Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums

In this paper, an umbrella-shaped patch antenna for future millimeter-wave applications for the 5G frequency band is presented. The proposed antenna resonates at multiple frequency bands, i.e., 28 GHz, 38 GHz, and 55 GHz (V-band) that have been globally allocated for 5G communications systems. The p...

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Autores principales: Musa Hussain, Syed Muhammad Rizvi Jarchavi, Syeda Iffat Naqvi, Usama Gulzar, Salahuddin Khan, Mohammad Alibakhshikenari, Isabelle Huynen
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Lenguaje:EN
Publicado: MDPI AG 2021
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5G
Acceso en línea:https://doaj.org/article/e1bd533dd47d400481847040e4c6ca14
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spelling oai:doaj.org-article:e1bd533dd47d400481847040e4c6ca142021-11-11T15:39:57ZDesign and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums10.3390/electronics102126742079-9292https://doaj.org/article/e1bd533dd47d400481847040e4c6ca142021-10-01T00:00:00Zhttps://www.mdpi.com/2079-9292/10/21/2674https://doaj.org/toc/2079-9292In this paper, an umbrella-shaped patch antenna for future millimeter-wave applications for the 5G frequency band is presented. The proposed antenna resonates at multiple frequency bands, i.e., 28 GHz, 38 GHz, and 55 GHz (V-band) that have been globally allocated for 5G communications systems. The proposed antenna is designed using Rogers RT/duroid 5870, with a relative permittivity, loss tangent and thickness of 2.33 mm, 0.0012 mm and 0.79 mm, respectively. The antenna has an overall size of 8 mm × 8 mm which correspond to 0.7 λ × 0.7 λ, where λ is free space wavelength at the lowest resonance. Moreover, the wide bandwidth, high gain and tri band operational mode is achieved by introducing two stubs to the initial design. The antenna prototype was fabricated and validated experimentally. The comparison of the simulated and measured results demonstrates a good correlation. Additionally, the comparative analysis with state of the art work demonstrates that the proposed antenna offers compact size, simple geometrical configuration, wide bandwidth, high gain, and radiation efficiency which makes the proposed antenna a potential candidate for compact smart 5G devices.Musa HussainSyed Muhammad Rizvi JarchaviSyeda Iffat NaqviUsama GulzarSalahuddin KhanMohammad AlibakhshikenariIsabelle HuynenMDPI AGarticletri-band antennamillimeter-wave5GV-bandElectronicsTK7800-8360ENElectronics, Vol 10, Iss 2674, p 2674 (2021)
institution DOAJ
collection DOAJ
language EN
topic tri-band antenna
millimeter-wave
5G
V-band
Electronics
TK7800-8360
spellingShingle tri-band antenna
millimeter-wave
5G
V-band
Electronics
TK7800-8360
Musa Hussain
Syed Muhammad Rizvi Jarchavi
Syeda Iffat Naqvi
Usama Gulzar
Salahuddin Khan
Mohammad Alibakhshikenari
Isabelle Huynen
Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
description In this paper, an umbrella-shaped patch antenna for future millimeter-wave applications for the 5G frequency band is presented. The proposed antenna resonates at multiple frequency bands, i.e., 28 GHz, 38 GHz, and 55 GHz (V-band) that have been globally allocated for 5G communications systems. The proposed antenna is designed using Rogers RT/duroid 5870, with a relative permittivity, loss tangent and thickness of 2.33 mm, 0.0012 mm and 0.79 mm, respectively. The antenna has an overall size of 8 mm × 8 mm which correspond to 0.7 λ × 0.7 λ, where λ is free space wavelength at the lowest resonance. Moreover, the wide bandwidth, high gain and tri band operational mode is achieved by introducing two stubs to the initial design. The antenna prototype was fabricated and validated experimentally. The comparison of the simulated and measured results demonstrates a good correlation. Additionally, the comparative analysis with state of the art work demonstrates that the proposed antenna offers compact size, simple geometrical configuration, wide bandwidth, high gain, and radiation efficiency which makes the proposed antenna a potential candidate for compact smart 5G devices.
format article
author Musa Hussain
Syed Muhammad Rizvi Jarchavi
Syeda Iffat Naqvi
Usama Gulzar
Salahuddin Khan
Mohammad Alibakhshikenari
Isabelle Huynen
author_facet Musa Hussain
Syed Muhammad Rizvi Jarchavi
Syeda Iffat Naqvi
Usama Gulzar
Salahuddin Khan
Mohammad Alibakhshikenari
Isabelle Huynen
author_sort Musa Hussain
title Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
title_short Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
title_full Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
title_fullStr Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
title_full_unstemmed Design and Fabrication of a Printed Tri-Band Antenna for 5G Applications Operating across Ka-, and V-Band Spectrums
title_sort design and fabrication of a printed tri-band antenna for 5g applications operating across ka-, and v-band spectrums
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/e1bd533dd47d400481847040e4c6ca14
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