A flexible phased array system with low areal mass density
A flexible phased array system with low areal mass density
Phased arrays are multiple antenna systems capable of forming and steering beams electronically using constructive and destructive interference between sources. They are employed extensively in radar and communication systems but are typically rigid, bulky and heavy, which limits their use in compact or portable devices and systems. Here, we report a scalable phased array system that is both lightweight and flexible. The array architecture consists of a self-monitoring complementary metal–oxide–semiconductor-based integrated circuit, which is responsible for generating multiple independent phase- and amplitude-controlled signal channels, combined with flexible and collapsible radiating structures. The modular platform, which can be collapsed, rolled and folded, is capable of operating standalone or as a subarray in a larger-scale flexible phased array system. To illustrate the capabilities of the approach, we created a 4 × 4 flexible phased array tile operating at 9.4–10.4 GHz, with a low areal mass density of 0.1 g cm−2. We also created a flexible phased array prototype that is powered by photovoltaic cells and intended for use in a wireless space-based solar power transfer array.
195-205
Hashemi, M.R.M.
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Fikes, A.C.
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Gal-Katziri, M.
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Abiri, B.
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Bohn, F.
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Safaripour, A.
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Kelzenberg, M.D.
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Warmann, E.L.
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Espinet-Gonzalez, Pilar
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Vaidya, N.
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Gdoutos, E.E.
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Leclerc, Christophe
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Royer, Fabien
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Pellegrino, S.
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Atwater, H.A.
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Hajimiri, A.
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17 May 2019
Hashemi, M.R.M.
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Fikes, A.C.
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Gal-Katziri, M.
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Abiri, B.
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Bohn, F.
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Safaripour, A.
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Kelzenberg, M.D.
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Warmann, E.L.
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Espinet-Gonzalez, Pilar
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Vaidya, N.
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Gdoutos, E.E.
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Leclerc, Christophe
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Royer, Fabien
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Pellegrino, S.
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Atwater, H.A.
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Hajimiri, A.
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Hashemi, M.R.M., Fikes, A.C., Gal-Katziri, M., Abiri, B., Bohn, F., Safaripour, A., Kelzenberg, M.D., Warmann, E.L., Espinet-Gonzalez, Pilar, Vaidya, N., Gdoutos, E.E., Leclerc, Christophe, Royer, Fabien, Pellegrino, S., Atwater, H.A. and Hajimiri, A.
(2019)
A flexible phased array system with low areal mass density.
Nature Electronics, 2019 (2), .
(doi:10.1038/s41928-019-0247-9).
Abstract
Phased arrays are multiple antenna systems capable of forming and steering beams electronically using constructive and destructive interference between sources. They are employed extensively in radar and communication systems but are typically rigid, bulky and heavy, which limits their use in compact or portable devices and systems. Here, we report a scalable phased array system that is both lightweight and flexible. The array architecture consists of a self-monitoring complementary metal–oxide–semiconductor-based integrated circuit, which is responsible for generating multiple independent phase- and amplitude-controlled signal channels, combined with flexible and collapsible radiating structures. The modular platform, which can be collapsed, rolled and folded, is capable of operating standalone or as a subarray in a larger-scale flexible phased array system. To illustrate the capabilities of the approach, we created a 4 × 4 flexible phased array tile operating at 9.4–10.4 GHz, with a low areal mass density of 0.1 g cm−2. We also created a flexible phased array prototype that is powered by photovoltaic cells and intended for use in a wireless space-based solar power transfer array.
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e-pub ahead of print date: 17 May 2019
Published date: 17 May 2019
Additional Information:
Copyright © 2019, The Author(s), under exclusive licence to Springer Nature Limited
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Local EPrints ID: 470882
URI: http://eprints.soton.ac.uk/id/eprint/470882
PURE UUID: 09d9847b-11ec-4563-b7d7-b30c98d33f95
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Date deposited: 20 Oct 2022 16:45
Last modified: 17 Mar 2024 04:10
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Contributors
Author:
M.R.M. Hashemi
Author:
A.C. Fikes
Author:
M. Gal-Katziri
Author:
B. Abiri
Author:
F. Bohn
Author:
A. Safaripour
Author:
M.D. Kelzenberg
Author:
E.L. Warmann
Author:
Pilar Espinet-Gonzalez
Author:
N. Vaidya
Author:
E.E. Gdoutos
Author:
Christophe Leclerc
Author:
Fabien Royer
Author:
S. Pellegrino
Author:
H.A. Atwater
Author:
A. Hajimiri
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