Microstrip Patch Sensors for Complex Permittivity Measurement of Medium Loss Liquids Using 3D-FDTD
Two novel microstrip resonators are designed to measure the complex permittivity of medium loss liquids. These resonators have two layers, the first one is the sample layer and the second one is the base layer that the patch is printed on it. The base layer is suspended or inverted on the sample lay...
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Veröffentlicht in: | Applied Computational Electromagnetics Society journal 2017-04, Vol.32 (4), p.325 |
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description | Two novel microstrip resonators are designed to measure the complex permittivity of medium loss liquids. These resonators have two layers, the first one is the sample layer and the second one is the base layer that the patch is printed on it. The base layer is suspended or inverted on the sample layer and the S-parameter is measured. The complex permittivity of the sample layer is extracted from the resonance frequency and the 3-dB bandwidth of the S-parameter. In this paper, binary mixtures of ethanol and methanol are used as sample layer. FDTD is a well-known computational method and is used for analyzing the structures. The experimental results for both of these resonators are really good and agree with reference values. |
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subjects | Bandwidths Binary mixtures Complex permittivity Dielectric properties Ethanol Finite difference time domain method Liquids Methods Parameters Permittivity Process controls Resonators Sensors |
title | Microstrip Patch Sensors for Complex Permittivity Measurement of Medium Loss Liquids Using 3D-FDTD |
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