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PIER PIER B PIER C PIER M PIER Letters
2007-02-27
Signal Descriptions and Formulations for Long Range UHF RFID Readers
By
Zhiguang Fan,

    Dr. Zhiguang Fan

    Department of Information and Electronic Engineering

    Zhejiang University

    China

    Homepage

Shan Qiao,

    Dr. Shan Qiao

    Department of Information and Electronic Engineering

    Zhejiang University City College

    China

    Homepage

Jiangtao Huangfu,

    Dr. Jiangtao Huangfu

    Zhejiang University

    China

    Homepage

Li-Xin Ran

    Professor Li-Xin Ran

    The Electromagnetics Academy at Zhejiang University

    Zhejiang Unviersity

    China

    Homepage

, Vol. 71, 109-127, 2007
doi:10.2528/PIER07021501
Abstract
In this paper, signal descriptions and formulations for the radio frequency (RF) front-end of a passive backscatter radio frequency identification (RFID) reader working at ultra high frequencies (UHF) are discussed in detail, and a set of design considerations aiming to improve the read range are outlined. The reader's architecture is proposed and the design details of its RF frond-end are presented. The read range is formulated through calculating the time-averaging power absorbed by the tag and the signal-noise-ratio (SNR) of the demodulation, and accordingly RFID systems can be classified into tag-determining and reader-determining ones. It is concluded that the gain of the reader antenna, the phase noise of the local oscillation (LO) and the receive-transmit isolation coefficient dominate the demodulation output noise of the reader, and consequently the readerdetermining maximum operational distance. A prototype reader working at the frequency of 915MHz was built with off-the-shelf components and was evaluated with a commercial tag in an indoor environment. The measured results show that this RFID system is of tag-determining and has a read range of 8.4 meters, which are in good agreement with the calculated results.
Citation
Zhiguang Fan, Shan Qiao, Jiangtao Huangfu, and Li-Xin Ran, "Signal Descriptions and Formulations for Long Range UHF RFID Readers," , Vol. 71, 109-127, 2007.
doi:10.2528/PIER07021501
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