Enhancing Wireless Power Transmission Efficiency via Resonant Coupling into Coil and Wire Parameters

International Journal of Global Optimization and Its Application Pub Date : 2023-12-31 DOI:10.56225/ijgoia.v2i4.263

Poh Soon JosephNg, T. A. Taha, A. T. Hussain, H. Zaynal, S. A. Ahmed

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Abstract

The concept of wireless power transmission involves the transfer of electrical energy from a power source to an electrical load without wires. The technology has become widely used in various mobile, industrial, and medical fields. This innovation eliminates the need for wires and batteries, making it a convenient and safe option for all users. Inductive and resonant coupling are the most commonly used methods for wireless power transmission. This work delves into designing and developing wireless power transmission hardware. A wireless power system comprises a transmitter (primary coil) and a receiver (secondary coil). The primary coil produces a magnetic field by passing alternating current through it. The secondary coil is then positioned close to the primary coil. When the two devices make contact, the primary and secondary coils become magnetically linked, causing the power to transfer from transmitter to receiver. To optimize the wireless power transmission using a resonant coupling, the paper tests and analyzes how different wire diameters, coil diameters, and the number of coils affect the output power.

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通过对线圈和导线参数的谐振耦合提高无线电力传输效率

无线电力传输的概念是在不使用电线的情况下，将电能从电源传输到电力负载。这项技术已广泛应用于各种移动、工业和医疗领域。这种创新无需电线和电池，为所有用户提供了方便和安全的选择。感应耦合和谐振耦合是最常用的无线电力传输方法。本作品深入探讨了无线电力传输硬件的设计和开发。无线供电系统由发射器（初级线圈）和接收器（次级线圈）组成。初级线圈通过交流电产生磁场。次级线圈紧靠初级线圈。当这两个装置接触时，初级线圈和次级线圈就会发生磁力链接，从而使电力从发射器传输到接收器。为了优化使用谐振耦合的无线电力传输，论文测试并分析了不同的导线直径、线圈直径和线圈数量对输出功率的影响。

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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International Journal of Global Optimization and Its Application

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