Multiband Frequency Compact Patch Antenna for 5G Applications


Authors : Shruthi S; Amritha M H; Sreesha V; Abhijay V; Dr. Krishna Kumar Kishor; Dr. V. Balamurugan

Volume/Issue : Volume 9 - 2024, Issue 4 - April

Google Scholar : https://tinyurl.com/4mxfmjc9

Scribd : https://tinyurl.com/8djh5jf2

DOI : https://doi.org/10.38124/ijisrt/IJISRT24APR2145

Abstract : The design of a multi-band microstrip patch antenna, with a focus on the frequencies of 27.4GHz, 46GHz, and 58.2GHz, is described in this work. The antenna arrangement consists of a rectangular patch with an incorporated 0.088mm x 2mm rectangular slit. The antenna is based on a 3.285mm×7.235mm Roger RT/duroid 5880(tm) substrate with a dielectric constant of 4.4. It is fed via a 3.4mm×4.1mm microstrip-fed rectangular patch. The antenna operates in multi-band mode, as demonstrated by the simulation results, which show that it can reach respective bandwidths of 19 GHz and 12 GHz. At 27.4 GHz, 46 GHz, and 58.3 GHz, the return loss values are roughly -35.5 dB, -13.35 Db, and - 26.9 dB. The measured gains at 27.4GHz, 46GHz, and 56.6GHz are 6.04dB, 3.55dB, and 10.04dB, respectively. The outcomes produced by this suggested antenna should meet the requirements for 5G wireless communication applications and automotive radar systems.

Keywords : HFSS.

References :

  1. WONIL Roh, Ji-yun SEOL, Jeongho Park, Byunghwan Lee , Jaekon Lee, Yungsoo Kim , Jaeweon Cho, Kyungwhoon Cheun , Farshid Aryanfar “MILLIMETER-WAVE BEAMFORMING AS AN ENABLING TECHNOLOGY FOR 5G CELLULAR COMMUNICATIONS: THEORETICAL FEASIBILITY AND PROTOTYPE RESULTS”, IEEE Communications Magazine .Volume: 52, Issue: 2, February 2014.
  2. Omar Darboe , Dominic Bernard Onyango Konditi,Franklin Manene,”A 28 GHZ RECTANGULAR MICROSTRIP PATCH ANTENNA FOR 5G APPLICATIONS”, International Journal of Engineering Research and TechnologyVolume 12, Number 6 ,2019.
  3. Sridevi.S1, Mr. K.Mahendran,“Design of Millimeter Wave Microstrip Patch Antenna For MIMO Communication”, International Research Journal of Engineering and Technology Volume: 04 Issue: 10 ,Oct -2017.
  4. S. Kannadhasan, A.C. Shagar,“ DESIGN AND ANALYSIS OF U SHAPED MICROSTRIP PATCH ANTENNA USING HFSS”,  Third International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics (AEEICB)2017.
  5. Safpbri Johari, Muhammad Abdul Jalil, Shaifol Ifrad Ibrahim,“ 28 GHz Microstrip Patch Antennas for Future 5G”, January 2018,Journal of Engineering Studies and Research.
  6. Dheeraj Mungur, Shankar Duraikannan, “Microstrip Patch Antenna at 28 GHz for 5G Applications”, Journal of Science Technology Engineering and Management-Advanced Research & Innovation Vol. 1, Issue 1, January 2018.
  7. P. Merlin Teresa,G. Umamaheswari, “Compact Slotted Microstrip Antenna for 5G Applications Operating at 28 GHz”,24 June,2020.

The design of a multi-band microstrip patch antenna, with a focus on the frequencies of 27.4GHz, 46GHz, and 58.2GHz, is described in this work. The antenna arrangement consists of a rectangular patch with an incorporated 0.088mm x 2mm rectangular slit. The antenna is based on a 3.285mm×7.235mm Roger RT/duroid 5880(tm) substrate with a dielectric constant of 4.4. It is fed via a 3.4mm×4.1mm microstrip-fed rectangular patch. The antenna operates in multi-band mode, as demonstrated by the simulation results, which show that it can reach respective bandwidths of 19 GHz and 12 GHz. At 27.4 GHz, 46 GHz, and 58.3 GHz, the return loss values are roughly -35.5 dB, -13.35 Db, and - 26.9 dB. The measured gains at 27.4GHz, 46GHz, and 56.6GHz are 6.04dB, 3.55dB, and 10.04dB, respectively. The outcomes produced by this suggested antenna should meet the requirements for 5G wireless communication applications and automotive radar systems.

Keywords : HFSS.

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