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Development of Flat Panel Active Phased Array Antennas Using 5G Silicon RFICs at <i>Ku</i>- and <i>Ka</i>-Bands

Jia‐Chi Samuel Chieh, Everly Yeo, Raif Farkouh, Alejandro T. Castro, Maxwell Kerber, Randall Olsen, Emmanuel J. Merulla, Satish K. Sharma

2020IEEE Access66 citationsDOIOpen Access PDF

Abstract

This article presents the design and development of two all flat panel phased array antennas (PAA) by using emerging 5G Silicon radio frequency integrated circuits (RFICs) at Ku- and Ka-bands. First, an X-/Ku-band wideband dual circular polarized Transmit (Tx)/Receive (Rx) phased array antenna with the capability of scanning (±45°) is presented. The frequency of operation is centered around 12.5 GHz within the X/Ku-Bands (3dB Axial Ratio (AR) bandwidth at broadside = 32%). The array has 16-elements with a 4 x 4 lattice arrangement. This array utilizes a nested sequential rotation architecture, which enhances the axial ratio (AR) bandwidth. Secondly, a dual slant linear polarized (±45°) transmit and receive (T/R) phased array antenna, that operates in the Ka-Band and covers the millimeter-wave 5G band (27.5 - 28.35 GHz) is discussed. Beam scanning range is up to ±60° in both polarizations. In both cases, the array apertures have been integrated with an active beamforming networks (BFN) utilizing 5G silicon Tx/Rx beamformer RFIC chips. Measured and simulated performance results agree reasonably well in both cases. These arrays are scalable to larger size arrays to provide higher gain for applications like satellite communications (SATCOM) and 5G communications.

Topics & Concepts

Phased arrayBeamformingKu bandWidebandBandwidth (computing)Ka bandRFICAxial ratioCommunications satelliteElectrical engineeringRadio spectrumAntenna arrayOpticsRadio frequencyPhysicsMicrostrip antennaMaterials scienceAntenna (radio)EngineeringElectronic engineeringTelecommunicationsSatelliteAstronomyAntenna Design and AnalysisMicrowave Engineering and WaveguidesMillimeter-Wave Propagation and Modeling