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PIER PIER B PIER C PIER M PIER Letters
2019-05-31
Study on Temperature Sensitive Characteristics of UHF Radio Frequency Identification Temperature Sensing Tag
By
Hongbin Ge,

    Mr. Hongbin Ge

    Beijing University of Posts and Telecommunications

    China

    Homepage

Yuan Yao,

    Dr. Yuan Yao

    School of Electronic Engineering

    Beijing University of Posts and Telecommunications

    China

    Homepage

Junsheng Yu

    Dr. Junsheng Yu

    School of Electronic Engineering

    Beijing University of Posts and Telecommunications

    China

    Homepage

Progress In Electromagnetics Research Letters, Vol. 84, 107-113, 2019
doi:10.2528/PIERL19032604
Abstract
In order to design a robust passive temperature sensing tag that can operate over a wide temperature range, temperature-sensitive characteristic of UHF radio frequency identification temperature sensing chip and corresponding tags are studied. The devices under test include dipole tags with different antenna impedances. Simulation data, experiment design, system setup, measurement procedures, and test results are given. The results show that as temperature increases, the real part of chip impedance increases, and the absolute value of the imaginary part decreases, which are consistent with simulation data. In the full temperature range, the overall performance of sensing tags designed for high-temperature conditions is better than tags designed only for room temperature conditions.
Citation
Hongbin Ge, Yuan Yao, and Junsheng Yu, "Study on Temperature Sensitive Characteristics of UHF Radio Frequency Identification Temperature Sensing Tag," Progress In Electromagnetics Research Letters, Vol. 84, 107-113, 2019.
doi:10.2528/PIERL19032604
References

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