We present an experimental analysis of a self-tuning colorless ONU transmitter based on amplified self-seeded RSOAs to be exploited in WDM PON fiber networks for fronthaul. The architecture is polarization independent thanks to the exploitation of high and low PDG RSOAs and Faraday rotators. The transmission over different lengths of fiber displaying various dispersive loads is demonstrated at 10 Gb/s evidencing the chromatic dispersion impact on performance.

10-Gb/s amplified self-seeding WDM PON transmission exploiting RSOAs

PAROLARI, PAOLA;MARAZZI, LUCIA;BRUNERO, MARCO;GATTO, ALBERTO;MARTINELLI, MARIO;
2014

Abstract

We present an experimental analysis of a self-tuning colorless ONU transmitter based on amplified self-seeded RSOAs to be exploited in WDM PON fiber networks for fronthaul. The architecture is polarization independent thanks to the exploitation of high and low PDG RSOAs and Faraday rotators. The transmission over different lengths of fiber displaying various dispersive loads is demonstrated at 10 Gb/s evidencing the chromatic dispersion impact on performance.
2014 19th European Conference on Networks and Optical Communications, NOC 2014
9781479938728
9781479938728
access network; front haul; RSOA; self-seeding; WDM PON; Computer Networks and Communications; Electrical and Electronic Engineering
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/11311/961323
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