conditioned by additional factors. Interlocks, apart from those required by standards, are adjusted to each individual project. After obtaining the approval of the switchgear manufacturer the device may be fitted with additional interlocks whose operation is based on miniature switches and electromagnetic locks. The door structure makes it possible to unlock the door in an emergency and access the movable element drive in extraordinary situations. 13

4. Switchgear equipment Switching equipment The switchgear may be equipped with vacuum circuit breakers VD4 (ABB), Evolis (Schneider), 3AH or SION (Siemens), NVL (Ormazabal), TM2C (Tavrida), VS1 (HEAG), gas-insulated circuit breakers HD4 (ABB), LF (Schneider) or contactors VSC (ABB). Other equipment may be used after obtaining the switchgear manufacturer s consent. As a standard, an EK6 (ABB) high-speed earthing switch is used, with a possibility to trip at short-circuit. Measuring equipment Current and voltage transformers from ABB or other manufacturers are used for measurement The voltage in panels is signalled with reactance insulators and a signalling cassette. Protection equipment Low voltage equipment from any manufacturer may be built into the switchgear, according to the customer s individual needs. It is possible to install any digital relay to protect the medium voltage circuits. There is a possibility to install the arc protection systems in the switchgear. The suggested arc protection systems are ZŁ or VAMP. The systems sense if there is a short-circuit with their flash detection and current or voltage criterion inside the protected switchgear. If both events are simultaneous, the system is activated and a pulse is sent within a defined time (below 10 ms) releasing the main switch. 14

5. Main circuit and auxiliary circuit diagrams and switchgear automation, Main circuits The structural diagrams of example main circuits are presented in Figure 2 and in the relevant catalogue sheets that can be found in this catalogue and on the website www.zpue.katowice.pl. The connection compartment has various equipment depending on the panel type. Auxiliary circuits The low voltage auxiliary circuits include: protection, measurement, control, automation control and signalling systems. The devices of these circuits are enclosed in the auxiliary circuit cabinet located above the main device compartment. The cabinet dimensions and example of device arrangement are presented in Figs. 3 & 4. In order to obtain examples of internal and installation connection diagrams for main and auxiliary apparatus for typical switchgear equipment, please contact the switchgear manufacturer. Switchgear automation The switchgear is suitable for operation in an integrated control, display and data collection system. For this purpose, it is fitted with digital protection relays (with the possibility of digital communication) and with power engineering automation control units. The switchgear may then operate in superior and automatic control systems. 6. Switchgear packaging, transport and installation Packaging Three types of packaging are used for the switchgear: a) standard: the switchgear enclosure placed on a pallet is wrapped in air bubble film and then in stretch film, b) crates: the switchgears packaged as above are placed in crates, c) especially for maritime transport: the switchgears with a moisture absorbing agent placed inside are packed into bags made of film with preservation properties, from which air is sucked out. Switchgears preserved in this manner are transported on pallets or in crates. Transport As a standard, switchgear enclosures are transported individually. Switchgears may be transported to the room they are intended for and moved within that room using a crane, fork lift truck or on rollers. The enclosure is fitted with transport grips for crane lifting. The bend angle of fastening ropes should not exceed 120º. It is forbidden to fasten the ropes directly to the enclosure structure. The enclosure is placed on a transport pallet in order to make transport with a fork lift truck possible. During switchgear transport and placement caution should be exercised so as not to damage the coating and the protective sheet metal. Principal equipment such as circuit-breakers, contactors and withdrawable units and low voltage equipment sensitive to shock are transported separately in original packaging supplied by the manufacturers. 15

Switchgear installation The switchgear foundation and the external cable and busbar connections depend on the construction of the plant in which the switchgear is going to be placed. Erection should be performed taking into account the guidelines provided by the switchgear manufacturer. The switchgears can be mounted: directly on the floor, on a foundation frame fixed to the floor or on the steel or concrete structure in the facility. Independently of the substrate, the switchgears have to be placed horizontally and fastened. Figure 5 presents the location of the switchgear in a room The X dimension depends on the switchgear version: 16 - for the rear wall installation version, the gap must not be less than 100 mm, - for the 100 mm wide cubicles, full opening of the door is possible at X not less than 1000 mm. For the upper busbar lead, the cubicle is additionally fitted with a 400-550 mm deep busbar channel located in the rear part. It is advised that dimension Y of the switchgear room should be at least 1000 mm greater than the overall width of the switchgear due to installation technique. Advised minimal height (A) of switchgear room s door for a switchgear with auxiliary circuit cabinet 400 mm high is 2500 mm and for 600 mm high is 2700 mm. Figure 6 presents examples of floor openings dimensions for cable channels. They are only approximate ones, their exact location should be arranged at switchgear ordering. Figure 7 presents the carrying/erection frame of the switchgear, with openings for the switchgear fixing to the ground. The way of fixing switchgears to the ground is present on Figure 8. 7. Equipment delivered with the switchgear The following equipment accompanies each switchgear: - fasteners for connecting the transport sets, - crank for moving the withdrawable unit, - crank for the earthing switch drive, - the movable element trolley, - keys to the enclosure doors. Documents delivered with the switchgear: - declaration of conformity, - switchgear operating manual, - operation and maintenance manuals and warranty cards for the equipment used, - switchgear as-built documentation, - warranty certificate. 8. Figures List of figures: Figure 1. Panel equipment Figure 2. Main circuit structural diagrams Figure 3. Auxiliary circuit cabinet Figure 4. Arrangement of devices in the auxiliary circuit compartment Figure 5. Switchgear erection Figure 6. Example dimensions of the cubicle base surface and floor openings Figure 7. The switchgear carrying/erection frame Figure 8. The switchgear fixing to the ground

Figure 1. Panel equipment 1 - main device: circuit breaker, contactor, 2 - current transformers, 3 - earthing switch, 4 - voltage transformers, 5 - support-bushing insulators, 6 - bushing insulators 7 - surge arresters, 8 - support insulators (reactance), 9 - main busbars. 10 - connecting (distribution) busbars, 11 - earth-fault current transformer, 12 - earthing conductor, 13 - metal movable particions, 14 - cable ducts (optionally), 15 - vent flaps, 17

Figure 2. Main circuit structural diagrams 18

Mounting plate Installation hole for digital protection Circular circuits lead Conductor to multi-pin socket lead Limit switch, current and voltage transformers conductors lead Surface available for installation Side wall Mounting plate Cabinet door Dimensions [mm] H 600 600 600 400 400 400 S 995 795 645 995 795 645 H1 500 500 500 350 350 350 S1 900 700 550 900 700 550 Figure 3. Auxiliary circuit cabinet 19

FACADE VIEW 1-1H7-1H8-1P1 A -1H1-1P2 V -1SV -1H4-1H2-1H3-1H5-1A1-1P1-1H1-1H6-1SW Current measurement Control voltage decay Disconnection coil efficiency Trip out the circuit breaker -1SD -1H6-1SW -1SZ -1SO -SO -1SZ Trip the circuit breaker -1SO Circuit breaker travel unlocking -SO Earthing switch lock unlocking INTERNAL VIEW -1H7 Active interlock -1H8 Set aside interlock -1Q01-1F01-1F02-1F1-1F2-1F3-1FP1-1FP2-1K1 -KO -1K5-1K8-1K11-1K12-1KP1-1KP2-1KX -1KY -1KZ -XK -1XK -1XK1-1SD Parallel running interlock 0 - Active 1 - Set aside -1XS -1XZ -1XB -1XD -1XE -1XP -1XT Figure 4. Arrangement of devices in the auxiliary circuit compartment 20

Figure 5. Switchgear erection Remark: In case of specific demands resulting in changing dimensions, please contact the manufacturer of switchgears. 21

Roof openings for 1000 mm wide cubicles 1000 1000 165 275 275 500 415 1500 900 500 75 110 75 110 6050 6050 Roof openings for 650 mm wide cubicles 650 650 200 175 150 150 75 110 75 110 320 108 250 1500 108 570 1315 6050 6050 Figure 6. Example dimensions of the cubicle base surface and floor openings 22

Dimensions [mm] G 1500 1550 1563 1600 1650 S 650 800 650 800 1000 800 1000 1000 S1 400 500 400 500 700 500 700 700 Figure 7. The switchgear carrying/erection frame switchgear fixing on concrete floor on canal on steel floor 12; 17,5 24 Figure 8. The switchgear fixing to the ground 23

9. Data sheets List of the data sheets included in this catalogue ** - up to 12kV (12kV*) Page: 1. Sheet 1-1 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 630A/1250A 25 2. Sheet 1-2 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 1600A 26 3. Sheet 1-3 Ed.1401 Incoming/outgoing panel with 3AH (Siemens) circuit-breaker 27 up to 1250A 4. Sheet 1-8 Ed.1401 Incoming/outgoing panel with 630A/1250A load break switch 31 5. Sheet 1-9 Ed.1401 Outgoing panel with 630A contactor 32 6. Sheet 1-12 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 4000A 33 7. Sheet 1-13 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 3150A 34 8. Sheet 1-14 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 630A/1250A 35 9. Sheet 2-5 Ed.1401 Coupler panel enclosure with circuit-breaker up to 630A/1250A 40 10. Sheet 2-6 Ed.1401 Coupler panel enclosure with bridge up to 630A/1250A 41 11. Sheet 2-13 Ed.1401 Coupler panel enclosure with bridge up to 4000A 44 12. Sheet 2-14 Ed.1401 Coupler panel enclosure with circuit-breaker up to 4000A 45 13. Sheet 3-1 Ed.1401 Measurement panel withdrawable unit with voltage transformers 48 - up to 12kV* /17.5kV 1. Sheet 1-6 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 1600A 29 2. Sheet 1-7 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 630A/1250A 30 3. Sheet 2-8 Ed.1401 Coupler panel enclosure with circuit-breaker up to 1600A 42 4. Sheet 2-9 Ed.1401 Coupler panel enclosure with bridge up to 1600A 43 5. Sheet 3-4 Ed.1401 Measurement panel withdrawable unit with voltage transformers 50 - up to 24kV 1. Sheet 1-4 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 1250A 28 2. Sheet 1-15 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 2500A 36 3. Sheet 1-16 Ed.1401 Incoming/outgoing panel with circuit-breaker up to 630/1250A 37 4. Sheet 2-2 Ed.1401 Coupler panel enclosure with bridge up to 630A/1250A 38 5. Sheet 2-3 Ed.1401 Coupler panel enclosure with circuit-breaker up to 630A/1250A 39 6. Sheet 2-15 Ed.1401 Coupler panel enclosure with bridge up to 1250A 46 7. Sheet 2-16 Ed.1401 Coupler panel enclosure with circuit-breaker up to 1250A 47 8. Sheet 3-2 Ed.1401 Measurement panel withdrawable unit with voltage transformers 49 9. Sheet 3-5 Ed.1401 Measurement panel withdrawable unit with voltage transformers 51 * - according to GOST standards ** - data sheets relevant to switchgears with technical parameters and panel configurations that are different from the ones included in the table are available directly from the manufacturer or from the website www.katowice.zpue.pl. 24

Incoming/outgoing panel with circuit-breaker sheet 1-1 Ed. 1401 (Diagram S1-1 ) (Facade E1-065-1) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630; 1250 [A] 1250; 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens); Evolis (Schneider) Current transformer T1 TPU4 Voltage transformer T2 UMZ12 Earthing switch Q3 EK6 Weigh [kg] 825 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 free-standing / front and back access or back-to-wall / only front access 25

Incoming/outgoing panel with circuit-breaker sheet 1-2 Ed. 1401 (Diagram S1-1) (Facade E1-080-1) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 1600 [A] 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens); Evolis (Schneider); Current transformer T1 TPU4 Voltage transformer T2 UMZ12 Earthing switch Q3 EK6 Weigh [kg] 965 Dimensions (HxWxD) [mm] 2150 x 800 x 1575 free-standing / front and back access or back-to-wall / only front access 26

Incoming/outgoing panel with 3AH type circuit-breaker sheet 1-3 Ed. 1401 (Diagram S1-1) (Facade E1-065-2) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630; 1250 [A] 1250; 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 3AH (Siemens) Current transformer T1 TPU4 Voltage transformer T2 UMZ12 Earthing switch Q3 EK6 Weigh [kg] 838 Dimensions (HxWxD) [mm] 2150 x 650 x 1625 free-standing / front and back access or back-to-wall / only front access 27

Incoming/outgoing panel with circuit-breaker sheet 1-4 Ed. 1401 (Diagram S1-20) (Facade E1-100-1) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 630; 1250 [A] 1250 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens); NVL (Ormazabal); Current transformer T1 TPU6 Voltage transformer T2 UMZ24 Earthing switch Q3 EK6 Earth-fault current transformers T4 KOKM Weigh [kg] 1100 Dimensions (HxWxD) [mm] 2150 x 1000 x 1725 back-to-wall / only front access or free-standing / front and back access 28

Incoming/outgoing panel with circuit-breaker sheet 1-6 Ed. 1401 (Diagram S1-2) (Facade E1-100-3) Rated voltage [kv] 12*/ 17.5 [kv] 42*/ 38 [kv] 75*/ 85 [A] 1600 [A] 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens) Current transformer T1 TPU4*/ TPU5 Earthing switch Q3 EK6 Weigh [kg] 1070 Dimensions (HxWxD) [mm] 2150 x 1000 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards 29

Incoming/outgoing panel with circuit-breaker sheet 1-7 Ed. 1401 (Diagram S1-2 ) (Facade E1-080-1 ) Rated voltage [kv] 12*/ 17.5 [kv] 42*/ 38 [kv] 75*/ 85 [A] 630; 1250 [A] 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X, IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens) Current transformer T1 TPU4*/ TPU5 Earthing switch Q3 EK6 Weigh [kg] 930 Dimensions (HxWxD) [mm] 2150 x 800 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards 30

Incoming/outgoing panel with load break switch sheet 1-8 Ed. 1401 (Diagram S1-3) (Facade E1-065-3) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630; 1250 [A] 1250; 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Load break switch Q2 NALF (ABB) Earthing switch Q3 E12 (ABB) Weigh [kg] 670 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 back-to-wall / only front access or free-standing / front and back access 31

Outgoing panel with contactor (Diagram S1-4) sheet 1-9 Ed. 1401 (Facade E1-065-1) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630 [A] 1250; 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Contactor Q2 VSC; V-Contact (ABB) Current transformer T1 TPU4 Earthing switch Q3 EK6 Weigh [kg] 825 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 free-standing / front and back access or back-to-wall / only front access 32

Incoming/outgoing panel with circuit-breaker sheet 1-12 Ed. 1401 (Diagram S1-17) (Facade E1-100-7 ) Rated voltage [kv] 12*/ 12 [kv] 42*/ 28 [kv] 75*/ 75 [A] 4000 [A] 4000 [ka/3s] 40 Rated peak [ka] 100 [ka/0.5s] 40 IP3X Circuit breaker Q1 VD4 (ABB) Current transformer T1 TŁP 10 Earthing switch Q3 EK6 Weigh [kg] 1460 Dimensions (HxWxD) [mm] 2350 (2150**) x 1000 x 1660 free-standing / only front access or back-to-wall / only front access * - according to GOST standards ** - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 33

Incoming/outgoing panel with circuit-breaker sheet 1-13 Ed. 1401 (Diagram S1-5) (Facade E1-100-7 ) Rated voltage [kv] 12*/ 12 [kv] 42*/ 28 [kv] 75*/ 75 [A] 3150 [A] 4000 [ka/3s] 40 Rated peak [ka] 100 [ka/0.5s] 40 IP3X Circuit breaker Q1 VD4 (ABB) Current transformer T1 TŁP 10 Earthing switch Q3 EK6 Earth-fault current transformers T4 KOKM Weigh [kg] 1338 Dimensions (HxWxD) [mm] 2350 (2150**) x 1000 x 1675 free-standing / only front access or back-to-wall / only front access * - according to GOST standards ** - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 34

Incoming/outgoing panel with circuit-breaker sheet 1-14 Ed. 1401 (Diagram S1-5) (Facade E1-080-3) Rated voltage [kv] 12*/ 12 [kv] 42*/ 28 [kv] 75*/ 75 [A] 630; 1250 [A] 4000 [ka/3s] 40 Rated peak [ka] 100 [ka/0.5s] 40 IP3X Circuit breaker Q1 VD4 (ABB) Current transformer T1 TOŁ 10 Earthing switch Q3 EK6 Earth-fault current transformers T4 KOKM Weigh [kg] 950 Dimensions (HxWxD) [mm] 2350 (2150**) x 800 x 1675 free-standing / only front access or back-to-wall / only front access * - according to GOST standards ** - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 35

Incoming/outgoing panel with circuit-breaker sheet 1-15 Ed. 1401 (Diagram S1-19) (Facade E1-100-8) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 2500 [A] 2500 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP4X Circuit breaker Q1 SION (Siemens), VD4 (ABB) Current transformer T1 TPU6 Voltage transformer T2 UMZ24 Earthing switch Q3 EK6 Weigh [kg] 1245 Dimensions (HxWxD) [mm] 2450 (2250*) x 1000 x 1600 back-to-wall / only front access * - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 36

Incoming/outgoing panel with circuit-breaker sheet 1-16 Ed. 1401 (Diagram S1-18) (Facade E1-080-4) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 630, 1250 [A] 2500 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP4X Circuit breaker Q1 SION (Siemens), VD4 (ABB) Current transformer T1 TPU6 Voltage transformer T2 UMZ24 Earthing switch Q3 EK6 Earth-fault current transformers T4 KOKM Weigh [kg] 1100 Dimensions (HxWxD) [mm] 2450 (2250*) x 800 x 1600 back-to-wall / only front access * - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 37

Coupler panel enclosure with bridge sheet 2-2 Ed. 1401 (Diagram S2-2) (Facade E1-100-4) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 630; 1250 [A] 1250 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP3X; IP4X Bridge Q4 produced by Weigh [kg] 1050 Dimensions (HxWxD) [mm] 2150 x 1000 x 1725 back-to-wall / only front access or free-standing / front and back access 38

Coupler panel enclosure with circuit-breaker sheet 2-3 Ed. 1401 (Diagram S2-1) (Facade E1-100-5) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 630; 1250 [A] 1250 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens) Current transformer T1 TPU6 Weigh [kg] 1100 Dimensions (HxWxD) [mm] 2150 x 1000 x 1725 back-to-wall / only front access or free-standing / front and back access 39

Coupler panel enclosure with circuit-breaker sheet 2-5 Ed. 1401 (Diagram S2-3) (Facade E1-065-1) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630; 1250 [A] 1250; 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens); Evolis (Schneider); Current transformer T1 TPU4 Earthing switch Q3 EK6 Weigh [kg] 825 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 free-standing / front and back access or back-to-wall / only front access 40

Coupler panel enclosure with bridge sheet 2-6 Ed. 1401 (Diagram S2-2) (Facade E1-065-5) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 630; 1250 [A] 1250; 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Bridge Q4 produced by Weigh [kg] 825 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 free-standing / front and back access or back-to-wall / only front access * - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 41

Coupler panel enclosure with circuit-breaker sheet 2-8 Ed. 1401 (Diagram S2-4) (Facade E1-100-3) Rated voltage [kv] 12*/ 17.5 [kv] 42*/ 38 [kv] 75*/ 85 [A] 1600 [A] 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Circuit breaker Q1 VD4 (ABB); SION (Siemens) Current transformer T1 TPU4* / TPU5 Earthing switch Q3 EK6 Weigh [kg] 1070 Dimensions (HxWxD) [mm] 2150 x 1000 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards 42

Coupler panel enclosure with bridge sheet 2-9 Ed. 1401 (Diagram S2-5) (Facade E1-100-3) Rated voltage [kv] 12*/ 17.5 [kv] 42*/ 38 [kv] 75*/ 85 [A] 1600 [A] 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Bridge Q4 produced by Weigh [kg] 1070 Dimensions (HxWxD) [mm] 2150 x 1000 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards 43

Coupler panel enclosure with bridge sheet 2-13 Ed. 1401 (Diagram S2-6) (Facade E1-100-7) Rated voltage [kv] 12*/ 12 [kv] 42*/ 28 [kv] 75*/ 75 [A] 4000 [A] 4000 [ka/3s] 40 Rated peak [ka] 100 [ka/0,5s] 40 IP3X Bridge Q4 produced by Earthing switch Q3 EK6 Weigh [kg] 1210 Dimensions (HxWxD) [mm] 2350 (2150**) x 1000 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards ** - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 44

Coupler panel enclosure with circuit-breaker sheet 2-14 Ed. 1401 (Diagram S2-7) (Facade E1-100-7) Rated voltage [kv] 12*/ 12 [kv] 42*/ 28 [kv] 75*/ 75 [A] 4000 [A] 4000 [ka/3s] 40 Rated peak [ka] 100 [ka/0,5s] 40 IP3X Circuit breaker Q1 VD4 (ABB) Current transformer T1 TŁP 10 Weigh [kg] 1425 Dimensions (HxWxD) [mm] 2350 (2150**) x 1000 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards ** - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 45

Coupler panel enclosure with bridge sheet 2-15 Ed. 1401 (Diagram S2-2) (Facade E1-080-4) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 1250 [A] 2500 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP4X Bridge Q4 produced by Weigh [kg] 800 Dimensions (HxWxD) [mm] 2450 (2250*) x 800 x 1600 back-to-wall / only front access * - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 46

Coupler panel enclosure with circuit-breaker sheet 2-16 Ed. 1401 (Diagram S2-8) (Facade E1-080-4) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 1250 [A] 2500 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP4X Circuit breaker Q1 SION (Siemens); VD4 (ABB) Weigh [kg] 930 Dimensions (HxWxD) [mm] 2450 (2250*) x 800 x 1600 back-to-wall / only front access * - the cubicle height provided includes the auxiliary circuits cubicle, 400 mm high 47

Measurement panel withdrawable unit with voltage transformers sheet 3-1 Ed. 1401 (Diagram S3-1) (Facade E1-065-7) Rated voltage [kv] 12 [kv] 28 [kv] 75 [A] 1250; 1600; 2500 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Movement unit Withdrawable unit with voltage transformers Voltage transformer Т2 UMZ12 Earthing switch Q3 EK6 Weigh [kg] 750 Dimensions (HxWxD) [mm] 2150 x 650 x 1575 free-standing / front and back access or back-to-wall / only front access 48

Measurement panel withdrawable unit with voltage transformers sheet 3-2 Ed. 1401 (Diagram S3-2) (Facade E1-100-6) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 1250 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP3X; IP4X Movement unit Withdrawable unit with voltage transformers Voltage transformer Т2 UMZ24 Earthing switch Q3 EK6 Weigh [kg] 950 Dimensions (HxWxD) [mm] 2150 x 1000 x 1725 free-standing / front and back access or back-to-wall / only front access 49

Measurement panel withdrawable unit with voltage transformers sheet 3-4 Ed.1401 (Diagram S3-3) (Facade E1-080-2) Rated voltage [kv] 12*/ 17.5 [kv] 42*/ 38 [kv] 75*/ 85 [A] 1600 [ka/3s] 31.5 Rated peak [ka] 80 [ka/1s] 31.5 IP3X; IP4X Movement unit Withdrawable unit with voltage transformers Voltage transformer Т2 UMZ12* / UMZ17 Earthing switch Q3 EK6 Surge arrester F1 Polim (ABB) Weigh [kg] 950 Dimensions (HxWxD) [mm] 2150 x 800 x 1675 free-standing / front and back access or back-to-wall / only front access * - according to GOST standards 50

Measurement panel withdrawable unit with voltage transformers sheet 3-5 Ed. 1401 (Diagram S3-2) (Facade E6-080-2) Rated voltage [kv] 24 [kv] 50 [kv] 125 [A] 2500 [ka/3s] 25 Rated peak [ka] 63 [ka/1s] 25 IP4X Movement unit Withdrawable unit with voltage transformers Voltage transformer Т2 UMZ24 Earthing switch Q3 EK6 Weigh [kg] 950 Dimensions (HxWxD) [mm] 2250 x 800 x 1600 free-standing / front and back access or back-to-wall / front and back access 51

Catalogue: / EN, Issued: January 2014