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ZVT Series Capacitor Interleaved Buck Converter with High Step-Down Conversion Ratio
Zhang-yong Chen,Yong Chen,Wei Jiang,Tiesheng Yan 전력전자학회 2019 JOURNAL OF POWER ELECTRONICS Vol.19 No.4
Voltage step-down converters are very popular in distributed power systems, voltage regular modules, electric vehicles, etc. However, a high step-down voltage ratio is required in many applications to prevent the traditional buck converter fromoperating at extreme duty cycles. In this paper, a series capacitor interleaved buck converter with a soft switching technique isproposed. The DC voltage ratio of the proposed converter is half that of the traditional buck converter and the voltage stressacross the one main switch and the diodes is reduced. Moreover, by paralleling the series connected auxiliary switch and theauxiliary inductor with the main inductor, zero voltage transition (ZVT) of the main switches can be obtained without increasingthe voltage or current stress of the main power switches. In addition, zero current turned-on and zero current switching (ZCS) ofthe auxiliary switches can be achieved. Furthermore, owing to the presence of the auxiliary inductor, the turned-off rate of theoutput diodes can be limited and the reverse-recovery switching losses of the diodes can be reduced. Thus, the efficiency of theproposed converter can be improved. The DC voltage gain ratio, soft switching conditions and a design guideline for the criticalparameters are given in this paper. A loss analysis of the proposed converter is shown to demonstrate its advantages overtraditional converter topologies. Finally, experimental results obtained from a 100V/10V prototype are presented to verify theanalysis of the proposed converter.
ZVT Series Capacitor Interleaved Buck Converter with High Step-Down Conversion Ratio
Chen, Zhangyong,Chen, Yong,Jiang, Wei,Yan, Tiesheng The Korean Institute of Power Electronics 2019 JOURNAL OF POWER ELECTRONICS Vol.19 No.4
Voltage step-down converters are very popular in distributed power systems, voltage regular modules, electric vehicles, etc. However, a high step-down voltage ratio is required in many applications to prevent the traditional buck converter from operating at extreme duty cycles. In this paper, a series capacitor interleaved buck converter with a soft switching technique is proposed. The DC voltage ratio of the proposed converter is half that of the traditional buck converter and the voltage stress across the one main switch and the diodes is reduced. Moreover, by paralleling the series connected auxiliary switch and the auxiliary inductor with the main inductor, zero voltage transition (ZVT) of the main switches can be obtained without increasing the voltage or current stress of the main power switches. In addition, zero current turned-on and zero current switching (ZCS) of the auxiliary switches can be achieved. Furthermore, owing to the presence of the auxiliary inductor, the turned-off rate of the output diodes can be limited and the reverse-recovery switching losses of the diodes can be reduced. Thus, the efficiency of the proposed converter can be improved. The DC voltage gain ratio, soft switching conditions and a design guideline for the critical parameters are given in this paper. A loss analysis of the proposed converter is shown to demonstrate its advantages over traditional converter topologies. Finally, experimental results obtained from a 100V/10V prototype are presented to verify the analysis of the proposed converter.