CAST RESIN DRY TRANSFORMER
Majority owned subsidiary company ofELETTROMECCANICA COLOMBO s.a.s., Italy
Elettromeccanica IndiaElettromeccanica India Pvt Ltd (EIPL) is a joint-venture company with Elettromeccanica, Italy, a leading manufacturer of transformers based in Milan. Elettromeccanica is held in high esteem and has the confidence of an established clientele of final users, plant installators and consultants for its high quality, operational reliability and long lasting products.
In India we meet the growing demand of high quality cast resin type transformers with special foil type aluminium / copper winding technology.
Key highlights
�Majority owned subsidiary of Elettromeccanica Italy with Sharika Enterprises as equity based joint-venture partner providing plant management and looking after marketing activities across India.
�The company caters to the requirements of the entire Asian market.
�Elettromeccanica Italy, established in 1901, has been manufacturing Cast Resin Transformers since 1983. The company has supplied 30,000 MVA in 50 countries, including 350-400 transformers to India with 33/0.415 kV 200-3000 kVA ratings for the Delhi Metro Project.
�The Elettromeccanica India Pvt Ltd plant, located at Bari Brahmana, Jammu, was commissioned in 2010. ISO 9001:2008 certified, it is equipped with state-of-the-art testing facilities for complete type testing as per Indian Standards (IS) as well as International Standards (IEC).
�In the first phase of production, cast coils are being sourced from Italy. CRGO core and the transformers are assembled locally as per the designs and engineering practices of Elettromeccanica Italy.
�The first order executed by the company was from Delhi Metro for 15 numbers 33/0.415 kV 630/1600/2500 kVA Cast Resin Transformers. Type testing of the transformers was done in the in-house facility calibrated by ERDA, Baroda.
Elettromeccanica Colombo, ItalyElettromeccanica Colombo s.a.s. is a leading manufacturer of transformers, established in 1901 in Milan, Italy. The company began manufacturing cast resin transformers in the late 1980s and the range currently includes windings in copper and aluminum with natural or forced cooling up to a maximum capacity of 10 MVA at 36 kV.
Elettromeccanica Colombo has customers in over fifty countries across the globe with an installed capacity of more than 50,000 MVA. In India, the company has supplied around 400 numbers of 33/0.415 kV cast resin transformers with 200 - 3000 kVA capacity to the prestigious Delhi Metro Project. The worldwide presence is maintained through a network of agents and local importers while in Italy the sales network covers the entire country with agents in all regions.
The high quality production at Elettromeccanica Colombo guarantees an average life time of at least 30 years under normal operating conditions. Manufacturing processes ISO-9001:2008 quality assurance system comply with leading international specifications and standards including IEC-60076, IEC-60726, VDE-0532, BS-7806, ANSI-C57-12, IS-2026, IS-11171. Type testing, including short circuit testing is done at CESI, Italy.
Power transformers can be equipped with on-load tap changer. Besides the standard types, thhe production range includes, auto-transformers and transformers for starting, insulation and earthing for converters-rectifiers. Special transformers are also designed and manufactured upon customer request.
Factory at Bari Brahmana, Jammu
The Indian flag flies at the Milan factory
Milan factory interior
Why foil windings?Conventional Round Windings�Inter-turn voltage is variable and, at
times, can exceed substantially�Higher chances of inter-turn
insulation failure due to voltage breakdown.
Foil Windings�Inter-turn voltage is always constant
as each layer consists of only one winding turn.
�Minimal failure chances of inter-turn layers.
Why aluminium?The thermal expansion coefficients of
aluminium and the used cast resin are
so similar that thermal stresses due to
load changes are kept to a minimum.
Elettromeccanica IndiaElettromeccanica India Pvt Ltd (EIPL) is a joint-venture company with Elettromeccanica, Italy, a leading manufacturer of transformers based in Milan. Elettromeccanica is held in high esteem and has the confidence of an established clientele of final users, plant installators and consultants for its high quality, operational reliability and long lasting products.
In India we meet the growing demand of high quality cast resin type transformers with special foil type aluminium / copper winding technology.
Key highlights
�Majority owned subsidiary of Elettromeccanica Italy with Sharika Enterprises as equity based joint-venture partner providing plant management and looking after marketing activities across India.
�The company caters to the requirements of the entire Asian market.
�Elettromeccanica Italy, established in 1901, has been manufacturing Cast Resin Transformers since 1983. The company has supplied 30,000 MVA in 50 countries, including 350-400 transformers to India with 33/0.415 kV 200-3000 kVA ratings for the Delhi Metro Project.
�The Elettromeccanica India Pvt Ltd plant, located at Bari Brahmana, Jammu, was commissioned in 2010. ISO 9001:2008 certified, it is equipped with state-of-the-art testing facilities for complete type testing as per Indian Standards (IS) as well as International Standards (IEC).
�In the first phase of production, cast coils are being sourced from Italy. CRGO core and the transformers are assembled locally as per the designs and engineering practices of Elettromeccanica Italy.
�The first order executed by the company was from Delhi Metro for 15 numbers 33/0.415 kV 630/1600/2500 kVA Cast Resin Transformers. Type testing of the transformers was done in the in-house facility calibrated by ERDA, Baroda.
Elettromeccanica Colombo, ItalyElettromeccanica Colombo s.a.s. is a leading manufacturer of transformers, established in 1901 in Milan, Italy. The company began manufacturing cast resin transformers in the late 1980s and the range currently includes windings in copper and aluminum with natural or forced cooling up to a maximum capacity of 10 MVA at 36 kV.
Elettromeccanica Colombo has customers in over fifty countries across the globe with an installed capacity of more than 50,000 MVA. In India, the company has supplied around 400 numbers of 33/0.415 kV cast resin transformers with 200 - 3000 kVA capacity to the prestigious Delhi Metro Project. The worldwide presence is maintained through a network of agents and local importers while in Italy the sales network covers the entire country with agents in all regions.
The high quality production at Elettromeccanica Colombo guarantees an average life time of at least 30 years under normal operating conditions. Manufacturing processes ISO-9001:2008 quality assurance system comply with leading international specifications and standards including IEC-60076, IEC-60726, VDE-0532, BS-7806, ANSI-C57-12, IS-2026, IS-11171. Type testing, including short circuit testing is done at CESI, Italy.
Power transformers can be equipped with on-load tap changer. Besides the standard types, thhe production range includes, auto-transformers and transformers for starting, insulation and earthing for converters-rectifiers. Special transformers are also designed and manufactured upon customer request.
Factory at Bari Brahmana, Jammu
The Indian flag flies at the Milan factory
Milan factory interior
Why foil windings?Conventional Round Windings�Inter-turn voltage is variable and, at
times, can exceed substantially�Higher chances of inter-turn
insulation failure due to voltage breakdown.
Foil Windings�Inter-turn voltage is always constant
as each layer consists of only one winding turn.
�Minimal failure chances of inter-turn layers.
Why aluminium?The thermal expansion coefficients of
aluminium and the used cast resin are
so similar that thermal stresses due to
load changes are kept to a minimum.
Product RangeEIPL manufactures all kinds of cast resin transformers for power, distribution, rectifier, etc. These transformers can be manufactured with copper or aluminum winding or both as per customer requirements. The transformer range includes:
Low voltage transformers LV/LV Rating up to 2500 kVA nominal voltage up to 1.1 kV
Distribution transformers MV/LV Rating up to 3150 kVA and nominal voltage up to 36 kV
Power transformers HV/LV HV/MV Rating up to 10 MVA and nominal voltage up to 36 kV
Parts/accessories of Core
The core is built up of cold rolled grain oriented steel sheet with low specific losses, insulated on both sides by a thin inorganic coating (Carlyte). The sheets composing the core are cut as step lap (at 45°). Uniform pressing, stiffness and solidity of the columns assure a low noise level.
Medium Voltage Winding
High voltage windings are made of electrolytic aluminum conductors (wire or foil strip, depending upon power and voltage requirements). It is possible to produce copper windings as well. The windings are inglobed under vacuum in class F epoxy resin (class H is also possible on specific demand). The accuracy of execution of these processes ensure windings free from partial discharges.
Low Voltage Winding
Low voltage windings are made of strip or foil (copper or aluminum conductor, depending upon power and voltage requirements). Class F/H insulating material is used.
Standard Accessories
Skid under base or truck with bidirectional wheels, lifting lugs, earthing terminal.
Temperature Monitoring Unit
Temperature monitoring is essentially used for safe operation of cast resin/dry type transformers. It is suitable for control room as well as marshalling box installations and is built for long and trouble-free operation under extreme conditions of service.
Force Ventilation System
This is an optional accessory and is used where ventilation is either not sufficient or to increase temporarily rated power of the transformer.
Enclosure
The kind of enclosure is decided as per transformer size and the place where the transformer is to be installed. Frame for door thickness: 2mm/1.6mm. Side, front back panels and top sheet thickness: 1.6mm thick. Castle lock, looking glass and other accessories are provided as per client requirements.
cast resin transformers
Aluminium Windings for Cast Resin Transformers
Parameters Copper Aluminium AdditionalInformation/Calculation
Coefficient of linear expansion (Resin)
The difference between the relative linear expansion of aluminium and resin is quite close while that of copper and resin is quite high. Thus, the chances of void creation or cracks in insulation are higher in copper winding as compared to aluminium winding.
6 6 6 Conductivity (σ) 56×10 S/m 35×10 S/m 1.6×35×10 = 6 56×10 S/m
With a higher cross-section area of Al conductor (1.6×Cu conductor) provided same conductivity and resultant load losses are easily maintained.
Thermal Storage 0.092 cal/g/°C 0.214 cal/g/°C3 3capacity 8.9 gm/cm 2.7 gm/cm Density
1 1.6 CS Area Factor8.9×0.092 = 0.8188 0.214×2.7×1.6 Comparative
= 0.9248 Capacity
Aluminium can withstand greater surge and overload current than equivalent copper.
By taking the reasons mentioned above into account, the weight of a cast resin transformer and resultant cost gets reduced with aluminium winding as compared to copper winding. This results in lower prices for a technically superior product.
-6 -6 -617×10 /K 24×10 /K 30×10 /K
Product RangeEIPL manufactures all kinds of cast resin transformers for power, distribution, rectifier, etc. These transformers can be manufactured with copper or aluminum winding or both as per customer requirements. The transformer range includes:
Low voltage transformers LV/LV Rating up to 2500 kVA nominal voltage up to 1.1 kV
Distribution transformers MV/LV Rating up to 3150 kVA and nominal voltage up to 36 kV
Power transformers HV/LV HV/MV Rating up to 10 MVA and nominal voltage up to 36 kV
Parts/accessories of Core
The core is built up of cold rolled grain oriented steel sheet with low specific losses, insulated on both sides by a thin inorganic coating (Carlyte). The sheets composing the core are cut as step lap (at 45°). Uniform pressing, stiffness and solidity of the columns assure a low noise level.
Medium Voltage Winding
High voltage windings are made of electrolytic aluminum conductors (wire or foil strip, depending upon power and voltage requirements). It is possible to produce copper windings as well. The windings are inglobed under vacuum in class F epoxy resin (class H is also possible on specific demand). The accuracy of execution of these processes ensure windings free from partial discharges.
Low Voltage Winding
Low voltage windings are made of strip or foil (copper or aluminum conductor, depending upon power and voltage requirements). Class F/H insulating material is used.
Standard Accessories
Skid under base or truck with bidirectional wheels, lifting lugs, earthing terminal.
Temperature Monitoring Unit
Temperature monitoring is essentially used for safe operation of cast resin/dry type transformers. It is suitable for control room as well as marshalling box installations and is built for long and trouble-free operation under extreme conditions of service.
Force Ventilation System
This is an optional accessory and is used where ventilation is either not sufficient or to increase temporarily rated power of the transformer.
Enclosure
The kind of enclosure is decided as per transformer size and the place where the transformer is to be installed. Frame for door thickness: 2mm/1.6mm. Side, front back panels and top sheet thickness: 1.6mm thick. Castle lock, looking glass and other accessories are provided as per client requirements.
cast resin transformers
Aluminium Windings for Cast Resin Transformers
Parameters Copper Aluminium AdditionalInformation/Calculation
Coefficient of linear expansion (Resin)
The difference between the relative linear expansion of aluminium and resin is quite close while that of copper and resin is quite high. Thus, the chances of void creation or cracks in insulation are higher in copper winding as compared to aluminium winding.
6 6 6 Conductivity (σ) 56×10 S/m 35×10 S/m 1.6×35×10 = 6 56×10 S/m
With a higher cross-section area of Al conductor (1.6×Cu conductor) provided same conductivity and resultant load losses are easily maintained.
Thermal Storage 0.092 cal/g/°C 0.214 cal/g/°C3 3capacity 8.9 gm/cm 2.7 gm/cm Density
1 1.6 CS Area Factor8.9×0.092 = 0.8188 0.214×2.7×1.6 Comparative
= 0.9248 Capacity
Aluminium can withstand greater surge and overload current than equivalent copper.
By taking the reasons mentioned above into account, the weight of a cast resin transformer and resultant cost gets reduced with aluminium winding as compared to copper winding. This results in lower prices for a technically superior product.
-6 -6 -617×10 /K 24×10 /K 30×10 /K
Tests
Functional Characteristics
All transformers are singularly routine tested according to IEC 60726 and equivalent IS- 11171 that include:
�Measurement of winding resistance
�Measurement of voltage ratio and check of voltage vector relationship
�Measurement of impedance of voltage (principal tapping), short circuit impedance and load loss
�Measurement of no-load loss and current
�Separate-source voltage withstand test
�Induced over voltage withstand test.
In addition EIPL also conducts special tests like:
�Partial Discharge Measurement
�Measurement of Acoustic sound level
The following type and special tests can be carried out upon request:
�Temperature rise test (Type Test)
�Lightning impulse test ( Type Test)
�Short circuit test (Special Test)
High Short Circuit Strength
A coil manufactured with epoxy resin has a robust structure and can better withstand electro-mechanical force occurring during short circuit, external impacts and abnormal vibrations.
High Overload Capacity
Due to the high terminal time constant, a coil made with epoxy resin can endure high overloads for a short time.
Fire Resistance
Epoxy coils have a self-fire extinguishing performance, safe in case of fire electrical sparks.
Compact Size
Compact size, especially in depth, can give advantage in installation room.
Environment Safe
Compared to oil immersed, resin transformers are free from environmental pollution as there can be no spill or oil leakage.
Maintenance-Free
Coils cast with epoxy resin do not suffer from deterioration of insulating property on account of humidity and moisture; furthermore there are no joints or valves making it easy to inspect and maintain the transformer.
standards
Insu
lati
on C
lass
36
kV, A
mbi
ent T
empe
ratu
re :
50°C
- T
emp.
Ris
e : 9
0°C
Insu
lati
on C
lass
12
kV, A
mbi
ent T
empe
ratu
re :
50°C
- T
emp.
Ris
e : 9
0°C
kVA
PoPc
cPc
ch
4/4
(75°
C)(1
20°C
)co
s f
1co
s f
0.9
cos f
1co
s f
0.9
a1b1
h1W
eigh
ta1
b1h1
Wei
ght
a1h1
b1(W
)(W
)(W
)(%
)(%
)(%
)(%
)(%
)(%
)(k
A)(lr
/ln)
(dB)
(mm
)(m
m)
(mm
)(k
g)(m
m)
(mm
)(m
m)
(kg)
(mm
)(m
m)
(mm
)(m
m)
(mm
)(m
m)
100
500
1900
2170
97.6
697
.40
97.9
597
.73
1.50
3.3
4810
3565
010
7560
010
0565
010
3060
014
0011
0015
00
160
650
2500
2860
98.0
797
.86
98.3
298
.13
1.30
5.3
5111
4065
011
8085
010
9565
010
8585
015
0011
0015
00
200
750
3000
3430
98.1
697
.96
98.4
098
.23
1.00
6.7
10.0
5311
4065
013
2095
011
1065
011
5095
052
010
035
1500
1100
1950
250
900
3500
4000
98.2
798
.08
98.4
998
.33
0.95
8.3
5411
7065
013
2010
0011
5565
011
5510
3015
0011
0019
50
315
1050
3800
4350
98.4
898
.32
98.6
798
.52
4.00
0.90
10.5
5612
7565
013
4012
0012
0065
012
9513
0016
0011
0019
50
400
1250
4300
4900
98.6
398
.48
98.7
998
.66
0.85
13.3
5713
2080
014
8013
5012
4580
014
3014
0016
0011
5019
50
500
1500
4950
5650
98.7
298
.59
98.8
798
.75
0.80
16.7
5713
9580
015
7017
0013
2080
014
7018
0067
017
0011
5019
50
630
1700
6100
6980
98.7
798
.64
98.9
398
.81
0.75
21.0
9.5
5813
9580
016
8019
0013
9580
015
9021
5018
0011
5019
50
800
2100
6600
7550
98.9
298
.81
99.0
498
.94
0.70
21.3
5915
9080
017
5023
5015
1580
016
5026
0015
060
1900
1150
2250
1000
2450
7600
8700
99.0
098
.90
99.1
199
.01
5.00
0.65
26.7
6016
5095
018
5026
5015
6095
017
0028
5020
0015
0022
50
1250
2850
9300
1060
099
.04
98.9
399
.15
99.0
50.
6033
.362
1680
950
2020
3200
1650
950
1880
3650
820
2000
1500
2250
1600
3100
1180
013
500
99.0
798
.98
99.2
099
.11
0.55
34.1
9.0
6217
7095
020
5036
0016
5095
020
5040
0020
0015
0025
00
2000
3700
1480
016
900
99.0
898
.99
99.2
199
.12
6.25
0.50
42.7
6318
7512
0023
3044
0018
0012
0021
5050
0022
0020
0025
00
2500
4450
1750
020
000
99.1
299
.03
99.2
499
.16
0.45
53.3
8.5
6519
8012
0024
0052
5018
6012
0022
0055
5010
7020
070
2200
2000
2500
3150
5000
2250
025
700
99.1
399
.04
99.2
699
.18
0.40
67.2
8.0
6620
4012
0024
5058
0019
5012
0024
5069
5025
0020
0028
00
h4/
4h
3/4
h3/
4Zl
lolc
cln
-rus
hLp
aw
indi
ngs
in a
lum
iniu
mw
indi
ngs
in c
oppe
re
df
encl
osur
e*
kVA
PoPc
cPc
ch
4/4
(75°
C)(1
20°C
)co
s f
1co
s f
0.9
cos f
1co
s f
0.9
a1b1
h1W
eigh
ta1
b1h1
Wei
ght
a1h1
b1(W
)(W
)(W
)(%
)(%
)(%
)(%
)(%
)(%
)(k
A)(lr
/ln)
(dB)
(mm
)(m
m)
(mm
)(k
g)(m
m)
(mm
)(m
m)
(kg)
(mm
)(m
m)
(mm
)(m
m)
(mm
)(m
m)
100
700
1850
2100
97.5
197
.24
97.7
397
.48
1.50
3.3
5213
2068
012
6083
012
9067
012
4081
018
0011
0019
50
160
860
2650
3000
97.8
597
.62
98.0
797
.87
1.30
5.3
5413
6568
513
3010
5013
6568
513
3010
8019
0011
0019
50
200
1100
2950
3350
98.0
197
.79
98.1
997
.99
1.00
6.7
5414
4069
513
5012
5014
1069
013
5012
5052
010
035
2000
1100
1950
250
1300
3700
4200
98.0
497
.82
98.2
398
.03
4.00
0.95
8.3
9.5
5415
9072
014
3015
1015
1571
013
6015
5021
0011
0019
50
315
1500
3950
4500
98.2
998
.11
98.4
598
.28
0.90
10.5
5516
3573
015
0017
0015
6071
514
3017
5022
0011
0019
50
400
1650
4200
4800
98.5
598
.40
98.6
898
.53
0.85
13.3
5616
5080
516
2018
7015
9080
015
6019
6022
0011
5019
50
500
1900
4600
5250
98.7
198
.57
98.8
198
.68
0.80
16.7
5617
1082
017
1023
0016
8080
017
1024
5023
0011
5022
50
630
2100
5300
6050
98.8
398
.71
98.9
398
.82
0.75
21.0
5717
4082
018
3026
5016
8081
017
3026
0067
023
0011
5022
50
800
2600
6300
7200
98.8
998
.78
98.9
898
.87
0.70
21.3
5819
2085
019
2030
5018
4584
018
0031
5015
060
2400
1150
2250
1000
2850
8000
9150
98.9
298
.81
99.0
398
.92
5.00
0.65
26.7
9.0
5919
8095
019
7035
5018
7595
018
2035
0025
0015
0022
50
1250
3000
9000
1030
099
.04
98.9
499
.14
99.0
50.
6033
.360
1965
950
2120
3950
1935
950
2010
4350
820
2600
1500
2500
1600
3500
1200
013
700
99.0
498
.94
99.1
599
.05
0.55
34.1
6120
4095
021
6043
0019
6595
022
3048
6026
0015
0025
00
2000
3950
1490
017
050
99.0
798
.96
99.1
899
.09
6.25
0.50
42.7
8.5
6221
3012
0024
5051
0020
7012
0023
5057
2027
0020
0028
00
2500
4750
1700
019
450
99.1
399
.04
99.2
499
.16
0.45
53.3
7.5
6323
1012
0025
5067
0022
2012
0024
4068
2010
7020
070
2800
2000
2800
3150
5850
2100
024
050
99.1
599
.06
99.2
699
.18
0.40
67.2
7.0
6524
7513
5026
5080
0024
0012
0026
0085
2030
0020
0030
00
h4/
4h
3/4
h3/
4Zl
lolc
cln
-rus
hLp
aw
indi
ngs
in a
lum
iniu
mw
indi
ngs
in c
oppe
re
df
encl
osur
e*
*Rec
omm
ende
d m
inim
um s
ize
e a1
h1
d
e b1
f
TECHNICAL DATACast Resin Transformers
Tests
Functional Characteristics
All transformers are singularly routine tested according to IEC 60726 and equivalent IS- 11171 that include:
�Measurement of winding resistance
�Measurement of voltage ratio and check of voltage vector relationship
�Measurement of impedance of voltage (principal tapping), short circuit impedance and load loss
�Measurement of no-load loss and current
�Separate-source voltage withstand test
�Induced over voltage withstand test.
In addition EIPL also conducts special tests like:
�Partial Discharge Measurement
�Measurement of Acoustic sound level
The following type and special tests can be carried out upon request:
�Temperature rise test (Type Test)
�Lightning impulse test ( Type Test)
�Short circuit test (Special Test)
High Short Circuit Strength
A coil manufactured with epoxy resin has a robust structure and can better withstand electro-mechanical force occurring during short circuit, external impacts and abnormal vibrations.
High Overload Capacity
Due to the high terminal time constant, a coil made with epoxy resin can endure high overloads for a short time.
Fire Resistance
Epoxy coils have a self-fire extinguishing performance, safe in case of fire electrical sparks.
Compact Size
Compact size, especially in depth, can give advantage in installation room.
Environment Safe
Compared to oil immersed, resin transformers are free from environmental pollution as there can be no spill or oil leakage.
Maintenance-Free
Coils cast with epoxy resin do not suffer from deterioration of insulating property on account of humidity and moisture; furthermore there are no joints or valves making it easy to inspect and maintain the transformer.
standards
Insu
lati
on C
lass
36
kV, A
mbi
ent T
empe
ratu
re :
50°C
- T
emp.
Ris
e : 9
0°C
Insu
lati
on C
lass
12
kV, A
mbi
ent T
empe
ratu
re :
50°C
- T
emp.
Ris
e : 9
0°C
kVA
PoPc
cPc
ch
4/4
(75°
C)(1
20°C
)co
s f
1co
s f
0.9
cos f
1co
s f
0.9
a1b1
h1W
eigh
ta1
b1h1
Wei
ght
a1h1
b1(W
)(W
)(W
)(%
)(%
)(%
)(%
)(%
)(%
)(k
A)(lr
/ln)
(dB)
(mm
)(m
m)
(mm
)(k
g)(m
m)
(mm
)(m
m)
(kg)
(mm
)(m
m)
(mm
)(m
m)
(mm
)(m
m)
100
500
1900
2170
97.6
697
.40
97.9
597
.73
1.50
3.3
4810
3565
010
7560
010
0565
010
3060
014
0011
0015
00
160
650
2500
2860
98.0
797
.86
98.3
298
.13
1.30
5.3
5111
4065
011
8085
010
9565
010
8585
015
0011
0015
00
200
750
3000
3430
98.1
697
.96
98.4
098
.23
1.00
6.7
10.0
5311
4065
013
2095
011
1065
011
5095
052
010
035
1500
1100
1950
250
900
3500
4000
98.2
798
.08
98.4
998
.33
0.95
8.3
5411
7065
013
2010
0011
5565
011
5510
3015
0011
0019
50
315
1050
3800
4350
98.4
898
.32
98.6
798
.52
4.00
0.90
10.5
5612
7565
013
4012
0012
0065
012
9513
0016
0011
0019
50
400
1250
4300
4900
98.6
398
.48
98.7
998
.66
0.85
13.3
5713
2080
014
8013
5012
4580
014
3014
0016
0011
5019
50
500
1500
4950
5650
98.7
298
.59
98.8
798
.75
0.80
16.7
5713
9580
015
7017
0013
2080
014
7018
0067
017
0011
5019
50
630
1700
6100
6980
98.7
798
.64
98.9
398
.81
0.75
21.0
9.5
5813
9580
016
8019
0013
9580
015
9021
5018
0011
5019
50
800
2100
6600
7550
98.9
298
.81
99.0
498
.94
0.70
21.3
5915
9080
017
5023
5015
1580
016
5026
0015
060
1900
1150
2250
1000
2450
7600
8700
99.0
098
.90
99.1
199
.01
5.00
0.65
26.7
6016
5095
018
5026
5015
6095
017
0028
5020
0015
0022
50
1250
2850
9300
1060
099
.04
98.9
399
.15
99.0
50.
6033
.362
1680
950
2020
3200
1650
950
1880
3650
820
2000
1500
2250
1600
3100
1180
013
500
99.0
798
.98
99.2
099
.11
0.55
34.1
9.0
6217
7095
020
5036
0016
5095
020
5040
0020
0015
0025
00
2000
3700
1480
016
900
99.0
898
.99
99.2
199
.12
6.25
0.50
42.7
6318
7512
0023
3044
0018
0012
0021
5050
0022
0020
0025
00
2500
4450
1750
020
000
99.1
299
.03
99.2
499
.16
0.45
53.3
8.5
6519
8012
0024
0052
5018
6012
0022
0055
5010
7020
070
2200
2000
2500
3150
5000
2250
025
700
99.1
399
.04
99.2
699
.18
0.40
67.2
8.0
6620
4012
0024
5058
0019
5012
0024
5069
5025
0020
0028
00
h4/
4h
3/4
h3/
4Zl
lolc
cln
-rus
hLp
aw
indi
ngs
in a
lum
iniu
mw
indi
ngs
in c
oppe
re
df
encl
osur
e*
kVA
PoPc
cPc
ch
4/4
(75°
C)(1
20°C
)co
s f
1co
s f
0.9
cos f
1co
s f
0.9
a1b1
h1W
eigh
ta1
b1h1
Wei
ght
a1h1
b1(W
)(W
)(W
)(%
)(%
)(%
)(%
)(%
)(%
)(k
A)(lr
/ln)
(dB)
(mm
)(m
m)
(mm
)(k
g)(m
m)
(mm
)(m
m)
(kg)
(mm
)(m
m)
(mm
)(m
m)
(mm
)(m
m)
100
700
1850
2100
97.5
197
.24
97.7
397
.48
1.50
3.3
5213
2068
012
6083
012
9067
012
4081
018
0011
0019
50
160
860
2650
3000
97.8
597
.62
98.0
797
.87
1.30
5.3
5413
6568
513
3010
5013
6568
513
3010
8019
0011
0019
50
200
1100
2950
3350
98.0
197
.79
98.1
997
.99
1.00
6.7
5414
4069
513
5012
5014
1069
013
5012
5052
010
035
2000
1100
1950
250
1300
3700
4200
98.0
497
.82
98.2
398
.03
4.00
0.95
8.3
9.5
5415
9072
014
3015
1015
1571
013
6015
5021
0011
0019
50
315
1500
3950
4500
98.2
998
.11
98.4
598
.28
0.90
10.5
5516
3573
015
0017
0015
6071
514
3017
5022
0011
0019
50
400
1650
4200
4800
98.5
598
.40
98.6
898
.53
0.85
13.3
5616
5080
516
2018
7015
9080
015
6019
6022
0011
5019
50
500
1900
4600
5250
98.7
198
.57
98.8
198
.68
0.80
16.7
5617
1082
017
1023
0016
8080
017
1024
5023
0011
5022
50
630
2100
5300
6050
98.8
398
.71
98.9
398
.82
0.75
21.0
5717
4082
018
3026
5016
8081
017
3026
0067
023
0011
5022
50
800
2600
6300
7200
98.8
998
.78
98.9
898
.87
0.70
21.3
5819
2085
019
2030
5018
4584
018
0031
5015
060
2400
1150
2250
1000
2850
8000
9150
98.9
298
.81
99.0
398
.92
5.00
0.65
26.7
9.0
5919
8095
019
7035
5018
7595
018
2035
0025
0015
0022
50
1250
3000
9000
1030
099
.04
98.9
499
.14
99.0
50.
6033
.360
1965
950
2120
3950
1935
950
2010
4350
820
2600
1500
2500
1600
3500
1200
013
700
99.0
498
.94
99.1
599
.05
0.55
34.1
6120
4095
021
6043
0019
6595
022
3048
6026
0015
0025
00
2000
3950
1490
017
050
99.0
798
.96
99.1
899
.09
6.25
0.50
42.7
8.5
6221
3012
0024
5051
0020
7012
0023
5057
2027
0020
0028
00
2500
4750
1700
019
450
99.1
399
.04
99.2
499
.16
0.45
53.3
7.5
6323
1012
0025
5067
0022
2012
0024
4068
2010
7020
070
2800
2000
2800
3150
5850
2100
024
050
99.1
599
.06
99.2
699
.18
0.40
67.2
7.0
6524
7513
5026
5080
0024
0012
0026
0085
2030
0020
0030
00
h4/
4h
3/4
h3/
4Zl
lolc
cln
-rus
hLp
aw
indi
ngs
in a
lum
iniu
mw
indi
ngs
in c
oppe
re
df
encl
osur
e*
*Rec
omm
ende
d m
inim
um s
ize
e a1
h1
d
e b1
f
TECHNICAL DATACast Resin Transformers
Cut section of coil
Core Assembly
Transformer Assembly
Elettromeccanica India Pvt. Ltd.
B-124, Sector-67, Noida 201310, India
Tel: +91 120 2593900 • Fax: +91 120 2484620 • Email: [email protected]
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Plant:
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Routine Inspection
Transformer with enclosure