Broad band analysis of arbitrarily shaped microwave filters using a novel singular value decomposition technique
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Quesada Pereira, Fernando Daniel; Vidal Pantaleoni, Ana; Pérez Soler, Francisco Javier; Berenguer Alonso, Andrés; San Blas Oltra, Ángel Antonio; [et al.]Grupo de investigación
Grupo de Electromagnetismo Aplicado a las Telecomunicaciones (GEAT)Área de conocimiento
Teoría de la Señal y las ComunicacionesPatrocinadores
This work has been developed with financial support fromSENECA project Ref. 08833/PI/08, and CICYT project Ref.TEC2007-67630-C03.Fecha de publicación
2010-04Editorial
Universidad Politécnica de Cataluña. Iniciativa Digital Politécnica = Universitat Politècnica de CatalunyaCita bibliográfica
QUESADA PEREIRA, Fernando Daniel et al. Broad band analysis of arbitrarily shaped microwave filters using a novel singular value decomposition technique. En: European Conference on Antennas and Propagation (4ª: 2010: Barcelona). EuCAP 2010 : proceeding of the 4th European Conference on Antennas and Propagation, held on 12 to 16 April 2010 in Barcelona, Spain [Recurso electrónico]. Barcelona: Universidad Politécnica de Cataluña. Iniciativa Digital Politécnica: Universitat Politècnica de Catalunya. 2010. ISBN 978-84-7653-472-4Palabras clave
Microwave filtersBI-RME technique
Cavity filters
Waveguide components
Filtros de microondas
Técnica BI-RME
Filtros de cavidad
Componentes de guía de ondas
Resumen
A new full-wave electromagnetic analysis method
based on the Boundary Integral Resonant Mode Expansion (BI-RME) is presented in this paper. The technique allows the
computation of the broad band circuital response of arbitrarily
shaped cavity filters. The coaxial excitation of this kind of
filters is rigorously modeled by taking into account the high
order modes on the coaxial aperture. A singular decomposition
algebraic procedure has been implemented in order to obtain
the solenoidal and non-solenoidal counterparts contributions of
the electric current density inside the cavity needed by the BI-RME formulation. This method is simple and avoids some issues
associated to star and loop based functions which are typically
used for the same purpose.
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