Development of a sensor for dielectric constant measurements utilizing time-domain measurement with a vector network analyzer

•A sensor for simple dielectric constant measurements was devised.•The sensor comprises a bended microstrip line (MSL).•The apex of the bended MSL was used as a sensing portion (SP) of the sensor.•Signal reflects at the SP due to an existence of resin materials.•Reflection coefficients showed a line...

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Bibliographic Details
Published inMeasurement : journal of the International Measurement Confederation Vol. 169; p. 108530
Main Authors Sato, Yasumoto, Ogura, Natsuki, Yamaguchi, Yuhei, Ju, Yang
Format Journal Article
LanguageEnglish
Published London Elsevier Ltd 01.02.2021
Elsevier Science Ltd
Subjects
Dielectric constant
Dielectric properties
Measurement
Micro strip line
Network analysers
Nondestructive evaluation
Permittivity
Reflectance
Resin material
Resins
Sensors
Signal processing
Signal transmission
Signal transmission properties
Transmission lines
Nondestructive evaluation
Dielectric constant
Micro strip line
Resin material
Signal transmission properties
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Summary:•A sensor for simple dielectric constant measurements was devised.•The sensor comprises a bended microstrip line (MSL).•The apex of the bended MSL was used as a sensing portion (SP) of the sensor.•Signal reflects at the SP due to an existence of resin materials.•Reflection coefficients showed a linear relation to dielectric constants of materials. In this study, a sensor with a signal transmission line for simple dielectric constant measurements was devised. The key feature of this sensor is that it utilizes the apex of a bended signal transmission line as a sensing portion. Its measurement principle is based on signal reflections caused by variations in the characteristic impedance of the signal transmission line due to the presence of materials under measurement around the sensing portion. The sensor was validated using the measurements of the dielectric constant of various resin materials. As a result, a substantially linear relation was obtained between the measured reflection coefficient and the dielectric constant of the resin material measured. Further, we concluded that the dielectric constant of the resin material could be evaluated in a simple and convenient manner using the devised sensor.
ISSN:0263-2241
1873-412X
DOI:10.1016/j.measurement.2020.108530