SiPhotonics/GaAs 28-GHz Transceiver for mmWave-over-Fiber Laser-Less Active Antenna Units

L. Bogaert; L. Bogaert; J. Van Kerrebrouck; H. Li; I. L. de Paula; K. Van Gasse; S. Lemey; H. Rogier; P. Demeester; G. Roelkens; J. Bauwelinck; G. Torfs

doi:10.1364/OFC.2020.Th4A.5

Optical Fiber Communication Conference Postdeadline Papers 2020
(Optica Publishing Group, 2020),
paper Th4A.5
•https://doi.org/10.1364/OFC.2020.Th4A.5

SiPhotonics/GaAs 28-GHz Transceiver for mmWave-over-Fiber Laser-Less Active Antenna Units

L. Bogaert, J. Van Kerrebrouck, H. Li, I. L. de Paula, K. Van Gasse, S. Lemey, H. Rogier, P. Demeester, G. Roelkens, J. Bauwelinck, and G. Torfs

Optical Fiber Communication Conference 2020

San Diego, California United States
8–12 March 2020
ISBN: 978-1-943580-75-0

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Postdeadline Paper Session I (Th4A)

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L. Bogaert, J. Van Kerrebrouck, H. Li, I. L. de Paula, K. Van Gasse, S. Lemey, H. Rogier, P. Demeester, G. Roelkens, J. Bauwelinck, and G. Torfs, "SiPhotonics/GaAs 28-GHz Transceiver for mmWave-over-Fiber Laser-Less Active Antenna Units," in Optical Fiber Communication Conference Postdeadline Papers 2020, (Optica Publishing Group, 2020), paper Th4A.5.

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Abstract

We demonstrate a 28 GHz radio-over-fiber system with laser-less, low-cost active antenna units using silicon photonics and a GaAs driver and LNA. 7-Gb/s downlink and uplink throughput was achieved over 2km SSMF and 5m wireless.

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