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10-GHz low-loss liquid metal SIW phase shifter for phased array antennas

10-GHz low-loss liquid metal SIW phase shifter for phased array antennas
10-GHz low-loss liquid metal SIW phase shifter for phased array antennas
This article presents a proof of concept demonstrator for a pair of novel phase shifters based on substrate integrated waveguide (SIW) technology. Gallium-based liquid metal (LM) is used to reconfigure each phase shifter. This article presents LM phase shifters that, for the first time, have a phase shifting range of 360 ∘ . The phase shifters have a small electrical size, and they are intended for use within phased array antenna applications. This article also presents a design procedure for the phase shifters. The procedure has been used to design two phase shifters operating at 10 GHz. The design process can be readily scaled for operation at other frequencies. The proposed phase shifters are reciprocal and bidirectional, and they have very low insertion loss (IL). A series of reconfigurable LM vias are used to achieve the phase shift. Each of LM via is activated once a drill hole is filled with LM and it is deactivated once LM is removed. Using this method, it is possible to achieve a phase shift step ranging from 1 ∘ to 100 ∘ using a single LM via. Moreover, the overall phase shift can be extended to 360 ∘ by employing several LM vias in series inside the SIW. The proposed phase shifters have an IL lower than 3 dB and provide a total phase shifting range of approximately 360 ∘ in eight steps of approximately 45 ∘ each. This enables the proposed two phase shifters to have an extraordinary figure of merit (FoM) of 131.3 ∘ /dB and 122.4 ∘ /dB.
Liquid metal (LM), phase shifter, phased arrays, reconfigurable circuit, substrate integrated waveguide (SIW)
0018-9480
5045-5059
Alkaraki, Shaker
f1d6662e-32eb-458c-98b7-0fea79618ca6
Lin, Quan Wei
3e650ffb-630c-4607-bcad-4ae001df37a8
Borja, Alejandro L.
6680708c-1dae-4dc8-a9b7-8fe16738aafd
Wang, Zhengpeng
2becadf1-113d-46a3-9652-37fbcc7d636c
Wong, Hang
b4917aae-7aa5-4f61-8ff1-df5fe6e7baf7
Tang, Shiyang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Wang, Yi
07b6fb1f-a393-49e2-8e0c-d84c532e932a
Kelly, James R.
140d3dd2-500f-4e1b-8605-2bee558eaeb7
et al.
Alkaraki, Shaker
f1d6662e-32eb-458c-98b7-0fea79618ca6
Lin, Quan Wei
3e650ffb-630c-4607-bcad-4ae001df37a8
Borja, Alejandro L.
6680708c-1dae-4dc8-a9b7-8fe16738aafd
Wang, Zhengpeng
2becadf1-113d-46a3-9652-37fbcc7d636c
Wong, Hang
b4917aae-7aa5-4f61-8ff1-df5fe6e7baf7
Tang, Shiyang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Wang, Yi
07b6fb1f-a393-49e2-8e0c-d84c532e932a
Kelly, James R.
140d3dd2-500f-4e1b-8605-2bee558eaeb7

Alkaraki, Shaker, Lin, Quan Wei and Borja, Alejandro L. , et al. (2023) 10-GHz low-loss liquid metal SIW phase shifter for phased array antennas. IEEE Transactions on Microwave Theory and Techniques, 71 (11), 5045-5059. (doi:10.1109/TMTT.2023.3308160).

Record type: Article

Abstract

This article presents a proof of concept demonstrator for a pair of novel phase shifters based on substrate integrated waveguide (SIW) technology. Gallium-based liquid metal (LM) is used to reconfigure each phase shifter. This article presents LM phase shifters that, for the first time, have a phase shifting range of 360 ∘ . The phase shifters have a small electrical size, and they are intended for use within phased array antenna applications. This article also presents a design procedure for the phase shifters. The procedure has been used to design two phase shifters operating at 10 GHz. The design process can be readily scaled for operation at other frequencies. The proposed phase shifters are reciprocal and bidirectional, and they have very low insertion loss (IL). A series of reconfigurable LM vias are used to achieve the phase shift. Each of LM via is activated once a drill hole is filled with LM and it is deactivated once LM is removed. Using this method, it is possible to achieve a phase shift step ranging from 1 ∘ to 100 ∘ using a single LM via. Moreover, the overall phase shift can be extended to 360 ∘ by employing several LM vias in series inside the SIW. The proposed phase shifters have an IL lower than 3 dB and provide a total phase shifting range of approximately 360 ∘ in eight steps of approximately 45 ∘ each. This enables the proposed two phase shifters to have an extraordinary figure of merit (FoM) of 131.3 ∘ /dB and 122.4 ∘ /dB.

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More information

e-pub ahead of print date: 8 September 2023
Keywords: Liquid metal (LM), phase shifter, phased arrays, reconfigurable circuit, substrate integrated waveguide (SIW)
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Identifiers

Local EPrints ID: 482461
URI: http://eprints.soton.ac.uk/id/eprint/482461
DOI: doi:10.1109/TMTT.2023.3308160
ISSN: 0018-9480
PURE UUID: c882fc5f-2154-49bd-b784-88bdf0c7f73e
ORCID for Shiyang Tang: ORCID iD orcid.org/0000-0002-3079-8880

Catalogue record

Date deposited: 05 Oct 2023 16:49
Last modified: 16 Apr 2024 02:07

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Contributors

Author: Shaker Alkaraki
Author: Quan Wei Lin
Author: Alejandro L. Borja
Author: Zhengpeng Wang
Author: Hang Wong
Author: Shiyang Tang ORCID iD
Author: Yi Wang
Author: James R. Kelly
Corporate Author: et al.

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