Photonic Beamforming for 5G and Beyond: A Review of True Time Delay Devices Enabling Ultra-Wideband Beamforming for mmWave Communications

The next generations of wireless communications are promising high capacity, low latency, and high throughput, enabled by millimeter wave spectrum. Beamforming and beam steering are key requirements for millimeter wave systems due to the fundamental limitations of such high frequencies. Traditional...

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Bibliographic Details
Published in:IEEE access 2022, Vol.10, p.75513-75526
Main Authors: Paul, Banaful, Sertel, Kubilay, Nahar, Niru K.
Format: Article
Language:English
Subjects:
Antenna arrays
Array signal processing
Beam steering
Beamforming
Delays
Dispersion
Integrated circuits
Millimeter waves
mmWave
Optical components
Optical variables control
Optical waveguides
Phased arrays
Photonics
silicon photonics
Time lag
true time delay
ultra wideband
Ultrawideband
Wave spectra
wireless communication
Wireless communications
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Summary:The next generations of wireless communications are promising high capacity, low latency, and high throughput, enabled by millimeter wave spectrum. Beamforming and beam steering are key requirements for millimeter wave systems due to the fundamental limitations of such high frequencies. Traditional phased array antennas are narrow band and conventional beamforming techniques are too bulky, energy hungry, and expensive to integrate into consumer electronics. Therefore, new approaches of beamforming and beamsteering are required for 5G and beyond due to shortcomings of existing technologies. Here we present a comprehensive review of the photonic true time delay units for application in beamforming of next generations of wireless communications. The prospects and progress of several photonic techniques are discussed here along with their challenges. The fundamental focus of this endeavor will be on the on-chip Silicon-on-Insulator based approaches which enable utilizing conventional CMOS fabrication process for integration with other optical components for compact photonic integrated circuit.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2022.3188992