Difference in geometrically optimized wireless power transmission systems with SS and SP compensations

2021 IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW) Pub Date : 2021-06-01 DOI:10.1109/WoW51332.2021.9462884

R. Aubakirov, A. Danilov

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Abstract

Geometric optimization of the coils takes important part in the design of the inductive powering systems. This paper presents the evaluation of the geometry of the coils integrated in the two different inductive powering systems, with series-series (SS) and series-parallel (SP) compensation circuits. The both systems are designed in order to provide 1±0.1 W to the 20 Ohm load at the distance equal to the 10 mm and in the presence of lateral displacements in the range 0…30 mm. Operating frequency was 880 kHz. The receiving coils were identical for the both systems. The transmitting coils have the same inner and outer radii, 30 mm and 27 mm respectively. At the same time, the turns numbers differs notably. It was significantly higher for SS system (16 instead of 5). Consequently, the transmitting coil for the SS-system have much higher self-inductance. It was found that the output characteristics of the both systems as a function of the lateral displacement are almost the same. On the other hand, the swap of the coils couple between systems change the output characteristic dramatically.

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具有SS和SP补偿的几何优化无线电力传输系统的差异

线圈的几何优化是感应供电系统设计的重要组成部分。本文介绍了两种不同的电感供电系统中集成线圈的几何形状的评估，其中包括串联(SS)和串并联(SP)补偿电路。这两种系统的设计目的是在距离等于10 mm的情况下，在0…30 mm范围内存在横向位移的情况下，为20欧姆负载提供1±0.1 W。工作频率为880千赫。两个系统的接收线圈是相同的。发射线圈的内外半径相同，分别为30mm和27mm。同时，回合数也有显著差异。对于SS系统(16而不是5)，它明显更高。因此，SS系统的发射线圈具有更高的自感。结果表明，两种系统的输出特性作为侧向位移的函数几乎相同。另一方面，系统间线圈耦合的交换极大地改变了输出特性。

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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