Archivio Istituzionale della RicercaA 3D printed folded reflectarray that uses fully dielectric resonator elements and a spherical polarizer realized with a metalized plastic structure is presented in this paper. To reduce the thickness of the reflecting surface, a 3D printable dielectric material with a high-value of the dielectric constant is used, while the spherical polarizer is exploited to enhance the reflectarray bandwidth compared to a flat configuration. Preliminary results show very good performance of the antenna, with a gain of about 28 dBi and an efficiency greater than 50% in the whole 1-dB bandwidth of 13.4%.
Additive Manufacturing Folded Reflectarray / Massaccesi, Andrea; Mazzinghi, Agnese; Freni, Angelo; Beccaria, Michele; Pirinoli, Paola. - (2024), pp. 300-303. (Intervento presentato al convegno 25th International Conference on Electromagnetics in Advanced Applications, ICEAA 2024 tenutosi a Lisboa (Por) nel 2-6 September 2024) [10.1109/iceaa61917.2024.10701750].
Additive Manufacturing Folded Reflectarray
Massaccesi, Andrea;Freni, Angelo;Beccaria, Michele;Pirinoli, Paola
2024
Abstract
A 3D printed folded reflectarray that uses fully dielectric resonator elements and a spherical polarizer realized with a metalized plastic structure is presented in this paper. To reduce the thickness of the reflecting surface, a 3D printable dielectric material with a high-value of the dielectric constant is used, while the spherical polarizer is exploited to enhance the reflectarray bandwidth compared to a flat configuration. Preliminary results show very good performance of the antenna, with a gain of about 28 dBi and an efficiency greater than 50% in the whole 1-dB bandwidth of 13.4%.
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Additive_Manufacturing_Folded_Reflectarray.pdf
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conference_101719.pdf
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https://hdl.handle.net/11583/3000903