Santiago Arriazu, DavidGómez Laso, Miguel ÁngelLopetegui Beregaña, José MaríaArregui Padilla, Iván2023-05-312023-05-312022Santiago, D., Laso, M. A. G., Lopetegi, T., Arregui, I. (2022) Filtro paso banda en tecnología groove gap waveguide con altura de pines reducida para facilitar su fabricación. En Márquez Segura E. (Coord.), URSI 2022, XXXVII Simposio Nacional de la Unión Científica de Radio: libro de actas (pp. 1-4). Universidad de Málaga978-84-09-44537-0https://academica-e.unavarra.es/handle/2454/45363In this work, a novel topology of groove gap waveguide (GGW) technology is presented to facilitate the fabrication process by Computer Numerical Control (CNC) milling. GGW has been proposed as an interesting alternative to the rectangular waveguide for the design of microwave and millimeter-wave components. This technology consists of two parallel metal plates, where one of them has a (lambda)/4-height pin bed that provides a high impedance condition at the plane over the pins, avoiding electrical contact requirement with the upper plate and hence facilitating the fabrication requirements. However, the manufacture by CNC milling of the pins may be troublesome, especially for devices operating at high frequency. A way to facilitate this process is achieved by using pins with reduced height. Moreover, the proposed configuration allows us to maintain the standard dimension ports of the equivalent rectangular waveguide and the operation in its corresponding bandwidth. A comparison with other GGW topologies has been presented and a bandpass filter has been fabricated to validate its usefulness.application/pdfspaGroove gap waveguide (GGW) technologyComputer numerical control (CNC) millingContribución a congreso / Biltzarrerako ekarpena2023-05-31Acceso abierto / Sarbide irekiainfo:eu-repo/semantics/openAccess