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RF Material Characterization Using a Large-Diameter (76.8 mm) Coaxial Air Line

Published

Author(s)

Chriss A. Jones, John H. Grosvenor Jr, Claude Weil

Abstract

We report the development of a 76.84 mm (3.025 in) diameter coaxial air line system whose purpose is to measure the dielectric and magnetic properties of bulk dielectric and ferrite materials over a frequency range of approximately 0.3 - 1500 MHZ. We summarize the relative advantages and disadvantages of using large-diameter coaxial air lines for material characterization and we discuss the particular problems associated with calibrating vector network analyzers in this form of transmission line. We also present broadband measurement data on two lossy materials, including a ferrite-loaded polymer and carbon-loaded concrete.
Proceedings Title
Proc., Intl. Microwave Conf. MIKON
Volume
1
Conference Dates
May 22-24, 2000
Conference Location
Warsaw, PL

Keywords

coaxial air line, dielectric, ferrites, materials, measurements, loss tangent, permittivity, permeability, radio-frequency

Citation

Jones, C. , Grosvenor Jr, J. and Weil, C. (2000), RF Material Characterization Using a Large-Diameter (76.8 mm) Coaxial Air Line, Proc., Intl. Microwave Conf. MIKON, Warsaw, PL, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=7809 (Accessed June 22, 2024)

Issues

If you have any questions about this publication or are having problems accessing it, please contact reflib@nist.gov.

Created April 30, 2000, Updated October 12, 2021