Inductive resonant power transfer and topology consideration

2017 IEEE 3rd International Conference on Engineering Technologies and Social Sciences (ICETSS) Pub Date : 2017-08-01 DOI:10.1109/ICETSS.2017.8324197

I. Adam, K. Kadir, Sheroz Khan, A. Nurashikin, H. Mansor

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引用次数: 1

Abstract

This paper aims to study the performance of all basic inductive resonant wireless power transfer (WPT) topologies for power transfer efficiency, using the effect of circuit topology in affecting the coefficient of coupling. In the study, all the four basic inductive resonant wireless power transfer topologies are analyzed and simulated. The simple T-equivalent circuit is used to represent the system and MATLAB® are used as the backbone in the analysis. The analysis shows that the parallel-to-series and parallel-to-parallel topology configurations give the best power transfer efficiency. The results show that parallel to series and parallel to parallel average power transfer efficiency referring to coefficient coupling (k) are 81% and 80% respectively, compared to the series-to-parallel and series-to-series which are almost 70% accordingly. The study provides evidence of further system analysis for parallel to series and parallel-to-parallel WPT topologies. The results of the analysis would prove useful in furthering insight into its application such wireless battery charging of electric vehicles.

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感应谐振功率传输和拓扑考虑

本文旨在利用电路拓扑对耦合系数的影响，研究所有基本感应谐振无线功率传输(WPT)拓扑在功率传输效率方面的性能。在研究中，对四种基本的感应谐振无线电力传输拓扑进行了分析和仿真。采用简单的t等效电路表示系统，并使用MATLAB®作为分析的主干。分析表明，并联到串联和并联到并联的拓扑结构具有最佳的功率传输效率。结果表明，以耦合系数(k)计算，并联和并联的平均功率传输效率分别为81%和80%，而串联和串联的平均功率传输效率几乎为70%。该研究为并行到串联和并行到并行WPT拓扑结构的进一步系统分析提供了证据。分析结果将有助于进一步深入了解其应用，如电动汽车的无线电池充电。

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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2017 IEEE 3rd International Conference on Engineering Technologies and Social Sciences (ICETSS)

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