Schneider Electric 275T145HDIT Low Voltage Drive Isolation Transformer

Technical Specification

Schneider Electric
  • Schneider Electric
Features:
  • Make: Schneider Electric
  • Model code: 275T145HDIT
  • Type: Drive Isolation Transformer
  • Unit ratings or power ratings: 275 kVA
  • Primary Voltage: 460 V delta
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Additional info:

Evaluated according to UL Standard 1561 for effects of harmonic heating Designed for typical harmonics per IEEE 519-1992 Meets 4% minimum reactance for 150°C temperature rise designs Conforms to IEEE-597 Class B overload, which requires 150% of load for one minute per hour Designed for the mechanical stress of dc drive current spikes Designed for the thermal and mechanical stress of highly cyclic process control applications Drive isolation transformers provide reactive control of current harmonics for both AC and DC motor drives, either static bridge or SCR switch input type. Reducing current harmonics has two benefits: It decreases line current waveform distortion, which improves the power factor of the motor drive load. It reduces voltage waveform distortion effects in the feeders ahead of the transformer. Reducing voltage distortion can prevent motor drives from affecting sensitive loads, even other motor drives, elsewhere on the service.

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Contact manufacturer Contact manufacturer Datasheet Datasheet
Make Schneider Electric
Manufacturer Schneider Electric
Category Transmission and Distribution>Transformers
Model code 275T145HDIT
Type Drive Isolation Transformer
Unit ratings or power ratings 275 kVA
Primary Voltage 460 V delta
Secondary Voltage 460Y/265 V
No. of Phases 3 phase
Cooling type Dry-type
Operating Temperature: 150 °C
Winding material Aluminium
Insulation class/temperature 220ºC
Weight/Mass 682.78 Kg
Additional info
  • Evaluated according to UL Standard 1561 for effects of harmonic heating
  • Designed for typical harmonics per IEEE 519-1992
  • Meets 4% minimum reactance for 150°C temperature rise designs
  • Conforms to IEEE-597 Class B overload, which requires 150% of load for one minute per hour
  • Designed for the mechanical stress of dc drive current spikes
  • Designed for the thermal and mechanical stress of highly cyclic process control applications
  • Drive isolation transformers provide reactive control of current harmonics for both AC and DC motor drives, either static bridge or SCR switch input type.
  • Reducing current harmonics has two benefits:
    • It decreases line current waveform distortion, which improves the power factor of the motor drive load.
    • It reduces voltage waveform distortion effects in the feeders ahead of the transformer. Reducing voltage distortion can prevent motor drives from affecting sensitive loads, even other motor drives, elsewhere on the service.
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