Detector Mismatch Correction for the Calibration-Independent and Position-Insensitive Transmission/Reflection Method

Authors

James Conrad Denemark, Air Force Institute of Technology
Michael J. Havrilla, Air Force Institute of TechnologyFollow
Hirsch Chizever, Delta Sigma Company
Philip Patterson, Air Force Institute of Technology

Document Type

Conference Proceeding

Publication Date

10-27-2024

Abstract

Classic methods for extracting material character-istics typically demand rigorous calibration, multiple samples, precise location measurements, etc. A recent research effort led by Zhao Caijun, Jiang Quanxing, and Jing Shenhui utilized a simple transmission/reflection method to extract high accuracy permittivity results from a Coaxial Line system. This method uses two uncalibrated scattering parameter measurements: one of the empty fixture and one of the sample at a single position. This paper extends the method to produce accurate permittivity results from a Rectangular Waveguide system once corrected for detector mismatch.

Comments

This conference paper is available to IEEE subscribers or for purchase via the link in the citation below.

Source Publication

2024 Antenna Measurement Techniques Association Symposium (AMTA) (e-ISSN 2474-2740)

Recommended Citation

J. C. Denemark, M. Havrilla, H. Chizever and P. Patterson, "Detector Mismatch Correction for the Calibration-Independent and Position-Insensitive Transmission/Reflection Method," 2024 Antenna Measurement Techniques Association Symposium (AMTA), Cincinnati, OH, USA, 2024, pp. 1-5. https://ieeexplore.ieee.org/document/10789658