Stepped Coplanar line-based Phase Sensor for Defect Detection

2021 IEEE MTT-S International Microwave and RF Conference (IMARC) Pub Date : 2021-12-17 DOI:10.1109/imarc49196.2021.9714570

Ankita Kumari, N. Tiwari, M. J. Akhtar

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Abstract

This work presents a stepped coplanar topology to measure the phase variation sensing mechanism in the specified frequency region (3.5 GHz-5.5 GHz). Stepping in CPW (Coplanar Waveguide) topology is carried out to ensure $50\Omega$ matching at excitation port and to provide adequate field localization over the sensing region. The central region of the stepped coplanar line is used as a sensing area where MUT (Material Under Test) can be placed for dielectric constant and defect detection. The Efield plots of conventional and proposed topologies are analyzed to show the enhanced field confinement. The performed numerical analysis shows that the proposed sensor produces an improved phase shift in transmission parameter (5°) than that of the conventional CPW (2°) counterpart for identical change in the dielectric constant. Finally, a numerical analysis is performed to appreciate the defect detection attribute of the designed sensor corresponding to the two samples with different profile of air void (defect pattern). It is found that the sensor may produce significant phase shifts corresponding to each sample, including defect-less samples, due to its improved phase sensitivity.

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用于缺陷检测的阶梯式共面线相位传感器

本文提出了一种阶跃共面拓扑结构，用于测量指定频率区域(3.5 GHz-5.5 GHz)的相位变化传感机制。在CPW(共面波导)拓扑中进行步进，以确保$50\Omega$在激励端口匹配，并在传感区域提供足够的场定位。阶阶共面线的中心区域用作感应区域，可以放置MUT(被测材料)进行介电常数和缺陷检测。分析了传统拓扑结构和新拓扑结构的Efield图，证明了增强的场约束。数值分析表明，在相同的介电常数变化情况下，该传感器的传输参数相移(5°)比传统的CPW传感器(2°)有所改善。最后，通过数值分析，对所设计的传感器在两种不同气孔形态(缺陷模式)下所对应的缺陷检测属性进行了评价。发现该传感器可以产生显著相移对应于每个样品，包括无缺陷的样品，由于其改进的相位灵敏度。

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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2021 IEEE MTT-S International Microwave and RF Conference (IMARC)

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