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The Manifestation of Spatial Wideband Effect in Circular Array: From Beam Split to Beam Defocus

Zidong Wu, Linglong Dai

2024IEEE Transactions on Communications14 citationsDOI

Abstract

Millimeter-wave (mmWave) and terahertz (THz) communications with hybrid precoding architectures have been regarded as energy-efficient solutions to fulfill the vision of high-speed transmissions for 6G communications. Benefiting from the advantages of providing a wide scan-range and flat array gain, the uniform circular array (UCA) has attracted much attention. However, the growing bandwidth of mmWave and THz communications require frequency-dependent phase shifts, which can not be perfectly realized through frequency-independent phase shifters (PSs) in classical hybrid precoding architectures. This mismatch causes the beam defocus effect in UCA wideband communications, where high-gain beams could not form at non-central frequencies in any direction. In this paper, we first investigate the characteristics of the beam defocus effect distinguishing itself from the beam split effect in uniform linear array (ULA) systems. The beamforming gain in both frequency domain and angular domain is analyzed, characterizing the beamforming loss caused by the beam defocus effect. Then, the delay-phase precoding (DPP) architecture leveraging true-time-delays (TTDs) to generate frequency-dependent phase shifts is employed to mitigate the beam defocus effect. Finally, performance analysis and extensive simulation results are provided to evaluate the effectiveness of DPP architecture in UCA systems.

Topics & Concepts

WidebandBeamformingCircular bufferPrecodingBeam (structure)Bandwidth (computing)Array gainBeam steeringExtremely high frequencyOpticsTerahertz radiationComputer sciencePhase (matter)Frequency domainElectronic engineeringPhysicsTelecommunicationsMIMOAntenna arrayEngineeringAntenna (radio)Computer visionQuantum mechanicsProgramming languageMillimeter-Wave Propagation and ModelingMicrowave Engineering and WaveguidesAntenna Design and Analysis