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Optical Backplane Interconnection System

An interconnection system and optical backplane technology, which is applied in the field of optical backplane interconnection systems, can solve the problems of increasing the number of copper wires, increasing the cost, and affecting the signal integrity of high-speed copper interconnection, and achieves simplified signal transmission channels and good electromagnetic compatibility. performance effect

Active Publication Date: 2019-09-17
FENGHUO COMM SCI & TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For large-capacity, high-speed communication systems, there are two traditional solutions: one is to increase the number of copper wires, which not only makes the structure of the PCB board complicated, but also increases the cost; the other is to use higher-speed IO or use Differential technology is used to increase the data transmission speed of each copper wire, but due to the inherent characteristics of copper interconnection such as loss and crosstalk, the integrity of high-speed copper interconnection signals is also easily affected

Method used

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  • Optical Backplane Interconnection System
  • Optical Backplane Interconnection System
  • Optical Backplane Interconnection System

Examples

Experimental program
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Effect test

Embodiment 1

[0038] see Figure 1 to Figure 5 As shown, this embodiment provides an optical backplane interconnection system, which includes a subrack 1 , an electrical backplane 2 , an optical backplane 3 , an optical card 4 and an optical switch card 5 .

[0039] At least one electrical backplane 2 is fixed on the subrack 1 . The subrack 1 is mainly used to provide a supporting structure for the entire optical backplane interconnection system.

[0040] The optical backplane 3 is fixed on the subrack 1 and on one side of the electric backplane 2 , and optical fibers are arranged in the optical backplane 3 . The optical backplane 3 provides optical fiber routing for the entire optical backplane interconnection system.

[0041] The optical card 4 is fixed on the subrack 1 and located on the side of the electrical backplane 2 away from the optical backplane 3 , and the optical card 4 is connected to the optical backplane 3 through the electrical backplane 2 .

[0042] The optical switch c...

Embodiment 2

[0046] see Figure 1 to Figure 5 As shown, this embodiment provides an optical backplane interconnection system, which includes a subrack 1 , an electrical backplane 2 , an optical backplane 3 , an optical card 4 and an optical switch card 5 .

[0047] At least one electrical backplane 2 is fixed on the subrack 1 .

[0048] The optical backplane 3 is fixed on the subrack 1 and on one side of the electric backplane 2 , and optical fibers are arranged in the optical backplane 3 .

[0049] The optical card 4 is fixed on the subrack 1 and located on the side of the electrical backplane 2 away from the optical backplane 3 , and the optical card 4 is connected to the optical backplane 3 through the electrical backplane 2 .

[0050] The optical switch card 5 is fixed on the subrack 1 and is located on the side of the electric backplane 2 away from the optical backplane 3. The optical switch card 5 is connected to the optical backplane 3 through the electric backplane 2, and the opti...

Embodiment 3

[0058] see Figure 1 to Figure 5 As shown, this embodiment provides an optical backplane interconnection system, which includes a subrack 1 , an electrical backplane 2 , an optical backplane 3 , an optical card 4 and an optical switch card 5 .

[0059] At least one electrical backplane 2 is fixed on the subrack 1 .

[0060] The optical backplane 3 is fixed on the subrack 1 and on one side of the electric backplane 2 , and optical fibers are arranged in the optical backplane 3 .

[0061] The optical card 4 is fixed on the subrack 1 and located on the side of the electrical backplane 2 away from the optical backplane 3 , and the optical card 4 is connected to the optical backplane 3 through the electrical backplane 2 .

[0062] The optical switch card 5 is fixed on the subrack 1 and is located on the side of the electric backplane 2 away from the optical backplane 3. The optical switch card 5 is connected to the optical backplane 3 through the electric backplane 2, and the opti...

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Abstract

The present invention relates to the technical field of communication devices. Disclosed is an optical backplane interconnection system, comprising: a sub-frame, at least one electrical backplane being fixed thereon; an optical backplane fixed on the sub-frame and fixed at one side of the electrical backplane, an optical fiber being provided inside the optical backplane; optical fiber cards fixed on the sub-frame and located at the side of the electrical backplane distant from the optical backplane, the optical fiber cards being butted with the optical backplane by means of the electrical backplane; and optical switching cards fixed on the sub-frame and located at the side of the electrical backplane distant from the optical backplane, the optical switching cards being butted with the optical backplane by means of the electrical backplane, and the optical switching cards, the optical fiber cards, and the optical backplane forming an optical path by means of the electrical backplane. The optical backplane interconnection system in the present invention is low in cost and low in loss and does not easily cause crosstalk.

Description

technical field [0001] The invention relates to the technical field of communication equipment, in particular to an optical backplane interconnection system. Background technique [0002] As a key component of the communication transmission system, the high-speed backplane can be implemented in two forms: electric backplane and optical backplane. [0003] The traditional electrical backplane interconnection is realized by way of copper interconnection. For large-capacity, high-speed communication systems, there are two traditional solutions: one is to increase the number of copper wires, which not only makes the structure of the PCB board complicated, but also increases the cost; the other is to use higher-speed IO or use Differential technology is used to increase the data transmission speed of each copper wire, but due to the inherent characteristics of copper interconnection such as loss and crosstalk, the integrity of high-speed copper interconnection signals is also ea...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B6/42G02B6/40
CPCG02B6/40G02B6/4219
Inventor 廖骞邹崇振陈晓峰
Owner FENGHUO COMM SCI & TECH CO LTD