Yu-Hao Lai scite author profile

A high-performance rectifier is introduced in this study. The proposed rectifier combines the conventional pulse width modulation, soft commutation, and instantaneously average line current control techniques to promote circuit performance. The voltage stresses of the main switches in the rectifier are lower than those in conventional rectifier topologies. Moreover, conduction losses of switches in the rectifier are certainly lower than those in conventional rectifier topologies because the power current flow path when the main switches are turned on includes two main power semiconductors and the power current flow path when the main switches are turned off includes one main power semiconductor. The rectifier also adopts a ZCS-PWM auxiliary circuit to derive the ZCS function for power semiconductors. Thus, the problem of switching losses and EMI can be improved. In the control strategy, the controller uses the average current control mode to achieve fixed-frequency current control with stability and low distortion. A prototype has been implemented in the laboratory to verify circuit theory.

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A high power factor ZCS-PWM transformer-isolated voltage-double boost rectifier

Wang

Lin

Lai

2011

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High-power-factor ZCS-PWM DC power supply system

Wang

Lai

Chen

et al. 2015

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Yu-Hao Lai

A soft-switching inverter using a voltage clamp soft-switching step-up/down DC link

Zero-current-transition current-fed full-bridge PWM converter

Analysis, Design, and Implementation of a High-Performance Rectifier

A high power factor ZCS-PWM transformer-isolated voltage-double boost rectifier

High-power-factor ZCS-PWM DC power supply system

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