Title :
Fast and accurate analysis of waveguide filters by the coupled-integral-equations technique
Author :
Amari, Smain ; Bornemann, Jens ; Vahldieck, Rüdiger
Author_Institution :
Dept. of Electr. & Comput. Eng., Victoria Univ., BC, Canada
fDate :
9/1/1997 12:00:00 AM
Abstract :
The coupled-integral-equations technique (CIET) is successfully applied to accurately determine the frequency response of waveguide filters in a single step. A four-resonator H-plane filter is analyzed by the mode-matching technique (MMT) and the CIET for comparison and results in a reduction of central-processing-unit (CPU) time of the order of 400. A set of CIE´s for the tangential electric fields at the apertures of the discontinuities are derived and solved by the moment method. Basis functions, which include the edge conditions at each of the discontinuities, are used to achieve numerical efficiency. It is shown that 1-4 basis functions, which include the edge conditions, are sufficient over a broad range of frequencies. The inclusion of the edge conditions in the basis functions is shown to have a dramatic effect on the convergence of the CIET, especially for narrow-band filters
Keywords :
convergence of numerical methods; frequency response; integral equations; method of moments; microwave filters; mode matching; passive filters; resonator filters; waveguide discontinuities; waveguide filters; waveguide theory; apertures; basis functions; convergence; coupled-integral-equations technique; discontinuities; edge conditions; four-resonator H-plane filter; frequency response; mode-matching technique; moment method; narrow-band filters; tangential electric fields; waveguide filters; Apertures; Convergence; Frequency response; Integral equations; Light scattering; Microwave communication; Microwave filters; Moment methods; Rectangular waveguides; Transmission line matrix methods;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
