从手持移动波段信号中获取射频能量

2023 International Conference on Wireless Communications Signal Processing and Networking (WiSPNET) Pub Date : 2023-03-29 DOI:10.1109/WiSPNET57748.2023.10134078

K. J. Kumar, Hariharan A, R. L. Yedidiah

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引用次数: 0

摘要

本文设计并测试了一种能够采集/清除GSM频段和Wi-Fi频段环境射频信号的射频能量采集器。该提案的主要应用是在难以接近的位置为低能耗设备供电，并且需要使用可用的无线电源频繁更换电池。这些设备将包含一个合适的天线来捕获这些来自上述频段的射频信号，并将射频波转换为直流电压。射频输入信号首先通过匹配电路，然后是带有可选静电存储装置(如电容器)的整流器，然后是负载。首先利用ADS软件对射频能量收集装置进行了设计和仿真。然后制作了模拟装置，并对其效率进行了分析，并与模拟值进行了比较。在实验室设置中观察到总体平均功率效率为53.76%。然后在真实环境中对该设备进行了测试，并在各种网络负载和与智能手机射频源的不同距离下分析了性能。

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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RF Energy Harvesting from Handheld Mobile Band signals

This paper presents the design and test a RF energy harvester that can harvest / scavenge ambient RF signals from the GSM Band and Wi-Fi band. The main application of this proposal is to power low energy devices at inaccessible locations and require frequent battery changes using the available wireless power sources. These devices will contain a suitable antenna to catch these RF signals from mentioned bands and convert the RF waves to DC voltages. The RF input signal first passes through a matching circuit followed by a rectifier with optional electrostatic storage devices like Capacitors followed by the load. The RF energy harvesting device is first designed and simulated using the ADS software. The simulated device is then fabricated, and its efficiency is analyzed and compared to the simulated values. An overall average power efficiency of 53.76% was observed in a laboratory setup. The device is then tested in a real environment, and the performance was analyzed for various network loads and varying distance from the RF Source which was a Smart Phone in this case.

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来源期刊

2023 International Conference on Wireless Communications Signal Processing and Networking (WiSPNET)

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