A full-wave analysis method for waveguide filters based on dielectric loaded resonators is proposed in this work. For such purpose, a state-space integral-equation formulation has been developed, and the efficient numerical evaluation of all matrices and singular integrals related to the method has been detailed. The novel technique has been first validated through the accurate analysis of a dielectric loaded rectangular cavity, and a simple stopband structure based on such basic building block. Then, making use of a computer-aided design tool, a four-pole bandpass filter based on dielectric loaded resonators has been efficiently designed. The accuracy of the proposed method has been validated through successful comparisons with data from technical literature and available commercial software.
Full-WAve Analysis and Design of Dielectric-Loaded Waveguide Filters using a State-Space Integral-Equation Method
BRESSAN, MARCO;CONCIAURO, GIUSEPPE;
2009-01-01
Abstract
A full-wave analysis method for waveguide filters based on dielectric loaded resonators is proposed in this work. For such purpose, a state-space integral-equation formulation has been developed, and the efficient numerical evaluation of all matrices and singular integrals related to the method has been detailed. The novel technique has been first validated through the accurate analysis of a dielectric loaded rectangular cavity, and a simple stopband structure based on such basic building block. Then, making use of a computer-aided design tool, a four-pole bandpass filter based on dielectric loaded resonators has been efficiently designed. The accuracy of the proposed method has been validated through successful comparisons with data from technical literature and available commercial software.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
