ac

Design and build multiple input multiple output (MIMO) wideband element microstrip antennas for WiFi access-point applications

Authors

  • Popy Maria Politeknik Negeri Padang, Indonesia
  • Aprinal Adila Asril Politeknik Negeri Padang, Indonesia
  • Nasrul Nasrul Politeknik Negeri Padang, Indonesia
  • Sri Nita Politeknik Negeri Padang, Indonesia
  • Afrizal Yuhanef Politeknik Negeri Padang, Indonesia

DOI:

10.47709/brilliance.v4i1.3839

Keywords:

Multiple Input Multiple Output (MIMO) Antenna, WIFI 2.4 GHZ, Bandwidth, Isolation, Return Loss, VSWR

Dimension Badge Record



Abstract

Technology in the telecommunications sector continues to develop. One of them is the Multiple Input Multiple Output (MIMO) antenna used in WIFI access oint application using MIMO technique in enhancement the need to transfer large amounts of data. In the design and manufacture of MIMO antennas for WIFI access applications point with dimensions of 110 mm x 112 mm using FR-4 substrate specifications with a thickness of 1.6 mm. The antenna consists of four ports and is at each corner The groundplane has four slots to achieve good isolation and produces good bandwidth. The antenna simulation produces a bandwidth of 1.0516 GHz with frequency 2.4 GHz, return loss -12.78 dB, isolation -16.08 dB, and VSWR 1.53 dB. Meanwhile, manufactured antennas produce a bandwidth of more than 100 MHz with frequency 2.4 GHz, return loss -13.5 dB, isolation -18.8 dB, and VSWR 1.29 dB. Antenna simulation using the CST Studio Suite 2019 software application. In the application of the antenna used for Wi-Fi as a transmitter By comparing distances, different results are obtained where the power value is Each distance is different because the farther the distance, the greater the power value produced or emitted will be smaller or less optimal  network.

Google Scholar Cite Analysis
Abstract viewed = 65 times

References

A. MoradiKordalivand, T. A. Rahman, and M. Khalily, “Common Elements Wideband MIMO Antenna System for WiFi/LTE Access-Point Applications,” IEEE Antennas Wirel Propag Lett, vol. 13, pp. 1601–1604, 2014, doi:10.1109/LAWP.2014.2347897

A.B. Adipurnama, H. Wijanto, and Y. Wahyu, “Perancangan dan realisasi antena mimo 4x4 mikrostrip patch persegi panjang 5, 2 ghz untuk wifi 802.11 n,” eProceedings of Engineering, vol. 3, no. 1, 2016.

A. Srirahayu, Y. H. Pramono, and M. S. Muntini, “Antena Monopole sebagai Transceiver Wi-Fi Frekuensi 2, 4 GHz pada Saluran Transmisi Silinder (Pipa PDAM),” Prosiding Pertemuan Ilmiah XXIX HFI Jateng & DIY, vol. 25, 2015.

A. H. Rambe, “Antena Mikrostrip: Konsep dan Aplikasinya,” 2012

F. Abdurrahman, “Desain Antena Microstrip Rectangular untuk WIFI pada Frekuensi 2,462 GHz dan 5, 52 GHz,” 2018.

I. Amara, “MINI TINJAUAN JARINGAN NIRKABEL,” 2021.

M. A. Habib and T. A. Denidni, “Design of a new wideband microstrip?fed circular slot antenna,” Microw Opt Technol Lett, vol. 48, no. 5, pp. 919–923, 2006.

J. Ren, W. Hu, Y. Yin, and R. Fan, “Compact printed MIMO antenna for UWB applications,” IEEE Antennas Wirel Propag Lett, vol. 13, pp. 1517–1520, 2014.

P. Radiasi, “Desain reflektor antena parabola untuk keperluan komunikasi data teresterial pada frekuensi 2, 4 GHz,” 2005.

T. Aswin, F. Imansyah, J. Marpaung, and R. R. Yacoub, “ANALISIS PENERAPAN ACCESS POINT DALAM RENTANG FREKUENSI 2400–2500 MHz DI BALMON KELAS II PONTIANAK,” Jurnal Teknik Elektro Universitas Tanjungpura, vol. 2, no. 1, 2021.

Downloads

ARTICLE Published HISTORY

Submitted Date: 2024-05-09
Accepted Date: 2024-05-09
Published Date: 2024-05-27

How to Cite

Maria, P. ., Asril, A. A., Nasrul, N., Nita, S., & Yuhanef, A. (2024). Design and build multiple input multiple output (MIMO) wideband element microstrip antennas for WiFi access-point applications. Brilliance: Research of Artificial Intelligence, 4(1), 129-140. https://doi.org/10.47709/brilliance.v4i1.3839

Most read articles by the same author(s)