Maximizing Efficiency while maintaining Voltage Regulation of Wireless Power Transfer Systems using a Buck-Boost Converter

2021 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2021-06-14 DOI:10.1109/APEC42165.2021.9487035

Arpan Laha, P. Jain

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引用次数: 3

Abstract

This paper presents an analysis of a Wireless Power Transfer (WPT) System using a buck-boost converter for voltage regulation with the objective of maximizing efficiency by reducing conduction losses and achieving zero voltage switching (ZVS). Unlike conventional buck-boost converter gain characteristics, the buck-boost converter cascaded with the receiver of a WPT system does not have a monotonically increasing gain curve and instead shows a concave characteristic. Thus, a required output voltage can be obtained with two different values of duty ratio of the buck-boost converter if the voltage gain required is below the maximum attainable gain of the system. This novel work will investigate which duty ratio will yield a higher efficiency at various switching frequencies of the transmitter by considering conduction losses and the ability to obtain ZVS. Discussion on coupling strength between coils and its impact on ZVS capability is also shown. Experimental results on a 5W, 5V output system with the two possible duty ratios are used to verify the analysis.

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最大限度地提高效率，同时保持使用降压转换器的无线电力传输系统的电压调节

本文分析了一种采用降压升压变换器进行电压调节的无线电力传输系统，其目标是通过减少传导损耗和实现零电压开关(ZVS)来最大化效率。与传统的buck-boost变换器增益特性不同，与WPT系统的接收器级联的buck-boost变换器的增益曲线不是单调递增的，而是呈现凹特性。因此，如果所需的电压增益低于系统可获得的最大增益，则可以使用降压-升压转换器的两个不同占空比值获得所需的输出电压。这项新颖的工作将通过考虑传导损失和获得ZVS的能力来研究哪种占空比在发射机的各种开关频率下产生更高的效率。讨论了线圈间的耦合强度及其对ZVS性能的影响。用两种可能占空比的5W, 5V输出系统的实验结果验证了分析的正确性。

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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2021 IEEE Applied Power Electronics Conference and Exposition (APEC)

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