Analysis and Suppression of Rectifier Diode Voltage Oscillation Mechanism in IPOS High-Power PSFB Converters

Abstract: Parasitic oscillations in the rectifier diode voltage of phase-shifted-full-bridge (PSFB) converters limit their application in high-voltage and high-power situations. The conventional analysis method for parasitic oscillation in rectifier diode voltage in PSFB converters treats the filter inductor as a constant current source and fails to consider the impact of changes in filter inductor current on the rectifier diode’s parasitic oscillation. Consequently, this approach does not apply when analyzing the recti… Show more

“…When the PSFB converter is applied to high-power and high-voltage gain applications, its primary-side switching tubes and secondary-side rectifier diodes will be subjected to large current-voltage stresses [14]. The series-parallel combination of several basic PSFB converter modules is an efficient way to extend power capacity.…”

Novel Series-Parallel Phase-Shifted Full-Bridge Converters with Auxiliary LC Networks to Achieve Wide Lagging-Leg ZVS Range

“…When the PSFB converter is applied to high-power and high-voltage gain applications, its primary-side switching tubes and secondary-side rectifier diodes will be subjected to large current-voltage stresses [14]. The series-parallel combination of several basic PSFB converter modules is an efficient way to extend power capacity.…”

Novel Series-Parallel Phase-Shifted Full-Bridge Converters with Auxiliary LC Networks to Achieve Wide Lagging-Leg ZVS Range

Reconfigurable spin tunneling diode and giant tunneling magnetoresistance in a symmetric van der Waals double-barrier magnetic tunnel junction