A super wideband frequency reconfigurable antenna is designed for UWB wireless applications. The utilized antenna is of planar type with a modified hexagonal microstrip shape and tapered microstrip feed to provide a better impedance matching. The frequency behavior of the designed antenna has been controlled by utilizing two PIN diodes operates simultaneously. The antenna characteristics have been optimized to operate within an SWB range of (2.77 – 27.68) GHz with a rejection band from 3.84 to 6.69 GHz when both diodes are in the ON state or to operate in the full band (3.38 – 27.65) GHz with the notch characteristics when the diodes are in the OFF state. The planned antenna is explored utilizing the Ansys Electronics Desktop simulator (HFSS). Different antenna parameters have been monitored and investigated for an efficient and clear view in understanding the proposed antenna operation. The results show a super band where the reflection coefficient is below the -10 dB level with a peak gain of 7.64 dB. The antenna patterns exhibit an omnidirectional shape at lower frequencies and less directivity at the notch level.
Track
Electromagnetics: Electromagnetics, Microwaves, Antennas and Propagation
Conference
1st Mosharaka International Conference on Emerging Applications of Electrical Engineering (MIC-ElectricApps 2020)
Congress
2020 Global Congress on Electrical Engineering (GC-ElecEng 2020), 4-6 September 2020, Valencia, Spain
Pages
--1
Topics
Antennas Multiband and Wideband Antennas
ISSN
2227-331X
DOI
BibTeX
@inproceedings{1168ElecEng2020,
title={Frequency Reconfigurable Super Wide Band Hexagonal Patch Antenna},
author={Khaled Alhmami, and Abdelrahman Omar, and Mosab Qwakneh, and Yanal Faouri},
booktitle={2020 Global Congress on Electrical Engineering (GC-ElecEng 2020)},
year={2020},
pages={--1},
doi={}},
organization={Mosharaka for Research and Studies}
}