基于50 Gbit/s Combo PON OLT光组件的研究

成璇璇; 石川; 马洪勇; 梅晓鹤; 丁深; 秦强

doi:10.13756/j.gtxyj.2025.240174

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基于50 Gbit/s Combo PON OLT光组件的研究

光电器件研究与应用 | 更新时间：2025-05-08

- 基于50 Gbit/s Combo PON OLT光组件的研究
- Design and Study on 50 Gbit/s Combo PON OLT Optical Module
- 光通信研究 2025年第2期
- 作者机构：
  
  武汉光迅科技股份有限公司，武汉　 430074
- 作者简介：
  
  成璇璇，工程师。E-mail：xuanxuan.cheng@accelink.com
- 基金信息：
  
  国家重点研发计划资助项目(2019YFB180091)
- DOI：10.13756/j.gtxyj.2025.240174
  中图分类号： O436
- 收稿：2024-08-13，
  
  修回：2024-08-28，
  
  纸质出版：2025-04-10
- 稿件说明：
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成璇璇，石川，马洪勇，等. 基于50 Gbit/s Combo PON OLT光组件的研究[J].光通信研究，2025(2)：240174.

Cheng X X, Shi C, Ma H Y, et al. Design and Study on 50 Gbit/s Combo PON OLT Optical Module[J]. Study on Optical Communications, 2025(2): 240174.
成璇璇，石川，马洪勇，等. 基于50 Gbit/s Combo PON OLT光组件的研究[J].光通信研究，2025(2)：240174. DOI： 10.13756/j.gtxyj.2025.240174.

Cheng X X, Shi C, Ma H Y, et al. Design and Study on 50 Gbit/s Combo PON OLT Optical Module[J]. Study on Optical Communications, 2025(2): 240174. DOI： 10.13756/j.gtxyj.2025.240174.

摘要

【目的】

随着视频业务逐渐成为宽带网络的核心支柱，无源光网络（PON）技术迅速发展，从传统的家庭宽带接入领域迈向政企、工业智能制造和远程医疗等更为广泛的应用领域，由此对网络的带宽、时延、丢包率和抖动等业务质量要求日益苛刻。在这样的背景下，50 Gbit/s的下一代光接入网技术应运而生，50 Gbit/s PON不仅要提供超过10 Gbit/s PON 4倍以上的接入带宽，还需强化业务支撑能力、网络安全防护以及确保与现有10 Gbit/s PON技术的兼容性和平滑演进。在实现的过程中，光发射组件的研发尤为关键。

【方法】

文章重点介绍了一种基于混合集成封装技术的50 Gbit/s Combo PON光线路终端（LOT）光组件。这款光组件通过折叠的光路设计，解决了发射端和接收端多通道波长合分波的技术难题，显著降低了收发器件在同一管壳内的串扰问题。

【结果】

通过精心设计的4通道小型可插拔接口（QSFP）28封装尺寸模块，实现了在金属气密性管壳内的3发3收功能。同时，得益于先进的优化设计，发射端对接收端的串扰明显降低，效果提升达到20~30 dB。这一重要突破不仅提高了光组件的性能，也为50 Gbit/s PON的商用部署奠定了坚实基础。

【结论】

测试结果表明，文章所提光组件的波长性能完全符合国际电信联盟-电信标准化部门（ITU-T）G.9804.3国际标准的要求，其工作眼图和灵敏度均达到了预期指标。这意味着50 Gbit/s Combo PON OLT光组件已经具备了在实际网络环境中应用的能力。展望未来，随着技术的不断进步和应用需求的持续增长，50 Gbit/s PON将在推动宽带网络升级、增强业务支撑和提升用户体验等方面发挥重要作用。期待这一领域继续涌现更多创新成果，共同推动光网络技术的繁荣发展。

Abstract

【Objective】

As video services gradually become the core pillar of broadband networks

Passive Optical Network (PON) technology has rapidly developed

expanding from the traditional field of home broadband access to a wider range of application areas such as government and enterprise

intelligent manufacturing in industry

and telemedicine. Consequently

the requirements for network bandwidth

latency

packet loss rate

and jitter in terms of service quality have become increasingly stringent. In this condition

the next-generation optical access network technology with a speed of 50 Gbit/s has emerged. The 50 Gbit/s PON is not only required to provide an access bandwidth more than four times that of the 10 Gbit/s PON

but also needs to enhance the service support capabilities

network security protection

and ensure compatibility and smooth evolution with the existing 10 Gbit/s PON technology. In the implementation process

the development of optical transmitter components is particularly crucial.

【Methods】

The 50 Gbit/s Combo PON Optical Line Terminal (OLT)

presented in this study

leverages hybrid integrated package technology to address key challenges such as multi-channel wavelength combination

signal splitting

and crosstalk minimizing. Through meticulous optical path simulations and crosstalk analyses

the device successfully achieves a balance between performance and efficiency.

【Results】

By means of a meticulously designed 4-channel QSFP28 package size module

the functionality of 3 transmitters and 3 receivers within a metal hermetic tube has been realized. At the same time

thanks to advanced optimization design

the crosstalk from the transmitter to the receiver has been significantly reduced

with an improvement of 20 to 30 dB. This important breakthrough not only enhances the performance of the optical components

but also lays a solid foundation for the commercial deployment of 50 Gbit/s PON.

【Conclusion】

The test results indicate that the wavelength performance of the optical components proposed in the article fully complies with the requirements of the International Telecommunication Union-Telecommunication Standardization Sector (ITU-T) G.9804.3 international standard. Both the operating eye diagram and sensitivity have reached the expected indicators. This means that the 50 Gbit/s Combo PON OLT optical components are already capable of being applied in actual network environments. Looking to the future

with the continuous progress of technology and the sustained growth of application demands

50 Gbit/s PON will play an important role in promoting broadband network upgrades

enhancing service support

and improving user experience. It is expected that more innovative achievements will continue to emerge in this field

jointly promoting the prosperous development of optical network technology.

关键词

Keywords

references

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张蕾 , 高建河 , 黄莎 , 等 . 50 Gbit/s PON高性能接收技术的研究 [J ] . 光通信研究 , 2024 ( 1 ): 230150 .

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步超 , 李成明 . 加快推动超宽带5.5G产业升级，打造“超级宽带中国” [J ] . 新经济导刊 , 2023 ( 2 ): 30 - 34 .

Bu C , Li C M . Accelerate the Upgrading of Ultra-wideband 5.5G Industry and Build “Ultra-wideband China” [J ] . New Economy Weekly , 2023 ( 2 ): 30 - 34 .

Zhang H , Mi S , Brito L F , et al . Genomic and Transcriptomic Analyses Enable the Identification of Important Genes Associated with Subcutaneous Fat Deposition in Holstein Cows [J ] . Journal of Genetics and Genomics , 2023 , 50 ( 6 ): 385 - 397 .

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ITU-T G.9804.3-2021, 50-Gigabit-Capable Passive Optical Networks (50 G-PON): Physical Media Dependent (PMD) Layer Specification [S ] .

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