A Family of Single-Stage AC/DC Converters Integrated Interleaved PFC and Resonant DC/DC Circuits

Abstract

To address the high bus issue of conventional boost or buck-boost PFC integrated resonant DC/DC type single-stage converters under high voltage input, a family of single-stage AC/DC converters integrated interleaved PFC and resonant DC/DC circuits is proposed in this paper. Unlike traditional solutions, the AC input voltage of the proposed three interleaved PFC structures is divided into two parts by two capacitors before the rectifier bridge. Thus, two high-frequency power diodes and one filter capacitor are omitted. Furthermore, the reduced bus voltage can be simultaneously obtained with fewer devices. Correspondingly, a better zero-crossing performance of input current can be achieved theoretically. Most importantly, the circuit efficiency also can be increased. Using the common LLC circuit as DC/DC stages, simulations in PSIM are performed to verify the improved zero-crossing of input current. To introduce the proposed converters, the operation principles, design considerations, experimental results, and related comparisons for the proposed structure II with LLC cell are presented comprehensively, achieving at least a 2.3% improvement in efficiency under 220Vac nominal input and 100W load conditions, while maintaining reduced bus voltage and similar PF values. In addition, the experimental results of the topology I and III are also given to prove the validity of the proposed family converters.