Efficient optical fiber communication in the metro access domain based on an optical multicarrier source

• Published in: Microwave and optical technology letters Vol. 66; no. 1
• Main Authors: Ullah, Rahat, Ullah, Sibghat, Khan, Jahangir, Al‐Atawi, Abdullah A., Alwageed, Hathal S.
• Format: Journal Article
• Language: English
• Published: New York Wiley Subscription Services, Inc 01.01.2024
• Subjects: Binary codes; Bit error rate; Modulators; Noise levels; Optical communication; Optical fibers; optical metro access network; optical multicarrier generation; optical ring network; Pulsed lasers; wavelength division multiplexing
• ISSN: 0895-2477; 1098-2760
• DOI: 10.1002/mop.33883

This paper proposes an efficient optical fiber communication scheme for an optical metro access network (OMAN) based on an optical multicarrier (OMC) generator. The central office (CO)'s foundation is a novel, cost‐effective OMC‐generating technique. The OMC is designed from a pulsed laser source and three cascaded electro‐optic modulators (EOMs) driven by an amplified RF source of 20 GHz signal that has generated more than 60 frequencies with excellent tone‐to‐noise ratio (TNR) ~ 40 dB and amplitude excursions from zero to 3 dB. The conventional CO is replaced with a cost‐effective OMC‐based source with an effective switching mechanism, which is necessary and equally important to be handled reliably. The downstream data of 20 Gbps per carrier is transmitted using a duo‐binary coding scheme. Six remote nodes (RNs) supported by the suggested OMC source, at each RN 10 optical network units (ONUs), can be deployed having distance laps of 5 km between the RNs, the distance between the RNs and the ONUs is kept at 2 km, the ONUs were tested w.r.t the bit error rate (BER) and the power penalties for the proposed transmissions. The BER for different fiber lengths from 5 to 25 km at various RNs and ONUs ranges were calculated and demonstrated from 1e−3 to 1e−13, showing the feasibility of the proposed OMAN.