240 GBd PDM-16QAM Single-Carrier Coherent Transmission Beyond 130 km SSMF for a Bandwidth Limited System With Low Power Consumption DSP

IF 4.1 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Lightwave Technology Pub Date : 2024-11-07 DOI:10.1109/JLT.2024.3492732

Guoxiu Huang;Yo Nakamura;Hisao Nakashima;Takeshi Hoshida

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引用次数: 0

Abstract

In this paper, the novel and simple transceiver digital signal processing for a coherent system with Tomlinson-Harashima pre-coding was proposed and digitally implemented at 1 sample/symbol speed for the low power consumption with the high optical power at the transmitter output. The performance of beyond 200 GBd PDM-16QAM signals were evaluated with a system of 74 GHz bandwidth at −3 dB down frequency. The sampling speed of digital-to-analog converter was equal to the symbol rate. The archivable information rates were 1.82 Tb/s and 1.73 Tb/s for the back-to-back and 130 km SSMF transmission, respectively, with 240 GBd PDM-16QAM signals. The net data rates were 1.67 Tb/s and 1.57 Tb/s, respectively, with the assumption of the LDPC code rates of 8/9, 5/6 and an outer BCH code rate of 0.9922. To the best of our knowledge, this work achieved the highest net data rate among the recent reports of coherent experiment beyond 200 GBd with the sampling speed of digital-to-analog converter to be lower than 264 GSa/s. The transmission distance of 130 km was much longer than the other reports. In the receiver DSP, the common issue of timing recovery function for such kind of faster-than-Nyquist signal was solved at 1 sample/symbol processing speed with the adaptive equalizer aided algorithm. The timing recovery performance was confirmed by compensating the sampling error with the monitored jitter of lower than −35 dB.

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来源期刊

Journal of Lightwave Technology 工程技术-工程：电子与电气

CiteScore

9.40

自引率

14.90%

发文量

936

审稿时长

3.9 months

期刊介绍： The Journal of Lightwave Technology is comprised of original contributions, both regular papers and letters, covering work in all aspects of optical guided-wave science, technology, and engineering. Manuscripts are solicited which report original theoretical and/or experimental results which advance the technological base of guided-wave technology. Tutorial and review papers are by invitation only. Topics of interest include the following: fiber and cable technologies, active and passive guided-wave componentry (light sources, detectors, repeaters, switches, fiber sensors, etc.); integrated optics and optoelectronics; and systems, subsystems, new applications and unique field trials. System oriented manuscripts should be concerned with systems which perform a function not previously available, out-perform previously established systems, or represent enhancements in the state of the art in general.