Year: 2025 | Month: May | Volume: 12 | Issue: 5 | Pages: 154-161
DOI: https://doi.org/10.52403/ijrr.20250519
Design of a Single-Band Turtle-Shaped Patch Antenna for 5G mm-Wave Applications
G. Kalyani1, Dr. G. Srinivasa Rao2, K. Deepika3, P. Sai Alekhya4, Ch. Pravallika5
1Assistant Professor, Dept of ECE, Bapatla Women's Engineering College, Bapatla, AP, India.
2Principal, Dept of ECE, Bapatla Women's Engineering College, Bapatla, AP, India.
3,4,5UG Students, Dept of ECE, Bapatla Women's Engineering College, Bapatla, AP, India.
Corresponding Author: K. Deepika
ABSTRACT
The 5G mm-Wave antenna is designed to support high data rates and low-latency communication, addressing the needs of next-generation wireless networks. This paper introduces a single-band turtle-shaped antenna is designed for application of 28 GHz 5G mm-wave wireless communication. The suggested antenna is 36.12 mm x 36.12 mm by 0.8 mm and is constructed from Rogers RT5880 material. To reach its resonance frequency of 28 GHz, the antenna uses elliptical stubs that are placed exactly the same way inside the patch. At 28 GHz, the suggested antenna achieves a return loss of -38 dB, a VSWR of less than 2 within the band, and peak gains of 7.5 dBi. CST software is used to carry out the design and simulation results of the turtle-shaped antenna.
Keywords: 5G mm-wave, high data rates, low-latency, return loss, gain
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