Revolutionizing Connectivity: The Breakthrough of Batteryless Mouse Using Magnetic Resonant Coupling for Communication Devices

Journal of Engineering Technology and Applied Physics Pub Date : 2023-09-15 DOI:10.33093/jetap.2023.5.2.11

Lin Lin Han, Chia Chao Kang, Jian Ding Tan, Mohammadmahdi Ariannejad, Steven Yong Choong Hong, Ming Yam Chua

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Abstract

With the rapid development of electronic technology and information technology, personal computer has gradually become the public's office or entertainment tools, which also makes the computer mouse a widely used tool. However, most computer mouse on the market today come with batteries. In this context, it is necessary to design a batteryless mouse that without using power supply such as battery. In view of such demand, on the basic of theoretical analysis, this paper summarizes and designs a classical wireless transmission structure – magnetic resonant coupling and antenna that used to transmit and received power for communication devices. In order to understand the operation of wireless power transmission technology, the paper analysed antenna construction and wireless power transmission technology. The basic design parameters of the axial mode helical antenna structure are also explained. Finally, by using CST STUDIO software, axial mode helical antenna with gain of 6.45 dBi was obtained. The system's output voltage is successfully simulated at 1.516 V that can powered up the computer mouse.

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革命性的连接:使用磁谐振耦合的通信设备的无电池鼠标的突破

随着电子技术和信息技术的飞速发展，个人电脑逐渐成为大众的办公或娱乐工具，这也使得电脑鼠标成为一种被广泛使用的工具。然而，目前市场上的大多数电脑鼠标都是带电池的。在这种情况下，有必要设计一种不使用电池等电源的无电池鼠标。针对这一需求，本文在理论分析的基础上，总结并设计了一种经典的无线传输结构——磁谐振耦合器和天线，用于通信设备的收发功率。为了了解无线电力传输技术的工作原理，本文对天线结构和无线电力传输技术进行了分析。介绍了轴向型螺旋天线结构的基本设计参数。最后，利用CST STUDIO软件，得到了增益为6.45 dBi的轴向型螺旋天线。系统的输出电压成功地模拟为1.516 V，可以为计算机鼠标供电。

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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Journal of Engineering Technology and Applied Physics

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