Dual-Carrier 1-Tb/s Transmission Over Field-Deployed G.654.E Fiber Link Using Real-Time Transponder

Fukutaro HAMAOKA; Takeo SASAI; Kohei SAITO; Takayuki KOBAYASHI; Asuka MATSUSHITA; Masanori NAKAMURA; Hiroki TANIGUCHI; Shoichiro KUWAHARA; Hiroki KAWAHARA; Takeshi SEKI; Josuke OZAKI; Yoshihiro OGISO; Hideki MAEDA; Yoshiaki KISAKA; Masahito TOMIZAWA

doi:10.1587/transcom.2019OBI0003

Joint Special Section on Opto-electronics and Communications for Future Optical Network

Dual-Carrier 1-Tb/s Transmission Over Field-Deployed G.654.E Fiber Link Using Real-Time Transponder

Fukutaro HAMAOKA, Takeo SASAI, Kohei SAITO, Takayuki KOBAYASHI, Asuka MATSUSHITA, Masanori NAKAMURA, Hiroki TANIGUCHI, Shoichiro KUWAHARA, Hiroki KAWAHARA, Takeshi SEKI, Josuke OZAKI, Yoshihiro OGISO, Hideki MAEDA, Yoshiaki KISAKA, Masahito TOMIZAWA

Author information

Fukutaro HAMAOKA
NTT Network Innovation Laboratories, NTT Corporation
Takeo SASAI
NTT Network Innovation Laboratories, NTT Corporation
Kohei SAITO
NTT Network Service Systems Laboratories, NTT Corporation
Takayuki KOBAYASHI
NTT Network Innovation Laboratories, NTT Corporation
Asuka MATSUSHITA
NTT Network Innovation Laboratories, NTT Corporation
Masanori NAKAMURA
NTT Network Innovation Laboratories, NTT Corporation
Hiroki TANIGUCHI
NTT Network Innovation Laboratories, NTT Corporation
Shoichiro KUWAHARA
NTT Network Innovation Laboratories, NTT Corporation
NTT Device Innovation Center, NTT Corporation
Hiroki KAWAHARA
NTT Network Service Systems Laboratories, NTT Corporation
Takeshi SEKI
NTT Network Service Systems Laboratories, NTT Corporation
Josuke OZAKI
NTT Device Innovation Center, NTT Corporation
Yoshihiro OGISO
NTT Device Innovation Center, NTT Corporation
Hideki MAEDA
NTT Network Service Systems Laboratories, NTT Corporation
Yoshiaki KISAKA
NTT Network Innovation Laboratories, NTT Corporation
Masahito TOMIZAWA
NTT Device Innovation Center, NTT Corporation

Keywords: optical fiber communication, digital coherent transmission, real-time transmission, field transmission

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2020 Volume E103.B Issue 11 Pages 1183-1189

DOI https://doi.org/10.1587/transcom.2019OBI0003

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Abstract

We demonstrated 1-Tb/s-class transmissions of field-deployed large-core low-loss fiber links, which is compliant with ITU-T G.654.E, using our newly developed real-time transponder consisting of a state-of-the-art 16-nm complementary metal-oxide-semiconductor (CMOS) based digital signal processing application-specific integrated circuit (DSP-ASIC) and an indium phosphide (InP) based high-bandwidth coherent driver modulator (HB-CDM). In this field experiment, we have achieved record transmission distances of 1122km for net data-rate 1-Tb/s transmission with dual polarization-division multiplexed (PDM) 32 quadrature amplitude modulation (QAM) signals, and of 336.6 km for net data-rate 1.2-Tb/s transmission with dual PDM-64QAM signals. This is the first demonstration of applying hybrid erbium-doped fiber amplifier (EDFA) and backward-distributed Raman amplifier were applied to terrestrial G.654.E fiber links. We also confirmed the stability of signal performance over field fiber transmission in wavelength division multiplexed (WDM) condition. The Q-factor fluctuations respectively were only less than or equal to 0.052dB and 0.07dB for PDM-32QAM and PDM-64QAM signals within continuous measurements for 60 minutes.

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