Analysis of microstrip to circular waveguide transitions by a new spatial images method
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Quesada Pereira, Fernando Daniel; Vera Castejón, Pedro; Gomez Tornero, Jose Luis; Cañete Rebenaque, David; Pascual García, Juan; [et al.]Grupo de investigación
Grupo Electromagnetismo Aplicado a las TelecomunicacionesÁrea de conocimiento
Teoría de la Señal y las ComunicacionesRealizado en/con
Universidad Politecnica de CartagenaFecha de publicación
2005-06Editorial
John WileyCita bibliográfica
Pereira, F.D.Q., Castejón, P.V., Tornero, J.L.G., Rebenaque, D.C., García, J.P. and Melcon, A.A. (2005), Analysis of microstrip‐to‐circular‐waveguide transitions by a new spatial‐images method. Microw. Opt. Technol. Lett., 45: 563-568. doi:10.1002/mop.20881Revisión por pares
SIPalabras clave
Boxed circuitsGreen's functions
Integral equations
Printed circuits
Circular waveguides
Shielded circuits
Resumen
In this paper, a new spatial-images procedure has been applied to the analysis of microstrip-to-circular waveguide transitions. The numerical technique is based on the utilization of stratified image
rings, from which the weights and orientations of either discrete charges or dipole images are determined. This is accomplished by enforcing the
scalar and vector potentials' boundary conditions on the cavity walls. The results obtained with the new Green's functions have been compared
to those given by a standard integral-equation method based on the free-space Green's functions, and a finite-element implementation. Good agreement is shown between the different techniques, thus demonstrating the usefulness of the new approach.
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