Volume 5, Issue 4, December 2020, Page: 48-52
Technical Research on High Performance Fully Compatible FMC Fast Connector
Yinghui Liu, Zhongtian Broadband Technology CO., LTD, Nantong, China
Qiufei Yao, Zhongtian Broadband Technology CO., LTD, Nantong, China
Yuanyuan Wu, Zhongtian Broadband Technology CO., LTD, Nantong, China
Jianhua Sun, Zhongtian Broadband Technology CO., LTD, Nantong, China
Lihua Li, Zhongtian Broadband Technology CO., LTD, Nantong, China
Yi Xu, Zhongtian Broadband Technology CO., LTD, Nantong, China
Received: Nov. 17, 2020;       Accepted: Dec. 21, 2020;       Published: Dec. 25, 2020
DOI: 10.11648/j.ijics.20200504.11      View  50      Downloads  24
Abstract
With the rapid development of the optical communication industry, the implementation of national policies, the increase of broadband access fiber-to-the-home investment, and the continuously increased requirements for the important components in the construction and deployment of FTTH system solutions of the communication industry, fiber connection has become an important link in FTTH. The fast connector has become the main method of optical connection, and the emergence of the fast connector solves the problem that the optical fiber can only be spliced. This article mainly introduces the basic characteristics and technical parameters of high-performance fully compatible FMC fast connectors which is an important device in the construction and deployment of the current FTTH system solution. By implementing the basic characteristic of “high performance” and “fully compatible”, it can meet all the terminal connection demand under various FTTH constructions deployment. And at the same time, this article briefly explains the convenience of construction and practical application of the FMC fast connectors. Through the optimization and improvement of various performances, the connector product has become an important technology for future FTTH network construction. It is suitable for terminal connection in various FTTH construction deployment environments, reducing on-site construction costs, improving assembly efficiency, providing convenience and services, and meeting the needs of customer terminal connection with different usage habits.
Keywords
High-performance, Fully Compatibel, Fast Connectors, Convenience of Construction, Practical Application
To cite this article
Yinghui Liu, Qiufei Yao, Yuanyuan Wu, Jianhua Sun, Lihua Li, Yi Xu, Technical Research on High Performance Fully Compatible FMC Fast Connector, International Journal of Information and Communication Sciences. Vol. 5, No. 4, 2020, pp. 48-52. doi: 10.11648/j.ijics.20200504.11
Copyright
Copyright © 2020 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Xiaoyan Jian, Shaoxian Chen, Yu Zhang, et al. Quality analysis of prefabricated field assembled optical fiber connectors [J]. Guangdong Communication Technology, 2013 (07): 69-72.
[2]
Yaguo Xu,Structure Design of Mechanical Field Optical Fiber Fast Device. Value Engineering, 1006-4311(2014)34-0033-03.
[3]
Jian Liu,Shaoxian Chen, Renmei Mo, Yuantao Zhou, Research on Relevant Technical Standards for Mechanical Field Fast Connectors and Cold Fusion Connectors. Guangdong Communication Technology, July, 2014.
[4]
Ruolin Zhang, Investigation of preset and Non-preset Fiber Optic Connector. Thesis Submitted to Nanjing University of Post and Telecommunications for the Degree of Master of Engineering, February 2013.
[5]
YD/T 2341.1-2011 Field-mountable optical fiber connectors part 1: mechanical type, Released on December 20, 2011.
[6]
Q/CT 2299-2010, Technical Requirements for Field-mountable Optical Connector of China Telecom, Released on December 2010.
[7]
YD/T 1272.1-2018 Optical Fiber Connector Part I Type LC, The Ministry of Information Industry of the People's Republic of China, 2018.
[8]
YD/T 1272.3-2015 Optical Fiber Connector Part III Type S, The Ministry of Information Industry of the People's Republic of China, 2015.
[9]
YD/T 1272.3-2015 Optical Fiber Connector Part IV Type FC, The Ministry of Information Industry of the People's Republic of China, 2015.
[10]
Jingzhong Shen, Baoyan Li The selection and precautions of FTTH field assembled optical fiber connector [J]. Intelligent Building and Urban Information, 2013 (10): 18-21.
[11]
Daqing Zeng, Yi Zhao, Quality analysis of end face of single connection point mechanical field assembled optical fiber connector [J]. Telecommunications Technology, 2017 (2).
[12]
Jian liu, Mei Hong, Shaoxian Chen, FTTH terminal connection technology and Products [J]. Telecommunications Technology (Phase 2): 62-65.
[13]
Jian Liu, Quality Analysis of ODN Optical Passive Products. Telecommunications Science, 2013, (2): 129-134.
[14]
Instruction Manual for Quality Sampling Inspection of the ODN Series Products of China Telecom Group in 2012, Released on July 2012.
[15]
Xuehuang Lin, Optical Passive Device [M], Beijing, The People's Posts and Telecommunications Press (Posts & Telecom Press).
Browse journals by subject