Water Antenna Based Passive Wireless Temperature Sensor

2022 IEEE MTT-S International Microwave Biomedical Conference (IMBioC) Pub Date : 2022-05-16 DOI:10.1109/imbioc52515.2022.9790260

Tingli Zheng, H. Xu, T. Zhou, Y. Zhou

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Abstract

Passive wireless temperature sensors have attracted great attention in power systems, since they can work safely and stably under high temperature and high pressure environment with the advantages of compact size, easy integration, low-cost and high sensitivity. This paper proposes a type of passive wireless temperature sensor based on water patch antenna. The permittivity of the distilled water integrated into the antenna substrate changes with temperature, which results in the changes of resonant frequency. A single-polarized and a dual-polarized water antenna with temperature sensitivity are designed, which are working at around 2 GHz. The single-polarized water antenna works at 2.06 GHz at room temperature, with a bandwidth $(\vert \mathrm{S}11\vert < -10\ \text{dB})$ of about 3% and gain of 3.50 dBi. The dual-polarized water antenna works at 1.95 GHz at room temperature, with a bandwidth $(\vert \mathrm{S}11\vert < -10\ \text{dB})$ of about 2% and gain of 2.43 dBi. The simulation results show that the sensitivity of 5 MHz/10°C can be obtained when the temperature changes from 20 °C to 90°C for both sensors.

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基于水天线的被动无线温度传感器

无源无线温度传感器具有体积小、易于集成、成本低、灵敏度高等优点，能够在高温高压环境下安全稳定地工作，在电力系统中受到广泛关注。提出了一种基于水片天线的无源无线温度传感器。集成在天线基板中的蒸馏水的介电常数随温度的变化而变化，从而导致谐振频率的变化。设计了温度敏感的单极化和双极化水天线，工作频率在2ghz左右。单极化水天线在室温下工作于2.06 GHz，带宽$(\vert \ mathm {S}11\vert < -10\ \text{dB})$约为3%，增益为3.50 dBi。双极化水天线在室温下工作于1.95 GHz，带宽$(\vert \ mathm {S}11\vert < -10\ \text{dB})$约为2%，增益为2.43 dBi。仿真结果表明，当温度从20℃变化到90℃时，两个传感器的灵敏度均可达到5 MHz/10℃。

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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2022 IEEE MTT-S International Microwave Biomedical Conference (IMBioC)

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