LINE POWER CONDITIONER

Isolation transformers include insulation transformers, shielding transformers, and interference wave blocking transformers. Each has different characteristics and different production methods. Line Power Conditioner refers to the Noise cut transformer with
built-in  AVR functionality among the three fabrication  methods (see Single and Three-Phase Automatic Voltmeter Controls for SIZE and MODEL on LPCs).

Isolation Transformer comparison

a person’s name Structure characteristic
Insulating Transformer The primary and secondary coils are completely separated and wound to prevent voltage current from being directly connected to the secondary side The first and second rounds are completely separated.a lack of prospects
Shield Transformer A capacitive shielding plate is attached between  the primary and secondary windings to prevent high frequency (noise) in the voltage current from being induced to the secondary through the distribution capacity on the primary side The first and second parts are separated.There is no electrostatic coupling.
Noise
cutTransfotmer
A  multi-coated electronic shield plate is installed outside the coil and the transformer, and  the magnetic flux of the core and coil does not cross between coils to prevent conduction of noise by electromagnetic induction. The primary and secondary are separated, there is no electrostatic coupling, and there is no high-frequency electromagnetic induction.
Insulation transformer a shielded transformer Interference wave cut-off transformer
*Normal
mode and Com
mode both Noise pass
Normal Mode passes.
Com Mode frequency isIt prevents the lower part.Pass the high part.
Prevent both Normal
Mode and Com
Mode Noise
Normal Mode Noise Normal Mode Noise Normal Mode Noise
Comom Mode Noise Comom Mode Noise Comom Mode Noise
Above: Primary
side voltage waveform (Noise mixed)Below: Secondary side voltage waveform (Secondary side induction  state)
*Measurement : Y axis 100V/divX axis 1ms/div
Above: Primary
side voltage waveform (Noise mixed)Below: Secondary side voltage waveform (Secondary side induction  state)  *Measurement : Y axis 100V/divX axis 1ms/div
Above: Primary
side voltage waveform (Noise mixed)
Below : Secondary voltage waveform ( clean secondary status )
*Measurement : Y axis 100V/divX axis 1ms/div