论文信息 - A High-Temperature Capable Planar-type Coaxial Probe for Complex Permittivity Measurements Up to 40 GHz

A High-Temperature Capable Planar-type Coaxial Probe for Complex Permittivity Measurements Up to 40 GHz

A planar-type probe applicable to a wide temperature and frequency range has been developed. The probe employs a low CTE (coefficient of thermal expansion) dielectric material to minimize the effect of thermal expansion for high temperature measurement. Additionally, the coaxial aperture dimensions have been optimized through sensitivity analysis to minimize the uncertainty of the extracted complex permittivity due to variations of the measured S-parameters. Also, the error correction method was used at extreme temperatures to compensate for the effects of the excessive thermal expansion. For validation, distilled water was measured from 0degC to 100degC in the frequency range of 0.5~40 GHz. The measured complex permittivity shows good agreement with the reference data up to 75degC without the error correction and up to the boiling point (92degC) with the error correction. To our knowledge, this is the first demonstration of low-cost planar-type probes capable of high temperature operation.

[1] Magdy F. Iskander,et al. Open-ended metallized ceramic coaxial probe for high-temperature dielectric properties measurements , 1996 .

[2] Kenneth R. Foster,et al. Noninvasive electrical characterization of materials at microwave frequencies using an open-ended coaxial line: test of an improved calibration technique , 1990 .

[3] Maria A. Stuchly,et al. Measurement of Radio Frequency Permittivity of Biological Tissues with an Open-Ended Coaxial Line: Part I , 1982 .

[4] E. Jerby,et al. Coupled thermal-electromagnetic model for microwave heating of temperature-dependent dielectric media , 1999 .

[5] S. S. Stuchly,et al. Permittivity measurements using open-ended sensors and reference liquid calibration-an uncertainty analysis , 1992 .

[6] B. Colpitts. Temperature sensitivity of coaxial probe complex permittivity measurements: experimental approach , 1993 .

[7] Youngwoo Kwon,et al. Novel low-cost planar probes with broadside apertures for nondestructive dielectric measurement of biological materials at microwave frequencies , 2005, IEEE Transactions on Microwave Theory and Techniques.

[8] Chieko Azuma,et al. Using units of CEM 43°C T90, local hyperthermia thermal dose can be delivered as prescribed , 2000 .