2 X 2 MIMO Antenna Design For 5G Applications

In today's modern era antenna plays a vibrant part in the recent development of wireless communication technology era. Compact size, high bandwidth, and efficacy of Microstrip patch antenna makes it preferable in favor of wireless communication modules. Evolution has been occurring in the commu...

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Bibliographic Details
Published in2023 2nd International Conference on Advancements in Electrical, Electronics, Communication, Computing and Automation (ICAECA) pp. 1 - 6
Main Authors Joe, D. Allin, Madhumitha, K., Prabhaa, B.S. Rachagha, Dharshanya, P.
Format Conference Proceeding
LanguageEnglish
Published IEEE 16.06.2023
Subjects
5G mobile communication
FR4
Microstrip
Microstrip antennas
MIMO
Multiband
Patch antennas
Rectangular microstrip patch
Slot antennas
slots
Software
Wireless communication
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Summary:In today's modern era antenna plays a vibrant part in the recent development of wireless communication technology era. Compact size, high bandwidth, and efficacy of Microstrip patch antenna makes it preferable in favor of wireless communication modules. Evolution has been occurring in the communication domain for the last few years in a fast bound manner. In mobile communication technology, starting from the first generation to the most using fourth generation, which is known as the LTE/4G, considerable improvements have occurred. In the present time 5G is the strongest examine region for numerous scholars due to its high data rate. With the ever-increasing internet traffic and demand for high data rate, 5G would be more suitable for the users to accommodate their wide band and broadband needs. A multiple input multiple output (MIMO) antenna is proposed for 5G efforts in this paper. The indicated antenna is made using FR4 epoxy substrate material which has the dielectric constant value as 4.4. The MIMO antenna structure consists of four basic shaped rectangular microstrip patch antennas and a slotted ground plane structure. The various shapes like U slots and L slots are assumed to be designed for multiple bands of frequencies. Two parasitic elements are incorporated directly between the antennas on the substrate's backside to improve the isolation between them. For further improvement of antenna results, optimization of the antenna parameters is performed. The Ansys HFSS software was adopted to model the MIMO antenna.
DOI:10.1109/ICAECA56562.2023.10199993