Design & Simulation of 5G Multiband Antenna with Phase Shift Operation

Authors

Ms. Pratiksha, Ms. Shreya Rawoor, Ms. Priyanka, Ms. Savita, Mrs. Laxmi Patil, Mrs. Shobhana

Abstract

5G will revolutionize the world more than 3G or 4G. 5G means a world where not only people but all the things are also connected. This new version of wireless technology gives us a lot of advantages which includes a boost in speed, reduce reluctance and it provides a more reliable connection for a wide range of users. In the world of mobile communication, 4th Generation (4G) technology has been a huge successful and trend. But for a large amount of data and wider bandwidth still there is a need of faster way of communication. So, we propose a dual band 5th Generation (5G) antenna of frequencies 28Giga Hertz (GHz) and 38GHz. The main patch is designed for the frequency of 28GHz and 38GHz is achieved through slots on patch. The dielectric substrate used in the proposed design is Rogers RT 5880(lossy) which has dielectric constant(ε_r) of 2:2 with loss tangent (tanδ) of 0:0009 and thickness(h) of the substrate is taken as 0:381mm. The main patch has achieved the impedance matching(S-Parameter) of -43:33dB at 28:405GHz and -28:695dB at 37:75GHz and at -10dB bandwidth of 755MHz at 28GHz and 645MHz at 38GHz. The patch has been arranged into 4array antenna using quarter-wave transform power divider with left and right phase shift.

Keywords

5G, CST software, Impedance match, Gain, Microstrip Patch Antenna, Radiation pattern, S-Parameter, Smith chart, VSWR. Microstrip Patch Antenna (MSA), Insert feed, Slots, Array, Power divider, Quarter-wave transform, Phase shift

Design & Simulation of 5G Multiband Antenna with Phase Shift Operation. Ms. Pratiksha, Ms. Shreya Rawoor, Ms. Priyanka, Ms. Savita, Mrs. Laxmi Patil, Mrs. Shobhana. 2022. IJIRCT, Volume 8, Issue 3. Pages 1-17. https://www.ijirct.org/viewPaper.php?paperId=2502059