Litcius/Paper detail

Portable Reflective-Mode Phase-Variation Microwave Sensor Based on a Rat-Race Coupler Pair and Gain/Phase Detector for Dielectric Characterization

Paris Vélez, Ferran Paredes, Pau Casacuberta, Mahmoud Elgeziry, Lijuan Su, Jonathan Muñoz-Enano, Filippo Costa, Simone Genovesi, Ferran Martı́n

2023IEEE Sensors Journal46 citationsDOIOpen Access PDF

Abstract

This article presents a low-cost and portable phase-variation planar microwave sensor operating in reflective mode, where the output variable, the phase of the reflection coefficient of the one-port sensing element, is retrieved by means of a distributed circuit based on a pair of rat-race hybrid couplers and the associated electronics. This includes a microcontroller, a voltage controlled oscillator (VCO), a digital-to-analog converter (DAC), and an RF/microwave gain/phase detector. By this means, vector network analyzers (VNAs), i.e., high-cost instruments typically used for obtaining the reflection coefficient in one-port structures or circulators (microwave components able to separate the injected signal from the reflected signal in any one-port network) are avoided. Indeed, the presented architecture (including the microwave rat-race hybrid configuration and the associated electronics) can be adapted to other one-port reflective-mode phase-variation microwave sensors. A prototype example, where the sensing element is a one-port step-impedance open-ended transmission line, is reported. The device provides the phase of the reflection coefficient of the sensing element as a function of the dielectric constant of the material under test (MUT) with a maximum sensitivity of −65.7° and a relative error of less than 8% in all the measurements.

Topics & Concepts

Reflection coefficientMicrowaveDetectorHybrid couplerElectrical engineeringCirculatorSensitivity (control systems)Reflection (computer programming)Electronic engineeringEngineeringPower dividers and directional couplersOpticsPhysicsComputer scienceTelecommunicationsProgramming languageMicrowave and Dielectric Measurement TechniquesAcoustic Wave Resonator TechnologiesMagneto-Optical Properties and Applications