KR20020053546A - WDM Optical transponder with overhead for OAM and FEC functions - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an optical transponder having maintenance and monitoring signal processing and error correction functions.

2. The technical problem to be solved by the invention

The present invention, in an optical transponder that receives an optical signal, converts it into an electrical signal, and converts it into an electric / optical signal and transmits it again, maintaining an optical channel (hereinafter referred to as an 'OCH') layer. To provide an optical transponder with maintenance and monitoring signal processing and error correction, which is improved by adding maintenance and monitoring signal processing and error correction.

3. Summary of Solution to Invention

The present invention provides an optical transponder having maintenance and monitoring signal processing and error correction functions, comprising: signal demultiplexing means for receiving and demultiplexing an optical / pre-converted signal; Signal detection and correction means for receiving a signal demultiplexed by the signal demultiplexing means to detect and error correct maintenance and monitoring signals and error signals; Control means for receiving the maintenance and monitoring signal and the error signal information detected by the signal detection and correction means, and processing the signal to generate a control signal for correcting an error and providing the signal to the signal detection and correction means; And signal multiplexing means for receiving an error corrected signal by said signal detecting and correcting means, multiplexing and outputting the signal.

4. Important uses of the invention

The present invention is used in optical transmission systems and the like.

Description

WDM Optical transponder with overhead for OAM and FEC functions}

The present invention relates to an optical transponder having maintenance and monitoring signal processing and error correction functions. More particularly, the present invention relates to an optical transponder that receives an optical signal, converts it into an electrical signal, and converts it into an electrical signal. In the optical transponder to perform the maintenance and monitoring signal processing and error correction function, which is improved by adding the maintenance and monitoring signal processing and error correction function of the optical channel (hereinafter referred to as 'OCH') layer. It relates to an optical transponder having a.

1 is an example of configuration of an optical transmission system to which the present invention is applied.

As shown in FIG. 1, the optical transmission system to which the present invention is applied includes a first optical channel unit 120 and a first optical channel unit 120 that receive and transmit a signal transmitted from an optical transmitter 110 of an external system. The optical multiplexer 130 receives and receives the signal transmitted from the optical multiplexer 130, an optical transmitter 140 transmitting the optical signal multiplexed by the optical multiplexer 130, and an optical signal transmitted through the optical transmitter 140. The optical demultiplexer 150 receives and demultiplexes the signal, and the second optical channel unit 160 transmits the demultiplexed signal from the optical demultiplexer 150 to the optical receiver 170 of the external system.

The first and second optical channel units 120 and 160 may include optical transponders 121 and 161, and the optical transmitter 140 may include an optical path 141 and an optical amplifier 142.

On the other hand, in the conventional WDM system, in order to perform the connection function from the external system to the WDM optical transmission system, an optical remodulator that performs the optical transponder (121,161) function was used.

2 is an exemplary configuration diagram of an optical remodulator of the conventional optical transmission system.

As shown in FIG. 2, the optical remodulator 200 used in the conventional optical transmission system includes an optical / electric converter 210 and an optical / electric converter 210 for receiving an optical signal. A data / clock regenerator 220 that receives the converted electrical signal and reproduces data and a clock, a filter 260 that removes noise generated when the optical / electric converter 210 converts the optical / electric converter 210, and the filter 260 A limited amplifier 270 that amplifies the filtered signal at the sigma signal, an error corrector (FEC: forward error connection 230) correcting an error of the clock and the data signal reproduced at the data / clock regenerator 220, and the error corrector ( The modulator driver 240 amplifies the signal corrected by the error 230, a power supply 201 for supplying power to the laser controller 280, and the power supply 201 receives power from the laser 290. Laser controller 280 to control, the laser control The light generated by the laser 290 is modulated into an optical signal by applying the light generated by the laser 290 to the laser amplified by the modulator driver 240 and the laser 290 generating a laser signal as a pumping light source by the control signal 280. An external modulator 250.

However, the conventional optical remodulator as described above merely performs pre / op conversion and pre / op conversion, and does not have an error correction function for monitoring and maintenance of itself. There was a problem needed.

In order to solve the above problems, the present invention proposes to maintain an OCH layer in an optical transponder that receives an optical signal, converts it into an electrical signal, and converts the optical signal into an electrical signal. It is an object of the present invention to provide an optical transponder having a maintenance and monitoring signal processing and error correction function, which is improved by adding a maintenance and monitoring signal processing and error correction function.

1 is an exemplary configuration diagram of an optical transmission system to which the present invention is applied.

2 is an exemplary configuration of an optical remodulator of the conventional optical transmission system.

3 is a diagram illustrating an embodiment of an optical transponder having maintenance and monitoring signal processing and error correction functions in accordance with the present invention.

* Explanation of symbols for the main parts of the drawings

310: optical / electric converter 320: optical amplifier

330: data / clock player 341: demultiplexer

342 error correction coder / decoder 343 multiplexer

According to an aspect of the present invention, there is provided an optical transponder having maintenance and monitoring signal processing and error correction functions, comprising: signal demultiplexing means for receiving and demultiplexing an optical / pre-converted signal; Signal detection and correction means for receiving a signal demultiplexed by the signal demultiplexing means to detect and error correct maintenance and monitoring signals and error signals; Control means for receiving the maintenance and monitoring signal and the error signal information detected by the signal detection and correction means, and processing the signal to generate a control signal for correcting an error and providing the signal to the signal detection and correction means; And signal multiplexing means for receiving an error-corrected signal by the signal detecting and correcting means, multiplexing and outputting the signal.

In addition, the present invention receives the error signal information detected by the signal detection and correction means and transmits it to the control means, and again receives the maintenance and monitoring signals and error-corrected control signals generated by the control means And signal transmitting means for transmitting to said signal detecting and correcting means.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating an embodiment of an optical transponder having maintenance and monitoring signal processing and error correction functions according to the present invention.

As shown in FIG. 3, the optical transponder having the maintenance and monitoring signal processing and error correction function according to the present invention includes an optical / electric converter 310 for optically / electrically converting an input optical signal, and the optical / optical converter. An amplifier 320 for amplifying the electrical signal converted by the pre-transformer 310, a data / clock regenerator 330 for reproducing data and a clock from the signal amplified by the amplifier 320, and the data / clock regenerator 330 A demultiplexer 341 for demultiplexing a signal reproduced with data and a clock, and an error correction coder / decoder for extracting a maintenance and monitoring signal to correct an error of the demultiplexed signal through the demultiplexer 341. 342), a field programmable gate array (hereinafter referred to as "FPGA", 344) for storing maintenance and monitoring signals extracted from the error correction coder / decoder 342, and maintenance of the FPGA 344. And to control the surveillance signal A multiplexer 343 and a multiplexer for receiving and multiplexing maintenance and monitoring signals and error corrected signals generated from the CPU 345 and the FPGA 344 through the error correction coder / decoder 342. A modulator 360 for receiving a signal multiplexed at 343 and pre / optical conversion, a modulator driver 350 for amplifying the signal so that the signal can be pre / optically converted through the modulator 360, and the modulator. And a laser 370 for applying light to 360.

Looking at the detailed function and operation of each component as follows.

The optical transponder having the maintenance and monitoring signal processing and the error correction function according to the present invention, if the optical signal is input from the outside through the optical / pre-converter 310, the optical / pre-converter 310 Amplified by the amplifier 320.

The electrical signal amplified by the amplifier 320 is recovered by the data / clock regenerator 330 and demultiplexed to 1:16 by the demultiplexer 341.

In this case, 1:16 is described under the assumption that a general 16-channel optical signal is used in the present invention, and it will be apparent that the ratio of demultiplexing may change as the number of channels of the optical signal changes.

Maintenance signals and supervisory signals, demultiplexed in the demultiplexer 341, are stored through the FPGA 344 and controlled through the CPU 345.

The maintenance and monitoring signals controlled through the CPU 345 are inserted into the error correction coder / decoder 342 through the FPGA 344 and generated together with the error corrected signals, and the error correction coder / The signal output from the decoder 342 is multiplexed to 16: 1 by the multiplexer 343.

Herein, 16: 1 is also described above under the assumption that 16 channel optical channels are used.

In addition, the signal multiplexed by the multiplexer 343 is applied to the modulator 360 through the modulator driver 350 and then output before and after optical conversion.

In this case, the modulator driver 350 serves to amplify the electric signal received from the multiplexer 343 to an intensity suitable to be modulated by the modulator 360, and the modulator 360 is the modulator. The electric signal amplified by the driver 350 receives light applied from the laser 370 to perform pre / light conversion.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

The present invention as described above has the effect of simplifying the configuration of the optical transmission system by adding a signal maintenance and monitoring function to the conventional optical transponder, and improving the transmission performance.

Claims (5)

In optical transponder with maintenance and monitoring signal processing and error correction function, Signal demultiplexing means for receiving and demultiplexing an optical / pre-converted signal; Signal detection and correction means for receiving a signal demultiplexed by the signal demultiplexing means to detect and error correct maintenance and monitoring signals and error signals; Control means for receiving the maintenance and monitoring signal and the error signal information detected by the signal detection and correction means, and processing the signal to generate a control signal for correcting an error and providing the signal to the signal detection and correction means; And Signal multiplexing means for receiving an error-corrected signal by the signal detecting and correcting means, multiplexing and outputting the signal Optical transponder comprising a. The method of claim 1, Receiving the error signal information detected by the signal detecting and correcting means and transmitting the received error signal information to the control means, and receiving the maintenance and monitoring signal and the error corrected control signal generated by the control means. Signaling means for passing on Optical transponder further comprising. The method of claim 2, The signal transmission means, An optical transponder characterized in that it is implemented using a reconfigurable element. The method of claim 3, wherein The reconfigurable device is an optical transponder, characterized in that it comprises a field programmable gate array (FPGA). The method according to claim 1 or 2, The error detection and correction means, Optical transponder characterized in that the FEC (forward error connection) coder / decoder (coder / decoder).