A Rectangular Patch Antenna Design For 5g Using A 30 Ghz Slotted Bow-Tie

Authors

  • Mohit Tyagi

Keywords:

Feed techniques, gain, broadband bandwidth, microstrip patch, 5G

Abstract

In this work, we recommend a new rectangular microstrip fix radio wire (RMPA) with a relative permittivity (ɐr) of 4.3 and a thickness (h) of 0.254 mm, and we look at its plan and execution at (f).The frequency is 28 GHz. Using Computer Simulation Technology (CST) and the High Frequency Structure Simulator (HFSS), three distinct feeding strategies are investigated to improve the performance of the antenna radiation, particularly the gain and bandwidth of the antenna: coaxial probe, proximity linked line, and microstrip inset line In spite of the fact that it has a greater recieving wire than the other taking care of choices, the vicinity coupled took care of still figures out how to deliver an exceptionally coordinated example and keep radiation execution great, as per the reenacted recurrence reactions. The three taking care of strategies increment the addition from 5.50 dB to 6.83 dB. Moreover, for f r = 28 GHz, with the reflection coefficient S11= - 10 dB, the recieving wire data transmission is upgraded from 0.6 GHz to 3.60 GHz. The proposed design is more fit to different 5G application frameworks than the recently evolved RMPA because of its more prominent data transfer capacity, higher increase, and reliable size.

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Published

2021-07-17

How to Cite

Mohit Tyagi. (2021). A Rectangular Patch Antenna Design For 5g Using A 30 Ghz Slotted Bow-Tie. Elementary Education Online, 20(6), 6010–6013. Retrieved from https://ilkogretim-online.org/index.php/pub/article/view/7548

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Section

Articles