多参数无源无线传感的堆叠耦合线圈方法

2016 17th International Symposium on Antenna Technology and Applied Electromagnetics (ANTEM) Pub Date : 2016-07-10 DOI:10.1109/ANTEM.2016.7550147

S. Bhadra, R. Raju, G. Bridges

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引用次数: 0

摘要

本文提出了一种用rlc型近场耦合谐振器实现多线圈叠置同时多参数窄带传感的设计方法。每个RLC传感器的谐振频率和q因子取决于存储能量和损耗响应于感兴趣参数的变化。这些类型的传感器的一个挑战是线圈之间的相互耦合，因此相互依赖的参数。为了消除线圈之间的相互耦合，减小感应面积，线圈以设计的重叠结构堆叠。该配置使每个传感器的响应，从而被感知的参数是独立的。询问器线圈的扫频阻抗响应与传感器电感耦合，远程跟踪每个传感器的参数。双参数(相对湿度和温度)传感器的电磁仿真和实验表明，堆叠重叠结构可以在不大幅增加尺寸的情况下实现窄带多参数传感。该方法已应用于柔性薄膜衬底印刷传感器中。

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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Stacked coupled-coil approach for multi-parameter passive wireless sensing

This paper presents a stacked multiple coil design for simultaneous multi-parameter narrow-band sensing with RLC-type near-field coupled resonators. The resonant frequency and Q-factor of each RLC sensor is dependent on change of stored energy and loss in response to the parameter of interest. One challenge with these types of sensors is mutual coupling between coils and thus interdependence of parameters. In order to null mutual coupling between coils and reduce sensing area the coils are stacked in a designed overlapping configuration. The configuration enables the response of each sensor and thus sensed parameters to be independent. The swept frequency impedance response of an interrogator coil, inductively coupled to the sensors, remotely tracks the parameters of each sensor. EM simulation and experiments with a two-parameter (relative humidity and temperature) sensor shows the stacked overlapping structure accomplishes narrow-band multi-parameter sensing without substantial increase in size. The approach has application in flexible thin-film substrate printed sensors.

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2016 17th International Symposium on Antenna Technology and Applied Electromagnetics (ANTEM)

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