CN203225760U - An intelligent optical fiber wiring system using a 2D optical switching matrix - Google Patents

Abstract

Provided is an intelligent optical fiber wiring system using a 2D optical switching matrix. The system comprises a power supply module, a communication control module, a matrix module, and an optical fiber access panel, wherein the power supply module, the communication control module, and the matrix module are disposed in a housing and the optical fiber access panel is disposed on the housing. The matrix module comprises a micro-mirror array. A plurality of 2D micro mirrors are disposed on the micro-mirror array. Using 2D MEMS matrix technology as core optical switching technology, the intelligent optical fiber wiring system resolves problems of remote monitoring, remote management, and remote control of the optical fiber wiring system, achieves remote optical fiber jumper connection with instructions, prevents onsite workers, achieves instantaneity and high efficiency, and has a great breakthrough in aspects of port amount and stability.

Description

Adopt the intelligent optical fiber distribution system of 2D optical switching matrix

Technical field

The utility model relates to a kind of intelligent optical fiber distribution system of the 2D of employing optical switching matrix.

Background technology

Existing optical fiber switching technology has several: 1, artificial optical fiber jumper connection; 2, adopt the mechanical arm mode to replace artificial jumper connection; 3, adopt the mechanical type matrix to realize the optical fiber jumper connection.

First kind of mode is present widely used optical fiber wiring system, and Optical Distribution Frame does not have circuit, non-transformer, can not remote operation, can only manual jumper connection optical fiber, personnel will arrive that far-end is on-the-spot could be operated, can not can not monitor inefficiency in real time at the long-range jumper connection optical fiber of central machine room.

Adopt mechanical arm mode and mechanical type matrix-style can realize optical fiber distributing telemanagement and control, but these two kinds of technology are not extensive commercial also in development, and two kinds of technology have born defective, be difficult to do greatly as port number, it is big ectocine such as to be shaken, and influences the stability of equipment.

The utility model content

The intelligent optical fiber distribution system of a kind of 2D of employing optical switching matrix that the utility model provides has solved remote monitoring, telemanagement, the Long-distance Control of optical fiber wiring system, by instructing long-range jumper connection optical fiber, does not need the person of sending someone to on-the-spot, real-time high-efficiency.

In order to achieve the above object, the utility model provides a kind of intelligent optical fiber distribution system of the 2D of employing optical switching matrix, and this system comprises setting power module, communication control module, matrix module in the enclosure, and the optical fiber that is arranged on the shell inserts panel;

Described power module circuitry connects communication control module and matrix module, for whole system provides electric power;

Described communication control module connection matrix module, and by the network connection far-end control system;

Described matrix module comprises micro mirror array, and some 2D micro mirrors are set on this micro mirror array.

Optical interface or network interface are set on the described communication control module.

Described 2D micro mirror can move up and down at the z direction of principal axis.

The respectively corresponding input optical fibre of each 2D micro mirror and an output optical fibre.

Described input optical fibre and output optical fibre insert panel by optical fiber and insert this distributing system.

It is the core light switching technology that the utility model adopts 2D MEMS Matrix Technology, remote monitoring, telemanagement, the Long-distance Control of optical fiber wiring system have been solved, by instructing long-range jumper connection optical fiber, do not need the person of sending someone to on-the-spot, real-time high-efficiency is huge breakthrough at aspects such as port number, stability.

Description of drawings

Fig. 1 is matrix module structural representation of the present utility model.

Embodiment

Followingly specify preferred embodiment of the present utility model according to Fig. 1.

The utility model provides a kind of intelligent optical fiber distribution system of the 2D of employing optical switching matrix, and this system comprises setting power module, communication control module, matrix module in the enclosure, and the optical fiber that is arranged on the shell inserts panel;

Described power module circuitry connects communication control module and matrix module, for whole system provides electric power; The model of power module is BTX-400SD;

Described communication control module connection matrix module, and by the network connection far-end control system; Optical interface or network interface are set on the described communication control module, can pass through optical fiber, perhaps cable network, perhaps wireless network is connected with far-end control system; Described communication control module comes the mechanical movement of gating matrix module by drive circuit; The model of communication control module is 1SFPCOM;

As shown in Figure 1, described matrix module comprises micro mirror array 3, some 2D micro mirrors 31 are set on this micro mirror array 3, described 2D micro mirror 31 can move up and down at the z direction of principal axis, each 2D micro mirror 31 a respectively corresponding input optical fibre and output optical fibre, described input optical fibre and output optical fibre insert panel by optical fiber and insert this distributing system;

Far-end control system sends instruction, the automatic jumper connection optical fiber of this distributing system, and light signal is from input optical fibre port (11 _Input, 12 _Input, 13 _Input, 14 _Input) enter, the 2D micro mirror 31 on the communication control module control micro mirror array 3 rises, and light signal is done reflection at 2 dimensional planes and is intersected, by output optical fibre port (21 _Output, 22 _Output, 23 _Output, 24 _Output) come out, realize different light paths by jumper connection select.

Although content of the present utility model has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to restriction of the present utility model.After those skilled in the art have read foregoing, for multiple modification of the present utility model with to substitute all will be apparent.Therefore, protection range of the present utility model should be limited to the appended claims.

Claims (5)

1. an intelligent optical fiber distribution system that adopts the 2D optical switching matrix is characterized in that, this system comprises setting power module, communication control module, matrix module in the enclosure, and the optical fiber that is arranged on the shell inserts panel;

Described power module circuitry connects communication control module and matrix module, for whole system provides electric power;

Described communication control module connection matrix module, and by the network connection far-end control system;

Described matrix module comprises micro mirror array (3), and some 2D micro mirrors (31) are set on this micro mirror array (3).

2. the intelligent optical fiber distribution system of employing 2D optical switching matrix as claimed in claim 1 is characterized in that, optical interface or network interface are set on the described communication control module.

3. the intelligent optical fiber distribution system of employing 2D optical switching matrix as claimed in claim 1 is characterized in that described 2D micro mirror (31) can move up and down at the z direction of principal axis.

4. the intelligent optical fiber distribution system of employing 2D optical switching matrix as claimed in claim 3 is characterized in that, the respectively corresponding input optical fibre of each 2D micro mirror (31) and an output optical fibre.

5. the intelligent optical fiber distribution system of employing 2D optical switching matrix as claimed in claim 4 is characterized in that, described input optical fibre and output optical fibre insert panel by optical fiber and insert this distributing system.

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