A Compact High-Gain Microstrip Patch Antenna with Improved Bandwidth for 5G Applications

Author:

Sowe Mbye1,Konditi Dominic B. O.2,Langat Philip K3

Affiliation:

1. Department of Electrical Engineering, Pan African University Institute for Basic Sciences Technology and Innovation, Nairobi, Kenya

2. School of Electrical and Electronic Engineering, The Technical University of Nairobi, Kenya

3. Department of Telecommunication and Information Engineering, Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya

Abstract

This paper presents a High Gain, enhanced Bandwidth Patch antenna for 5G operations. The dual-band is achieved using an inset-fed feeding technique for the microstrip patch antenna, which operates at the 28/38GHz millimeter-wave band. The high gain of the patch is achieved by inserting two rectangular slots on the radiating element of the patch. The designed antenna Bandwidth is improved by incorporating three steps at the edge of the rectangular patch. The substrate used for the format is Rogers RT Duroid 5880, with a thickness of 0.508mm, loss tangent of 0.0009, and a relative permittivity constant of 2.2. Ansys HFSS software is used for the simulation. The design attained a maximum gain of 8.2dB and 7.8dB at 27.84GHz and 39.32GHz. The impedance bandwidth response of 1.46 and 4.27GHz at the respective resonating frequencies below the -10dB line of the parameters are achieved. A compact antenna is proposed with a size of 3.2x4.9x0.508 and has a high Gain with a wide Bandwidth at both bands. The proposed antenna has achieved a good performance within the operating bands, making it suitable for 5G applications.

Publisher

FOREX Publication

Subject

Electrical and Electronic Engineering,Engineering (miscellaneous)

Cited by 12 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Design of a Compact Circular Microstrip Patch Antenna for 5G Applications;Engineering, Technology & Applied Science Research;2024-08-02

2. Design and Implementation of a Two-Frequency Power Amplifier without Interference for Wireless Communication;International Journal of Electrical and Electronics Research;2023-11-07

3. ANFIS-Based $$4\times 4$$ Dual Band Circular MIMO Antenna Design with Pretty-Small Size and Large Bandwidth for 5 G Millimeter-Wave Applications at 28/38 GHz;Journal of Infrared, Millimeter, and Terahertz Waves;2023-07-18

4. Design and Simulation of 2.45 GHz Microstrip Patch Antenna for S-Band Wireless Applications;2023 14th International Conference on Computing Communication and Networking Technologies (ICCCNT);2023-07-06

5. Design and Simulation of a High Gain Microstrip Patch Antenna for 5G Communication Systems;2023 International Conference on Engineering, Science and Advanced Technology (ICESAT);2023-06-21

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