Triangular resonators, designed by using Radio Frequency Micro Electro Mechanical Systems (RF MEMS) cantilevers in coplanar waveguide (CPW) configuration, have been proposed, fabricated on alumina and on silicon substrates and tested up to 40 GHz. They can be utilized as building blocks for realizing reconfigurable filters . A triangular split ring resonator has been etched in the cen- tral conductor of the CPW transmission line and the split is provided by the presence of a technologically actuated cantilever beam, i.e. with metal directly deposited without the sacrificial layer, to emulate the ideal actuation and to get preliminary information of the expected microwave response in comparison to numerical simulations. Two main configurations of the triangular transmission line have been studied for narrow-band microwave switching, the first one without the MEMS cantilever and the second one with a technologically actuated MEMS cantilever switch. Because of the contributions of both the resonator and the switch, the device has a narrow band filtering feature. Moreover, these geometries can also be characterized in the broad class of metamaterial devices, because the unit cell can be described by negative equivalent electric permit- tivity and/or magnetic permeability, by means of a trans- mission line parameters extraction method. This finding contributes to the possibility of miniaturization implemen- tations of the resonating structures. A simple but effective lumped element circuit for the modeling of the single triangular resonator is also presented.

Lucibello, A., Emanuela Proietti, ·., Romolo Marcelli, ·., Giovanni Maria Sardi, ·., Bartolucci, G. (2017). Narrow‑band filtering by means of triangular meta‑material resonators based on RF MEMS cantilevers in CPW configuration. MICROSYSTEM TECHNOLOGIES, 23(9), 3955-3967 [10.1007/s00542-016-2809-3].

Narrow‑band filtering by means of triangular meta‑material resonators based on RF MEMS cantilevers in CPW configuration

Andrea Lucibello;· Giancarlo Bartolucci
2017-09-01

Abstract

Triangular resonators, designed by using Radio Frequency Micro Electro Mechanical Systems (RF MEMS) cantilevers in coplanar waveguide (CPW) configuration, have been proposed, fabricated on alumina and on silicon substrates and tested up to 40 GHz. They can be utilized as building blocks for realizing reconfigurable filters . A triangular split ring resonator has been etched in the cen- tral conductor of the CPW transmission line and the split is provided by the presence of a technologically actuated cantilever beam, i.e. with metal directly deposited without the sacrificial layer, to emulate the ideal actuation and to get preliminary information of the expected microwave response in comparison to numerical simulations. Two main configurations of the triangular transmission line have been studied for narrow-band microwave switching, the first one without the MEMS cantilever and the second one with a technologically actuated MEMS cantilever switch. Because of the contributions of both the resonator and the switch, the device has a narrow band filtering feature. Moreover, these geometries can also be characterized in the broad class of metamaterial devices, because the unit cell can be described by negative equivalent electric permit- tivity and/or magnetic permeability, by means of a trans- mission line parameters extraction method. This finding contributes to the possibility of miniaturization implemen- tations of the resonating structures. A simple but effective lumped element circuit for the modeling of the single triangular resonator is also presented.
set-2017
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-INF/01 - ELETTRONICA
English
Con Impact Factor ISI
Meta - material resonator, RF MEMS switch, Copanar waveguide
Lucibello, A., Emanuela Proietti, ·., Romolo Marcelli, ·., Giovanni Maria Sardi, ·., Bartolucci, G. (2017). Narrow‑band filtering by means of triangular meta‑material resonators based on RF MEMS cantilevers in CPW configuration. MICROSYSTEM TECHNOLOGIES, 23(9), 3955-3967 [10.1007/s00542-016-2809-3].
Lucibello, A; Emanuela Proietti, ·; Romolo Marcelli, ·; Giovanni Maria Sardi, ·; Bartolucci, G
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/193491
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