Container transformer stations

Container transformer stations Design Catalogue 0

Range of product offered: Container transformer stations Pole-mounted transformer stations Medium (Sulphur Hexafluoride (SF ) gas insulated) 6 Low Pole-mounted switchboards Medium industrial Low industrial Enclosed Street lighting cabinets Primary cubicles and staircase distribution boards for residential buildings Cable boxes and metering and cable boxes Steel, aluminium and stainless steel enclosures cabinets and Universal Desks Site cubicles Indoor medium disconnectors and switch-disconnectors Outdoor disconnectors and switch-disconnectors (air insulated, SF gas insulated and vacuum chamber insulated) 6 Outdoor fuse bases Power engineering structures on traditional poles and pre-tensioned spun concrete poles ny custom design cubicles and structures according to individual documentation, type catalogues, or original designs E type pre-tensioned spun concrete poles Ż type power poles Street lighting poles Our offer also includes: Capacitive dividers, Power and step-by transformers Low switch-disconnectors Electrical installation works Metalworking machine workshop Electrical department - assembly Container station assembly department Sulphur Hexafluoride (SF 6) gas insulated switch-disconnector assembly line

- Container transformer stations Table of Contents MRw-b type concrete transformer stations with internal service - with air-insulated medium - with Sulphur Hexafluoride (SF 6) gas insulated medium MRw-b 0/x60 type concrete transformer stations with two transformer compartments with internal service - with air-insulated medium - with Sulphur Hexafluoride (SF 6) gas insulated medium MRw-bS special type concrete transformer stations MRw-bP customize type concrete transformer stations Transformer container stations in concrete case with external service - Minibox 0/60 - Mzb 0/60 - MRw-bk 0/50 WST 0/60 type POSTER PILLR in concrete case with internal service PST-b 0/60 type underground transformer station MRw metal container transformer stations -S/TPM-W -(4,5) concrete medium cable container with Sulphur Hexafluoride (SF 6) gas insulated medium s - - 4 - - 6-8 - 4-47 - 5-6 Container transformer stations w i t h e n e r g y t o t h e f u t u r e

MRw-b Concrete container transformer stations with an internal service Introduction i n t o s e p a r a t e c o m p a r t m- emn te s d: i u m v o l t a g e t y p e : M R w - b c o n c r e t e c o n t a i n e r s e a l e d o i l c o l l e c t i o n p i t, Rwo ht oi cb h l o k, t r a n s f o r m e r s t a t i o n s a r e c a n c o n t a i n t h e e n t i r e c or no tteo nb tls o k S F, d e s i g n e d f o r o p e r a t i o n w i o t f h t r a n s f o r m e r ' s o i l t a n k R, E L F, c a b l e n e t w o r k s, r i n g o r r a c d a i b a l l e c o m p a r t m e n t w i t h R E L F e x, m e d i u m v o l t a g e c a b l e a n d b u s h i n g s. R X D, o v e r h e a d l i n e s a n d l o w v M o l a t i a n g e s t r u c t u r e w i t h i n s t a lr l Xe d D 6, c a b l e n e t w o r k s. T h e y p r o m v e i d e i u m v o l t a g e a n d l o w vto Pl tm a-g W e, p o w e r t o : s w i t c h g e a r a n d t r a n s f o r m Te Pr ( Ms ) r e s i d e n t i a l a r e a i n t o w n h s a a s n v d e n t i l a t i o n o p e n i n g s C W, c i t i e s, p r o t e c t e d w i t h a l u m i n i u m TsP l Ma ts 4 - P, p a r k s a n d r e c r e a t i o n a l a e r n e s a u s r, i n g I P 4 d e g r e e o f T P M 4, s u b u r b a n r e s i d e n t i a l a n p d r r o u t r e a c l t i o n. o r o t h e r a f t e r c o n s u l t a t i o n w i t h a r e a s, H a t c h l e a d i n g t o t h e c a b l e t h e m a n u f a c t u r e r. c o n s t r u c t i o n s i t e s, c o m p a r t m e n t i s i n s t a l l e d - i n L otw h e v o l t a g e t y p e : I n d u s t r i a l p a r k s a n d w o c r k o s r r h i o d p o s r. ' s f l o o r. R - W, C o n t a i n e r s t a t i o n s a r e S t a n d a r d s t a t i o n d e s i g n a Zl lro -w W s, t r a n s p o r t e d t o t h e i n s t a l p l a l a t c i o e n m e n t i n t h e t r a n s f o r Zm Me r R, s i t e c o m p l e t e a n d r e a d y c f h o a r m b e r o f a h e r m e t i c a l l y o r s eo atl he ed r a f t e r c o n s u l t a t i o n w i t h o p e r a t i o n. O n c e t h e c o n t o a i i l n - f e i r l l i e s d t r a n s f o r m e r w i t th h a e m a n u f a c t u r e r. p o s i t i o n e d, m e d i u m a n d r l o a w t i n g r a n g i n g f r o m 6 0 Sk wv i t ctho g e a r c u b i c l e s a r e v o l t a g e c a b l e s a n d e a r t h i n 0 g 0 0 k V. i n d e p e n d e n t s t a t i o n c o m p o n e n t s s y s t e m r e q u i r e c o n n e c t i o O n n a c n u d s t o m e r ' s r e q u e s t i t ains d t h e y c a n b e a c c e s s e d a n d t h e t r a n s f o r m e r h a s t o b p e o p s l s a i b c e l e d t o r e d e s i g n t h e o p e r a t e d f r o m t h e c o m m o n i n s i d e a n d c o n n e c t e d. t r a n s f o r m e r c h a m b e r t o c o r r i d o r i n s i d e t h e c o n t a i n e r i n d i v i d u a l r e q u i r e m e n t s ( s ht ai gt hi oe n r. r a t i n g t r a n s f o r m e r o r a C o n n e c t i o n s b e t w e e n m e d i u m Container station design t r a n s f o r m e r o f a d i f f e r e nv ot l t ya pg e, s w i t c h g e a r a n d t h e M R w - b c o n t a i n e r s t a t i o n s u c h a s a n o i l - f i l l e d t r a ntsr fa on rsm f oe r m e r a s w e l l a s b e t w e e n c o m p r i s e s m o n o l i t h i c w i t h a n e x p a n s i o n t a n k t h e t r a n s f o r m e r a n d l o w v o l t a g e c o m p o n e n t s : ( c o n s e r v a t o r ) o r a c a s t rse ws i n t c h g e a r a r e m a d e u s i n g c a b l e s B a s e f o u n d a t i o n - - m a d te r af nr os m f o r m e r ). T r a n s f o r m e( hr o w e v e r t h e r e i s a n o p t i o n t o B 0 c l a s s r a i n f o r c e d c o ni nc sr te at le l, a t i o n i s c a r r i e d o uct otn hn reo cu t g th o t h e t r a n s f o r m e r a n d m a i n b o d y - - m a d e f r o m t hb e 0 c h a m b e r d o o r o r f r o m s wti ht e c h g e a r u s i n g b u s b a r s ). r a i n f o r c e d c o n c r e t e, t o p a f t e r t h e r o o f i s d i s m a n t l e d. r o o f - - m a d e f r o m B 0 T r a n s f o r m e r c a n b e a c c e s s e d a n d f e r r o c o n c r e t e o r m e t a l o( sp ee r a t e d a f t e r o p e n i n g t h e p a g e s t o 5 ). t r a n s f o r m e r c h a m b e r d o o r. T h e f o u n d a t i o n f r a m e i s Sd tiav ni dea d r d i n s t a l l e d s w i t c h g e a r :

Container station technical data Switchgear Medium Low U - Rated 4 / (6,, 5) 6 kv 400 V I - Rated continuous current 60 4000 50 600 Is - Rated shout-circuit withstand current 40 k(s) 5 k(s) isz - Rated peak withstand current 40 0 k 5 00 k f - Rated frequency 50 Hz S - Maximum transformer power up to 4000 kv Container transformer stations Degree of protection IP 4 (up to IP 54) The stations are certified by the following notified bodies: Warsaw Electrotechnical Institute, EERGOSERT in Moscow, BELEERGO in Minsk and Warsaw Building Research Institute. Selection of the fuse link Transformer Transformer rated rated power 6 kv kv 5 kv 0 kv 0 kv 6 kv kv 5 kv 0 kv 0 kv 0,4 kv [kv] Fuse-link rated [] Transformer rated current 40-6, 6, 6, - -,,5,5-57,7 6-6, 6, - -,6,4,8-90,9 0 0 6, 9,6 5,8,8,9,9 44, 0,5 0 5,4 9, 6, 4,6, 0,9 50 50 lub 6,5 0 4, 4,4 9,6 7, 4,8 60,8 400 80* 50,5 5 5 8,5, 5,4,5 7,7 577,4 60 5* 80* 50 lub 6 40,5 60,6 6,4 4, 8,, 909, 800-0* 6 40 lub 50 40-46, 0,8, 5,4 55 00 5* 6 lub 80 50 lub 6 40-57,7 8,5 8,9 9,5 44 Container station installation into ground Container station installation into ground is shown for example of the station MRw-bpp 0/60- and MRw-b (6,x,6) 0/x60. The first stage of building container station installation is excavating the pit. Earth ring conductor must be laid in the pit and then earthing leads attached to it which will be connected to the station's electrical system. 00 millimetre layer of sand and gravel bedding must be constructed under the foundation. It should be ensured that the sealing tape does not overlap (do not lay a double layer) as this can lead to leaking of water inside the station. When laying the sealing tape do not stretch it, as this can lead to damage or deformation. On a foundation prepared as described above the station's main structure and then the roof should be placed. If the container station is installed on wetland, the foundation should be additionally protected with moisture barrier and a system of efficient drains should be constructed around the station's building. The station can be also constructed in category and 4 mining excavation area, which has been certified by an opinion issued by a construction expat. In this instance, in order to ensure a correct foundation design, it is required to construct an additional sliding layer comprising two layers of sandless tar paper laid on a 0 millimetre concrete screed slab and provide a 500 millimetre sand cushion under the entire footing (in the form of subsoil or made ground in the excavated pit). Container station installation into ground Container station installation into ground is shown for example of the station MRw-bpp 0/60- and MRw-b (6,x,6) 0/x60. The first stage of building container station installation is excavating the pit. Earth ring conductor must be laid in the pit and then earthing leads attached to it which will be connected to the station's electrical system. 00 millimetre layer of sand and gravel bedding must be constructed under the foundation. It should be ensured that the sealing tape does not overlap (do not lay a double layer) as this can lead to leaking of water inside the station. When laying the sealing tape do not stretch it, as this can lead to damage or deformation. On a foundation prepared as described above the station's main structure and then the roof should be placed. If the container station is installed on wetland, the foundation should be additionally protected with moisture barrier and a system of

IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE MRw-bpp 0/60- container station foundation Roof lifting lugs Concrete slab roof Container lifting lugs n. m mi 5 50 TRSF ORMTOR MV 0kV/LV 0,4kV Foundation lifting lugs Earthing leads 0 Sealing tape -0 800 0-00 Pit -00 ~00 Earth ring conductor ~00 ~00 900 ~600 470 0 0 ~450 Sand bedding sub-crust Gravel bedding sub-crust MRw-b (6,x,6) 0/x60 container station foundation Roof lifting lugs Concrete slab roof Cross beam min 5m TR TR SFORMER MEDIUM VOLTGE 5kV/LV 0,4kV TR TR SFORMER 50 Foundation lifting lugs Earthing leads Sealing tape 570-00 800 0-00 Pit -00 ~00 Earth ring conductor ~00 ~00 900 ~80 6070 0 0 ~4600 Earthing leads Sand bedding Gravel bedding 4

Standard roofs Flat concrete roof 00 0 0 Side view Perspective view 0 0 Metal hipp roof 600 Container transformer stations Gable metal roof 70 (70) Side view Perspective view 70 (70) 70 (70) 4/660 (060) 70 (70) Examples of non-standard roofs Tall gable metal roof Metal pent roof 0 60 60 Tall gable metal roof - regional design (Zakopane) 70 (70) 4/660 (060) Tall hipp metal roof 70 (70) 0 400 600 60 Side view Perspective view 60 70 (70) 4/660 (060) 70 (70) 50 50 Side view Perspective view Side view Perspective view 50 50 850 00 00 400 Side view Perspective view 400 70 (70) Side view Perspective view 70 (70) 70 (70) 4/660 (060) 70 (70) 400 400 ote: Individual customised roof design is optional 5

Roofing material Roof type Standard roofing material Optional roofing materials Concrete slab bitumen shingles Gable roof metal roofing tiles ceramic roofing tiles bitumen shingles Hipped roof metal roofing tiles ceramic roofing tiles bitumen shingles Tall hipped roof metal roofing tiles ceramic roofing tiles bitumen shingles Tall gable roof metal roofing tiles ceramic roofing tiles bitumen shingles Pent roof metal roofing tiles ceramic roofing tiles bitumen shingles Medium and low cable glands (produced by ZPUE S..) and dimensions of medium cable gland 50 5 holes diameter 4 mm 80 hole for 5 mm conduit holes for 60 mm conduits 0 and dimensions of low cable gland 50 5 holes diameter 4 mm 6 holes for 50 mm conduits 80 4 holes for 70 mm conduits 0 View of an opening prepared for installation of a low or medium cable gland - Rubber seal luminium cable gland produced by ZPUE S.. Installation of medium and low cables and glands in the gland openings of the station's foundation Rubber seal The station's foundation side wall luminium cable gland produced by ZPUE S.. Rubber seal The station's foundation side wall luminium cable gland produced by ZPUE S.. Heat-shrinkable sleeve Heat-shrinkable sleeve Medium cable Rubber seal Low cable Rubber seal ote: pplications of other sealing systems is optional. 6

The roof and walls finish Internal wall surfaces are finished with decorative white acrylic plaster. External wall surfaces are finished with acrylic plaster. ll metal components installed on the station's exterior are made from powder painted aluminium available in RL colours palette. Standard facade type and colour are offered, however individual architectural designs are possible, taking into account available technical capabilities and materials for finishing of concrete surfaces as well as available roof types and finishing elements. Standard plaster colours applied for concrete containers station facade and standard powder paint colours are presented below. Container transformer stations Standard colour systems Colour of the container Colour of the door and slats Colour of the roof White Red - RL 00 Red - RL 005 White Brown - RL 807 Brown - RL 807 TEXS TX Red - RL 00 Red - RL 005 TEXS TX Brown - RL 807 Brown - RL 807 ET ET Red - RL 00 Red - RL 005 ET ET Brown - RL 807 Brown - RL 807 FLORID FL Red - RL 00 Red - RL 005 FLORID FL Brown - RL 807 Brown - RL 807 TLTIC T Red - RL 00 Red - RL 005 TLTIC T Brown - RL 807 Brown - RL 807 MDEIR MD Red - RL 00 Red - RL 005 MDEIR MD Brown - RL 807 Brown - RL 807 SVE SV4 Red - RL 00 Red - RL 005 SVE SV4 Brown - RL 807 Brown - RL 807 POLR PL Red - RL 00 Red - RL 005 POLR PL Brown - RL 807 Brown - RL 807 BLI BL Red - RL 00 Red - RL 005 BLI BL Brown - RL 807 Brown - RL 807 Container station location with respect to fire safety regulations Location of the container station must be selected in compliance with the regulation of the Minister of infrastructure of pril 00 on the technical requirements for buildings and their location (Journal of Laws o 75 of 5 June 00, item 690). The stations can be constructed directly adjacent to existing buildings (or at parcel perimeter) provided that the station's wall facing the building (or parcel perimeter) is a fireproof partition (for details see MRw-bpp... container stations). ll potential station locations must be considered individually and consulted with ZPUE S.. 7

V. Concrete container transformer stations with internal service and operation with insulated medium air... MRw-bpp 0/60- "a" ("b") /P container station MRw-bpp 0/60- a /P (REI ) () () MRw-bpp 0/60- b /P (REI ) (REI ) () () (REI ) 660 (60) Rotoblok SF medium 660 (60) Rotoblok SF medium (90) (90) Standard MRw-bpp 0/60- "a(b)"/p container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 Rotoblok SF medium () () 4 5 GTR SF V 4.06. GTR SF 4.06. GTR SF 4.06. R-W low R-W low / B- Station lighting R-W low L, L, L xp50x xp50x xp50x MRw-bpp 0/60- "a"/p container station facade REI REI Rear view Side view - left (right) 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 4500 kg - main structure 9000 kg - roof - concrete 500 kg - metal 450-600 kg Usable area: 7,8 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok SF R-W Max number of medium golden bays (low outgoing feeders) 5 Enclosure class - 0 8

.. MRw-bpp 0/60- "c" i "d" /P container station MRw-bpp 0/60- c /P (REI ) () () MRw-bpp 0/60- d /P () () (REI ) Container transformer stations 660 (60) Rotoblok SF medium 660 (60) Rotoblok SF medium (90) R-W low (90) R-W low Standard MRw-bpp 0/60- "c(d)"/p container station diagram xyhkxs (x70 mm ) 60 kv transformer no-load operation xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering / B- Station lighting 4 5 6 7 8 9 R-W low xp50x Rotoblok SF medium () () GTR SF V GTR SF GTR SF 4.06. 4.06. 4.06. xp50x xp50x MRw-bpp 0/60- "c"/p container station facade REI REI Rear view Side view - left Side view - right 950 50 600 600 TRSF ORMTOR 00 REI REI MV 0kV/LV 0,4kV -00-00 -00-00 Weight: - foundation 4500 kg - main structure 9000 kg - roof - concrete 500 kg - metal 450-600 kg Usable area: 7,8 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok SF R-W Max number of medium bays (low outgoing feeders) on-standard design R-W 5 Enclosure class - 0 9

.. MRw-bpp 0/60- container station... MRw-bpp 0/60- /P container station MRw-bpp 0/60- a /P MRw-bpp 0/60- b /P 460 460 (REI ) 4 (80) (90) R-W low Rotoblok medium () () (REI ) (REI ) 4 (80) (90) () () Rotoblok medium R-W low (REI ) Standard MRw-bpp 0/60- "a(b)"/p container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering / B- Station lighting 4 5 6 7 8 9 R-W low xp50x GTR V 4.06. Rotoblok medium GTR 4.06. () GTR 4.06. () xp50x xp50x Surge arrester Surge arrester MRw-bpp 0/60- "a"/p container station facade REI Rear view REI Side view - left (right) 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 5400 kg - main structure 000 kg - roof - concrete 4000 kg - metal 450-600 kg Usable area: 8,7 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 4 9 Enclosure class - 0

... MRw-bpp 0/60- /4P container station MRw-bpp 0/60- /4P (REI ) 4 (80) (90) R-W low 460 Rotoblok SF medium () () (REI ) Container transformer stations Standard MRw-bpp 0/60- /4P container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering / B- Station lighting 4 5 6 7 8 9 R-W low xp50x Rotoblok SF medium () () GTR SF V GTR SF GTR SF GTR SF 4.06. 4.06. 4.06. 4.06. xp50x xp50x MRw-bpp 0/60- /4P container station facade REI Rear view REI Side view - left (right) 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 5400 kg - main structure 000 kg - roof - concrete 4000 kg - metal 450-600 kg Usable area: 8,7 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 4 9 Enclosure class - 0

..4 MRw-bpp 5/00- /P container station MRw-bpp 5/00- /P 460 (REI ) 4 (80) (90) R-W low Rotoblok SF medium 7,5 kv () () (REI ) Standard MRw-bpp 5/00- /P container station diagram xyhkxs (x70 mm ) xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP or 000 00 kv ZM4 -VE00 V Semi-direct electricity metering / KTS 4 Regulator W B- Station lighting 4 5 6 7 8 9 Transformer chamber door fan (for transformators above 60 kv) R-W low xp80x Rotoblok SF medium 7,5 kv () () GTR V 7.06. GTR 7.06. GTR 7.06. xp60x xp60x Surge arrester Surge arrester MRw-bpp 5/00- /P container station facade Rear view REI REI Side view - left (right) 950 50 600 600 TRSF ORMTOR MV 5kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 5400 kg - main structure 000 kg - roof - concrete 4000 kg - metal 450-600 kg Usable area: 8,7 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 00 kv Type Rotoblok 7,5 kv Rotoblok SF R-W R-W Max number of medium bays (low outgoing feeders) 4 9 Enclosure class - 0

..5 MRw-bpp 0/00- /4P container station MRw-bpp 0/00- /4P (REI ) 4 (80) (90) Metering board R-W low 460 Rotoblok SF medium () () (REI ) Container transformer stations Standard MRw-bpp 0/00- /4P container station diagram xyhkxs (x70 mm ) 00 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP lub 000 ZM4 -VE00 V Semi-direct electricity metering / KTS 4 Regulator 4 5 6 7 8 9 Transformer W chamber door fan B- (for transformators above 60 kv) Station lighting R-W low xp80x Rotoblok SF medium () () TPU GTR SF V GTR SF 4 GTR SF GTR SF 4.06. 4.06. 4.06. 4.06. xp60x xp60x UMZ indirect energy MRw-bpp 0/00- /4P container station facade REI Rear view REI Side view - left (right) 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 5400 kg - main structure 000 kg - roof - concrete 4000 kg - metal 450-600 kg Usable area: 8,7 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 00 kv Type Rotoblok 7,5 kv Rotoblok SF R-W R-W Max number of medium bays (low outgoing feeders) 4 9 Enclosure class - 0

..6 MRw-bpp 0/60-4 container station..6. MRw-bpp 0/60-4 /4P container station MRw-bpp 0/60-4 a /4P (REI ) MRw-bpp 0/60-4 b /4P 4760 (REI ) (REI ) 4760 (REI ) 660 (60) (90) () () Rotoblok medium R-W low 660 (60) (90) R-W low () () Rotoblok medium Standard MRw-bpp 0/60-4 "a(b)"/4p container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- () () L, L, L V Station lighting R-W low Rotoblok medium Semi-direct electricity metering 4 5 6 7 8 9 xp50x GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. xp50x xp50x Surge arrester Surge arrester Surge arrester MRw-bpp 0/60-4 "a"/4p container station facade REI Rear view REI Side view - left (right) 00 REI 950 50 600 600 MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 500 kg - roof - concrete 4500 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 4 5 4 (when Rotoblok SF and Rotoblok 7,5 kv s are applied) Enclosure class - 0 4

V..6. Standard MRw-bpp 0/60-4 /4P container station diagram MRw-bpp 0/60-4 /4P (REI ) () () Coupler- -measurment bay 4760 (REI ) Container transformer stations 660 (60) (90) Power plant part Rotoblok SF medium User part R-W low Metering board MRw-bpp 0/60-4 /4P container station facade xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- Station lighting R-W low Rotoblok SF medium () () GTR SF GTR SF GTR SF 4 4.06. 4.06. 4.06. GTR SF V 4.06. L, L, L 4 5 6 7 8 9 xp50x TPU xp50x xp50x UMZ indirect energy MRw-bpp 0/60-4/4P/4P container station facade REI Rear view REI Side view - left (right) 00 REI 950 50 600 600 MV 0kV/LV 0,4kV Power plant part MV 0kV/LV 0,4kV User part TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 500 kg - roof - concrete 4500 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 4 5 4 (when Rotoblok SF and Rotoblok 7,5 kv s are applied) Enclosure class - 0 5

V..7 MRw-bpp 5/60-4 /4P container station MRw-bpp 5/60-4 /4P 4760 660 (60) (90) Standard MRw-bpp 5/60-4 /4P container station diagram xyhkxs (x70 mm ) 60 kv IP 50 4 5 6 7 8 9 xyky (x40 mm ) x(xyky x40 mm ) (REI ) () () (REI ) Rotoblok SF medium 7,5 kv Metering board R-W low / B- Station lighting R-W low Rotoblok SF medium 7,5 kv () () L, L, L xp50x GTR 7.06. GTR 7.06. GTR 7.06. GTR V 7.06. xp50x xp50x Surge arrester Surge arrester Surge arrester MRw-bpp 5/60-4 /4P container station facade 950 50 600 600 MV 0kV/LV 0,4kV REI REI Rear view Side view - left (right) TRSF ORMTOR 00 REI -00-00 -00 Weight: - foundation 6500 kg - main structure 500 kg - roof - concrete 4500 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok 7,5 kv Rotoblok SF R-W R-W Max number of medium bays (low outgoing feeders) 4 6 0 Enclosure class - 0

4. PST-b 0/60 /G container station PST-b 0/ x 60 /6(8)G 4700 R-W low Container transformer stations 000 TPM-W medium Servis and operation part Staircase R-W low 000 TPM-W medium Servis and operation part Staircase PST-b 0/60-G(4G) container station diagram TPM-W medium TPM-W medium xyhkxs (x70 mm ) xyhkxs (x70 mm ) 60 kv 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- L, L, L 4 5 6 7 8 9 L, L, L V V Station lighting R-W low 4 5 6 7 8 9 Station lighting R-W low Semi-direct electricity metering xp50x xp50x Semi-direct electricity metering xp50x xp50x xp50x xp50x Type Max number of medium bays (low outgoing feeders) Weight: - main structure x 5000 kg Usable area: x, m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv TPM-W R-W x 4 x on-standard design R-W x Enclosure class - 0 5

MRw 5 Metal container transformer stations Introduction MRw aluminium and zinc aluminium container transformer stations are designed for operation with cable networks, even the most complex medium cable and overhead lines and low cable (or overhead line) networks. They primarily provide power to large industrial sites, for example: aggregate s mines and logistics centres. Container stations are transported to the installation site complete and ready for operation. Once the container is positioned, medium and low cables and earthing system require connection and the transformer has to be placed inside and connected. Container station design ll internal components of MRw container stations, including the roof, sidewalls, gutters, finishing elements and the doors are made of aluminium sheet (or zinc aluminium sheet) which are polyester powder painted. Container framework is made of structural steel and protected with anticorrosion coating. sealed oil basin is constructed in the transformer chamber and directly above it there are transformer rails. The oil basin has a drain plug located in an easily accessible place. Cable conduits are made in the floor to enable running of the medium and low cables through them. Floor at medium and low is removable and divided. It helps in easy and quick instalation of cables. Ventilation is achieved through: inlet openings in the station's door, Outlet opening protected with aluminium slats is located in the station's rear and side walls. The station's roof can be additionally equipped with an external gutter system. In addition to the standard station designs it is possible to produce customised designs, where the client can request a different shape of the roof, type of finishing components, facade finish and door layout. Electrical accessories Standard installed : Medium type: Rotoblok, Rotoblok SF, RELFex, TPM-W, or other after consultation with the manufacturer. Low type: R-W, ZR-W, ZMR, or other after consultation with the manufacturer. Container station installation into ground Container station installation is shown using an example of the MRw0/60-4 station. The station is transported to its place of installation fully assembled. The station should be placed on F- prefabricated foundation blocks produced by ZPUE S or on combined concrete foundation footing. Prior to placing the station, check that the foundation is constructed correctly, paying special attention to its dimensions, levelling, positioning of cable outlets and earth ring conductor. 5

Container station foundation TRSF ORMTOR MV 0 kv/lv 0,4 kv Container transformer stations F concrete blocks Station outline Earthing leads 0 00 0 00 0 0 ~00 900 Pit Earth ring conductor Sand bedding Gravel bedding (if constructed on a wetland) vailable station and roof options Station with a tall gable roof Side view - left TRSF ORMTOR MV 0 kv/lv 0,4 kv 900 9 Station with a low gable roof Side view - left TRSF ORMTOR MV 0 kv/lv 0,4 kv 600 9 5

Station with a pent roof Side view - left 700 for MV - 000 000 for MV - 00 TRSF ORMTOR MV 0 kv/lv 0,4 kv 9 The roof and walls finish ll metal components installed on the station's exterior are made of powder painted aluminium (or zinc-aluminium sheets) available in RL colours palette. Standard facade type and colour are offered, however individual architectural designs are possible, taking into account available technical capabilities and materials for finishing of metal surfaces. Standard colour systems Colour of the container Colour of the door and roof finishing elements Colour of the roof Light grey - RL 70 Dark grey - RL 70 Dark grey - RL 70 White - RL 90 Blue - RL 50 Blue - RL 50 White - RL 90 Brown - RL 807 Brown - RL 807 54

Examples of MRw station designs 5. MRw 0/x60-7 container station MRw 0/x60-7 () () 8 Coupler bay (5) (6) 9 T 60 kv T 60 kv MRw 0/x60-7 container station diagram () () (5) (6) (7) GTR V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. xyhkxs (x70 mm ) xyhkxs (x70 mm ) T 60 kv T 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 0 / / Łk 5 B- IP 50 L, L, L 4 5 6 7 8 9 xp50x xp50x 9 8 7 6 5 4 (7) Container transformer stations L, L, L x(xyky x40 mm ) xyky (x40 mm ) xp50x xp50x MRw 0/x60-7 container station facade TRSF ORMTOR MV 0 kv/lv 0,4 kv TRSF ORMTOR 700 Rotoblok medium R-W low R-W low Rotoblok medium R-W low Station lighting R-W low Side view - left Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 50 k k 40 k 5 k 50 Hz 60/60 kv IP 4 55

5. MRw 0/x60-7 "SZR" container station (with automatic transfer switch system) MRw 0/x60-7 SZR 9450 Surge arrester bay (7) 9 Rotoblok medium T 60 kv T 60 kv LV R-W type LV R-W type () Street lighting unit Battery of condensers 00 Battery of condensers 00 LT (utomatic Load Transfer), UPS Power suply MRw 0/x60-7 container station diagram () () TPU (5) (6) (7) GTR V 4.06. GTR V 4.06. GTR V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. ZR-4 xyhkxs (x70 mm ) T 60 kv UMZ M HD4/R REF 6 IP-4 GTR 4.06. UMZ M HD4/R REF 6 IP-4 GTR 4.06. UMZ T 60 kv xyhkxs (x70 mm ) xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 Metering board for 00 kv Transformer (in another station) SZR / 0 / xp50x 4 5 6 7 8 9 Łk 5 B- xp50x IP 50 9 8 7 6 5 4 L, L, L x(xyky x40 mm ) xyky (x40 mm ) H IP 50 H xp50x xp50x BK 00 BK 00 MRw 0/x60-7 container station facade TRSF ORMTOR TRSF ORMTOR MV 0 kv/lv 0,4 kv 000 () () (5) Metering bay (6) (7) Rotoblok medium Station lighting R-W low R-W low Side view - left Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 50 k k 40 k 5 k 50 Hz 60/60 kv IP 4 56

x YHKXS (x mm ) 5. MRw 0/x50- container station MRw 0/x50-550 Reactive power compensator (90 ) Insulated KWMS board Metering board Metering board Reactive power compensator (90 ) Cable tray for cables powering the reactive power compensator suspended under the ceiling T 50kV L L L Flexible busducts Fire suppressio aerosol generator P 60x P x60x P x60x P x60x Power cables can be clamped to the structure at the height of minimum,5 m Plug-in bushings Insulated L Fire suppressio aerosol T generator 50kV L L UPS L L L L L L Rozdzielnia potrzeb własnych x YHKXS (x mm ) cable in a conduit Power cables can be clamped to the structure at the height of minimum,5 m Flexible busducts L SZR L 70 ZR-W low L T 50kV Insulated L L L Fire suppressio aerosol generator x YHKXS (x mm ) cable Power cables can be clamped to the structure at the height of minimum,5 m Flexible busducts () () Metering bay (5) B ay wti h bus bars outgoers (6) Customer's area Partition Electricity utility part Bus bars Personal Protective Equipment storage area () () Metering bay (9) (8) () Coupler bay Container separation line for transport purposes Container transformer stations 99044-957b Container separation line for transport purposes MRw 0/x50- container station diagram ELECTRICITY UTILITY PRT CUSTOMER'S RE ELECTRICITY UTILITY PRT (6) (5) () TPU 6 () () () TPU 6 (9) (8) (7) GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. GTR V 4.06. GTR V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. ZR-4 (~0V) ZR-4 (~0V) ZR-4 (~0V) UMZ UMZ Metering board Metering board ZR-W low Section ZM 400 ZM 7 0 T 50 kv T 50 kv T 50 kv ZM 7 0 Section ZM 400 ZM 400 ZM 7 0 ZM 7 0 ZM 400 ZM 400 ZM 7 0 ZM 7 0 ZM 400 ZM 400 ZM 400 ZM 7 0 ZM 7 50 ZM 7 50 ZM 400 ZM 7 L L 50 ZM 7 50 ZM 7 50 M M IZM 500 (withdrawable) IZM 500 (withdrawable) M IZM 500 (withdrawable) M M IZM 500 (withdrawable) IZM 500 (withdrawable) ZM 7 0 ZM 7 0 ZM 7 0 ZM 7 0 ZM 7 50 ZM 7 50 ZM 400 ZM 400 ZM 400 BK 90 LT BK 90 MRw 0/x50- container station facade Side view - left 400 MV 0 kv LV 0,4 kv MV 0 kv Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 500 k 50 k 40 k 5 k 50 Hz 50/50/50 kv IP 4 57

SK5.6-800/5 KL; V SK5.6-800/5 KL; V I T7 T4-T6 V Wf P -...0.00.0 f WL40-5CB -G -Z+B5+T40 J4 J4 J4 J4 J4 J4 J4 4 4 44 VL576 - DE6-00 I x(xyky x40mm ) VL576 - DE6-00 x(xyky x40mm ) I WL40-5CB -G -Z+B5+T40 SK5.6-800/5 KL; V SK5.6-800/5 KL; V I I I I I I V W f -...0.00.0 f 5.4 MRw 0/x00-6 container station MRw 0/x00-6 8450 Transformer chamber 00kV; 5/0,4 kv W W Feeder bay with a lightning arrester () Metering bay () (5) Metering bay Rotoblok SF medium (6) Feeder bay with a lightning arrester Space reserved for medium cables entry Transformer chamber 00kV; 5/0,4 kv U U GROUD FLOOR 000 V V V V W U U W RT- RT- METERIG BORDS TP - + + TP - () RPW FIRE LRM Fan Fan Fan Fan 4 Bus bar Bus bar 4 5 6 7 8 9 Low ST FLOOR Fan 5 RT- RT-5 Fan Space reserved for active filter (800x700x00) Reactive power compensator 80 (700x600x800) RT-4 Hatch Reactive power compensator 80 (700x600x800) Space reserved for active filter (800x700x00) Fan 6 Fan 7 Fan 9 Fan Repair access door Fan 8 MRw 0/x00-6 container station diagram 0,4kV L,L,L Un=400/0 V, T-C-S 4000 L,L,L Un=400/0 V, T-C-S 4000 L,L,L Un=400/0 V, T-C-S 4000 T7 Q 500 WL5-4CB -G -Z+T40 T-T SK5.6-500/5 KL; V Q Q H400 H400 0 0 0 0 F F F F4 F5 RV RV RV RV RV -0E I -J -G -4-4H 0,8-0,4 I I I I 7-4,5-6, - 6-50 Transformer temperature protection relay Fire alarm button power Low Medium control RPW Power to reactive power compensator Q H40 00 50 Q 4000 500 F DEHBLOCK 4P I Q Q Q Q4 Q5 Q6 Q7 BF0 BF0 BF0 BF0 BF0 BF0 BF0 60 50 50 50 50 50 50 5Q 60 5Q H40 500 60 6Q 500 WL5-4CB -G -Z+T40 Przycisk p.poż. na rozdz n. 6SP...4.4 7Q 60 7Q H40 500 60 9Q 9Q 9Q 9Q4 9Q5 9Q6 9Q7 J4 J4 J4 J4 J4 J4 J4 BF0 BF0 BF0 BF0 BF0 BF0 BF0 50 50 50 50 50 50 60 Q 4000 500 Q H40 00 50 F DEHBLOCK 4P Q 500 WL5-4CB -G -Z+T40 T-T SK5.6 500/5 KL; V T4-T6 Q Q H400 H400 0 0 0 0 F F F F4 F5 RV -0E 0,8-0,4 P RV -J 7- RV -G 4,5-6, RV -4 - Transformer temperature protection relay Medium control Medium control RPW Power RV -4H 6-50 to reactive power compensator V W PM75EH Space reserved for future expansion MODBUS FW.H ctive filter Lower outgoer bus bar Space reserve 7-xH Space reserve 7xH Lower outgoer bus bar V W PM75EH Space reserved for future expansion MODBUS FW.H ctive filter x(7xyky (x40mm )) + + x(5xyky (x40mm )) Stycznik DILR 0V Reactive power compensator 80, 440V CLS6/ B CLS6/ B MV Bay PWS power XZ: MV MV Rotoblok SF medium Bay Bay 4 X:6 4X:6 Reactive power compensator 80, 440V x(7xyky (x40mm )) + + x(5xyky (x40mm )) Lgy mm Lgy mm TR 00kV 5/0,4 kv Transformer temperature protection relay. T-54 L,L,L, External power 4G6-46 0 XZ:9 : XZ: : 4 XZ:5 : 8 F P04-6/0m XZ:5 : 8 XZ: : 4 L,L,L, RPW SLO feeder TPU 6 0 GTR SF 4.06. POLIM D8 Rotoblok SF medium 4 5 SP SWT SWT SP metering transformer transformer metering TPU 6 0 5 kv P40x5 GTR SF GTR SF V GTR SF V GTR SF 4.06. 4.06. 4.06. 4.06. VD4/R VD4/R M M 4.06. 4.06. REF 6 IP-4 REF 6 IP-4 80/ 80/ PBPM 0 PBPM 0 WBP WBP 0/0,5 0/0,5 UMZ UMZ 4-4- 5/0, 5/0, 6 SLO feeder GTR SF 4.06. POLIM D8 TR 00kV 5/0,4 kv xyhkxs (x70 mm ) Transformer temperature protection relay. T-54 xyhkxs (x70 mm ) L=7mb Indirect electricity metering board TP- Indirect electricity metering board TP- () L=7mb Fire alarm outside the station by the entrance door 58

Container transformer stations MRw 0/x00-6 container station facade Side view - left LV 0,4kV TRSF ORMTOR 00 kv T MV 5kV TRSF ORMTOR 00 kv T 950 550 Place for installation cable entry Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 4000 k 75 k 40 k 5 k 50 Hz 00/00 kv IP 4 59

5.5 MRw 5-8 container station MRw 5-8. Station dedicated to RS station reconstruction 4600 0V DC Cabinet Cable distribution cabinet 4 5 6 7 8 9 4 5 7 8 000 RELF ex medium RPW Space for a remote-control cabinet Heater Heater Heater Heater Heater Heater Container separation line for transport purposes Insulation (mineral wool) RELF ex medium electrical diagram () () (5) (6) (7) (8) (9) To bay o () () (5) () (7) (8) To bay o 9 MRw 5/8 container station facade 5kV 5kV 00 Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency Degree of protection Switchgear Medium 7,5 kv 50,5 k 80 k 50 Hz IP 4 60

M 5.6 MRw 0/x00-5 "P" container station MRw 0/x00-5 "P". Station specially designed for s mines as it can be dragged on the ground 60 T 00 kv Power supply bay (nr ) Outgoing bay (nr ) Remove extraction fan Outgoing bay (nr ) Coupler bay (nr 4) Outgoing bay (nr 5) 560 Outgoing bay (nr 6) ZR-W low 60 Rotoblok medium Power supply bay (nr 7) Battery of condensers (nr 8) Battery of condensers (nr 9) 600 Remove extraction fan XG 550 Bus bar enclosure UPS 50 TRO4 T 00 kv Container transformer stations 50 Personal Protective Equipment storage area Heater Station documentation shelf 0 XS automation circuitry cabinet 700 700 0 700 700 500 MRw 0/x00-5 "P" container station diagram (5) () () GTR V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. TPU TPU xyhkxs (x70 mm ) xyhkxs (x70 mm ) T 00 kv T 00 kv (7) SZR M 000 000 kwh h h kwh Do BK Do BK 5 5 () () (5) (6) M T T5S 400 SLM SLM SLM SLM 00 SLM 00 SLM 00 M 000 M T T5S 400 SLM SLM SLM SLM 00 SLM 00 SLM 00 LS 7 LS 7 IMSa 00/5 MICOM P IMW 75/5 MICOM P 4x DEHguard 440 FM IMSa 00/5 MICOM P IMW 75/5 MICOM P 4x DEHguard 440 FM BK 90 (8) BK 90 (9) MRw 0/x00-5 "P" container station facade TRSF ORMTOR MV 6kV/LV 0,4kV TRSF ORMTOR 600 900 () () Coupler bay (5) Rotoblok medium Side view - left Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 000 k 50 k 40 k 5 k 50 Hz 00/00 kv IP 54 6

5.7 MRw 6/60- container station (powered from an overhead line) MRw 6/60-50 0 InstalBlok low TR 60kV 6/0,4 kv Overhead line connection Power supply bay MRw 6/60- container station diagram MRw 6/60- container station facade 6 kv Overhead line POLIM-D Overhead line connection xp40x5 xyhkxs (x70 mm ) TR 60 kv 6/0,4 kv OMB-4/ BD/0 Trans former cha mber 50 ~000 Station lighting B- / 5 to remote control circuitry L,L,L T T7S 00 xp60x xp60x Site lighting cubicle Twilight switch Light sensor 50 V SL Side view - left InstalBlok low OEZ B 0 OEZ B 0 6 LZ 5 9 OEZ B 50 OEZ B 50 Support insulators Isolator bushings lightning arresters Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection OEZ B 400 Switchgear Medium Low 6 kv 400 V 60 50 k 50 k 40 k 5 k 50 Hz 60 kv IP 4 Low switchg ear 0,4 kv 0 50 ~000 6

-S/TPM-W -(4, 5) Technical description The -S/TPM-W- (4,5) concrete cable box with an external access is designed as a freestanding unit for operation with ring or radial cable network and overhead lines. Cable box design Enclosure -S/TPM-W - (4, 5) comprises two monolithic components: main structure - made from B0 ferroconcrete, roof - made from B0 ferroconcrete. 6 Concrete medium cable box with (SF ) 6 gas insulated medium The central component of the cable box is the TPM-W (SF 6) gas insulated medium, which can be operated from outside after the metal access door is open. The station's floor is made from concrete with openings to run medium and low cables (located under the medium ). The is compatible with cable bushings provided by all leading manufacturers (EUROMOLD, Raychem, F&G, M, BB). Container transformer stations Specification Medium technical specification Rated Rated insulation level between conductors and earth Rated insulation level across safe isolation gap between phases Rated continuous current of main busbars and feeder bays Rated continuous current of main busbars in transformer bay Rated -second withstand current of main busbars and feeder bays Rated peak current strength of main busbars and feeder bays Rated short-circuit current @ 4 kv 4 kv 5/50 kv 45/60 kv 60 50 k 40 k 60 Dimensions for cable box -S/TPM-W - -S/TPM-W -4 -S/TPM-W -5 Lenght 500 mm 800 mm 400 mm Width 0 mm 0 mm 0 mm Height (from the ground) 800 mm 800 mm 900 mm Roof outline 50 mm x 50 mm 950 mm x 50 mm 600 mm x 0 mm Total weight 900 kg 400 kg 5000 kg 6

CIŚIEI GZU SF 6 CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI UZIEMIK CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK Z POŁOŻEI ROZŁĄCZIK PIĘCIEM POŁOŻEI ROZŁĄCZIK ŁĄCZ ZBLOKOWE ZŁ RO GIZDO ROZŁĄCZIK ODBLOKOWE ĄCZ PIĘCIEM POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK ODBLOKOWE ZBLOKOWE BLOKD OBECOŚCI PIĘCI L L L Z M K IJ OT WÓRZ OBECOŚCI PIĘCI L L L WKŁDK SPRW PRZEPLEI WKŁDKI BEZPIECZIKOWEJ GIZDO UZIEMIK OT OT WÓRZ WÓRZ I ZMK J GIZDO UZIEMIK POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OBECOŚCI PIĘCI OT WÓRZ ODBLOKOWE ZBLOKOWE OBECOŚCI PIĘCI L L L PIĘCIEM L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ 6. vailable options for -S/TPM-W- cable box -S/TPM-W - Top view 50 Vertical cross-section 0 60 500 60 MEDIUM VOLTGE SWITC HGER 50 0 60 PIĘCIEM PIĘCIEM 0 TPM-W medium 60 50 450 650 800 50 50 650 450 500 0 6.. Option. -S/TPM-W-/LLL Electrical diagram ZŁĄCZ ZŁĄCZ ZŁĄCZ 480 85 6.. Option. -S/TPM-W -/TLL Electrical diagram ZŁĄCZ ZŁĄCZ 480 50 6.. Option. -S/TPM-W -/LZZ Electrical diagram ZŁĄCZ 480 85 64

CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK Z POŁOŻEI ROZŁĄCZIK ŁĄCZ ZŁ RO GIZDO ROZŁĄCZIK ĄCZ PIĘCIEM CIŚIEI GZU SF 6 POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM ODBLOKOWE OBECOŚCI PIĘCI ZBLOKOWE BLOKD L L L WKŁDK SPRW PRZEPLEI WKŁDKI BEZPIECZIKOWEJ CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OBECOŚCI PIĘCI L L L Z M K IJ POŁOŻEI UZIEMIK GIZDO UZIEMIK Z OT OT POŁOŻEI ROZŁĄCZIK ŁĄCZ ZŁ RO GIZDO ROZŁĄCZIK WÓRZ WÓRZ I ZMK J POŁOŻEI ROZŁĄCZIK ĄCZ GIZDO UZIEMIK ODBLOKOWE ZBLOKOWE PIĘCIEM PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK ODBLOKOWE OBECOŚCI PIĘCI ZBLOKOWE BLOKD OT L L L OT WKŁDK SPRW WÓRZ ZMK J PRZEPLEI WKŁDKI BEZPIECZIKOWEJ POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK WÓRZ I POŁOŻEI ROZŁĄCZIK GIZDO UZIEMIK ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI OBECOŚCI PIĘCI L L L PIĘCIEM L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ PIĘCIEM OBECOŚCI PIĘCI L L L OBECOŚCI PIĘCI L L L PIĘCIEM PIĘCIEM PIĘCIEM OBECOŚCI PIĘCI L L L OBECOŚCI PIĘCI L L L 6..4 Option 4. -S/TPM-W -/TZZ Electrical diagram 480 Container transformer stations 50 6..5 Option 5. -S/TPM-W -/LZ Electrical diagram ZŁĄCZ 480 75 6..6 Option 6. -S/TPM-W -/TZ Electrical diagram 480 900 6..7 Option 7. -S/TPM-W -/LLZ Electrical diagram ZŁĄCZ ZŁĄCZ 480 85 65

CIŚIEI GZU SF 6 CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI UZIEMIK Z POŁOŻEI ROZŁĄCZIK PIĘCIEM POŁOŻEI ROZŁĄCZIK ŁĄCZ ZBLOKOWE ZŁ RO GIZDO ROZŁĄCZIK ODBLOKOWE ĄCZ PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK ODBLOKOWE OT WÓRZ OBECOŚCI PIĘCI ZBLOKOWE BLOKD L L L OT WKŁDK SPRW WÓRZ PRZEPLEI WKŁDKI BEZPIECZIKOWEJ I ZMK J GIZDO UZIEMIK POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE OBECOŚCI PIĘCI L L L PIĘCIEM Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ 6. vailable options for -S/TPM-W-4 cable box -S/TPM-W -4 60 Top view 800 60 60 950 MEDIUM VOLTGE SWITC HGER 50 Vertical cross-section 0 0 0 TPM-W medium 60 PIĘCIEM PIĘCIEM 50 50 50 650 450 0 6.. Option. -S/TPM-W -4/LLLL ZŁĄCZ ZŁĄCZ ZŁĄCZ ZŁĄCZ 480 45 6.. Option. -S/TPM-W -4/TLLL ZŁĄCZ ZŁĄCZ ZŁĄCZ 480 450 650 800 800 Electrical diagram Electrical diagram 00 66

PIĘCIEM PIĘCIEM CIŚIEI GZU SF 6 CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK CIŚIEI GZU SF 6 POŁOŻEI UZIEMIK Z POŁOŻEI ROZŁĄCZIK ŁĄCZ POŁOŻEI ROZŁĄCZIK ZŁ RO GIZDO ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM ĄCZ PIĘCIEM POŁOŻEI UZIEMIK Z OBECOŚCI PIĘCI L L L Z M K IJ ODBLOKOWE OBECOŚCI PIĘCI ZBLOKOWE BLOKD POŁOŻEI ROZŁĄCZIK ŁĄCZ GIZDO UZIEMIK ZŁ RO GIZDO ROZŁĄCZIK L L L OT WKŁDK SPRW WÓRZ ZMK PRZEPLEI WKŁDKI BEZPIECZIKOWEJ ĄCZ OT WÓRZ PIĘCIEM IJ ODBLOKOWE GIZDO UZIEMIK OBECOŚCI PIĘCI ZBLOKOWE BLOKD L L L OT WKŁDK SPRW WÓRZ PRZEPLEI WKŁDKI BEZPIECZIKOWEJ POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK I ZMK J GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE OBECOŚCI PIĘCI L L L PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OT WÓRZ Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE POŁOŻEI UZIEMIK ROZŁ ĄCZ OBECOŚCI PIĘCI GIZDO ROZŁĄCZIK L L L PIĘCIEM Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI ROZŁĄCZIK ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK ODBLOKOWE OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT ODBLOKOWE ZBLOKOWE WÓRZ PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT WÓRZ ODBLOKOWE ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ OBECOŚCI PIĘCI GIZDO ROZŁĄCZIK L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI ROZŁĄCZIK ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK ODBLOKOWE OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT ODBLOKOWE ZBLOKOWE WÓRZ PIĘCIEM OBECOŚCI PIĘCI L L L Z M K IJ GIZDO UZIEMIK OT WÓRZ POŁOŻEI UZIEMIK Z POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ŁĄCZ ZŁ RO GIZDO ROZŁĄCZIK ĄCZ PIĘCIEM POŁOŻEI ROZŁĄCZIK ZBLOKOWE PIĘCIEM POŁOŻEI UZIEMIK ROZŁ ĄCZ GIZDO ROZŁĄCZIK ODBLOKOWE ODBLOKOWE OBECOŚCI PIĘCI ZBLOKOWE BLOKD L L L OBECOŚCI PIĘCI L L L OT WKŁDK SPRW WÓRZ PRZEPLEI WKŁDKI BEZPIECZIKOWEJ Z M K IJ GIZDO UZIEMIK POŁOŻEI ROZŁĄCZIK OT ODBLOKOWE ZBLOKOWE WÓRZ PIĘCIEM I ZMK J OBECOŚCI PIĘCI L L L GIZDO UZIEMIK Z M K IJ GIZDO UZIEMIK OT WÓRZ 6. vailable options for -S/TPM-W-5 cable box -S/TPM-W -5 90 0 Top view 400 TPM-W medium 90 90 90 600 MEDIUM VOLTGE SWITC HGER 50 6.. Option. -S/TPM-W -5/LLLLL ZŁĄCZ ZŁĄCZ ZŁĄCZ ZŁĄCZ ZŁĄCZ 480 785 6.. Option. -S/TPM-W -5/TLLLL ZŁĄCZ ZŁĄCZ ZŁĄCZ ZŁĄCZ 480 950 6.. Option. -S/TPM-W -5/TLLT 480 900 450 650 50 Vertical cross-section 0 650 50 50 00 0 Container transformer stations 400 0 450 Electrical diagram Electrical diagram Electrical diagram ZŁĄCZ ZŁĄCZ 800 67

otes 68

..8 MRw-bpp 0/00-4 /5P container station MRw-bpp 0/00-4 /5P (REI ) () () Metering bay 4760 (5) (REI ) (90) Container transformer stations 660 (60) Rotoblok SF medium Metering board Standard MRw-bpp 0/00-4 /5P container station diagram xyhkxs (x70 mm ) 00 kv IP or 000 KTS 4 Regulator (5) GTR SF V 4.06. 4 5 6 7 8 9 R-W low xyky (x40 mm ) x(xyky x40 mm ) ZM4 -VE00 V / Transformer W chamber door fan B- (for transformators above 60 kv) Station lighting R-W low Rotoblok SF medium () () TPU GTR SF GTR SF GTR SF GTR SF 4 4.06. 4.06. 4.06. 4.06. L, L, L xp80x xp60x xp60x UMZ indirect energy MRw-bpp 0/00-4 /5P container station facade REI Rear view REI Side view - left (right) 00 REI 950 50 600 600 MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 500 kg - roof - concrete 4500 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 00 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 5 (when Rotoblok SF and Rotoblok 7,5 kv s are applied) Enclosure class - 0 7

..9 MRw-b (4,7x) 0/00 container station MRw-b (4,7x) 0/00 4760 060 MRw-b (4,7x) 0/00/4P container station diagram xyhkxs (x70 mm ) 00 kv xyky (x40 mm ) IP or 000 KTS 4 Regulator Transformer W chamber door fan B- (for transformators above 60 kv) () () 4 5 6 7 8 9 GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. () () Rotoblok medium R-W low x(xyky x40 mm ) ZM4 -VE00 V / Station lighting R-W low Rotoblok medium L, L, L Semi-direct electricity metering xp80x xp60x xp60x Surge arrester Surge arrester Surge arrester MRw-b (4,7x) 0/00/4P container station facade REI Rear view REI Side view - left (right) 00 REI 050 50 600 600 MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 7500 kg - main structure 500 kg - roof - concrete 5500 kg - metal 650-800 kg Usable area:,74 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 00 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 4 4 6 9 Enclosure class - 0 8

.. MRw-b (5,4x,6) 0/00 container station MRw-b (5,4x,6) 0/00 () () Coupler- -measurment bay 5460 Container transformer stations 660 Power plant part Rotoblok medium User part R-W low Metering board MRw-b (5,4x,6) 0/00 /4P container station diagram xyhkxs (x70 mm ) 00 kv xyky (x40 mm ) x(xyky x40 mm ) IP or 000 ZM4 -VE00 V / KTS 4 Regulator Transformer W chamber door fan B- (for transformators above 60 kv) Station lighting R-W low GTR 4.06. GTR 4.06. Rotoblok medium () GTR 4.06. () GTR V 4.06. L, L, L 4 5 6 7 8 9 xp80x TPU xp60x xp60x Surge arrester Surge arrester UMZ indirect energy MRw-b (5,4x,6) 0/00 /4P container station facade REI REI Rear view Side view - left (right) 050 50 600 600 MV 0kV Power plant part MV 0kV/LV 0,4kV User part TRSF ORMTOR 00 REI -00-00 -00 Weight: - foundation 7500 kg - main structure 500 kg - roof - concrete 5500 kg - metal 650-700 kg Usable area:,6 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 00 kv Type Max number of medium bays (low outgoing feeders) Rotoblok 4 Rotoblok 7,5 kv 4 Rotoblok SF 6 R-W R-W (when Rotoblok SF and Rotoblok 7,5 kv s are applied) Enclosure class - 0 9

V.. MRw-bpp (5,4x) 0/60 container station MRw-bpp (5,4x) 0/60 5460 060 (REI ) () () (REI ) Rotoblok SF 6 medium R-W low Metering board MRw-bpp (5,4x) 0/60/4P container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- Station lighting R-W low LRC LS 6.60. Rotoblok SF 6 medium () CTS 8() 0 kv LRC LS 6.60. LRC LS 6.60. LRC LF 6.60. L, L, L 4 5 6 7 8 9 xp50x xp50x xp50x Surge arrester PBPM 0 VTS 8 indirect energy MRw-bpp (5,4x) 0/60/4P container station facade REI Rear view REI Side view - left (right) 00 REI 50 650 600 600 MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 8000 kg - main structure 00 kg - roof - concrete 5700 kg - metal 650-800 kg Usable area: 4,7 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok SF 6 R-W Max number of medium bays (low outgoing feeders) on-standard design R-W 4 Enclosure class - 0 0

. Concrete container transformer stations with an internal service and operation equipped with medium (SF6) gas insulated... MRw-b/60- "a" ("b") /4G container station MRw-b 0/60- a /4G MRw-b 0/60- b /4G 660 660 TPM-CW (TPM-W) medium (REI ) (REI ) TPM-CW (TPM-W) medium Container transformer stations 5 EI 60 EI 60 5 R-W low R-W low Standard MRw-b/60- "a(b)"/4g container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- L, L, L V Station lighting R-W low TPM-CW (TPM-W) medium Semi-direct electricity metering 4 5 6 7 8 9 xp50x xp50x xp50x MRw-b/60- "a"/4g container station facade 950 50 600 600 REI 00 REI Rear view Side view - left Side view - right MV 0kV/LV 0,4kV TRSF ORMTOR REI REI -00-00 -00-00 Weight: - foundation 500 kg - main structure 4600 kg - roof - concrete 000 kg - metal 00-600 kg Usable area: 5,49 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type TPM-CW TPM-W R-W R-W Max number of medium bays (low outgoing feeders) 4 Enclosure class - 0

.. MRw-bpp 0/60-4 "a" ("b") /4G container station MRw-bpp 0/60-4 a /4G MRw-bpp 0/60-4 b /4G (REI ) TPM-CW (TPM-W) medium (REI ) (REI ) TPM-CW (TPM-W) medium (REI ) 660 (60) (90) R-W low 660 (60) (90) R-W low Standard MRw-bpp 0/60-4 "a(b)"/4g container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 / B- L, L, L V Station lighting R-W low TPM-CW (TPM-W) medium Semi-direct electricity metering 4 5 6 7 8 9 xp50x xp50x xp50x MRw-bpp 0/60-4 "c"/4g container station facade REI Rear view Side view - left (right) REI 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV 00 REI -00-00 -00 Weight: - foundation 4500 kg - main structure 9000 kg - roof - concrete 500 kg - metal 450-600 kg Usable area: 7,8 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type TPM-CW TPM-W R-W R-W Max number of medium bays (low outgoing feeders) 4 Enclosure class - 0

.. MRw-bpp 0/00- / 4G container station MRw-bpp 0/00- a /4G (REI ) MRw-bpp 0/00- b /4G 460 460 (REI ) (REI ) (REI ) Container transformer stations 4 (80) (90) R-W low TPM-W medium 4 (80) (90) TPM-W medium R-W low Standard MRw-bpp 0/00- "a(b)"/4g container station diagram xyhkxs (x70 mm ) 00 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP or 000 ZM4 -VE00 V Semi-direct electricity metering / KTS 4 Regulator 4 5 6 7 8 9 Transformer W chamber door fan B- (for transformators above 60 kv) Station lighting R-W low xp80x TPM-W medium xp60x xp60x MRw-bpp 0/00- "a"/4g container station facade 950 50 600 600 TRSF ORMTOR MV 0kV/LV 0,4kV REI Rear view Side view - left (right) 00 REI REI -00-00 -00 Weight: - foundation 5400 kg - main structure 000 kg - roof - concrete 4000 kg - metal 450-600 kg Usable area: 8,7 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 00 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) on-standard design R-W 8 4 Enclosure class - 0

. Concrete container two-transformer stations with an internal service and operation equipped with air-insulated medium... MRw-b 0/x60-4 "b"/4p container station MRw-b 0/x60-4 b /4P MRw-bpp 0/x60-4 b /4P 4760 4760 660 (60) (90) () () Rotoblok SF medium R-W low, section I R-W low, section II (REI ) 660 (60) (90) () () Rotoblok SF medium R-W low, section I R-W low, section II Standard MRw-b 0/x60-4 "b"/4p container station diagram Rotoblok SF medium () () GTR SF V 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF V 4.06. xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 xyhkxs (x70 mm ) 60 kv transformer no-load operation V Semi-direct electricity metering 4 5 6 7 8 9 0 / / Łk 5 xp50x R-W low Station lighting B- R-W low xp50x transformer no-load operation xyhkxs (x70 mm ) Semi-direct electricity metering 60 kv IP 50 9 8 7 6 5 4 V L, L, L x(xyky x40 mm ) xyky (x40 mm ) IP 50 xp50x xp50x xp50x xp50x MRw-b 0/x60-4 "b"/4p container station facade REI Rear view REI Side view - left (right) 00 REI 600 950 50 600 MV 0kV/LV 0,4kV TRSF ORMTOR TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 9000 kg - roof - concrete 5000 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok SF R-W Max number of medium bays (low outgoing feeders) 4 x Enclosure class - 0 4

.. MRw-b (6,x,6) 0/x60 container station MRw-b (6,x,6) 0/x60-5 660 Metering board R-W low, section I () MRw-bpp (6,x,6) 0/x60-5 (REI ) 60 60 () (5) Rotoblok SF medium R-W low, section II 660 R-W low, section I () () (5) Rotoblok SF medium R-W low, section II (REI ) Container transformer stations Standard MRw-b (6,x,6) 0/x60-5 container station diagram Rotoblok SF medium () () TPU (5) or Rotoblok SF medium () () (5) GTR SF 4.06. GTR SF 4.06. GTR SF 4 4.06. GTR SF V 4.06. GTR SF V 4.06. GTR SF V 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF V 4.06. xyhkxs (x70 mm ) xyhkxs (x70 mm ) xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 60 kv V 4 5 6 7 8 9 UMZ Station lighting 0 / / Łk 5 xp50x B- xp50x IP 50 9 8 7 6 5 4 V L, L, L x(xyky x40 mm ) xyky (x40 mm ) xp50x xp50x xp50x xp50x MRw-b (6,x,6) 0/x60-5 container station facade REI REI 00 REI 600 Semi-direct electricity metering indirect energy R-W low R-W low 60 kv Semi-direct electricity metering Rear view Side view - left (right) 050 50 600 TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 9500 kg - main structure 400 kg - roof - concrete 7000 kg - metal 700-900 kg Usable area: 4, m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok SF R-W Max number of medium bays (low outgoing feeders) 5 x Enclosure class - 0 5

.. MRw-b (6,x) 0/x60 container station MRw-b (6,x) 0/x60-5 MRw-bpp (6,x) 0/x60-6 60 60 060 060 Coupler- -metering bay Standard MRw-b (6,x) 0/x60-5(6) container station diagram Rotoblok medium () () TPU (5) or () () (5) (6) xyhkxs (x70 mm ) GTR 4.06. GTR 4.06. GTR 4 4.06. GTR V 4.06. GTR V 4.06. GTR SF GTR SF 4.06. 4.06. GTR SF 4.06. GTR SF 4 4.06. TPU GTR SF V 4.06. GTR SF V 4.06. 60 kv UMZ indirect energy UMZ indirect energy xyky (x40 mm ) x(xyky x40 mm ) IP 50 V L, L, L (REI ) (REI ) () Metering bay Rotoblok medium (5) () () (5) Rotoblok SF medium (6) R-W low, section I Metering board R-W low, section II R-W low, section I Metering board xyhkxs (x70 mm ) 60 kv / 0 / Łk 5 B- V IP 50 x(xyky x40 mm ) L, L, L 4 5 6 7 8 9 xp50x xp50x 9 8 7 6 5 4 xyky (x40 mm ) xp50x xp50x xp50x xp50x MRw-b (6,x) 0/x60-5 container station facade REI Rear view REI Side view - left (right) 00 REI 50 050 600 600 R-W low, section II Rotoblok SF medium Surge arrester Surge arrester R-W low Station lighting R-W low TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 8500 kg - main structure 00 kg - roof - concrete 6000 kg - metal 700-900 kg Usable area:,69 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W Max number of medium bays (low outgoing feeders) 5 7 5 x Enclosure class - 0 6

..4 MRw-b (6,x) 0/x60-5 container station (00 - optional equipment) MRw-b (6,6x,6) 0/x60-5 660 R-W low, section I () 6660 () Coupler bay Rotoblok SF medium (5) R-W low, section II 060 MRw-b (6,6x) 0/x00-6 () () 6660 Coupler- -metering bay (5) Rotoblok SF medium (6) Container transformer stations MRw-b 0/x60 (00)-5(6) container station diagram Rotoblok SF medium () () (5) or Rotoblok SF medium () () (5) (6) GTR SF 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF V 4.06. GTR SF V 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF 4 4.06. GTR SF V 4.06. GTR SF V 4.06. TPU xyhkxs (x70 mm ) xyhkxs (x70 mm ) 00 kv UMZ indirect energy 00 kv () xyky (x40 mm ) x( () xyky x40 mm ) IP or 50 IP 000 6 or V ZM4 -VE00 Transformer Transformer KTS 4 Regulator chamber door fan Station lighting chamber door fan KTS 4 Regulator W (in the event a transformer rated above (in the event a transformer rated above 0 W 60 kv is installed) 60 kv is installed) / / Łk 5 B- ZM4 -VE00 or 6 IP 000 V or IP 50 x( () xyky x40 mm ) () xyky (x40 mm ) L, L, L 4 5 6 7 8 9 xp50(80) x xp50(80) x 9 8 7 6 5 4 L, L, L xp50(60)x xp50(60)x xp50(60)x xp50(60)x MRw-b (6,x,6) 0/x60-5 container station facade REI REI Rear view Side view - left (right) 00 REI 600 R-W low, section I Metering board R-W low, section I R-W low R-W low Semi-direct electricity metering Semi-direct electricity metering 050 50 600 TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 9500 kg - main structure 400 kg - roof - concrete 7000 kg - metal 700-900 kg Usable area: 5,5 (8,) m ote: Optional accessories are marked in red. Medium Low Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W Maximum transformer rating - 60 (00) kv Max number of medium bays (low outgoing feeders) 4 (5) 6 (7) 4 (5) x Enclosure class - 0 7

V L, L, L..5 MRw-b 0/x60 container station MRw-b (7,x,6) 0/x60-7 MRw-b (7,x) 0/x60-6 70 660 R-W low, section I () () (5) Metering bay (6) Rotoblok SF medium (7) Metering board R-W low, section II 060 R-W low, section I () () 70 Metering bay Rotoblok medium MRw-b 0/x60-7(6) container station diagram Rotoblok SF medium () () (5) (6) TPU (7) or () Rotoblok medium () (5) TPU (6) GTR SF 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF 4.06. GTR SF 4 4.06. GTR SF V 4.06. GTR SF V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4 4.06. GTR V 4.06. GTR V 4.06. xyhkxs (x70 mm ) xyhkxs (x70 mm ) 60 kv UMZ UMZ 60 kv xyky (x40 mm ) x(xyky x40 mm ) IP 50 Station lighting / 0 / Łk 5 B- V IP 50 x(xyky x40 mm ) L, L, L 4 5 6 7 8 9 xp50x xp50x 9 8 7 6 5 4 xyky (x40 mm ) xp50x xp50x xp50x xp50x MRw-b (7,x,6) 0/x60-7 container station facade REI 50 00 050 600 (5) 600 Metering board (6) R-W low, section II indirect energy Surge arrester Surge arrester Surge arrester indirect energy R-W low R-W low Side view - left REI TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 Weight: - foundation 9000 kg - main structure 00 kg - roof - concrete 7000 kg - metal 700-900 kg Usable area:,74 (9,5) m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok 5 (6) Rotoblok SF 7 (8) Rotoblok 7,5 kv 5 (6) R-W R-W Max number of medium bays (low outgoing feeders) x x 4 (for MRw-b (7.x) container station) Enclosure class - 0 8

..6 MRw-b 0/x60 container station MRw-b (8,x,6) 0/x60-6 660 R-W low, section I () () 80 Coupler bay Rotoblok medium (5) (6) R-W low, section II 060 MRw-b (8,x) 0/x60-9 80 Transformer bay () Transformer bay () (5) Coupler bay (6) (7) (8) Metering bay (9) Transformer bay Rotoblok SF medium R-W low Metering Metering R-W low,, section I board board section II Container transformer stations MRw-b 0/x60-6(9) container station diagram () Rotoblok medium () (5) (6) or () TPU () Rotoblok SF medium (5) (6) (7) TPU (8) (9) GTR 4.06. GTR 4.06. GTR 4.06. GTR GTR V GTR V 4.06. 4.06. 4.06. GTR SF V GTR SF 4 GTR SF GTR SF GTR SF 4 GTR SF 4.06. 4.06. 4.06. 4.06. 4.06. 4.06. GTR SF 4.06. GTR SF 4 GTR SF V 4.06. 4.06. UMZ UMZ xyhkxs (x70 mm ) xyhkxs (x70 mm ) 60 kv 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V 4 5 6 7 8 9 0 / / Łk 5 xp50x B- xp50x IP 50 9 8 7 6 5 4 V Surge arrester L, L, L x(xyky x40 mm ) xyky (x40 mm ) xp50x xp50x xp50x xp50x MRw-b (8,x,6) 0/x60-6 container station facade REI 00 50 050 600 600 Surge arrester Surge arrester indirect energy indirect energy Semi-direct electricity metering R-W low Station lighting R-W low Semi-direct electricity metering Side view - left REI TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 Weight: - foundation 500 kg - main structure 9000 kg - roof - concrete 9000 kg - metal 00-0 kg Usable area: 9, (,) m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type Rotoblok Rotoblok SF Rotoblok 7,5 kv R-W R-W Max number of medium bays (low outgoing feeders) 6 (7) 9 () 6 (7) x x 0 (for MRw-b (8,x) container station) Enclosure class - 0 9

.4 Concrete two-transformer container stations with internal service and operation equipped with medium in (SF6) gas insulated..4. MRw-bpp 0/x60-4 "a" /4G container station MRw-bpp 0/x60-4 a /4G (REI ) 4760 TPM-W medium (REI ) 660 (60) (90) R-W low, section I R-W low, section II Standard MRw-bpp 0/x60-4 "a"/4g container station diagram TPM-W medium xyhkxs (x70 mm ) xyhkxs (x70 mm ) 60 kv 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering 4 5 6 7 8 9 / 0 / R-W low xp50x Station lighting Łk 5 B- R-W low xp50x Semi-direct electricity metering IP 50 9 8 7 6 5 4 V L, L, L x(xyky x40 mm ) xyky (x40 mm ) xp50x xp50x xp50x xp50x MRw-bpp 0/x60-4 "a" /4G container station facade REI Rear view REI Side view - left (right) 600 00 REI 950 50 600 TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 9000 kg - roof - concrete 5000 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) 4 x Enclosure class - 0 0

.4. MRw-b 0/x60-4"b" /4G container station MRw-b 0/x60-4 b /4G 660 (60) (90) 4760 MRw-bpp 0/x60-4 b /4G 660 (60) (90) 4760 Standard MRw-b 0/x60-4 "b"/4p container station diagram xyhkxs (x70 mm ) xyhkxs (x70 mm ) 60 kv 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V 4 5 6 7 8 9 0 / / Łk 5 xp50x B- xp50x 9 8 7 6 5 IP 50 4 L, L, L TPM-W medium R-W low, section I R-W low, section II (REI ) TPM-W medium R-W low, section I R-W low, section II Container transformer stations TPM-W medium Semi-direct electricity metering R-W low Station lighting R-W low Semi-direct electricity metering V x(xyky x40 mm ) xyky (x40 mm ) IP 50 xp50x xp50x xp50x xp50x MRw-b 0/x60-4 "b"/4p container station facade REI Rear view REI Side view - left (right) 00 REI 600 950 50 600 MV 0kV/LV 0,4kV TRSF ORMTOR TRSF ORMTOR -00-00 -00 Weight: - foundation 6500 kg - main structure 9000 kg - roof - concrete 5000 kg - metal 600-700 kg Usable area:,9 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) 4 x Enclosure class - 0

.4. MRw-b (5,4x,6) 0/x00-4 /4G container station MRw-b (5,4x,6) 0/x00-4/4G 5460 TPM-W medium 660 Standard MRw-b (5,4x,6) 0/x00-4 /4G container station diagram xyhkxs (x70 mm ) xyhkxs (x70 mm ) xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP or 000 00 kv 6 ZM4 -VE00 V Regulator KTS 4 4 5 6 7 8 9 W 0 / / Łk 5 Rozdzielnica n typu R-W xp80x B- Rozdzielnica n typu R-W xp80x W Regulator KTS 4 6 ZM4 -VE00 00 kv or IP 000 9 8 7 6 5 4 V L, L, L x(xyky x40 mm ) xyky (x40 mm ) xp60x xp60x xp60x xp60x MRw-b (5,4x,6) 0/x00-4 /4G container station facade REI Rear view REI Side view - left (right) 00 REI 600 R-W low, section I R-W low, section II TPM-W medium Semi-direct electricity metering Transformer chamber door fan Station lighting Transformer chamber door fan Semi-direct electricity metering 050 50 600 TRSF ORMTOR MV 0kV/LV 0,4kV TRSF ORMTOR -00-00 -00 Weight: - foundation 7500 kg - main structure 500 kg - roof - concrete 5500 kg - metal 650-800 kg Usable area:,6 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 00 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) 4 x Enclosure class - 0

MRw-bS... MRw-bS... Concrete transformer station SYSTEM according to individual customers requirements. MRw-bS... container station system comprises standard concrete containers, which are bolted together. There is possible any configuration of the station equipped with medium and low s. Each container is composed of two reinforced concrete modules: foundation and side walls together with floor base. Container station equipment (doors, door frames and ventilation shutters made of aluminium). The station's roof cover all of the joined.5 MRw-bS concrete transformer stations containers and can be made in two architectural designs: two slope roof or hip roof consisting of a light structure made of steel profiles, coated by metal roofing sheets. Optional casings that can be arranged into a SYSTEM: Dimensions: height 50 (50 ( 000)) mm main structure +... mm station roof + 900 mm station foundation, width, length - consult the manufacturer. This catalogue presents examples of actually existing stations. It is possible to produce many other solutions according to individual requirements. ZPUE S.. will present design proposals free of charge. Container transformer stations

.5. MRw-bS 0/x60-9 container station Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 60 50 k k 40 k 5 k 50 Hz 60/60 kv IP 4 Weight: - foundation - main structure - metal roof 500 kg 600 kg 000 kg MRw-bS 0/x60-9 4760 4760 5 660 () () Coupler bay (5) Rotoblok medium (6) (7) (8) (9) R-W low R-W low MRw-bS 0/x60-9 container station diagram Rotoblok medium () () (5) (6) (7) (8) (9) GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. GTR V 4.06. xyhkxs (x70 mm ) T 60 kv T 60 kv xyhkxs (x70 mm ) 0 xyky (x40 mm ) x(xyky x40 mm ) IP 50 Łk 5 / / Station lighting B- R-W low, section I R-W low, section II IP 50 x(xyky x40 mm ) xyky (x40 mm ) L, L, L 4 5 6 7 8 9 xp50x xp50x 9 8 7 6 5 4 L, L, L IP 50 xp50x xp50x MRw-bS 0/x60-9 container station facade Side view - left (right) 950 50 600 600 MV 0kV/LV 0,4kV MV 0kV/LV 0,4kV TRSF ORMTOR TRSF ORMTOR -00-00 4

.5. MRw-bS 0/x60-7 container station Container station technical data U -Rated l - Rated continuous current ls - Short time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection Weight: - foundation - main structure - metal roof 00 kg 8000 kg 00 kg Switchgear Medium Low 4 kv 400 V 60 50 k k 40 k 5 k 50 Hz 60/60 kv IP 4 MRw-bS 0/x60-7 660 660 R-W low (7) 4760 Rotoblok medium (6) () (5) () Rotoblok medium MRw-bS 0/x60-7 container station diagram () () (4a) (4b) (5) (6) (7) GTR V 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR 4.06. GTR V 4.06. xyhkxs (x70 mm ) T 60 kv xyhkxs (x40 mm ) T 60 kv xyhkxs (x70 mm ) 0 xyky (x40 mm ) x(xyky x40 mm ) IP 50 Łk 5 / / B- IP 50 x(xyky x40 mm ) xyky (x40 mm ) L, L, L 4 5 6 7 8 9 xp50x xp50x 9 8 7 6 5 4 L, L, L R-W low (4b) Coupler bay (4a) Coupler bay Container transformer stations Rotoblok medium R-W low, section I Station lighting R-W low, section II xp50x xp50x MRw-bS 0/x60-7 container station facade Rear view Side view - left (right) 950 50 600 TRSF ORMTOR MV 0kV/LV 0,4kV -00-00 5

MRw-bP....6 MRw-bP- two level concrete transformer stations To reduce the cost of investment for sites with high power demand, two level concrete transformer stations can be applied. The main advantage of these stations is concentration of high power rating transformers within a compact building Our proprietary design and technology office as well as cast concrete block production line allow production of other nonstandard, two-level transformer station designs..6. MRw-bP 0/x500-6 container station Container station technical data U -Rated l - Rated continuous current ls - Short - time withstand current ( sec) isz - Withstand current f - Rated frequency S - Maximum T/T transformer rated power Degree of protection MRw-bP 0/x500-6 Switchgear Medium Low 4 kv 400 V 60 4000 k 75 k 40 k 5 k 50 Hz 500/500 kv IP 4 st floor Ground floor 660 660 (6) (5) Transformer circuit-breaker bay () Transformer circuit-breaker bay () Rotoblok SF medium Cable conduit Cable conduit Rotoblok SF medium 660 660 ZR-W low ZR-W low 4760 4760 6

MRw-bP 0/x500-6 container station diagram Rotoblok SF medium GTR SF 4.06. () GTR SF 4.06. () GTR SF 4 4.06. M HD4/R GTR SF 4 4.06. M HD4/R (5) GTR SF 4.06. (6) GTR SF 4.06. Container transformer stations Mupasz Compact IP 4 Mupasz Compact IP 4 xyhkxs (x mm ) xyhkxs (x mm ) T 500 kv T 500 kv 6 5 6 5 0 5 KTS 4 Regulator KTS 4 Regulator Station auxiliaries W Fan W Fan x(xp0x) x(xp0x) W Fan W Fan KTS 4 Regulator KTS 4 Regulator Station auxiliaries 6 5 6 5 0 5 4 5 6 7 8 9 ZM4 -E00 ZM4 -E00 V 6 KWh h SKa IZM 4000/5 4000/5 -V00 6 4000/5 5 4000/5 6 V KWh h SKa 6 5 ZM4 -E00 ZM4 -E00 5 6 7 8 9 4 5 H H H H H H H 4 5 ZM4 -E00 ZM4 -E00 IZMH -V4000 IZMH -V4000 4 ZM4 -E00 ZM4 -E00 H H H H H H H xp0x x(xp0x) x(xp0x) xp0x MRw-bP 0/x500-6 container station facade 600 600 LV 0,4kV LV 0,4kV MV 0kV MV 0kV 050 Side view - right -00-00 7

Minibox, Mzb, MRw-bk Externall serviced and operation concrete transformer stations Introduction Concrete container transformer stations with an external service are designed as freestanding units for operation with cable networks, ring or radial medium cable and overhead lines and low cable networks. They provide electrical power to public buildings, and also to: residential area in towns and cities, parks and recreational areas, suburban residential and rural areas, construction sites, Industrial parks and workshops. Container stations are transported to the installation site complete and ready for operation. Once the container is positioned, medium and low cables and earthing system require connection and the transformer has to be placed inside and connected. Container station design These container station comprise two monolithic components: main structure (side walls and base floor) - made from B0 ferroconcrete, roof - made from B0 ferroconcrete or metal (for Minta 0/60 station). Main structure with installed medium and low and a transformer has ventilation openings protected with aluminium slats ensuring IP 4 degree of protection. dditional foundation is not necessary when constructing the station, however the subsoil must be prepared according to construction guidelines. The container stations are delivered to place of installation together with cable glands. Once the foundation is constructed low and medium cables must be run through cable glands. In front of transformer chamber there is a sealed oil collection pit, which can contain the entire contents of transformer's oil tank. The station foundation is insulated on both sides in order to prevent ingress of groundwater inside the station and leaking of the transformer oil into the ground in the event of transformer failure. The station's ventilation is convection-based through specially designed ventilation openings protected with aluminium slats and through ventilation openings in the station's doors (Mzb station has an additional ventilation gap located under the station's roof). Standard station design allows placement in the transformer chamber of a hermetically sealed oil-filled transformer with a rating up to 60 kv (up to 50 kv for MRw-bk 0/50 station) Transformer can be placed in the chamber after the station's roof is removed. Standard installed : Medium type: TPM-W, TPM-CW, or other after consultation with the manufacturer. Low type: R-W, or other after consultation with the manufacturer. Switchgear cubicles are independent station components and they can be srviced when the doors for LV or MV s are open. Connections between medium and the transformer as well as between the transformer and low are made with cables (however (as an option) there is possibility to make all this connections with busbars). 8

e z dz i e e k c Container station technical data U l l i f s sz S -Rated - Rated continuous current - Rated short - time withstand current - Withstand current - Rated frequency - Maximum transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 400 / 60 50 k / 0 k 40 k 5 / 40 k 50 Hz 60 kv IP 4 Container transformer stations Container station installation into ground The first stage of building container station installation is excavating the pit as shown in the figure below. Earth ring conductor must be laid in the pit and then connected to the station's control systems. 00 millimetre layer of sand and gravel bedding must be constructed under the station. Special attention must be paid to levelling the underlying bedding. Once the bedding is prepared as described above: Construct the station's main structure, place the transformer in the chamber from the top placing it on rails) and install the roof. If the container station is installed on wetland, the foundation should be additionally protected with moisture barrier and a system of efficient drains should be constructed around the station's building. The station can be also constructed in category and 4 mining excavation area, which has been certified by an opinion issued by a construction expat. In this instance, in order to ensure a correct foundation design, it is required to construct an additional sliding layer comprising two layers of sandless tar paper laid on a 0 millimetre concrete screed slab and provide a 500 millimetre sand cushion under the entire footing (in the form of subsoil or made ground in the excavated pit). Minibox 0/60 container station foundation Roof lifting lugs Container lifting lugs TRSF ORMTOR SWITCH GER LV i dotykać! Ur ą en e i dotykać! Urz ąd nie eltz e rn y e 50 *(500) 0 750 *(900) Pit ~850 *(~00) Earthing leads ~00 4540 ~ 00 0 0 Sand bedding 975 Earth ring conductor Gravel bedding (if constructed on a wetland) * - height according to architectural requirements 9

IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE IE DOTYKĆ! URZĄDZEIE ELEKTRYCZE. Minibox 0/60 container station Minibox 0/60 a Minibox 0/60 b 540 540 975 TPM-W medium R-W low 975 R-W low TPM-W medium Standard Minibox 0/60- "a(b)"/g container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering / B- Station lighting 4 5 6 7 8 9 R-W low xp50x TPM-W medium xp50x xp50x Minibox 0/60 "a" container station facade Rear view Side view - left TRSF ORMTOR MV 0kV 750 750 50 600 600 0 Weight: - main structure 4800 kg - roof - concrete 800 kg - metal 00 kg Usable area: 4,5 m ote: Optional accessories are marked in red. Medium Low Maximum transformer rating - 60 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) on-standard design R-W 5 4 Enclosure class - 0 40

. Mzb/60 container station Mzb 0/60 060 Container transformer stations 7 Medium type: TPM-W (TLL configuration) or TPM-CW (LLTL configuration) R-W low Standard Mzb/60 container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V Semi-direct electricity metering / B- Station lighting 4 5 6 7 8 9 R-W low xp50x TPM-W medium or TPM-CW medium xp50x xp50x Standard Mzb/60 container station facade Rear view Side view - left MV LV 00 0 0 650 Weight: - main structure 7600 kg - concrete roof 800 kg Usable area: 4,06 m ote: Optional accessories are marked in red. Medium Low on-standard design Maximum transformer rating - 60 kv Type TPM-W TPM-CW R-W R-W Max number of medium bays (low outgoing feeders) 4 Enclosure class - 0 4

V. MRw-bk 0/50 simplified, freestanding container transformer station MRw-bk 0/50 800 0 Standard MRw-bk 0/50 container station diagram Medium cable from the outside 50 kv xyky (x40 mm ) x(xyky x40 mm ) / B- xp50x L, L, L 4 H xp50x xp50x MRw-bk 0/50 container station facade TRSF ORMTOR LV 0,4kV 800 650 R-W low Semi-direct electricity metering Station lighting R-W low Rear view Side view - left Side view - right Type Max number of medium bays (low outgoing feeders) Weight (excluding transformer) ote: Optional accessories are marked in red. 4800 kg Rozdzielnica n Low R-W Maksymalna moc transformatora - 50 kv 4 4

WST 0/60 - Round tower station Introduction The WST 0/60 small size concrete transformer station with an external service is designed as a freestanding unit for operation with cable network, ring or radial medium cable and overhead line and low cable network. They provide electrical power to public buildings, and also to: residential area in towns and cities, parks and recreational areas, suburban residential and rural areas, construction sites, Industrial parks and workshops. The station is transported to its place of installation fully equipped with medium and low units and all internal systems. Once the station is positioned, it only requires the connection of external medium and low cables, earth ring conductor and placing and connecting of the transformer. Station design WST 0/60 Station design incorporates four monolithic cast blocks made from B0 ferroconcrete: Foundation (cable compartment with the glands) Main structure incorporating medium and low, transformer chamber Station roof (see point 5) The station's roof can be made of metal or a steel profiles clad with WST 0/60 small size round tower concrete transformer station metal roofing tiles or bitumen shingles. In main service corridor we can find hatches to the foundation part and transformer chamber. The station's floor is made from concrete with openings for medium and low cables. The transformer chamber is designed as sealed basin which can hold all transformer s oil in case of failure. dditional foundation is not necessary, however the subsoil must be prepared according to construction guidelines. The container station is delivered to its place of installation equipped with cable glands through which low and medium cables must be pass. The station's ventilation is convection-based through specially designed ventilation openings located in the lower section of the main structure and also through the station's doors and an additional ventilation gap located under the station's roof. Station design allows to use hermetically sealed oil-filled transformer up to 60 kv. Transformer installation is carried from the outside when the roof is removed. Transformer can be accessed through a hatch located at the top of the main structure. Standard installed : Medium type: TPM-CW, or other after consultation with the manufacturer. Low type: R-W, or other after consultation with the manufacturer. Switchgear cubicles are independent station components and they can be accessed and operated from the common corridor inside the station. Connections between medium and the transformer as well as between the transformer and low are made with cables. Container transformer stations 4

CIŚIEI GZU SF 6 ROZŁ POŁOŻEI UZIEMIK ĄCZ ZŁĄCZ GIZDO ROZŁĄCZIK POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI L L L GIZDO UZIEMIK Z M K IJ OTW ÓR Z PIĘCIEM POŁOŻEI UZIEMIK ZŁ ĄCZ GIZDO ROZŁĄCZIK ROZŁ POŁOŻEI UZIEMIK ĄCZ ZŁĄCZ GIZDO ROZŁĄCZIK ZŁĄ RO CZ POŁOŻEI ROZŁĄCZIK OBECOŚCI PIĘCI L L L POŁOŻEI ROZŁĄCZIK ODBLOKOWE ZBLOKOWE ODBLOKOWE ZBLOKOWE PIĘCIEM OBECOŚCI PIĘCI Z WÓR L L L GIZDO UZIEMIK Z M K IJ ZM OT WKŁDK SPRW PRZEPLEI WKŁDKI BEZPIECZIKOWEJ K IJ OTW ÓR Z GIZDO UZIEMIK Container station technical data U l l i f s sz S -Rated - Rated continuous current - Short - time withstand current ( sec) - Withstand current - Rated frequency - Maximum transformer rated power Degree of protection Switchgear Medium Low 4 kv 400 V 400 / 60 50 k / 0 k 40 k 5 / 40 k 50 Hz 60 kv IP 4 Container station foundation The first stage of building container station foundation is excavating the pit. Earth ring conductor must be laid in the pit and then connected to the station's control systems terminals. 00 millimetre layer of sand and gravel bedding must be constructed under the foundation. Then a 50 mm lean concrete slab must be poured on top. Special attention must be paid to the correct levelling the base plate. Once the bedding is prepared as described above: Place the foundation, then the station's main structure, place the transformer in the chamber from the top arranging it on rails) and install the roof. If the container station is installed on wetland, the foundation should be additionally protected with moisture barrier and a system of efficient drains should be constructed around the station's building. Once the station is correctly placed, make sure that ventilation conduits at the bottom of the station are not obstructed. Station installation method Pit under the station Roof 50 040 ~770 0 50 Low ~80-50 00 Transforamer chamber The main structure (medium and low ) Pedestrian pavement Foundation (cable compartment) Subsoil Earthing conductor Earth ring conductor PIT 00 0 50 0 ~50 0 Concrete slab Gravel bedding Sand bedding 0 m in 4 00 m in 4 00 00 min 400 min 400 44

vailable roof types Concrete roof ~80 General view Container transformer stations Tall metal roof General view ~50 Roofing material Roof type Optional roofing materials Concrete slab Bitumen shingle Tall metal roof Bitumen shingle Medium and low cable entry Cross-section view and dimensions of medium and low cable entry ssembly and sealing of medium and low cable entry in the station's foundation C-C conduits φ0 B-B 6 conduits φ Foundation side wall 4 openings φ55 0 every 90 4 openings φ55 0 every 90 Conduit 6 conduits φ 0 45 6 conduits φ 0 45 conduits φ0 conduits φ0 heat-shrinkable sleeve Medium cable conduits φ0 6 conduits φ Foundation side wall - Door CETRE LIE Conduit heat-shrinkable sleeve 0 0 Low cable 50 0 C C 50 0 B B φ00 φ00 SCLE :50 45

ELEKTRYCZE WST WST 0/60 WST 0/60 station facade Switchgear chamber Medium 5075 Foundation hatch ~8 Transformer chamber MV 0kV/LV 0,4kV IE DOTYKĆ! URZĄDZEIE ~0 50 Transform a chamber hatch Oil collection pit 00 00 400 Standard WST 0/60 container station diagram xyhkxs (x70 mm ) 60 kv xyky (x40 mm ) x(xyky x40 mm ) L, L, L IP 50 V / xp50x B- 4 5 6 7 8 9 xp50x L, L, L Low Semi-direct electricity metering Station lighting R-W low TPM-W medium xp50x xp50x 4xYKY (x40 mm ) xp50x xp50x Weight: - foundation 600 kg - Switchgear chamber 4800 kg - Transformer chamber 50 kg - roof - concrete 500 kg - metal 50 kg Usable area:,46 m ote: Optional accessories are marked in red. * - when 4-bay medium is used, a imum of 6 category - switch disconnectors can be installed. Medium Low Maximum transformer rating - 60 kv Type TPM-W R-W Max number of medium bays (low outgoing feeders) on-standard design R-W * 4 6 46

PST-b Introduction PST-b 0/60 Underground transformer station is designed to provide power to buildings where it is not possible to install a traditional container transformer station. It is designed for operation with cable network, ring or radial medium cable and overhead line and low cable network. It provides electrical power to public buildings, and also to: residential area in towns and cities, parks and recreational areas, Industrial parks and workshops. The station can also provide power to communal buildings where transformers, due to being a nuisance, should be installed outside of residential buildings. Container stations are transported to the installation site complete and ready for operation. Once the container is positioned, medium and low cables and earthing system require connection and the transformer has to be placed inside and connected. Container station design The PST-b 0/60 station is a leakproof concrete container which can be buried underground. Ventilation openings above the manhole and the transformer provide the necessary cooling for the transformer rated up to 60 kv and also medium and low. It is possible to install canopies with slat-protected openings in side walls above the hatch and transformer ventilation conduit, in order to guard the openings against atmospheric precipitation and dirt accumulating around the unit. PSTb 0/60 container is made of B0 ferroconcrete. The entire external surface of the container is additionally protected with Hydrobit bitumen layer. The station is delivered to its place of installation equipped with cable glands through which low 4 Underground transformer station and medium cables must be run from the outside. s a consequence of the type of s used (Sulphur Hexafluoride (SF 6) gas insulated) only dry insulation medium cables should be used. Oil-insulated cables must be attached to a dry cable outside the station, which is then run through the glands and connected to medium. The station's floor is raised by approximately 0 cm above the base where two drainage outlets are placed. Water drainage hoses should be connected to them through special check valves. Ensure that drainage outlets are connected to an efficient sewer system. The space between the floor and the station's base forms a water receptacle to collect condensation and rain which could get inside when the hatch is open. ccess to the container station is gained through the top hatch (once the lock is released and platform grid is removed) down the stairs in the staircase, from where separate locked doors lead to medium and low access corridor. The transformer is placed on rails with openwork enclosure under which sealed oil collection pits is provided to contain the entire oil from transformer's oil tank. Oil collection pit guarantees that in the event of oil spill from the transformer, pollution of the environment will be prevented. Ventilation openings ensuring correct ventilation of the transformer chamber are provided in the partition wall along the length of the transformer. Station design allows placement in the transformer chamber of a hermetically sealed oil-filled transformer rated up to 60 kv. Transformer can be installed through the staircase once the platform grade is removed, and also the stairs and transformer chamber partition wall is dismantled. Standard installed : (Sf 6) gas insulated medium : TPM-W, or other after consultation with the manufacturer. Low type: R-W, or other after consultation with the manufacturer. Switchgear cubicles are independent station components and they can be accessed and operated from the common corridor inside the station. Connections between medium and the transformer as well as between the transformer and low are made using cables with insulated connectors. Container transformer stations 47