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Study of burst-mode adaptive equalization for >25G PON applications [Invited]

In anticipation of emerging applications such as business services, 5G, and the Internet of Things, research and standardization are working together towards next-generation 25/50 Gbit/s passive optical network access networks. However, the increase in single-channel line rate is limited by the dist...

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Published in:	Journal of optical communications and networking 2020-01, Vol.12 (1), p.A104-A112
Main Authors:	Coudyzer, Gertjan, Ossieur, Peter, Breyne, Laurens, La Porta, Antonio, Paredes, Stephan, Bauwelinck, Johan, Yin, Xin
Format:	Article
Language:	English
Subjects:	High-speed optical techniques Optical distortion Optical network units Optical receivers Optical transmitters Passive optical networks
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creator	Coudyzer, Gertjan Ossieur, Peter Breyne, Laurens La Porta, Antonio Paredes, Stephan Bauwelinck, Johan Yin, Xin
description	In anticipation of emerging applications such as business services, 5G, and the Internet of Things, research and standardization are working together towards next-generation 25/50 Gbit/s passive optical network access networks. However, the increase in single-channel line rate is limited by the distortion introduced by the low-cost device’s bandwidth limit or the chromatic dispersion in the fiber. Burst-mode electronic distortion/dispersion compensation can be used to mitigate these effects, but requires a burst-mode equalizer (BMEQ) for upstream traffic and introduces many challenges. In this invited paper, the feasibility of single-channel, directly modulated upstream 25 Gbit/s non-return-to-zero transmission is investigated in more detail. By using a linear burst-mode transimpedance amplifier together with an offline BMEQ, specific BMEQ penalties and trade-offs such as limited training time and burst-to-burst phase variation are considered.
doi_str_mv	10.1364/JOCN.12.00A104
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subjects	High-speed optical techniques Optical distortion Optical network units Optical receivers Optical transmitters Passive optical networks
title	Study of burst-mode adaptive equalization for >25G PON applications [Invited]
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