An S-Band Microstrip Patch Antenna Design and Simulation for Wireless Communication Systems

Rana, Md. Sohel; Islam, SK Ikramul; Mamun, Sharif Al; Mondal, Laltu Kumar; Ahmed, Md. Toukir; Rahman, Md. Mostafizur

doi:10.52549/ijeei.v10i4.4141

Cited by 13 publications

(2 citation statements)

References 11 publications

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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%

A 2.45 GHz microstrip patch antenna design, simulation, and anlaysis for wireless applications

et al. 2023

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This paper designs, simulates, and analyzes the S-band microstrip patch antenna (MPA) for wireless applications. FR-4 (lossy) and Rogger RT/duroid, whose dielectric permittivity is 4.3 and 2.2, respectively, have been used as substrate materials. Simulation is done by computer simulation technology (CST) suite studio 2019 software. Simulations with FR-4 material showed that the return loss was -20.405 dB, the gain was 2.592 dB, the directivity was 7.47 dBi, the voltage standing wave ratio (VSWR) was 1.221, the bandwidth (BW) was 0.0746 GHz, and the efficiency was 34.69%. Also, Rogers RT/duroid material gives results of a return loss of -12.542 dB, a bandwidth (BW) of 0.0349 GHz, a gain of 8.092 dB, a directivity of 8.587 dBi, and an efficiency of 94.24%. The main goal of this antenna is to have a low return loss while getting as close as possible to a VSWR of 1. This will improve the antenna's gain, directivity, and efficiency compared to other antennas. Copper was used to make the patch and the ground, which were 0.35 mm and 0.0077 mm thick, respectively. The results obtained from the proposed antenna were better than those previously published in various in modern scientific journal and conference papers.

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Section: Simulated Antenna Design and Resultsmentioning

confidence: 99%

A 2.45 GHz microstrip patch antenna design, simulation, and anlaysis for wireless applications

et al. 2023

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“…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%

A review on microstrip patch antenna for wireless communication systems at 3.5 GHz

Rana,

Chakrobortty,

Pal

et al. 2024

Bulletin EEI

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This article presents a review of several microstrip patch antennas for 3.5 GHz wireless applications. Different substrate materials, FR-4 (loss), FR-4 Epoxy, Rogers RT/droid 5880, TLC-30, and Rogers RT/droid 5880 LZ, are used. In recent years, wireless antenna applications have increased, including biomedical appliances, internet of things (IoT) terminals, edge devices, radars, mobile phones, and many more. In this work, several articles were reviewed and investigated, and several microstrip patch antennas with a resonance frequency of 3.5 GHz were designed using different substrate materials and shapes. This article also discussed the geometric shapes of antennas, antenna properties, sizes of substrate materials, loss tangent, thickness, return loss, bandwidth, voltage standing wave ratio (VSWR), gain, efficiency, and directivity. Several software is used for design and simulation, including computer simulation technology (CST), high-frequency simulation frequency (HFSS), and advanced design system (ADS), FEKO, and MATLAB. The main goal of this paper is to talk about different wireless application papers that work in the S-band at a frequency of 3.5 GHz and have been published in various international journals and conferences.

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Design and Analysis of the Rectangular Microstrip Patch for 5G Application

Benkhadda,

Talqi,

Zarrik

et al. 2024

Lecture Notes in Networks and Systems

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An S-Band Microstrip Patch Antenna Design and Simulation for Wireless Communication Systems

Cited by 13 publications

References 11 publications

A 2.45 GHz microstrip patch antenna design, simulation, and anlaysis for wireless applications

A 2.45 GHz microstrip patch antenna design, simulation, and anlaysis for wireless applications

A review on microstrip patch antenna for wireless communication systems at 3.5 GHz

Design and Analysis of the Rectangular Microstrip Patch for 5G Application

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