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2021 | OriginalPaper | Chapter

13. A Design of a Dielectric Resonator Antenna for Higher-Order Mode in the Shape of Rectangle for 5G Application

Authors : Shaiful Bakri Ismail, Muhammad Farihin b Abdul Aziz, Mohd Najib Mohd Yasin

Published in: Advanced Engineering for Processes and Technologies II

Publisher: Springer International Publishing

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Abstract

In this paper, the rectangular-shaped dielectric resonator antenna (DRA) operating on higher-order mode for the fifth generation (5G) communication applications is designed and presented. The millimeter-wave band was considered as a potential carrier frequency that is important to be one of the 5G technologies. The millimeter-wave band around 20–300 GHz was chosen to offer a large bandwidth, high gain, and minimum size to support higher data transmission in wireless communication. The proposed DR antenna is excited by using a microstrip feed line and designed at the operating frequency of 28 GHz. The Rogers RT/Duroid 5880 material having a thickness of 0.254 mm and a dielectric constant of 2.2 is used for the substrate. The commercial CST microwave studio (CST MWS) software is used for the optimization and simulation of the antenna design. In this research, the result is based on different dimension of the rectangular-shaped antenna by decreasing 2.9% and 1.1% the value of height and width respectively, but the value length is increased about 3.6% from the benchmark antenna design. The results indicate that the proposed antenna design produced a better performance about in the range of 1.5% to 7.2% in regard to return loss, bandwidth VSWR, gain, and directivity. Thus, the proposed antenna design is suitable for future 5G wireless communication applications.

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Metadata
Title
A Design of a Dielectric Resonator Antenna for Higher-Order Mode in the Shape of Rectangle for 5G Application
Authors
Shaiful Bakri Ismail
Muhammad Farihin b Abdul Aziz
Mohd Najib Mohd Yasin
Copyright Year
2021
Book
Advanced Engineering for Processes and Technologies II

Print ISBN: 978-3-030-67306-2

Electronic ISBN: 978-3-030-67307-9

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-030-67307-9_13

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