Photovoltaic enhanced UHF RFID tag antennas for dual purpose energy harvesting

2011 IEEE International Conference on RFID Pub Date : 2011-04-12 DOI:10.1109/RFID.2011.5764615

A. Sample, J. Braun, Aaron N. Parks, Joshua R. Smith

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引用次数: 68

Abstract

The most significant barrier to improving passive RFID tag performance for both fixed function ID tags and enhanced RFID tags is the limitation on the amount of power that can be harvested for operation. This paper presents a novel approach for incorporating solar harvesting capability into existing passive RFID tags without increasing the parts count or changing the tag assembly process. Our approach employs the tag's antenna as a dual function element in which the antenna simultaneously harvests RF energy, communicates with the RFID reader, and harvests solar energy for auxiliary power. This is accomplished by using low cost, printable photovoltaics deposited on flexible substrate to form part of the antenna's radiating structure. Several prototype UHF RFID antennas are demonstrated using commercially available thin film, amorphous solar cells. To quantify the improvement in tag performance, Intel's WISP was used as an initial test vehicle. The effective read range of the tag was increased by six times and exceeded the reader's sensitivity limitations. Additionally, the new antenna allowed for sensing and computing operations to take place independent of the RFID reader under typical office lighting conditions.

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光电增强型超高频射频标签天线，用于双重用途的能量收集

对于固定功能ID标签和增强型RFID标签，改进无源RFID标签性能的最重要障碍是可以收集用于操作的功率的限制。本文提出了一种新的方法，将太阳能收集能力纳入现有的无源RFID标签，而不增加零件数量或改变标签组装过程。我们的方法采用标签的天线作为双重功能元件，其中天线同时收集射频能量，与RFID读取器通信，并收集太阳能作为辅助电源。这是通过使用低成本，可打印的光伏沉积在柔性基板上，形成天线辐射结构的一部分来实现的。几个原型超高频射频识别天线演示使用市售薄膜，非晶太阳能电池。为了量化标签性能的改善，英特尔的WISP被用作初始测试工具。该标签的有效读取范围增加了6倍，超过了阅读器的灵敏度限制。此外，新的天线允许在典型的办公室照明条件下独立于RFID阅读器进行传感和计算操作。

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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2011 IEEE International Conference on RFID

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