Design of a wireless charging system in DC microgrids with accurate output regulation and optimal efficiency

IF 1.9 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Chenchen Li, Kaiyuan Wang, Y. Mao
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Abstract

This paper presents a general circuit and control design method for wireless power transfer (WPT) systems in DC microgrids to achieve optimal power transfer efficiency, while maintain accurate output voltage regulation. An auxiliary inductor is added at the transmitter resonator to form a current sink to ensure zero voltage switching (ZVS) of the primary-side full-bridge inverter with even extreme-light load conditions. Besides, an adaptive proportional-integral (PI) controller is adopted to track the output voltage references by regulating the phase shift angle of the phase shift control for the full-bridge inverter. The coefficients of the adaptive proportional-integral controller are determined by the inductor of the auxiliary inductor. Both simulation and experimental results have validated the effectiveness of the proposed circuit and control design in achieving optimal efficiency and output voltage regulation for wireless power transfer systems in DC microgrids with source and load variations.
输出调节精确、效率最优的直流微电网无线充电系统设计
本文提出了一种直流微电网无线输电系统的通用电路和控制设计方法,以实现最佳输电效率,同时保持精确的输出电压调节。在发射器谐振器处添加辅助电感器以形成电流汇,从而确保在极端轻负载条件下初级侧全桥逆变器的零电压开关(ZVS)。此外,采用自适应比例积分(PI)控制器通过调节全桥逆变器相移控制的相移角来跟踪输出电压参考。自适应比例积分控制器的系数由辅助电感器的电感器确定。仿真和实验结果都验证了所提出的电路和控制设计在源和负载变化的直流微电网中实现无线电力传输系统的最佳效率和输出电压调节方面的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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