Title :
A WH/GSMT-based full-wave analysis for planar transmission lines embedded in multilayered dielectric substrates
Author :
Chou, Ling-Miao ; Rojas, Roberto G. ; Pathak, Prabhakar H.
Author_Institution :
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA
fDate :
1/1/1995 12:00:00 AM
Abstract :
A new full-wave analysis method, referred to as the WH/GSMT, is developed to solve multilayered planar transmission line problems. First, the scattering of an obliquely incident parallel plate mode (PPM) by a PEC half plane embedded in a multilayered isotropic dielectric substrate within a PEC parallel plate region is analyzed via the Wiener-Hopf (WH) technique. The solution is then incorporated into the generalized scattering matrix technique (GSMT) to find the (complex) propagation constant and characteristic impedance of the planar transmission lines. The lateral power leakage is taken into account rigorously in the WH/GSMT. Numerical results including the microstrip line, conductor-backed slotline, coupled microstrip lines, and antipodal finlines are presented along with a discussion of the advantages/disadvantages of this method
Keywords :
S-matrix theory; fin lines; microstrip lines; slot lines; waveguide theory; PEC half plane; PEC parallel plate region; WH/GSMT-based full-wave analysis; Wiener-Hopf technique; antipodal finlines; characteristic impedance; conductor-backed slotline; coupled microstrip lines; generalized scattering matrix technique; lateral power leakage; microstrip line; multilayered dielectric substrates; obliquely incident parallel plate mode; perfect electric conductors; planar transmission lines; propagation constant; Couplings; Dielectric substrates; Finline; Impedance; Microstrip; Planar transmission lines; Propagation constant; Scattering; Slotline; Transmission line matrix methods;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
