A Novel RoF Architecture with Optical Single Sideband Mm-wave Signal Generation using Frequency Doubling and Wavelength Reuse for Uplink Connection

Hong Wen; Jianshe Li; Qinqin Jing; Liang Xu; Changyun Li

doi:10.1364/ACP.2010.79890T

Network Architectures, Management, and Applications VIII
Proceedings of SPIE-OSA (Optica Publishing Group, 2010),
paper 79890T
•https://doi.org/10.1364/ACP.2010.79890T

A Novel RoF Architecture with Optical Single Sideband Mm-wave Signal Generation using Frequency Doubling and Wavelength Reuse for Uplink Connection

Hong Wen, Jianshe Li, Qinqin Jing, Liang Xu, and Changyun Li

Asia Communications and Photonics Conference and Exhibition 2010

Shanghai China
8–12 December 2010
ISBN: 9780819485571

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PHYSICAL IMPAIRMENTS IN OPTICAL NETWORKS (PION)

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H. Wen, J. Li, Q. Jing, L. Xu, and C. Li, "A Novel RoF Architecture with Optical Single Sideband Mm-wave Signal Generation using Frequency Doubling and Wavelength Reuse for Uplink Connection," in Network Architectures, Management, and Applications VIII, L. Wosinska, ed., Vol. 7989 of Proceedings of SPIE-OSA (Optica Publishing Group, 2010), paper 79890T.

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Abstract

We propose a novel RoF architecture for simultaneously realizing optical single sideband (SSB) millimeter-wave (mm-wave) signal generation and wavelength reuse for uplink connection. In the central office, the optical SSB signal with frequency-doubling is generated via proper dc-bias on an integrated dual-parallel Mazh-Zehnder modulator. In the base station, both the 2^nd order sidebands and partial central carrier of the generated optical SSB signal are beat to generate mm-wave signal that has double the frequency of the RF drive signal, while the other partial central carrier is remodulate with upstream data for uplink transmission.

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