Time domain transmission sensor for soil moisture profile probe, selected technical aspects

2020 Baltic URSI Symposium (URSI) Pub Date : 2020-10-05 DOI:10.23919/URSI48707.2020.9254062

A. Wilczek, M. Kafarski, J. Majcher, A. Szypłowska, A. Lewandowski, W. Skierucha

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Abstract

Time Domain Transmissometry (TDT) is one of the methods of electromagnetic metrology. This method, similarly to TDR, is mainly used to measure parameters of transmission lines and connectors. It is also suitable for determining the dielectric properties of materials from which the transmission line is built. It is known that water has high dielectric permittivity of about 80. This means that the volumetric water content of the soil has a decisive influence on its dielectric properties. A transmission line placed in the soil can be a detector of dielectric properties and then soil moisture. For these reasons, the TDR and TDT methods are commonly used to measure and monitor soil moisture. The selection of materials shape and construction of the transmission line are a constant challenge for the sensor designers. The probe should be watertight and materials used for construction should not absorb water. The paper presents selected research results concerning the design of soil moisture sensor and signal analysis to determine bulk dielectric permittivity.

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时域传输传感器用于土壤湿度剖面探测，选用的技术方面

时域透射法(TDT)是电磁计量的一种方法。该方法与TDR类似，主要用于测量传输线和连接器的参数。它也适用于确定用来建造传输线的材料的介电性能。众所周知，水的介电常数很高，约为80。这意味着土壤的体积含水量对其介电性能有决定性的影响。放置在土壤中的传输线可以是介电性质的检测器，然后是土壤湿度的检测器。由于这些原因，TDR和TDT方法通常用于测量和监测土壤湿度。传输线的材料、形状和结构的选择一直是传感器设计人员面临的挑战。探头应防水，用于施工的材料不应吸水。本文介绍了土壤湿度传感器的设计和测定体介电常数的信号分析等方面的研究成果。

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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2020 Baltic URSI Symposium (URSI)

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