A Simple Design of Microstrip Patch Antenna for WLAN Application Using 5.4 GHz Band

Ridoy, Prince Mahmud; Elme, Khan Md.; Shihab, Rezauddin; Saha, Pranta; Jawad-Al-Mursalin, Md.; Alam, Nowshin

doi:10.1007/978-981-19-0390-8_70

Cited by 4 publications

(3 citation statements)

References 9 publications

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“…In the 1950s, that was the first time a microstrip antenna was made available to the general public. Despite a modest beginning, it is still strong today [6]. It wasn't until the early 1980s that its development began to pick up momentum.…”

Section: Literature Reviewmentioning

confidence: 99%

For wireless LAN application, microstrip patch antenna design in S-band

Rana,

Islam Sourav,

Al Mamun

et al. 2024

IJEECS

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This article presents a 3.5 GHz rectangular microstrip patch antenna (RMPA) designed, studied, and analyzed for wireless LAN applications. Using Fr-4 as substrate material, whose dielectric permittivity is 4.3, patch thickness is 1.65 mm, and loss tangent is 0.025. A feeding line with an impedance of 50 Ω is utilized to supply the antenna with power. Computer simulation technology (CST) software has been used to design the antenna and origin pro software has been used to display the resulting figures from the simulation. The antenna simulation showed that the return loss is -56.82 dB; the directivity gain is 6.02 dBi, the bandwidth is 0.148 GHz, and the voltage standing wave ratio (VSWR) is 1.0028. The paper aims to increase the return loss, develop a standard VSWR, increase the directivity gain of the antenna, and improve the antenna bandwidth. The results of the proposed antenna were much better than previously published papers, which were suitable for wireless applications. This proposed antenna can be used for future wireless LAN applications.

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Section: Literature Reviewmentioning

confidence: 99%

For wireless LAN application, microstrip patch antenna design in S-band

Rana,

Islam Sourav,

Al Mamun

et al. 2024

IJEECS

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show abstract

“…In the 1950s, the first microstrip antenna was made available to the public. The pace of its development picked up in the early 1980s, and it is still going strong now [6]. In recent years, more studies have focused on microstrip patch antennas with resonant frequencies in the wireless application frequency band.…”

Section: Literature Reviewmentioning

confidence: 99%

A 3.5 GHz microstrip patch antenna design and analysis for wireless applications

Rana,

Khurshid,

Joy

et al. 2023

IJEECS

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<p class="Abstract"><span>The design, simulation, and analysis of a 3.5 GHz rectangular microstrip patch antenna (RMPA) have been carried out for this research article. The substrate material employed for the design is a lossy form of fr-4, which has a thickness of 0.5 mm, a dielectric permittivity of 4.3, and a loss tangent of 0.0005, respectively. The antenna receives power through a feeding line with an impedance of 50 Ω. The simulation was ultimately finished off with the help of some computer simulation tools. Following completion of the simulation, the findings revealed a directivity gain of 6.05 dBi, a voltage standing wave ratio (VSWR) of 1.0607, and a bandwidth of 144.1 MHz. The return loss was determined to be -30.611 dB. The suggested antenna's primary purpose was to attain a standard value for the VSWR while lowering the return loss. This antenna improves directivity gain and bandwidth and has applications in radars, mobile phones, and wireless local area networks (WLANs). The results of this proposed antenna were superior to those of a variety of studies that had been published in the past.</span></p>

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“…In the 1950s, the inaugural microstrip antenna was made accessible to the general public for the first time. Beginning in the early 1980s, its development rate increased, and it is still strong [1]. It is common practice to use antennas, an essential component of the communications field.…”

Section: Introductionmentioning

confidence: 99%

A review of 2.45 GHz microstrip patch antennas for wireless applications

Rana,

Rocky,

Islam

et al. 2024

IJAAS

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Recently, microstrip patch antennas have become popular. Due to their ubiquity, these antennas have more uses every day. In this research paper, a 2.45 GHz microstrip patch antenna has been reviewed and analyzed. Different substrate materials have been used to make these antennas, and their thickness is different. Various antennas are designed based on the application, such as rectangular, square, triangle, ring, donut, and dipole. Other types of software were used to design the antenna, including CST, HFSS, MATLAB, ADS, and FEKO. Microstrip patch antenna design is a relatively new field of study for wireless applications. Several devices are linked to send or receive radio waves using a single antenna. Antennas designed for 2.45 GHz are used in various wireless communication systems, including television broadcasts, microwave ovens, mobile phones, wireless local area network (WLAN), Bluetooth, global positioning system (GPS), and two-way radios. This article looks at the geometric structures of antennas, including their many parameters and materials and the many different shapes they can take. In addition, the substrate materials, the loss tangent, the thickness, the return loss, the bandwidth, the voltage standing wave ratio (VSWR), the gain, and the directivity of previous articles will also be discussed.

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A Simple Design of Microstrip Patch Antenna for WLAN Application Using 5.4 GHz Band

Cited by 4 publications

References 9 publications

For wireless LAN application, microstrip patch antenna design in S-band

For wireless LAN application, microstrip patch antenna design in S-band

A 3.5 GHz microstrip patch antenna design and analysis for wireless applications

A review of 2.45 GHz microstrip patch antennas for wireless applications

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