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A Mode-Switching-Based Phase Shift Control for Optimized Efficiency and Wide ZVS Operations in Wireless Power Transfer Systems

Gangwei Zhu, Jianning Dong, Wenli Shi, Thiago Batista Soeiro, Junzhong Xu, Pavol Bauer

2022IEEE Transactions on Power Electronics52 citationsDOIOpen Access PDF

Abstract

This article proposes a mode-switching-based phase shift control (MS-PSC) for wireless power transfer (WPT) systems, which is able to achieve power regulation, load matching, and wide ZVS operations simultaneously without using additional dc–dc converters. Based on the mode transitions between the full-bridge, mixed-bridge, and half-bridge modes of both the inverter and the rectifier, the MS-PSC method guarantees a wide-range ZVS with minimized circulation of reactive power. Therefore, the system efficiency is improved over a wider power range compared to the conventional triple-phase-shift (TPS) control and the existing hybrid modulation control. The principles of different operating modes are analyzed. Then, the implementation of the proposed MS-PSC method and the mode selection strategy are presented. Finally, the effectiveness of the proposed MS-PSC method is validated in a WPT prototype. Experimental results show that the proposed MS-PSC method can achieve a high overall efficiency in a wide power range. Compared with the conventional TPS control, the MS-PSC method further optimizes the efficiency in 10%–63% of the rated power, with efficiency improvements ranging from 1.5% to 6%. As a result, the system efficiency remains at 93.5%–96.1% in the power range of 1–10 kW, with the transformer coupling coefficient k = 0.19.

Topics & Concepts

Wireless power transferMaximum power transfer theoremConvertersTransformerPower controlElectronic engineeringPower (physics)Computer scienceControl theory (sociology)WirelessEngineeringElectrical engineeringControl (management)VoltageTelecommunicationsPhysicsArtificial intelligenceQuantum mechanicsWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksMXene and MAX Phase Materials
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