A soft-switching multi-phase converter with coupled inductors and switch-time-delay control

There is an increasing demand to implement soft-switching techniques to inductor coupled power converters in order to reduce their overall profiles and costs. This paper proposes a simple, low cost method to soft switch multi-phase converters. Specifically, a switch-time-delay control instead of auxiliary circuit is implemented to the positively coupled inductors. By taking the benefit of voltage coupling effect of the inductors wound on the same magnetic core, resonance between the leakage inductance and the parasitic capacitor is properly utilized during the delay time, and zero-voltage-switching (ZVS) of the power switches is achieved. In additional to detailed theoretical analysis, experimental results verify the feasibility and effectiveness of the proposed concept.

[1]  Xuefeng Hu,et al.  A High Voltage Gain DC–DC Converter Integrating Coupled-Inductor and Diode–Capacitor Techniques , 2014, IEEE Transactions on Power Electronics.

[3]  Jih-Sheng Lai,et al.  An active current reconstruction and balancing strategy with DC-link current sensing for a multi-phase coupled-inductor converter , 2012, 2010 IEEE Energy Conversion Congress and Exposition.

[4]  Hyun-Lark Do,et al.  Zero-Voltage-Switching Synchronous Buck Converter With a Coupled Inductor , 2011, IEEE Transactions on Industrial Electronics.

[5]  Jun Imaoka,et al.  Characteristics analysis and performance evaluation for interleaved boost converter with integrated winding coupled inductor , 2013, 2013 IEEE Energy Conversion Congress and Exposition.

[6]  Yingqi Zhang,et al.  A new soft switching technique for buck, boost and buck-boost converters , 2002 .

[7]  Caisheng Wang,et al.  Analysis of Inductor Current Sharing in Nonisolated and Isolated Multiphase dc–dc Converters , 2007, IEEE Transactions on Industrial Electronics.

[8]  Wuhua Li,et al.  Application Summarization of Coupled Inductors in DC/DC Converters , 2009, 2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition.

[9]  Ying-Che Kuo,et al.  Analysis and implementation of an interleaved ZVS buck converter with coupled-inductors , 2011, 2011 6th IEEE Conference on Industrial Electronics and Applications.

[10]  Siqi Li,et al.  Analysis and Design of a New Soft-Switching Boost Converter With a Coupled Inductor , 2014, IEEE Transactions on Power Electronics.

[11]  Qiang Li,et al.  High-Density Low-Profile Coupled Inductor Design for Integrated Point-of-Load Converters , 2013, IEEE Transactions on Power Electronics.

[12]  Dehong Xu,et al.  A magnetic integration structure for the buck-cascaded half-bridge DC-DC converter , 2008, 2008 IEEE Power Electronics Specialists Conference.

[13]  Chunting Chris Mi,et al.  An Improved Soft-Switching Buck Converter With Coupled Inductor , 2013, IEEE Transactions on Power Electronics.