Authors :
Almukhtar Ahmed; Walid. M. Allaghi
Volume/Issue :
Volume 9 - 2024, Issue 2 - February
Google Scholar :
https://tinyurl.com/3s6jxwsy
Scribd :
https://tinyurl.com/2cavubha
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24FEB1488
Abstract :
Five-generation (5G) communication systems
are being required to meet the needs of small, high-speed,
and big bandwidth systems [2]. This paper simulates and
designs a 60GHZ rectangular micro strip patch antenna.
The proposed antenna resonates at 60GHZ with a return
loss of -32.126 dB, efficiency of 87.7119%, and gain of
6.96485 dBi. The patch is 2.726 x 2.364 x 0.125 mm. The
radiating patch and the 50Ω micro strip feed line are
matched using an iset feed transmission line approach. A
Roger RT Duroid 5880 substrate, with a height of
0.125mm and a dielectric constant of 2.20 and a loss
tangent of 0.0009, was selected in the design. The
Advanced Design System (ADS) was used to compute the
antenna's parameters and evaluate the results of
simulations.
Five-generation (5G) communication systems
are being required to meet the needs of small, high-speed,
and big bandwidth systems [2]. This paper simulates and
designs a 60GHZ rectangular micro strip patch antenna.
The proposed antenna resonates at 60GHZ with a return
loss of -32.126 dB, efficiency of 87.7119%, and gain of
6.96485 dBi. The patch is 2.726 x 2.364 x 0.125 mm. The
radiating patch and the 50Ω micro strip feed line are
matched using an iset feed transmission line approach. A
Roger RT Duroid 5880 substrate, with a height of
0.125mm and a dielectric constant of 2.20 and a loss
tangent of 0.0009, was selected in the design. The
Advanced Design System (ADS) was used to compute the
antenna's parameters and evaluate the results of
simulations.