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Utilice este identificador para citar o enlazar este documento: https://ria.asturias.es/RIA/handle/123456789/11928


Título: Reflectarray Design for Satellite Applications with Very Low Cross-Polarization Requirements
Autores: Rodriguez Prado, Daniel
Arrebola Baena, Manuel
Goussetis, George
Palabras Claves: reflectarray
satellite applications
polarization purity
crosspolar discrimination
crosspolar isolation
cross-polarization performance
contoured beam
Fecha Edición: Abr-2019
Editor: IEEE
Cita Bibliográfica: D. R. Prado, M. Arrebola, G. Goussetis, "Reflectarray design for satellite applications with very low cross-polarization requirements", 13th European Conference on Antennas and Propagation (EuCAP), Krakow, Poland, 1-5/04/2019
Resumen: Modern satellite applications for communications require a high polarization purity, usually with parameters such as the crosspolar discrimination (XPD) larger than 33dB. To achieve these values, some form of cross-polarization performance optimization must be carried out. The usual approach is to minimize the crosspolar component of the far field with regard to the copolar pattern in the region of interest. However, this generates suboptimal results since the figure of merit for cross-polarization performance, i.e. the XPD, is optimized indirectly. Thus, it is proposed to directly optimize the figure of merit to considerably improve the polarization purity of reflectarray antennas for satellite applications. For that purpose, the generalized Intersection Approach algorithm is used in a large reflectarray for a contoured beam application with European coverage. It is shown that directly optimizing the cross-polarization figure of merit provides better results than the usual approach of minimizing the crosspolar pattern.
URI: https://ria.asturias.es/RIA/handle/123456789/11928
Aparece en las Colecciones:Ingeniería

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