Title :
Full-wave design and realization of multicoupled dual-mode circular waveguide filters
Author :
Montejo-Garai, José R. ; Zapata, Juan
Author_Institution :
Dept. de Electromagn. y Teoria de Circuitos, Univ. Politecnica de Madrid, Spain
fDate :
6/1/1995 12:00:00 AM
Abstract :
A new full-wave method for the design and realization of dual-mode circular waveguide filters is presented. The rigorous CAD is a combination of the mode-matching and the finite-element techniques, which permits obtaining the Generalized Scattering Matrix for all the blocks that compose the structure (rectangular slots, cross-irises, and screws). The finite thickness of the irises, the higher order mode interaction, as well as the coupling and tuning screws are rigorously taken into account. A systematic design process for the different elements is described. A full prediction of resonant out-of-band spurious modes is accomplished prior to the filter construction. Special attention is devoted to the circuital model in order to save a great deal of computational effort in the final adjustment. A four-pole elliptic circular waveguide cavity filter has been designed and constructed. The experimental filter results show excellent agreement with theory
Keywords :
S-matrix theory; cavity resonators; circuit CAD; circular waveguides; coupled circuits; elliptic filters; finite element analysis; microwave filters; mode matching; CAD; cross-irises; finite-element techniques; four-pole elliptic cavity filter; full-wave design; generalized scattering matrix; higher order mode interaction; mode-matching techniques; multicoupled dual-mode circular waveguide filters; resonant out-of-band spurious modes; Circuit optimization; Coupling circuits; Design automation; Design methodology; Fasteners; Filters; Finite element methods; Scattering; Transmission line matrix methods; Waveguide discontinuities;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
