Microstrip Line Based Complementary Resonant Structure For Dielectric Characterization

TL;DR

This paper introduces a microstrip line-based complementary resonant sensor operating in the S-band for accurate dielectric material characterization, validated through simulation and experimental measurements.

Contribution

It presents a novel resonant structure on a microstrip ground plane for dielectric sensing, including design, simulation, fabrication, and validation methods.

Findings

Permittivity of wood, Teflon, and RT/duroid 5880LZ measured accurately.

Sensor's results are consistent with literature values.

Design effectively characterizes dielectric materials in the S-band.

Abstract

In this work, a complementary resonant structure etched on the ground plane of a microstrip line is proposed for characterizing dielectric materials. The resonant sensor is designed to operate in S-band (2 to 4 GHz). The sensor is designed in an electromagnetic simulator to generate its transmission response, electric and magnetic field maps. A numerical model of the sensor is established to extract the electric permittivity of dielectric samples. The sensor is fabricated on a soft microwave laminate using a rapid photolithography technique. The electric permittivity values of wood, Teflon, and RT/duroid 5880LZ are determined by using the sensor. The permittivity values are found consistent with those available in the literature.