Comparison of Lumped Primary Coil Systems With SAE J2954 Secondary Coils for Dynamic Wireless Charging

2021 IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW) Pub Date : 2021-06-01 DOI:10.1109/WoW51332.2021.9462855

Anna Lusiewicz, N. Parspour, Minyao Chen

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Abstract

In the SAE J2954 standard for stationary wireless charging of electric vehicles, two different coil geometries are proposed: The circular (C) and the double-D (DD) coil system. In the future, electric vehicles are expected to be equipped with the vehicle assembly (VA) coil geometry as proposed in the standard. This can be used as a design criterion for an electrified road, where the installed primary coils have to be compatible to the vehicle coil. In this paper, the two SAE systems are compared to each other regarding the coupling factor stability with a compatible primary side for dynamic wireless charging, i. e., charging while in motion. Therefore, two coil designs have been built up in laboratory, each consisting of three identical primary air coil pads compatible with the corresponding SAE secondary side. The results indicate that the coupling factor for the double-D coil system shows lesser variation along the path than for the circular coil system, but the absolute coupling factor is greater for the circular coil system.

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集总一次线圈系统与SAE J2954二次线圈动态无线充电的比较

在SAE J2954电动汽车固定无线充电标准中，提出了两种不同的线圈几何形状:圆形(C)和双d (DD)线圈系统。未来，电动汽车预计将配备标准中提出的车辆总成(VA)线圈几何形状。这可以用作电气化道路的设计标准，其中安装的初级线圈必须与车辆线圈兼容。本文比较了两种SAE系统在动态无线充电(即运动充电)中具有兼容主侧的耦合系数稳定性。因此，在实验室中建立了两种线圈设计，每个线圈由三个相同的一次空气盘管垫组成，与相应的SAE二次侧兼容。结果表明，双d线圈系统的耦合系数沿路径变化小于圆线圈系统，但绝对耦合系数大于圆线圈系统。

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 PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW)

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