A novel sensor design for the determination of dielectric profiles using time domain reflectometry

2009 European Microwave Conference (EuMC) Pub Date : 2009-10-30 DOI:10.23919/EUMC.2009.5296291

B. Will, M. Gerding

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引用次数: 4

Abstract

The measurement of dielectric profiles, for example for the determination moisture distributions in natural soils, gets more and more important. One common setup for dielectric measurements uses time domain reflectometry (TDR) techniques. Actually, standard measurement setups give only mean or point-wise results, but for many applications it is necessary to determine a dielectric profile. Two different basic setups for the determination of dielectric profiles with a resolution in a centimeter range are presented in this contribution. Both setups are based on time domain re-flectometry (TDR) measurements. On the one hand an arbitrary spatial resolution is achieved by a movable dielectric obstacle, which causes a discontinuity along the sensor line. On the other hand a sensor based on remotely switched diodes allows the determination of a spatially resolved dielectric profile by discrete steps. Both setups have the advantage that the spatial resolution is independent of the material of interest. Thus it is even possible to determine a dielectric profile of a material with continuously varying permittivities.

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一种利用时域反射法测定介电剖面的新型传感器设计

介电剖面的测量，例如测定天然土壤中的水分分布，变得越来越重要。电介质测量的一种常用设置是使用时域反射(TDR)技术。实际上，标准测量装置只能给出平均值或点方向的结果，但对于许多应用来说，确定介电剖面是必要的。两种不同的基本设置的介电剖面的分辨率在厘米范围内提出了这一贡献。这两种设置都是基于时域反射法(TDR)测量。一方面，通过可移动的介电障碍物可以实现任意的空间分辨率，从而使传感器线路不连续。另一方面，基于远程开关二极管的传感器允许通过离散步骤确定空间分辨的介电剖面。这两种设置的优点是空间分辨率与感兴趣的材料无关。因此，甚至可以确定具有连续变化介电常数的材料的介电剖面。

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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2009 European Microwave Conference (EuMC)

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