Design and implementation of a self-calibrating, compact micro strip sensor for in-situ dielectric spectroscopy and data transmission

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688570

Gunjan Pandey, Ratnesh Kumar, R. Weber

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引用次数: 11

Abstract

A compact, on-board, self-calibrating, micro strip sensor is presented. The sensor can make accurate multi-frequency measurements of complex permittivity in real time and transmit this information wirelessly by using the same sensor as a micro strip patch antenna. Such multi-frequency measurements in a multi-phase mixture like soil are used to estimate the concentration of individual constituents like bulk-soil, water, and various nutrients in soil. The sensor architecture comprises of a programmable phase locked loop (PLL) which sweeps through the frequency band of 3-40 MHz. The signal generated by the PLL is allowed to reflect from the micro strip patch which is surrounded by the dielectric medium under test (such as soil or food). The amplitude and phase of incident and reflected signals are captured and impedance due to the surrounding dielectric mixture is calculated. This impedance value is used to estimate the dielectric constant by mapping the input impedance of the micro strip sensor to different surrounding dielectric constant values. The sensor has an inbuilt self-calibrating mechanism which makes it useful for remote, underground and hand held applications.

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一种用于现场介电光谱和数据传输的自校准紧凑型微带传感器的设计与实现

提出了一种紧凑的板载自校准微带传感器。该传感器可以实时精确地对复杂介电常数进行多频测量，并通过与微带贴片天线相同的传感器进行无线传输。在像土壤这样的多相混合物中，这种多频率测量被用来估计土壤中大块土壤、水和各种营养物质等单个成分的浓度。传感器结构包括一个可编程锁相环(PLL)，扫描频率为3-40 MHz。锁相环产生的信号被允许从被测介质(如土壤或食物)包围的微带贴片反射。捕获入射和反射信号的振幅和相位，并计算由周围介质混合引起的阻抗。该阻抗值通过将微带传感器的输入阻抗映射到周围不同的介电常数值来估计介电常数。该传感器有一个内置的自校准机构，使其对远程，地下和手持应用非常有用。

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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2013 IEEE SENSORS

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