Design and Analysis of Wireless Power Transfer using Stacked Coil PCB for Inductive Power Charging

2023 International Conference on Energy, Power, Environment, Control, and Computing (ICEPECC) Pub Date : 2023-03-08 DOI:10.1109/ICEPECC57281.2023.10209446

Eko Ramadhan, H. Suryoatmojo, A. Priyadi, M. Alaydrus

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Abstract

A wireless power system or wireless power transfer is an alternative for energy distribution using air or wireless media. This electrical energy transmission uses air as the medium to distribute energy where the energy source and load are located far apart. Therefore, many researchers are trying to increase the mutual coupling between coils to increase efficiency. One of the ways to improve mutual coupling is using a stacked coil PCB. Based on the proposed design, a rectangular design using FR4 PCB with dimensions of $5.4 \times 5.4 {\mathrm {cm}}$. Stacked coil fabrication with 5 turns as a transmitter and on the receiving side of a Stacked coil of 10 turns and a non-stacked coil of 1 turn as a comparison. Obtained from the S21 measurement received by the 10 turns coil, it has a value of 25dB with VNA and −29dB with SA, and −16dB with simulation. While the results from winding 1 with a distance of 5 cm obtained an S21 the values are −44dB, −52dB, and −37dB respectively.

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叠卷式PCB感应充电无线电力传输设计与分析

无线电源系统或无线电源传输是使用空气或无线媒体的能量分配的替代方案。这种电能传输使用空气作为介质，在能量源和负载相距很远的地方分配能量。因此，许多研究者试图通过增加线圈之间的相互耦合来提高效率。改善相互耦合的方法之一是使用堆叠线圈PCB。根据所提出的设计方案，采用尺寸为5.4 × 5.4 {\ mathm {cm}}$的矩形FR4 PCB进行设计。以5匝堆叠线圈作为发射端，在接收端使用10匝堆叠线圈和1匝非堆叠线圈作为比较。从10匝线圈接收的S21测量得到，VNA值为25dB, SA值为- 29dB，仿真值为- 16dB。而距离为5 cm的绕组1的结果为S21，其值分别为- 44dB， - 52dB和- 37dB。

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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2023 International Conference on Energy, Power, Environment, Control, and Computing (ICEPECC)

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