10.35940/ijrte.C4663.099320
https://zenodo.org/records/5847736
oai:zenodo.org:5847736
C Ankita
C Ankita
Department of TCE R V College of Engineering Engineering Bengaluru, India
Supriya A
Supriya A
Department of TCE R V College of Engineering Engineering Bengaluru, India
Bhagya R
Bhagya R
Department of TCE R V College of Engineering Engineering Bengaluru, India
Design and Simulation of millimeter wave Mylar based flexible Antenna for 5G wireless Applications
Zenodo
2020
Directivity, HFSS, microstrip patch antenna, millimeter waves, radiation pattern, return loss.
Blue Eyes Intelligence Engineering and Sciences Publication(BEIESP)
Blue Eyes Intelligence Engineering and Sciences Publication(BEIESP)
Publisher
2020-09-30
eng
2277-3878
Creative Commons Attribution 4.0 International
The millimeter wave (mm-wave) is expected to play a crucial role in providing broad frequency bandwidth for large data transmission. The restrictions of wave propagation are anticipated to get eliminated in mm-wave propagation through the assistance of antenna technologies. The higher frequency spectrum prevalence of the 5G applications are likely to be dependent on a small advanced antenna technology. This paper presents an antenna design which uses Mylar as substrate for the 5G wireless applications. The structure of the antenna adopted here is of a T-shaped patch designed with ideal symmetrical slot structures. To increase the bandwidth the idea of defective ground structure (DGS) is used. The antenna model discussed here shows a high impedance bandwidth and a fair radiation pattern in the required direction with a maximum gain of 8.35dB at 28 GHz frequency. The proposed antenna is compared with the basic microstrip patch antenna which is designed at low frequency to prove that the bandwidth is enhanced and so other parameters in the proposed antenna such that it is suitable for mm-wave 5G wireless applications.