N. Pournoori, Muhammad Waqas Ahmad Khan, L. Ukkonen, T. Björninen
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引用次数: 6
摘要
射频(RF)能量清除是为低功耗无线设备供电的一种引人注目的方法。我们提出了一个能量收集系统,由一个低功率射频开关电路和一个无源超高频射频标签组成。当存储电容端电压超过0.58 V时,射频开关将超高频RFID微芯片连接到偶极子型标签天线上。通过这种方式,RFID读取器可以以最小的功耗在收割机上无线检测电荷存储水平。在本文中,我们详细介绍了该系统的开发,并给出了仿真和测量的结果。总体而言,我们能够在存储电容处实现0.58 V,并在5.1 m距离处检测存储电平指示标签,在实验中,将常规8.7 dBi贴片天线连接到发射2.5 W EIRP的RFID读取器的采集器输入和输出。
RF Energy Harvesting System with RFID-Enabled Charge Storage Monitoring
Radio frequency (RF) energy scavenging is a compelling approach to energize the low-power wireless devices. We present an energy harvesting system consists of a low-power RF switch circuitry and a passive UHF RFID tag. When the voltage at the storage capacitor terminals exceeds 0.58 V, RF switch connects the UHF RFID microchip to a dipole-type tag antenna. This way, an RFID reader can detect the charge storage level wirelessly with minimal power consumption at the harvester. In this paper, we detail the development of the system and present results from both simulations and measurement. Overall, we were able to achieve 0.58 V at the storage capacitor and detect the storage level indicator tag at the distance of 5.1 m in an experiment where regular 8.7 dBi patch antennas were connected to the harvester input and output of an RFID reader emitting 2.5 W EIRP.
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