Analysis and implementation of a new zero current switching flyback inverter

Summary In this paper, a novel zero current switching (ZCS) flyback inverter in discontinuous conduction mode (DCM) is proposed. In the proposed flyback inverter, the ZCS for the primary switch is achieved by adding a simple auxiliary circuit to the conventional flyback inverter. Also, the auxiliary switch is turned on and turned off at ZCS condition. Therefore, the switching losses of the switches are negligible, which increases the efficiency and allows higher switching frequency and more compact design. The resonant auxiliary cell is activated only in short transition times that makes its conduction losses negligible. Furthermore, the voltage overshoot of the main switch is limited during the turn‐off process, which allows utilization of lower voltage metal‐oxide semiconductor field‐effect transistors (MOSFETs) with low conduction losses and low cost. The detailed operation of the flyback inverter with auxiliary circuit and design considerations are presented. Simulation and experimental results are presented to verify the performance of the proposed inverter. A novel zero current switching flyback inverter is proposed. The switching losses of the all switches are negligible, which increases the efficiency and allows higher switching frequency and more compact design. The voltage overshoot of the main switch is limited during the turn‐off process.