Sensing Applications Based on Cavity Perturbation Method - A Proof of Concept

2018 International Semiconductor Conference (CAS) Pub Date : 2018-10-01 DOI:10.1109/SMICND.2018.8539776
V. Buiculescu, R. Rebigan
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Abstract

A new category of sensing devices based on perturbation of a resonant circuit or cavity is presented in this paper. The sensor uses a substrate integrated waveguide (SIW) resonator perturbed by the column length of a liquid-in-glass thermometer. Total 1.05°MHz/°C sensitivity is measured with contributions of 0.6 MHz/°C from a liquid-in-glass thermometer with 0.2 mm diameter of the ethanol column and 0.45 MHz/°C from the SIW resonator. Simulations based on liquid columns with diameters of 0.5 mm and 1 mm show that sensitivities at least one order of magnitude higher than values currently available from state-of-the-art SAW sensors can be achieved. A solar energy harvesting solution is also analyzed for increasing the reading distance in fully wireless sensing applications.
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基于空腔微扰方法的传感应用-概念验证
本文提出了一类基于谐振电路或谐振腔微扰的传感器件。该传感器使用基板集成波导(SIW)谐振器,受玻璃内液温度计柱长度的扰动。总灵敏度为1.05°MHz/°C,贡献为0.6 MHz/°C的玻璃内液体温度计,直径为0.2 mm的乙醇柱和0.45 MHz/°C的SIW谐振器。基于直径为0.5 mm和1 mm的液柱的模拟表明,灵敏度至少比目前最先进的SAW传感器高一个数量级。还分析了一种太阳能收集解决方案,用于增加全无线传感应用中的读取距离。
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2018 International Semiconductor Conference (CAS)
2018 International Semiconductor Conference (CAS)
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