DocumentCode
1551266
Title
Open-ended coaxial probe for high-temperature and broad-band dielectric measurements
Author
Gershon, David L. ; Calame, J.P. ; Carmel, Y. ; Antonsen, T.M., Jr. ; Hutcheon, Ron M.
Author_Institution
Maryland Univ., College Park, MD, USA
Volume
47
Issue
9
fYear
1999
fDate
9/1/1999 12:00:00 AM
Firstpage
1640
Lastpage
1648
Abstract
A stainless steel open-ended coaxial probe was developed to measure the complex permittivity of solid dielectric materials at elevated temperatures and over a broad frequency range. The spring loading of the inner conductor insured that the probe maintained contact with the sample up to 1000°C and eliminated errors due to differential thermal expansion of the probe. Comparison with an industry standard probe demonstrated that the spring-loaded probe accurately and reproducibly measured the complex permittivity of several samples over a broad frequency range of 0.3-6 GHz at room temperature. At temperatures up to 1000°C, dielectric measurements of a glass ceramic and of a porous alumina composite performed with both a spring-loaded probe and a resonant cavity agreed to within 8% for the real part and 15% for the imaginary part of the complex permittivity. The probe´s insensitivity in measuring low-loss materials constrained accurate dielectric measurements to materials with tan δ⩾0.05. Finally, optimization of an open-ended probe by varying the probe dimensions is presented
Keywords
UHF measurement; dielectric losses; high-temperature techniques; microwave measurement; permittivity measurement; probes; 0.3 to 6 GHz; 20 to 1000 degC; broad-band dielectric measurements; complex permittivity; differential thermal expansion; glass ceramic; low-loss materials; open-ended coaxial probe; open-ended probe; porous alumina composite; probe dimensions; solid dielectric materials; spring-loaded probe; tan δ; Coaxial components; Dielectric materials; Dielectric measurements; Frequency measurement; Permittivity measurement; Probes; Solids; Springs; Steel; Temperature distribution;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.788604
Filename
788604
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