Design and Modeling of Auxiliary Misalignment Detection Coils for Dynamic Wireless Electric Vehicle Charging Systems

2021 IEEE Transportation Electrification Conference & Expo (ITEC) Pub Date : 2021-06-21 DOI:10.1109/ITEC51675.2021.9490124

Youssef Louca, Eiman ElGhanam, Mohamed S. Hassan, A. Osman

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引用次数: 2

Abstract

Due to the inherent misalignment variations in dynamic wireless electric vehicle (EV) charging systems, it is essential to implement effective misalignment detection and correction techniques to maximize the amount of energy received by the EV. A misalignment detection system consists of detector coils or sensors, and the corresponding detection circuitry. In this work, the design details of the auxiliary misalignment detection coils are presented. In particular, the paper investigates the effect of the number of turns of the auxiliary coils, their turn-to-turn spacing, and their positions relative to the edges of the secondary coil, on their lateral misalignment detection capability. Based on the conducted simulations, it is observed that increasing the number of turns as well as the turn-to-turn spacing of the auxiliary coils both significantly improve their misalignment detection capability by improving the resultant mutual inductance variations with lateral misalignments. Also, the optimal position of the auxiliary coils is determined to be 200 mm from both edges of the secondary coil.

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动态无线电动汽车充电系统辅助不对中检测线圈的设计与建模

由于动态无线电动汽车(EV)充电系统固有的不对准变化，必须实施有效的不对准检测和校正技术，以最大限度地提高EV接收的能量。不对准检测系统由检测线圈或传感器以及相应的检测电路组成。本文介绍了辅助失准检测线圈的设计细节。特别地，本文研究了辅助线圈的匝数、匝间距以及相对于次级线圈边缘的位置对其横向错位检测能力的影响。仿真结果表明，增加辅助线圈的匝数和匝间间距，通过改善横向错位产生的互感变化，可以显著提高辅助线圈的错位检测能力。此外，辅助线圈的最佳位置被确定为距离次级线圈的两侧200毫米。

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 Transportation Electrification Conference & Expo (ITEC)

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