SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver

SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver

A single pole double throw (SPDT) discrete switch design using switchable substrate integrated waveguide (SIW) resonators is proposed in this paper. It was designed for the millimeter wave multiple input multiple output (MIMO) transceiver. An example application is for 5G communication in 26 GHz ban...

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Main Authors: Ahmad, Badrul Hisham, Zolkefli, Amirul Aizat, Shairi, Noor Azwan, Othman, Adib, Zakaria, Zahriladha, Mohd Ibrahim, Imran, A. Majid, Huda
Format: Article
Language:English
Published: Institute of Advanced Engineering and Science 2021
Online Access:http://eprints.utem.edu.my/id/eprint/25841/2/2021%20SPDT%20DISCRETE%20SWITCH%20DESIGN%20USING%20SWITCHABLE%20SIW%20RESONATORS%20FOR%20MILLIMETER%20WAVE%20MIMO%20TRANSCEIVER.PDF
http://eprints.utem.edu.my/id/eprint/25841/
http://ijeecs.iaescore.com/index.php/IJEECS/article/view/24110/15793
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Institution: Universiti Teknikal Malaysia Melaka
Language: English
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spelling my.utem.eprints.258412022-04-13T15:35:07Z http://eprints.utem.edu.my/id/eprint/25841/ SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver Ahmad, Badrul Hisham Zolkefli, Amirul Aizat Shairi, Noor Azwan Othman, Adib Zakaria, Zahriladha Mohd Ibrahim, Imran A. Majid, Huda A single pole double throw (SPDT) discrete switch design using switchable substrate integrated waveguide (SIW) resonators is proposed in this paper. It was designed for the millimeter wave multiple input multiple output (MIMO) transceiver. An example application is for 5G communication in 26 GHz band. High isolation between transmitter and receiver (in the transceiver) is needed in SPDT switch design to minimize any high radio frequency (RF) power leakage in the receiver. Therefore, the use of switchable SIW resonators can achieve higher isolation if compared to the conventional series SPDT switch, where the isolation of the proposed SPDT is depend on the bandstop response of the SIW resonators. The switchable SIW resonators can be switched between allpass and bandstop responses to allow the operation between transmit and receive modes. As a result, the simulation and measurement showed that the proposed SPDT switch produced an isolation higher than 25 dB from 24.25 to 27.5 GHz compared to the conventional design. Institute of Advanced Engineering and Science 2021-12 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/25841/2/2021%20SPDT%20DISCRETE%20SWITCH%20DESIGN%20USING%20SWITCHABLE%20SIW%20RESONATORS%20FOR%20MILLIMETER%20WAVE%20MIMO%20TRANSCEIVER.PDF Ahmad, Badrul Hisham and Zolkefli, Amirul Aizat and Shairi, Noor Azwan and Othman, Adib and Zakaria, Zahriladha and Mohd Ibrahim, Imran and A. Majid, Huda (2021) SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver. Indonesian Journal of Electrical Engineering and Computer Science, 24 (3). pp. 1542-1549. ISSN 2502-4752 http://ijeecs.iaescore.com/index.php/IJEECS/article/view/24110/15793 10.11591/ijeecs.v24.i3.pp1542-1549
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description A single pole double throw (SPDT) discrete switch design using switchable substrate integrated waveguide (SIW) resonators is proposed in this paper. It was designed for the millimeter wave multiple input multiple output (MIMO) transceiver. An example application is for 5G communication in 26 GHz band. High isolation between transmitter and receiver (in the transceiver) is needed in SPDT switch design to minimize any high radio frequency (RF) power leakage in the receiver. Therefore, the use of switchable SIW resonators can achieve higher isolation if compared to the conventional series SPDT switch, where the isolation of the proposed SPDT is depend on the bandstop response of the SIW resonators. The switchable SIW resonators can be switched between allpass and bandstop responses to allow the operation between transmit and receive modes. As a result, the simulation and measurement showed that the proposed SPDT switch produced an isolation higher than 25 dB from 24.25 to 27.5 GHz compared to the conventional design.
format Article
author Ahmad, Badrul Hisham
Zolkefli, Amirul Aizat
Shairi, Noor Azwan
Othman, Adib
Zakaria, Zahriladha
Mohd Ibrahim, Imran
A. Majid, Huda
spellingShingle Ahmad, Badrul Hisham
Zolkefli, Amirul Aizat
Shairi, Noor Azwan
Othman, Adib
Zakaria, Zahriladha
Mohd Ibrahim, Imran
A. Majid, Huda
SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
author_facet Ahmad, Badrul Hisham
Zolkefli, Amirul Aizat
Shairi, Noor Azwan
Othman, Adib
Zakaria, Zahriladha
Mohd Ibrahim, Imran
A. Majid, Huda
author_sort Ahmad, Badrul Hisham
title SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
title_short SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
title_full SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
title_fullStr SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
title_full_unstemmed SPDT discrete switch design using switchable SIW resonators for millimeter wave MIMO transceiver
title_sort spdt discrete switch design using switchable siw resonators for millimeter wave mimo transceiver
publisher Institute of Advanced Engineering and Science
publishDate 2021
url http://eprints.utem.edu.my/id/eprint/25841/2/2021%20SPDT%20DISCRETE%20SWITCH%20DESIGN%20USING%20SWITCHABLE%20SIW%20RESONATORS%20FOR%20MILLIMETER%20WAVE%20MIMO%20TRANSCEIVER.PDF
http://eprints.utem.edu.my/id/eprint/25841/
http://ijeecs.iaescore.com/index.php/IJEECS/article/view/24110/15793
_version_ 1731229669312692224

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