A Ferrite Round Rod WPT Coupler for Power Supply of Medium Voltage Devices

2021 12th International Symposium on Advanced Topics in Electrical Engineering (ATEE) Pub Date : 2021-03-25 DOI:10.1109/ATEE52255.2021.9425138

L. Mandache, A. Marinescu

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引用次数: 1

Abstract

Wireless power transfer is currently a disruptive technology with applications in various fields: medicine, communication, industry, road, rail and maritime transport, etc. for transmitted powers ranging from mW up to hundreds of kW. The main problem with all these applications is the distance from the power source (transmitter) to the load (receiver) to be covered by the contactless transmission. This limitation is caused by the operating principle of near-field energy transfer based on the Faraday’s law. The paper deals with a dipolar magnetic (inductive) coupler based on the use of round rod ferrites which allow the increase of the magnetic coupling and provides the possibility to cover distances at least twice as large as compared to the unipolar magnetic coupler with planar coils used in most applications. The properties of these magnetic couplers are determined experimentally and by FEM simulation and compared. An application is presented herein, in which the separation gap of the coupler linked to the required insulation voltage which must be provided for the power supply of high voltage devices.

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中压器件供电用铁氧体圆棒WPT耦合器

无线电力传输目前是一项颠覆性技术，应用于各个领域:医疗，通信，工业，公路，铁路和海上运输等，传输功率从兆瓦到数百千瓦不等。所有这些应用的主要问题是从电源(发射器)到负载(接收器)的距离被非接触式传输覆盖。这种限制是由基于法拉第定律的近场能量转移的工作原理造成的。本文讨论了一种基于使用圆棒铁氧体的偶极磁(感应)耦合器，它允许增加磁耦合，并提供了覆盖距离至少是大多数应用中使用的平面线圈的单极磁耦合器的两倍的可能性。对这些磁力耦合器的性能进行了实验和有限元仿真，并进行了比较。本文介绍了一种应用，其中耦合器的分离间隙与必须为高压设备供电提供的所需绝缘电压相连接。

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 12th International Symposium on Advanced Topics in Electrical Engineering (ATEE)

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