Operation analysis of a phase‐shifted full‐bridge converter during the dead‐time interval

During the dead‐time interval for a phase‐shifted full‐bridge (PSFB) converter, switches can achieve zero‐voltage switching (ZVS) operation by using the energy stored in the transformer leakage inductance to discharge or charge the output capacitance of the switches. The value of dead‐time has a great effect on ZVS range so it is a key parameter that needs to be optimised during designing the converter. This study develops theoretical analysis to estimate the dead‐time as a function of load current for PSFB converter. The equivalent circuits of PSFB converter during the dead‐time interval with considering magnetising inductance are mainly analysed in this study. Compared with previous analyses, the influences of dead‐time on ZVS range and efficiency are discussed in detail. The analysis results show that the magnetising inductance of transformer can ensure ZVS over a wide range of load conditions, especially under discontinued current mode operation, without a penalty on the heavy‐load efficiency. By adjusting the dead‐time dynamically, both conduction and switching losses can be reduced. A 1 kW prototype is implemented and experimental results are consistent with the theoretical analysis.