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High-Frequency Modeling of Frequency-Dependent Dielectric and Conductor Losses in Transmission Lines

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3 Author(s)
Jason E. Chan ; Dept. of Electr. & Comput. Eng., New Hampshire Univ., Durham, NH ; Kondagunta Sivaprasad ; Kent A. Chamberlin

This paper details the implementation of three theoretical techniques to calculate dielectric and conductive losses in transmission lines at high frequencies. Those techniques are the Kramers-Kronig relationship to account for the frequency-dependent loss tangent, inclusion of surface roughness in estimating conductor losses, and a method for calculating moisture effects. When these mechanisms are incorporated into a contemporary stripline model, the high-frequency results are in much closer agreement with measured data than when they are not included

Published in:

IEEE Transactions on Components and Packaging Technologies  (Volume:30 ,  Issue: 1 )