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3D printed millimeter wave receiver integrating a graphene subharmonic mixer and a diagonal horn antenna

Identificadores del recurso

DOI 10.1109/GSMM.2015.7175434

http://ria.asturias.es/RIA/handle/123456789/6661

Procedencia

(Repositorio Institucional de Asturias: RIA)

Ficha

Título:: 3D printed millimeter wave receiver integrating a graphene subharmonic mixer and a diagonal horn antenna
Tema:: Graphene subharmonic mixer; 3d printed; Publicado
Descripción:: This work presents a millimeter/submillimeter wave frequency receiver integrating a graphene subharmonic mixer and a diagonal horn antenna. The device receives the RF signal through the diagonal horn antenna directly connected to the WR-3 input of the mixer. The desired frequency mixing performance is obtained using the non-linear behavior of a few-layer graphene film placed on a microstrip line gap. Using the internally generated 6th, 8th and 10th harmonic components of the input signal provided by the WR-28 standard waveguide in the 26-40 GHz the downconversion operation of the RF signal to a 300 MHz intermediate frequency is performed. A prototype of the receiver has been manufactured using high precision 3D printing technology. The performance of this device is characterized taking into account the behavior of the IF power in the 220-330 GHz band. Measured radiation patterns are also included.; This work has been supported by the European Union Seventh Framework Programme (FP/2007-2013) under grant agreement number 600849, by the "Ministerio de Ciencia e Innovacion" of Spain/FEDER under projects TEC2008-01638/TEC, TEC2011/24492, IPT-2011-0951-390000 and CONSOLIDER-INGENIO CSD2008-00068, grant AP2012-2020, by the Gobierno del Principado de Asturias (PCTI)/FEDER-FSE under projects EQUIP08-06, FC09-COF09-12, EQUIP10-31, GRUPIN14-114, grant BP13034 and by Catedra Telefonica - Universidad de Oviedo.
Fuente:: 1;3
Idioma:: English
Relación:: Millimeter Waves (GSMM), 2015 Global Symposium On; Sí, esta versión ha sido citada
Autor/Productor:: Hadarig, Andreea; Ver Hoeye, Samuel; Vázquez, Carlos; Camblor, René; Fernández, Miguel; Hotopan, George; Alonso, Leticia; Las Heras, Fernando
Editor:: IEEE
Derechos:: http://creativecommons.org/licenses/by-nc-nd/3.0/deed.es
Fecha:: 2016-06-16T11:15:32Z; 2015-05
Tipo de recurso:: article
Formato:: application/pdf

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