Affiliation:
1. Department of Electronics and Communication Engineering, SRM Institute of Science and Technology, Chennai, India
Abstract
This chapter proposes a microstrip patch antenna suitable for 5G NR applications operating at 66 GHz. This frequency range lies in mm-Wave spectrum, also called as high band spectrum that has the advantage of very high speed over short distance. The antenna has been designed with a reflector grid which provides increased efficiency at less cost. This antenna design has been developed to the next stage as an antenna array with 64 elements, which yields improved directivity. The proposed design employs row and tapered column tapering providing a better input impedance matching for wider frequency range. Directivity of 20dB has been obtained through this proposed antenna design with Kaiser windowing technique. The spatial multiplexing increases data rate within a limited bandwidth. The simulation results have shown that the designed antenna will be suitable for 5G systems offering a higher data rate in the range of gigabits per second