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Intelligent optical fiber wiring system adopting two-dimensional (2D) optical switch matrix

A technology of optical switching matrix and intelligent optical fiber, applied in the direction of electromagnetic network arrangement, etc., can solve problems such as inability to operate remotely, lack of large-scale commercial use, and inability to monitor in real time, achieving a breakthrough in stability

Inactive Publication Date: 2013-09-18
上海玖麟通讯技术有限公司 +3
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The first method is the optical distribution system widely used now. The optical distribution frame has no circuit, no power supply, and cannot be operated remotely. It can only be manually connected to the optical fiber. The personnel must go to the remote site to operate, and the remote connection cannot be performed in the central computer room. Connected to optical fiber, it cannot be monitored in real time, and the efficiency is low
[0005] The remote management and control of optical fiber wiring can be realized by using the mechanical arm method and the mechanical matrix method. However, these two technologies are still in the research and development stage and have not been commercialized on a large scale. Moreover, the two technologies have inherent defects, such as the number of ports is difficult to increase, Vibration and other external influences will affect the stability of the equipment

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  • Intelligent optical fiber wiring system adopting two-dimensional (2D) optical switch matrix

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Embodiment Construction

[0017] based on the following figure 1 Preferred embodiments of the present invention will be described in detail.

[0018] The present invention provides an intelligent optical fiber distribution system using a 2D optical switch matrix, the system includes a power supply module, a communication control module, a matrix module arranged in the casing, and an optical fiber access panel arranged on the casing;

[0019] The power module circuit is connected to the communication control module and the matrix module to provide power for the whole system; the model of the power module is BTX-400SD;

[0020] The communication control module is connected to the matrix module, and connected to the remote control system through the network; the optical interface or network interface is set on the communication control module, which can be connected to the remote control system through optical fiber, wired network, or wireless network ; The communication control module controls the mecha...

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Abstract

The invention discloses an intelligent optical fiber wiring system adopting two-dimensional (2D) adopting an optical switch matrix. The system comprises a power supply module, a communication control module, a matrix module and an optical fiber access module, wherein the power supply module, the communication control module and the matrix module are arranged in a shell; the optical fiber access module is arranged on the shell; the matrix module comprises a micro-lens array; and a plurality of 2D micro-lenses are arranged on the micro-lens array. 2D MEMS (Micro-electromechanical Systems) matrix technology serves as the key optical switch technology, so that the problems on remote monitoring, remote management and remote control of the optical fiber wiring system are solved; and an optical fiber is remotely connected through an instruction in a jumping way, so that a worker is not required to be dispatched to a working field, the intelligent optical fiber wiring system is real-time and high in efficiency, and a huge breakthrough in the aspects of port number, stability and the like is achieved.

Description

[0001] technical field [0002] The invention relates to an intelligent optical fiber distribution system adopting a 2D optical switching matrix. Background technique [0003] There are several existing optical fiber switching technologies: 1. Artificial optical fiber jumping; 2. Using a mechanical arm instead of manual jumping; 3. Using a mechanical matrix to realize fiber jumping. [0004] The first method is the optical distribution system widely used now. The optical distribution frame has no circuit, no power supply, and cannot be operated remotely. It can only be manually connected to the optical fiber. The personnel must go to the remote site to operate, and cannot be remotely connected in the central computer room. Connecting to optical fiber cannot monitor in real time, which is inefficient. [0005] The remote management and control of optical fiber wiring can be realized by using the mechanical arm method and the mechanical matrix method. However, these two techn...

Claims

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Application Information

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IPC IPC(8): H04B10/27
Inventor 万韬倪振华陈瑜陈志佳任卫东张梦璐
Owner 上海玖麟通讯技术有限公司
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