KR101050885B1 - Dispersion compensation device in optical transmission system - Google Patents

Abstract

The present invention relates to a dispersion compensation device of an optical transmission system for detecting a maximum single polarized optical signal at a receiver in detecting an optical signal from a high speed optical transmission network.

Dispersion compensation device of the optical transmission system according to the present invention, the polarization maintaining optical fiber for outputting a single polarization maximum optical signal; A first propagation guide provided at a front end of the polarization maintaining optical fiber and transmitting the optical signal transmitted from the transmission optical fiber without loss so that a maximum optical signal is incident on the polarization maintaining optical fiber; A second propagation guide provided at a rear end of the polarization maintaining optical fiber to transmit the single polarization maximum optical signal to the receiver without loss; And a control unit controlling the first propagation guide, the polarization maintaining optical fiber, and the second propagation guide.

Description

Apparatus for compensating dispersion of optical transmission system

1 is a block diagram of a dispersion compensation device of the optical transmission system according to the present invention.

The present invention relates to a dispersion compensation device of an optical transmission system, and more particularly, to a technique for detecting a maximum single polarized optical signal in a receiver in detecting an optical signal from an ultra high speed optical transmission network.

In general, a single mode optical fiber or a non-zero dispersion transition optical fiber has birefringence, and the refractive index experienced by two polarization modes perpendicular to each other due to birefringence is different. This phenomenon continues as the two polarization modes are changed in group speed (propagation speed) and the two polarization modes become wider as they propagate an optical fiber. This polarization mode is not a problem in a transmission system of 2.5 Gbps or less in which conventional voice and low-speed Internet data are transmitted.

However, as the communication network is gradually becoming wider such as high speed voice, data, and video transmission, the existing optical transmission system is extremely high speed, such as 10Gbps and 40Gbps. It should not be more than 10ps over all the established circuits, and less than 2.5ps in 40Gbps transmission system.

In order to solve such compensation between polarization modes, polarization mode dispersion is inevitably required to distinguish optical signals in an optical transmission network of 10Gbps or more. Existing dispersion compensation apparatus fusion-connects a polarization maintaining fiber (Polarization Maintaining Fiber) to the rear end of the transmission optical fiber to select one polarization to restore it to the receiver by transmitting it to the receiver.

However, in the related art, the transmission optical fiber and the polarization maintaining optical fiber are attached to each other, thereby making it impossible to control the indeterminate polarization mode, and in some cases, even if the reception of the optical signal is weak or received, it is impossible to distinguish the optical signal.

In order to solve the above-mentioned problems, an object of the present invention is to provide a propagation guide between a transmission optical fiber and a polarization maintaining optical fiber so that an optical signal can be transmitted at maximum.

To this end, the dispersion compensation device of the optical transmission system according to the present invention, the polarization maintaining optical fiber for outputting a single polarization maximum optical signal; A first propagation guide provided at a front end of the polarization maintaining optical fiber and transmitting the optical signal transmitted from the transmission optical fiber without loss so that a maximum optical signal is incident on the polarization maintaining optical fiber; A second propagation guide provided at a rear end of the polarization maintaining optical fiber to transmit the single polarization maximum optical signal to the receiver without loss; And a control unit controlling the first propagation guide, the polarization maintaining optical fiber, and the second propagation guide.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a dispersion compensation device of an optical transmission system according to the present invention.

As shown, the dispersion compensation device according to the present invention includes a transmission optical fiber 10, a polarization maintaining optical fiber 20, propagation guides 1, 2 (30, 40), a controller 50, and a receiver 60.

The propagation guide 1 30 transmits the optical signal transmitted through the transmission optical fiber 10 without loss so that the maximum optical signal is incident on the polarization maintaining optical fiber 20.

The polarization maintaining optical fiber 20 outputs the maximum optical signal of a single polarization to the incident optical signal.

The propagation guide 2 40 transmits the maximum optical signal transmitted from the polarization maintaining optical fiber 20 to the receiver 60 without loss.

The polarization maintaining optical fiber 20 and the propagation guides 1, 2 (30, 40) described above are all controlled by the controller 50.

That is, the present invention provides the propagation guide 1, 2 (30, 40) between the transmission optical fiber 10 and the polarization maintaining optical fiber 20, and between the polarization maintaining optical fiber 20 and the receiver 60, respectively, The optical fiber 10 and the polarization maintaining optical fiber 20 is not attached.

As described above, the present invention solves the inability to adjust the indeterminate polarization mode in the conventional dispersion compensation device by preventing the transmission optical fiber and the polarization maintaining optical fiber from being attached, and enables the reception of the maximum single polarized optical signal to allow 10Gbps. The above-described high speed optical transmission network can be easily implemented.

In addition, the present invention has the effect of reducing the cost of the optical transmission network can be increased in the configuration of the optical link can be configured in a longer distance and the flexible design that can be configured in accordance with the optical amplifier can be reduced accordingly.

In addition, the present invention has the advantages of complementing the shortcomings of the multi-wavelength light source, reducing the relative size, reducing the operating cost according to the wavelength stabilization, and securing a stable information transmission system when implementing a communication system by securing a stable operation characteristics for a long time.

Claims (1)

A polarization maintaining optical fiber for outputting a single polarization maximum optical signal; A first propagation guide provided at a front end of the polarization maintaining optical fiber and transmitting the optical signal transmitted from the transmission optical fiber without loss so that a maximum optical signal is incident on the polarization maintaining optical fiber; A second propagation guide provided at a rear end of the polarization maintaining optical fiber to transmit the single polarization maximum optical signal to the receiver without loss; And And a control unit for controlling the first propagation guide, the polarization maintaining optical fiber, and the second propagation guide.

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