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Design of helical antenna for next generation wireless communication

This study proposes a novel helical antenna design for next generation applications. The strip helical antenna is prescribed for next generation wireless communication and wideband applications that offer circular polarization and a wide bandwidth. In fact, the proposed helical antenna suits 5.8 GHz...

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Main Authors: Zeain, M.Y., Zakaria, Z., Abu, M., Al-Gburi, A.J.A., Alsariera, H., Toding, A., Alani, S., Al-Tarifi, M.A., Al-Heety, O.S., Lago, H., Saeidi, T.
Format: Article
Published: Wydawnictwo SIGMA-NOT 2020
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85095777131&doi=10.15199%2f48.2020.11.19&partnerID=40&md5=478efaa77facfba89d22b6a8fbf3b0b8
http://eprints.utp.edu.my/23388/
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spelling my.utp.eprints.233882021-08-19T07:22:59Z Design of helical antenna for next generation wireless communication Zeain, M.Y. Zakaria, Z. Abu, M. Al-Gburi, A.J.A. Alsariera, H. Toding, A. Alani, S. Al-Tarifi, M.A. Al-Heety, O.S. Lago, H. Saeidi, T. This study proposes a novel helical antenna design for next generation applications. The strip helical antenna is prescribed for next generation wireless communication and wideband applications that offer circular polarization and a wide bandwidth. In fact, the proposed helical antenna suits 5.8 GHz frequency by using Teflon material. The newly-designed strip was printed on a substrate and rolled into a helix shape to achieve circular polarization without impedance matching. This antenna is meant for wideband wireless communication applications. A wide bandwidth of 2.7 GHz with 5.8 GHz resonant frequency was attained through the use of helical antenna on Teflon substrate. The proposed antenna on Teflon substrate recorded a gain of 8.97 dB and 92 efficiency. The antenna design parameters and the simulated results were retrieved using Computer Simulation Technology software (CST). The measurement result of return loss displayed mismatch at 5.22 GHz due to manual fabrication. This developed antenna may be applied for a number of wireless applications, including Wideband, Ultra-wideband, and 5G. © 2020 Wydawnictwo SIGMA-NOT. All rights reserved. Wydawnictwo SIGMA-NOT 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85095777131&doi=10.15199%2f48.2020.11.19&partnerID=40&md5=478efaa77facfba89d22b6a8fbf3b0b8 Zeain, M.Y. and Zakaria, Z. and Abu, M. and Al-Gburi, A.J.A. and Alsariera, H. and Toding, A. and Alani, S. and Al-Tarifi, M.A. and Al-Heety, O.S. and Lago, H. and Saeidi, T. (2020) Design of helical antenna for next generation wireless communication. Przeglad Elektrotechniczny, 96 (11). pp. 96-99. http://eprints.utp.edu.my/23388/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description This study proposes a novel helical antenna design for next generation applications. The strip helical antenna is prescribed for next generation wireless communication and wideband applications that offer circular polarization and a wide bandwidth. In fact, the proposed helical antenna suits 5.8 GHz frequency by using Teflon material. The newly-designed strip was printed on a substrate and rolled into a helix shape to achieve circular polarization without impedance matching. This antenna is meant for wideband wireless communication applications. A wide bandwidth of 2.7 GHz with 5.8 GHz resonant frequency was attained through the use of helical antenna on Teflon substrate. The proposed antenna on Teflon substrate recorded a gain of 8.97 dB and 92 efficiency. The antenna design parameters and the simulated results were retrieved using Computer Simulation Technology software (CST). The measurement result of return loss displayed mismatch at 5.22 GHz due to manual fabrication. This developed antenna may be applied for a number of wireless applications, including Wideband, Ultra-wideband, and 5G. © 2020 Wydawnictwo SIGMA-NOT. All rights reserved.
format Article
author Zeain, M.Y.
Zakaria, Z.
Abu, M.
Al-Gburi, A.J.A.
Alsariera, H.
Toding, A.
Alani, S.
Al-Tarifi, M.A.
Al-Heety, O.S.
Lago, H.
Saeidi, T.
spellingShingle Zeain, M.Y.
Zakaria, Z.
Abu, M.
Al-Gburi, A.J.A.
Alsariera, H.
Toding, A.
Alani, S.
Al-Tarifi, M.A.
Al-Heety, O.S.
Lago, H.
Saeidi, T.
Design of helical antenna for next generation wireless communication
author_facet Zeain, M.Y.
Zakaria, Z.
Abu, M.
Al-Gburi, A.J.A.
Alsariera, H.
Toding, A.
Alani, S.
Al-Tarifi, M.A.
Al-Heety, O.S.
Lago, H.
Saeidi, T.
author_sort Zeain, M.Y.
title Design of helical antenna for next generation wireless communication
title_short Design of helical antenna for next generation wireless communication
title_full Design of helical antenna for next generation wireless communication
title_fullStr Design of helical antenna for next generation wireless communication
title_full_unstemmed Design of helical antenna for next generation wireless communication
title_sort design of helical antenna for next generation wireless communication
publisher Wydawnictwo SIGMA-NOT
publishDate 2020
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85095777131&doi=10.15199%2f48.2020.11.19&partnerID=40&md5=478efaa77facfba89d22b6a8fbf3b0b8
http://eprints.utp.edu.my/23388/
_version_ 1738656464947380224
score 13.160551

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