Minimum Order Quantity | 1 Number |
Material | Copper |
Cooling Type | Oil Cooled |
Brand | Tejaswini |
Usage/Application | Industrial |
Power | 11/0.433KV or 33/0.433KV or 33/11KV |
Phase | 3 phase |
Frequency | 50/60Hz |
Rated capacity | Upto 5mva |
Output voltage | 415v/433v or 11kv |
We offer OLTC Distribution Transformer. Distribution transformers for industrial application is available with primary voltages of up to 33 KV and secondary voltages ranging from 433 to 11000 V. The capacity range is up to 5000 KVA. We manufacture single phase distribution transformers, three phase distribution transformers and industrial distribution transformers.
These single phase distribution transformers and three phase distribution transformers are available with 'Tap Changer' options as well as "Off Circuit Manually Operated" and "On Load Tap Changer" (OLTC) with AVR and RTCC panel.
Copper foil winding technology is used for high current sections to achieve following advantages:
Sustaining short circuit forces without any distortion in low voltage and high current winding
Hot spot in LV windings regulated
No transposition, stray losses are minimal. Thus total copper losses are also further reduced
Total copper losses reduced vis-a-vis standard losses. Thus heat dissipating area also reduce
Minimum Order Quantity | 1 Piece |
Power Rating | 1.25MVA |
Voltage Ratio | 11kV/433V |
Winding Material | Copper |
Frequency | 50Hz |
Ambient Temp | 50 Degree C |
Brand | Tejaswini |
Phase | Three Phase |
I Deal In | New Only |
Cooling Type | Aluminium |
Country of Origin | Made in India |
We are offering Electrical Power Transformer to our client
Power Rating | Upto 5MVA |
Phase | 3-Phase |
Voltage Ratio | 11kV/433V |
Cooling Type | Oil Cooled |
Material | Copper |
Insulation Class | A |
We manufacture 33/0.433KV and 33/11KV Power Transformers. Distribution transformers for industrial application is available with primary voltages of up to 33 KV and secondary voltages ranging from 433 to 11000 V. The capacity range is up to 5000 KVA. We manufacture single phase distribution transformers, three phase distribution transformers and industrial distribution transformers.
These single phase distribution transformers and three phase distribution transformers are available with 'Tap Changer' options as well as "Off Circuit Manually Operated" and "On Load Tap Changer" (OLTC) with AVR and RTCC panel.
Copper foil winding technology is used for high current sections to achieve following advantages:
Sustaining short circuit forces without any distortion in low voltage and high current winding
Hot spot in LV windings regulated
No transposition, stray losses are minimal. Thus total copper losses are also further reduced
Total copper losses reduced vis-a-vis standard losses. Thus heat dissipating area also reduce
Minimum Order Quantity | 1 Piece |
Power Rating | 1.25MVA |
Number of Phase | 3-Phase |
Voltage Ratio | 11kV/433V |
Winding Material | Copper |
Standards | IS-1180, IS-2026 |
Usage/Application | Industrial |
Cooling Type | Oil Cooled |
Phase | Three Phase |
Primary Connection Type | Delta |
Brand | Tejaswini |
I Deal In | New Only |
We manufacture Distribution Transformers from 10KVA to upto 5000KVA
Power Rating | Upto 10MVA |
Phase | 3-Phase |
Number of Phase | 3-Phase |
Voltage Ratio | 11kV/433V |
Cooling Type | ONAN |
Brand | Tejaswini |
Frequency | 50-60 Hz |
Highest temperature | 40 Degree C |
Relative humidity | 90% |
We offer Oil Immersed Power and Distribution Transformers. Distribution transformers for industrial application is available with primary voltages of up to 33 KV and secondary voltages ranging from 433 to 11000 V. The capacity range is up to 5000 KVA. We manufacture single phase distribution transformers, three phase distribution transformers and industrial distribution transformers.
These single phase distribution transformers and three phase distribution transformers are available with 'Tap Changer' options as well as "Off Circuit Manually Operated" and "On Load Tap Changer" (OLTC) with AVR and RTCC panel.
Copper foil winding technology is used for high current sections to achieve following advantages:
Sustaining short circuit forces without any distortion in low voltage and high current winding
Hot spot in LV windings regulated
No transposition, stray losses are minimal. Thus total copper losses are also further reduced
Total copper losses reduced vis-a-vis standard losses. Thus heat dissipating area also reduce