Journal
OPTICAL AND QUANTUM ELECTRONICS
Volume 54, Issue 12, Pages -Publisher
SPRINGER
DOI: 10.1007/s11082-022-04159-9
Keywords
PAM-4; Semiconductor optical amplifier; Super-PON; Tomlinson-Harashima precoding
Funding
- Direccion General Asuntos Personal Academico - UNAM through PAPIIT project [IN103122]
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This article introduces a passive optical network called Super-PON, which has a transmission distance of 50 km and 64 ONUs, providing high-speed transmission for sparsely populated areas. In order to solve the problem of signal loss, a solution using SOA and avalanche photodiodes is proposed, and its technical feasibility is demonstrated through numerical simulation. The research results show that using PAM-4 modulation and THP precoding technology can effectively improve the transmission quality.
Super-PON is a 16-wavelength passive optical network with 50 km reach and 64 ONUs per lambda, providing up to 10 Gb/s to sparsely populated areas. To bridge its challenging loss-budget, Super-PON includes an EDFA located next to the OLT, thus compromising transceiver integration and future spectral expansion. An alternative for downstream transmission consists in using a powerful directly-modulated semiconductor optical amplifier (SOA) and an avalanche photodiode. Here, we numerically demonstrate the technical feasibility of this proposal. By combining a sensitivity of - 24.9 dBm and an optimized SOA transmitter output of +19.4 dBm, error-free (BER <= 3.8x10(-3)) transmission is demonstrated. This achievement relies on the use of PAM-4 modulation to combat the limited opto-electronic bandwidth of the SOA, and Tomlinson-Harashima precoding (THP) to mitigate fiber transmission and receiver impairments. It is also shown that THP enhances the direct modulation capability of SOAs, leveraging their use in integrated transceivers aimed for high-loss photonic systems.
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