Antithetical Design Methodologies of Position-Free Transmitter Coils in Wireless Power Transfer

2022 IEEE Design Methodologies Conference (DMC) Pub Date : 2022-09-01 DOI:10.1109/DMC55175.2022.9906537

Chang Wang, Yi Dou, Gabriel Zsurzsan, Z. Ouyang, Zhe Zhang, M. Andersen

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Abstract

This paper presents design concepts, design implementation and results evaluation of two antithetical design methodologies for transmitter coils in inductive power transfer (IPT) systems. The IPT transmitter coil design targets at achieving homogeneous-flux distribution at the receivers’ position, thus, the limited misalignment can be fully countered by passive magnetic design. However, different design effort is expected based on the coil’s structure, and corresponding modelling and design methods. In this investigation, we adopted two methodologies for the homo-flux transmitter coil design: one is to derive an analytical solution and the other is to explore a Finite Element Analysis (FEA) based solution. By implementing the genetic algorithm (GA) as the optimization tool, both design methods can generate the optimal structure of transmitter coils. However, different design complexity, calculating efforts and slightly different results are observed. The result evaluation is presented in this paper with finite-element-analysis (FEA) simulation and experimental results. A 6.78 MHz 48V-12V 20W experimental prototype is demonstrated to verify the analysis.

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无线电力传输中无位置发射线圈的相对设计方法

本文介绍了感应功率传输(IPT)系统中两种相对设计方法的设计概念、设计实现和结果评价。IPT发射线圈的设计目标是在接收机位置实现均匀的磁通分布，因此，有限的不对准可以通过被动磁设计完全抵消。然而，根据线圈的结构，以及相应的建模和设计方法，期望不同的设计努力。在本研究中，我们采用了两种方法来设计同质磁通发射器线圈:一种是推导解析解，另一种是探索基于有限元分析(FEA)的解。通过采用遗传算法作为优化工具，两种设计方法都能生成最优的发射线圈结构。然而，不同的设计复杂性，计算工作量和结果略有不同。本文用有限元分析(FEA)仿真和实验结果对结果进行了评价。通过6.78 MHz 48V-12V 20W实验样机验证了分析结果。

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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2022 IEEE Design Methodologies Conference (DMC)

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