OFDM/WDM PON With Laserless,Colorless 1 Gb/s ONUs Basedon Si-PIC and Slow IC

Citation:

A. Agmon, et al., “OFDM/WDM PON With Laserless,Colorless 1 Gb/s ONUs Basedon Si-PIC and Slow IC,” Journal of Optical Communications and Networking, vol. 6, no. 3, pp. 225-237, 2014.
OFDM/WDM PON With Laserless,Colorless 1 Gb/s ONUs Basedon Si-PIC and Slow IC

Abstract:

We introduce a next-generation long-reach access optical network (35 dB loss budget 2 dB margin) delivering up to 40G/40G per passive 1∶256 optical distribution network, supportingsymmetrical1 Gb∕s rates perhome user or up to 40 Gb∕s for business users (e.g., enterprises, antenna sites). The proposed system is based on a novel spectrally efficient orthogonal frequency division multiplexing/ wavelength division multiplexingOFDM/WDMarchitecture symmetrically using 16-QAM OFDM polarization diversity in both the downstream and upstream in order to serve low-cost energy-efficient symmetric 1 Gb∕s optical network units (ONUs), which are self-coherent, laserless, colorless, and tunable-filter-free. Each ONU comprises a standard semiconductor optical amplifier (SOA), a silicon-based photonic integrated circuit (PIC), and mixed-signal electronic integrated circuits (ICs) performing the signal processing at a relatively slow rate as compared with the overall passive optical network (PON) throughput: digital to analog converters (DACs) and analog to digital converters (ADCs) at 417 MS∕s for the home user ONUs.

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Last updated on 07/28/2016