Innovative Design of Pixelated Electrode Plates for Capacitive Wireless Charging

2020 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM) Pub Date : 2020-08-26 DOI:10.1109/iWEM49354.2020.9237431

Ching-Lieh Li, He-Di Liu, Wei‐Hsuan Tang, Yu-Jen Chi

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Abstract

This paper investigates the design of a pixelated electrode plates for capacitive wireless charging suited for mobile phone with metal shell. The study focuses on solving the problem that the effective coupling area (ECA) is relatively small when the secondary electrode plate is shifted in X direction and/or in Y direction and the variation of ECA is kept low. For the first time, the novel concept of “vacant” pixel is introduced into the capacitive charging plate, via which the above mentioned problem of small ECA, caused by the placement offset of the secondary electrode plate, is overcome. A tristate discrete particle swarm optimization (TDPSO) scheme is applied to optimize the pixel distribution of both pixelated positive and negative electrode plates, and the vacant pixel distribution in between. Via the global search scheme TDPSO we are able to determine the shapes of positive and negative electrodes for both the primary side (charging board) and the secondary side (charged board, such as a mobile phone).

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电容式无线充电像素化极板的创新设计

本文研究了一种适用于金属外壳手机电容式无线充电的像素化极板的设计。研究的重点是解决二次极板在X方向和/或Y方向移动时，有效耦合面积(ECA)较小而保持ECA变化较小的问题。本文首次在电容式充电板中引入了“空”像素的新概念，克服了由于二次极板的放置偏移造成的小ECA问题。采用三态离散粒子群优化(TDPSO)方法对像素化的正负极板像素分布以及正负极板之间的空像素分布进行优化。通过全局搜索方案TDPSO，我们能够确定一次侧(充电板)和二次侧(充电板，如手机)的正负极形状。

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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来源期刊

2020 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM)

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