Design of novel microstrip patch antenna for millimeter-wave B5G communications
Peer reviewed, Journal article
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Date
2024Metadata
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Original version
Tiang, J. J., Alsekait, D. M., Khan, I., Wang, P.-C., & Madsen, D. Ø. (2024). Design of novel microstrip patch antenna for millimeter-wave B5G communications. Frontiers in Materials, 11, Artikkel 1364159. https://doi.org/10.3389/fmats.2024.1364159Abstract
Introduction: The simplicity of integration and co-type features of microstrip antennas make them intriguing for a broad variety of applications, particularly with the growing usage of mmWave bands in wireless communications and the constant rise in data transfer in communication situations.
Method: This paper proposes a novel design of micrstrip patch antenna for mmWave B5G communication. The main idea is to realize four-mode antenna the operates in four different frequencies. The geometry is rectangular patch whose resonance frequency is adjusted by varying the walls and pins of the structure.
Results: Simulation results show that the proposed antenna design has improved fractional bandwidth and performance as compared with existing antennas.
Discussion: The observed curve indicates that, in agreement with the modeling findings, there are four resonance spots in the operational frequency region of 2.5–3.4 GHz: 2.68 GHz, 2.9 GHz, 3.05 GHz, and 3.3 GHz, which correspond to TM1/2,0, TM3/2,0, and TMRS, respectively, and TM1/2,2 four resonant modes, within the frequency range, the observed antenna gain peak is around 9 dBi, which is consistent with the measured results.