A microstrip patch antenna for 5G mobile communications

Abstract

The advantages of microstrip patch antennas include small size, adaptable surface, ease of fabrication, and compatibility with integrated circuit technology. Numerous experiments have been done over the past few decades to enhance the performance of this antenna, and both military and commercial sectors have found many uses for it. This paper introduces a microstrip patch antenna with an operating frequency of 28GHz for 5G mobile communication. This research designed and simulated a rectangular microstrip patch antenna with 3.494 mm * 5.3 mm * 0.003 mm. The proposed antenna resonates at 28 GHz with a reflection coefficient of -24 dB, a bandwidth of 280 MHz, and a gain of 2.2 dBi. The inset feed technique matches the 50 Ω transmission line impedance. In the design, Rogers RT5880 substrate and copper ground are used. The antenna’s geometry was calculated, and simulated results were analyzed using Computer Simulation Technology Microwave Studio. In conclusion, the proposed antenna has a reflection coefficient of -24 dB, VSWR of 1.24, an input impedance of 51.6Ω, and a gain of 2.2 dBi at operating frequency with a compact geometry can be used in 5G mobile communications. The future shift in resonance frequencies and beams can be considered to make the antenna operate as a smart antenna.