Person: Percaz Ciriza, Jon Mikel
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Percaz Ciriza
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Jon Mikel
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0000-0002-8391-4160
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Publication Open Access Metal 3D printing for RF/microwave high-frequency parts(Springer, 2022) Martín Iglesias, Petronilo; Gómez Laso, Miguel Ángel; Lopetegui Beregaña, José María; Teberio Berdún, Fernando; Arregui Padilla, Iván; Marechal, M.; Calves, P.; Hazard, M.; Pambaguian, L.; Brandao, A.; Rodríguez Castillo, S.; Martin, T.; Percaz Ciriza, Jon Mikel; Iza, V.; Martín-Iglesias, Santiago; Ingeniería Eléctrica, Electrónica y de Comunicación; Ingeniaritza Elektrikoa, Elektronikoaren eta Telekomunikazio IngeniaritzarenSpace Systems have been historically characterised by high performance, high reliability and high cost. Every new generation of space systems tends to improve performance, keep as much as possible reliability, speeding the lead time and lower the cost. Aggressive approach is nowadays followed by some of the players of the new space ecosystem where, for instance, reli- ability can be relaxed thanks for the in-orbit redundancy or robustness to failures by having a constellation with a high number of satellites. This push towards the technology and system limit requires to investigate new methods for the manufacturing of RF/Microwave parts. RF devices such as those based on waveguide structures, benefit from an additive manufacturing approach in terms of radio frequency (RF) performance and compactness. However each manufacturing approach comes with specific features and limitations which need to be well understood and, in some cases, even taking advantage of them. This paper provides a short review of some of the RF/Microwave parts already manufactured using this technology. The paper will focus mainly on metal 3D printing parts since this technology is, at the moment, well accepted by the space community.Publication Open Access General synthesis of tapered matching sections for single mode operation using the coupled-mode theory(IEEE, 2019) Percaz Ciriza, Jon Mikel; Arnedo Gil, Israel; Arregui Padilla, Iván; Teberio Berdún, Fernando; Martín Iglesias, Petronilo; Gómez Laso, Miguel Ángel; Lopetegui Beregaña, José María; Ingeniería Eléctrica, Electrónica y de Comunicación; Ingeniaritza Elektrikoa, Elektronikoaren eta Telekomunikazio IngeniaritzarenIn this paper, a novel and general method to synthetize microwave waveguide tapers intended for single mode operation is proposed. The technique is based on the use of an exact series solution of the inverse scattering synthesis problem. An additional strategy necessary for dealing with waveguides where the propagation constant varies with the position is included. The coupled-mode theory is employed to model the electromagnetic behavior of the taper with the inherent mismatch caused by the connection of the waveguides with different cross-sections. The novel method allows us to synthesize the (classical) transmission line taper functions of Klopfenstein and Hecken, making them suitable for general waveguide tapers with single mode operation. Additionally, a new type of taper functions, also suitable for general waveguide tapers, is presented. The novel functions are obtained by partially employing the frequency response of multisection transformers, resulting in fully smooth tapers that can offer shorter lengths than the classical proposals. The taper synthesis procedure is demonstrated in rectangular waveguide technology, by requiring realistic and challenging specifications for different cases with different waveguide cross-sections to be matched: height mismatch, width mismatch, and simultaneous height and width mismatch. Several prototypes of Klopfenstein, Hecken and novel function tapers have been fabricated in an aluminum alloy by means of an Additive Manufacturing technique (Direct Metal Laser Sintering). The simulation and measurement results obtained for the rectangular waveguide taper prototypes confirm the accuracy of the novel synthesis technique proposed.Publication Open Access Synthesis of high-performance smooth-profiled tapers and filters in microstrip and rectangular waveguide technologies(2020) Percaz Ciriza, Jon Mikel; Arnedo Gil, Israel; Lopetegui Beregaña, José María; Ingeniería Eléctrica, Electrónica y de Comunicación; Ingeniaritza Elektrikoa, Elektronikoaren eta Telekomunikazio IngeniaritzarenEn esta tesis, los fundamentos teóricos y la formulación de la Teoría de Acoplo de Modos para el análisis y el modelado electromagnético de guías de onda no uniformes son utilizadas para desarrollar diferentes técnicas de síntesis de dispositivos de microondas y de milimétricas que son automáticas e independientes de la tecnología concreta de implementación. En primer lugar, la técnica para sintetizar estructuras EBG óptimas es descrita y revisada en profundidad. Posteriormente, las técnicas generales y exactas de Inverse Scattering de Gel’fand, Levitan, Marchenko (GLM), Continuous Layer Peeling (CLP) e Integral Layer Peeling (ILP) son presentadas en detalle. Estas técnicas de Inverse Scattering, permiten calcular el coeficiente de acoplo para cualquier respuesta monomodo en reflexión objetivo que cumpla con los principios físicos de estabilidad, causalidad y pasividad. Inspirados en estos métodos de síntesis, se proponen novedosas técnicas de diseño de diferentes componentes de microondas como tapers y multiplexores. Además, se propone un método de diseño de filtros paso bajo y paso banda de perfil suave que no presentan bandas de rechazo espurias. La aplicación de esta técnica para el diseño de filtros de alto rechazo en guía de onda rectangular da lugar a estructuras que resultan sumamente apropiadas para ser fabricadas con las novedosas técnicas de fabricación aditiva (AM) en metales. Las diferentes técnicas de diseño propuestas son validadas mediante la realización de varios ejemplos de prácticos de diseño en el rango de microondas en los que se logra alto grado de concordancia entre las respuestas objetivo, simuladas y medidas.