Realisation of a High Spectral Efficient Chipless RFID Tag using Hairpin Resonators

2019 IEEE Asia-Pacific Microwave Conference (APMC) Pub Date : 2019-12-01 DOI:10.1109/APMC46564.2019.9038844

F. Babaeian, Jiewei Feng, N. Karmakar

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引用次数: 8

Abstract

Recently, chipless radio frequency systems have significant development and are going to be commercialised in the near future. Due to the planar structure of the chipless tags, this technology has a high potential for sensing and identification with a low price compared to that of the chipped RFID. However, lower data capacity is one of the crucial challenges for frequency domain chipless RFID tags due to limited available bandwidth resources and the quality factor of the resonators. On the other hand, the implementation of low-quality factor resonators design in the printed tag is not feasible due to broadening the resonances. Therefore, designing high-quality-factor resonators for chipless RFID tags is a need. In this paper, a high spectral efficient hairpin resonator for chipless RFID sensing and identification is proposed. To demonstrate the design concept, using the proposed resonators, a 40-bit chipless RFID tag with 3.5 GHz operating bandwidth was designed, fabricated and measured. This design has the potential to arrange 50 resonators in less than 4 GHz bandwidth.

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利用发夹谐振器实现高频谱效率无晶片RFID标签

近年来，无芯片射频系统取得了重大进展，并将在不久的将来实现商业化。由于无芯片标签的平面结构，与有芯片的RFID相比，这种技术具有很高的传感和识别潜力，而且价格低廉。然而，由于有限的可用带宽资源和谐振器的质量因素，较低的数据容量是频域无芯片RFID标签的关键挑战之一。另一方面，低质量因数谐振器设计在印刷标签中由于谐振变宽而不可行。因此，需要为无芯片RFID标签设计高质量因数谐振器。本文提出了一种用于无芯片RFID传感和识别的高频谱效率发夹谐振器。为了演示设计理念，利用所提出的谐振器，设计、制作并测量了一个工作带宽为3.5 GHz的40位无芯片RFID标签。这种设计有可能在小于4 GHz的带宽内安排50个谐振器。

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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2019 IEEE Asia-Pacific Microwave Conference (APMC)

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