Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
Constant Voltage Transformer
cvt
cvt - inside
Constant Voltage Transformer
cvt
cvt - inside
CVT 3-Phase
Constant Voltage Transformer
cvt
cvt - inside
CVT 3-Phase
Constant Voltage Transformer
cvt
cvt - inside
CVT 3-Phase
Constant Voltage Transformer
cvt
cvt - inside
CVT 3-Phase
Constant Voltage Transformer
cvt
cvt - inside
CVT 3-Phase

CONSTANT VOLTAGE TRANSFORMER


When faced with an extreme transient such as a local lighting strike, the CVT will present a low impedance to the mains protecting both itself and any connected loads. The ferro-resonant transformer technology ensures that CVT will generate a perfect sine wave output even when fed from square or quasi-square wave sources. A CVT is also the most efficient way to drive a switched mode power supply(SMPS), and provides harmonic buffering.

Features :

  • Galvanic isolation
  • High common and normal
  • mode noise attenuation
  • Sag, surge and brownout protection
  • Sine wave output (regardless of input waveform)
  • Low installation heat output and running costs
  • (maintenance free)
  • High Mean Time Between
  • Failure (MTBF)
  • Easy to install

Application :

  • Process control
  • Automation
  • Computer system
  • Broadcasting
  • Medical
  • Air, rail, ship