An Improved Ground Stability in Shielded Capacitive Wireless Power Transfer

2019 International Conference on Sustainable Energy Engineering and Application (ICSEEA) Pub Date : 2019-10-01 DOI:10.1109/icseea47812.2019.8938613

A. Muharam, Suziana Ahmad, R. Hattori, Daiki Obara, M. Masuda, Kristian Ismail, A. Hapid

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引用次数: 7

Abstract

A shielded capacitive power transfer (S-CPT), a method of wireless power transmission (WPT) in which using electric field resonant (EFR) with an improved ground stability is proposed in this paper. The feature of ground stability can be succeeded simultaneously by using 1:1 Ruthroff transmission line transformer (TLT) balun. The unbalanced condition from the power source is converted to the balanced condition by the transformer. The analytical study of the shield plate voltage stability is also described both the simulation and hardware experiment. By using Spice software, with the proposed system, the simulation results show the constant zero voltage value from the shield plate to the ground. An experiment was conducted for validations of the proposed S-CPT with balun at 6.78 MHz resonant frequency. A measured shield voltage was compared under the unbalanced and balanced condition with the value of 20 V (peak to peak) and steadily of 5 V (peak to peak). An enhancement of the shield voltage ground stability is developed successfully with 75% of swing voltage reduced by the implementation of the TLT balun.

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屏蔽电容式无线电力传输中对地稳定性的改进

本文提出了一种利用电场谐振(EFR)提高地面稳定性的无线输电方法——屏蔽电容式输电(S-CPT)。采用1:1 Ruthroff传输线变压器(TLT)平衡器可以同时实现接地稳定的特点。电源的不平衡状态通过变压器转化为平衡状态。本文还对屏蔽板电压稳定性的分析研究进行了仿真和硬件实验。利用Spice软件，对所设计的系统进行了仿真，结果显示屏蔽板到地端的电压值为恒零。在6.78 MHz谐振频率下进行了带平衡的S-CPT实验验证。在不平衡和平衡状态下，将测量到的屏蔽电压与20 V(峰对峰)和稳定的5 V(峰对峰)进行比较。通过实施TLT平衡器，成功地提高了屏蔽电压的接地稳定性，降低了75%的摆电压。

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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2019 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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