TY - GEN
T1 - A Novel Circular-shaped Hexagonal Slot UWB Antenna for Wireless Applications
AU - Kumar, Om Prakash
AU - Kumar, Pramod
AU - Ali, Tanweer
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - There has been a significant increase in the acceptance and utilization of 'Ultrawideband wireless technology' in new generation (5G and 6G) mobile networks over the past few years, as it enables higher data rates over a shorter distance. This paper proposes a novel Circular-shaped Hexagonal slot UWB antenna with a partial ground plane to meet this demand of the next-generation mobile network. The circular hexagonal slot radiator aids in achieving a better S11 parameter (S11 <-10 dB) across the entire UWB operating frequency range. Using the partial ground plane, a wider bandwidth is achieved. The design also reveals four resonance dips across the whole frequency spectrum of UWB. The proposed UWB antenna operated between 3.3 and 13.4 GHz, contributing to a bandwidth of 10.1 GHz and fractional bandwidth of 120%. Throughout this UWB spectrum, VSWR is observed to be between 1 and 2. The antenna's gain varies between 0.3 and 7.1 dB across its entire operating bandwidth. The proposed UWB antenna has the advantages of small size, improved impedance matching, a simple design, and a high gain that can be efficiently utilized for the aforementioned applications.
AB - There has been a significant increase in the acceptance and utilization of 'Ultrawideband wireless technology' in new generation (5G and 6G) mobile networks over the past few years, as it enables higher data rates over a shorter distance. This paper proposes a novel Circular-shaped Hexagonal slot UWB antenna with a partial ground plane to meet this demand of the next-generation mobile network. The circular hexagonal slot radiator aids in achieving a better S11 parameter (S11 <-10 dB) across the entire UWB operating frequency range. Using the partial ground plane, a wider bandwidth is achieved. The design also reveals four resonance dips across the whole frequency spectrum of UWB. The proposed UWB antenna operated between 3.3 and 13.4 GHz, contributing to a bandwidth of 10.1 GHz and fractional bandwidth of 120%. Throughout this UWB spectrum, VSWR is observed to be between 1 and 2. The antenna's gain varies between 0.3 and 7.1 dB across its entire operating bandwidth. The proposed UWB antenna has the advantages of small size, improved impedance matching, a simple design, and a high gain that can be efficiently utilized for the aforementioned applications.
UR - http://www.scopus.com/inward/record.url?scp=85150683399&partnerID=8YFLogxK
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U2 - 10.1109/AIDE57180.2022.10060654
DO - 10.1109/AIDE57180.2022.10060654
M3 - Conference contribution
AN - SCOPUS:85150683399
T3 - International Conference on Artificial Intelligence and Data Engineering, AIDE 2022
SP - 8
EP - 12
BT - International Conference on Artificial Intelligence and Data Engineering, AIDE 2022
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2022 International Conference on Artificial Intelligence and Data Engineering, AIDE 2022
Y2 - 22 December 2022 through 23 December 2022
ER -
