2022
DOI: 10.52549/ijeei.v10i4.4141
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An S-Band Microstrip Patch Antenna Design and Simulation for Wireless Communication Systems

Abstract: In this paper, a 3.5 GHz microstrip patch antenna for the future of wireless communication is designed and studied. As the substrate material, Rogers RT/Duroid 5880 is utilized. This material has a thickness of 0.077 mm and a dielectric permittivity of 2.2. The proposed antenna layout is simulated using the CST Studio suite of software programs. This research aimed to get a lower return loss, a higher gain, a lower VSWR, better directivity, and more efficient operation. The simulation revealed that the return … Show more

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Cited by 17 publications
(4 citation statements)
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“…With the help of a MPA, electromagnetic waves are often sent into space when wireless communication occurs. A MPA four most important parts are the ground, substrate, patch, and feed [21]. Microstrip antennas have been in development for a long time, and the number of ways to use them is continually growing.…”
Section: Simulated Antenna Design and Resultsmentioning
confidence: 99%
“…With the help of a MPA, electromagnetic waves are often sent into space when wireless communication occurs. A MPA four most important parts are the ground, substrate, patch, and feed [21]. Microstrip antennas have been in development for a long time, and the number of ways to use them is continually growing.…”
Section: Simulated Antenna Design and Resultsmentioning
confidence: 99%
“…The antenna's design came from an older one, but the background and patch size were changed to make it work better. Rana et al [24] shows how to make a microstrip patch antenna that works at 3.5 GHz for future wireless communications. Through this study, the researchers hoped to reach the following goals: a lower return loss, a more significant gain, a lower VSWR, better directivity, and more efficient operation.…”
Section: Literature Reviewmentioning
confidence: 99%
“…Rana et al [7] introduces a patch antenna for future wireless communications operating at 3.5 GHz and explains its design. The researchers thought pursuing this line of inquiry would achieve a minor return loss, enhance the ratio of directivity, gain, and voltage standing wave ratio (VSWR), and improve the bandwidth.…”
Section: Literature Reviewmentioning
confidence: 99%