In this work, an enhanced tunable microwave phase shifter is presented. The phase shifter consists of three short circuited stubs and a tapered line. The stubs are connected to graphene pads. Graphene's tunable conductivity is varied by a DC voltage. This in turn causes a reactance variation at the input of the tapered line, which causes a phase variation. The physical parameters of the stubs are optimized for a maximum reactance variation by the help of analytical models, circuit and full wave simulations. Measurements of an optimized prototype are performed and a dynamic phase variation of 59∘ is obtained with an amplitude variation of less than 1 dB.
Enhanced Graphene Based Electronically Tunable Phase Shifter / Yasir, Muhammad; Peinetti, Fabio; Savi, Patrizia. - In: MICROMACHINES. - ISSN 2072-666X. - ELETTRONICO. - 14:10(2023), pp. 1877-1886. [10.3390/mi14101877]
Enhanced Graphene Based Electronically Tunable Phase Shifter
Fabio Peinetti;Patrizia Savi
2023
Abstract
In this work, an enhanced tunable microwave phase shifter is presented. The phase shifter consists of three short circuited stubs and a tapered line. The stubs are connected to graphene pads. Graphene's tunable conductivity is varied by a DC voltage. This in turn causes a reactance variation at the input of the tapered line, which causes a phase variation. The physical parameters of the stubs are optimized for a maximum reactance variation by the help of analytical models, circuit and full wave simulations. Measurements of an optimized prototype are performed and a dynamic phase variation of 59∘ is obtained with an amplitude variation of less than 1 dB.File | Dimensione | Formato | |
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Descrizione: Enhanced graphene phase shilfter
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https://hdl.handle.net/11583/2983653