Enhanced T-Resonator with Blazed Grating for Accurate Powder Material Characterization

2020 IEEE International RF and Microwave Conference (RFM) Pub Date : 2020-12-14 DOI:10.1109/RFM50841.2020.9344733

R. Alahnomi, Z. Zakaria, M. A. Meor Said, Z. M. Yussof, A. Alhegazi, H. Alsariera, Norhanani Abd Rahman

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Abstract

This paper proposes an enhanced microwave T-resonator technique for powder material characterization using a blazed grating. The main advantage of this technique is the high sensitivity and non-invasive measurement such that it can be integrated easily for sensing applications. The non-invasive measurement is achieved by implementing powder container into the sensing area of the sensor, thus avoiding the need to deal with the cross error of directly contact measurement. The proposed sensor is designed at around 2.5 GHz resonant frequency and fabricated on a 0.787 mm-thickness Roger 5880 substrate. To validate the sensitivity of the proposed sensor, six common powder materials of different weights are tested. It is found the sensitivity achieved $11.96MHz/\Delta\varepsilon$ and the frequency is shifted between 23 and 56.6 MHz for all measured cases at 1-gram weight. This work will lead to a promising cost-effective sensor with compactness in size, ease of fabrication and small amount of the tested preparation for industrial applications that required advance sensing technique in quality control of the food industry.

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带有燃烧光栅的增强型t谐振器用于粉末材料的精确表征

本文提出了一种用于粉末材料燃烧光栅表征的增强型微波t谐振器技术。该技术的主要优点是高灵敏度和非侵入性测量，因此它可以很容易地集成到传感应用中。通过将粉末容器置入传感器的传感区域实现非侵入式测量，从而避免了直接接触测量时需要处理交叉误差的问题。该传感器的谐振频率约为2.5 GHz，并在厚度为0.787 mm的Roger 5880衬底上制作。为了验证该传感器的灵敏度，对6种不同重量的常见粉末材料进行了测试。发现灵敏度达到$11.96MHz/\Delta\varepsilon$，在1克重量的所有测量情况下，频率在23和56.6 MHz之间移位。这项工作将导致一种有前途的具有成本效益的传感器，尺寸紧凑，易于制造，用于食品工业质量控制中需要先进传感技术的工业应用的测试制备量少。

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 IEEE International RF and Microwave Conference (RFM)

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