ZVS DC/DC Converter Based on Two Three-Level PWM Circuits Sharing the Same Power Switches

This paper proposes a zero-voltage switching (ZVS) pulsewidth modulation (PWM) dc/dc converter with current double rectifiers to achieve ZVS for all switches under a wide range of load conditions and input voltages. Two three-level PWM circuits sharing the same power switches are adopted in the proposed converter to reduce the voltage stress of each MOSFET at V_in/2 and achieve load current sharing. Thus, the current stress and power rating at the secondary-side components are reduced. The current double rectifiers are used at the secondary side to partially cancel the output ripple current. Thus, the sizes of the magnetic components and output filter capacitance are reduced. Due to the resonant behavior by the resonant inductance and resonant capacitance at the transition interval, all switches are turned on at ZVS. The experimental results based on a 1-kW prototype are provided to verify the operation principle of the proposed converter.