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Demonstration of 200 Gb/s/λ PON in O-Band With High-Bandwidth TFLN Modulator

Jie Li, Xiang Li, Ming Luo, Xu Zhang, Chao Yang, Hongguang Zhang, Runzhe Fan, Qianshen Wang, Dong Wang, Xinlun Cai, Xi Xiao

2023Journal of Lightwave Technology17 citationsDOI

Abstract

As the broadband applications continue rising, the solutions of high-speed passive optical network (PON) with large power budget are highly desired. Direct detection scheme combined with digital signal procession (DSP) has been considered as a promising candidate due to its low cost, low power consumption and simple architecture. In this paper, we experimentally demonstrate 200 Gb/s/λ and 240 Gb/s/λ time division multiplexed passive optical network (TDM-PON) downstream transmissions based on four-level pulsed amplitude (PAM-4) modulation with direct detection in O-band. A high bandwidth thin film lithium niobate modulator is adopted to generate high Baudrate optical signal at the optical line terminal (OLT) side. A pre-amplified semiconductor optical amplifier SOA is employed at the optical network unit (ONU) side to improve the power budget. Several DSP algorithms are studied to compensate the linear and nonlinear distortions. We also propose a simplified Volterra nonlinear equalizer (S-VNLE) to reduce the computational complexity. Considering the soft-decision FEC (SD-FEC) threshold (1 × 10 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">−2</sup> ), over 29 dB and 28 dB power budgets are achieved respectively for 200 Gb/s/λ and 240 Gb/s/λ PON system after 20 km standard single mode fiber (SSMF) based on our proposed S-VNLE.

Topics & Concepts

Passive optical networkOptical line terminationOptical amplifierPower budgetElectronic engineeringBandwidth (computing)Optical modulation amplitudeComputer scienceDigital signal processingMultiplexingC bandModulation (music)Time-division multiplexingOpticsWavelength-division multiplexingPhysicsTelecommunicationsPower (physics)EngineeringLaserPower controlQuantum mechanicsAcousticsWavelengthOptical Network TechnologiesAdvanced Photonic Communication SystemsAdvanced Fiber Laser Technologies
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