Litcius/Paper detail

High isolated 8-port MIMO antenna and 16-port massive antenna for mm wave (5G NR-n260) applications in time division duplex mode

Brijesh Mishra, Vandana Yadav, Amrees Pandey, Chaithra MH, R. SethuMadhavi, T. Y. Satheesha, Prakhar Yadav

2024Scientific Reports12 citationsDOIOpen Access PDF

Abstract

In this article an 8-port annular ring-shaped MIMO antenna for 5G and 5G advanced applications is presented. An annular ring on the radiating plane and novel isolator structure on the ground plane are etched over a Rogers RT/Duorid (5870 tm) substrate to achieve high performance antenna for mm wave applications. A systematic study is performed, and an optimized single port antenna (Design-4) is selected among Designs (1-4). The intended 8-port MIMO antenna resonates at 36.4 GHz and exhibits 6.1 GHz (34.2-40.3 GHz) wide bandwidth [Formula: see text] and 40 dB high isolation level. The proposed antenna covers a complete band of 5G NR-n260 which supports time division duplexing (TDD) mode. Moreover, a unique design of suggested antenna attains a high-level gain of 8.3 dB at 39 GHz and more than 85.2 % radiation efficiency. MIMO characteristics such as ECC, TARC, MEG and CCL are studied and found them in acceptable limit. Additionally, an approach toward massive antenna with 16-port for mmWave applications is also demonstrated. The proposed 16-port massive antenna with more than 22 dB isolation exhibits two bands: first band in 30-33 GHz for ports P9-P16 and second band in 33.5-40.9 GHz for ports P1-P8. A prototype of suggested 8-port antenna is fabricated, tested and validated and found it in close agreement of simulated results.

Topics & Concepts

MIMOAntenna efficiencyAntenna (radio)PhysicsAntenna measurementPort (circuit theory)Coaxial antennaOptoelectronicsRadiation patternTelecommunicationsComputer scienceElectrical engineeringEngineeringChannel (broadcasting)Antenna Design and AnalysisMillimeter-Wave Propagation and ModelingMicrowave Engineering and Waveguides