KR20020046463A - The Apparatus and Method for Optical Channel Protection using an Optical Coupler - Google Patents

Abstract

PURPOSE: A wide channel protecting and switching apparatus and method thereof is provided to embody a simple and stable optical signal transfer system by using an optical signal coupler. CONSTITUTION: A wide channel protecting and switching apparatus comprises a fail detecting part(211) for detecting fails of each optical signal receiving channel, a switching decision part(210) for deciding to switch a received wide channel according to the detected fail signals supplied from the fail detecting part(211), a controller(212) for controlling the received wide channel according to the result of the switching decision part(210), and an optical signal coupling part(213) for coupling the received wide channel signals controlled by the controller(212) and for supplying the received wide channel signals. At this time, an optical signal coupler is used as the optical signal coupling part(213) instead of an optical switch.

Description

Optical channel protection switching device using optical signal coupler and its method {The Apparatus and Method for Optical Channel Protection using an Optical Coupler}

The present invention relates to an optical channel protection switching device using an optical signal combiner and a method thereof, and more particularly, to an optical channel protection switching device for performing optical channel protection switching using an optical signal combiner as a passive element instead of an optical switch as an active element. It's about how.

Fiber channel protection switching refers to a technology for switching traffic transported to a failed optical channel to a spare optical channel in order to protect a failed optical channel in the event of an optical channel failure in a multi-channel optical multiple system.

In general, when a failure occurs in the operating system in the optical transmission device, a reserve system is provided to protect it. At this time, the transmitter bridges the input signal to the operating system and the spare system so that the traffic is always carried to the spare system, and then selects the better signal among the spare system and the operating system at the receiving station. The protection method is called 1 + 1 protection switching method.

Such a 1 + 1 protection switching method can be very usefully applied to the optical channel protection switching of a multichannel optical multiplex system.

1 is an exemplary diagram of a multi-channel optical multiplex system employing a conventional 1 + 1 protection switching scheme.

As shown in FIG. 1, a multi-channel optical multiplex system adopting a 1 + 1 protection switching scheme has an operating system 120 and a spare system 130.

The optical signal S 101 input to the optical channel transmitter 100 is divided into an optical signal S ₁ 102 and an optical signal S ₂ 103 by the optical power divider 110, and is operated by the operating system 120 and the reserve. It is applied to the Optical Transmit Transponder (OTXP) 121,131 of the system 130, respectively, and is transmitted to the Optical Receive Transponder (ORXP) 140,150 of the optical channel receiver 170.

At this time, if the ORXP ₁ (140) is detected in the situation that the output of the ORXP ₁ (140) is selected to the output optical signal S _out (171), the optical switch 160 according to the control signal ORXP ₁ (140) By selecting the output of ORXP ₂ 150 instead, it protects the traffic on the fiber channel from the occurrence of a failure.

In general, in the case of a system designed with a 1 + 1 structure, the transmitting end bridges the input signals with each other so that they can be transported to the operating system and the spare system at the same time. According to the switch, perform the transfer function.

When the signal to be switched is an optical signal, it is a general method to use an optical switch. Therefore, when using the conventional switching method as described above, the optical switch is necessary at the optical channel receiving end.

However, there is a problem that an optical switch requires an external power source as an active element and an external control signal.

In addition, when the unit on which the optical switch is mounted is mounted, there is a problem in that the operation of the optical switch is uncertain and an optical signal may be disconnected.

The present invention has been proposed to solve the above problems, and provides an optical channel protection switching device and a method for performing optical channel protection switching using an optical signal combiner which is a passive element instead of an optical switch which is an active element. There is a purpose.

1 is an exemplary diagram of a multi-channel optical multiplex system employing a conventional 1 + 1 protection switching scheme.

2 is a configuration diagram of an optical channel protection switching device using an optical signal combiner according to the present invention.

3 is a flowchart illustrating an embodiment of a method for switching over optical channel protection according to the present invention;

In order to achieve the above object, the present invention provides an optical channel protection switching device for protecting traffic by switching over a failed optical channel, comprising: fault detection means for detecting the presence or absence of a failure of each optical signal reception channel; Switching whether determining means for judging whether or not the corresponding reception optical channel is switched according to a failure signal detected by the failure detection means; Control means for controlling the received optical channel in accordance with a determination result of the transfer determining unit; And optical signal combining means for combining and outputting signals of the received optical channel controlled by the control means.

In addition, the method of the present invention, the optical channel protection switching method applied to the optical channel protection switching device, the first step of detecting the presence or absence of a plurality of optical signal reception channel; A second step of determining whether to switch the corresponding received optical channel according to the detected failure signal; A third step of controlling the reception optical channel according to the determination result of the second step; And a fourth step of combining and outputting the signals of the controlled reception optical channel.

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.

2 is a configuration diagram of an optical channel protection switching device using an optical signal combiner according to the present invention.

As shown in FIG. 2, the optical channel protection switching device using the optical signal combiner includes a failure detection unit 211 for detecting a failure of each reception optical channel and a corresponding reception optical channel according to the failure signal detected by the failure detection unit 211. A switching control determining unit 210 for determining whether to transfer the control unit 210, a control unit 212 controlling the reception optical channel according to the determination result of the switching control determination unit 210, and a reception optical channel controlled by the control unit 212. The optical signal combiner 213 combines and outputs a signal.

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

The two ORXPs 220 and 230 of the multi-channel optical multiplex system each include a fault detection circuit 224 and 234 capable of detecting a fault, an optical receiver 221 and 231 for receiving an optical signal, an optical transmitter 223 and 233 for transmitting an optical signal, and the And control circuits 225 and 235 for controlling the output of the optical transmitters 223 and 233 to be cut off. The control circuits 225 and 235 invert one of the two signals inputted to the optical transmitters 223 and 233 for control. In the embodiment shown in FIG. 2, the inverter 211 is used to make the toggle.

In addition, optical connectors 241 and 242 are used to input signals output from the optical transmitters 223 and 233 of the ORXPs 220 and 230 to the optical signal combiner 240.

Here, the transfer control determination unit 210 receives the state information of the current ORXP from the fault detection circuits 224 and 234 of the ORXP 220 and 230 and generates a control signal to select an ORXP without a fault, but the operating system (FIG. 1 of 120) and the spare system (140 of FIG. 1) are devices that are programmed to maintain their current state in the event of a fault or no presence.

Therefore, when a failure signal is detected in the operating system (120 of FIG. 1) and the ORXP 140 is detected, the optical output of the ORXP 140 is cut off and the ORXP 150 of the preliminary system (130 of FIG. 1) side is blocked. After the optical output is activated, the two signals are combined in the optical signal combiner 240.

As described above, in the optical channel protection switching device using the optical signal combiner of the multi-channel optical multiplex system adopting the 1 + 1 protection switching method according to the present invention, only one of the output power of the two ORXP (220, 230) is activated. By combining the two optical signals activated by only one of the optical signals in the optical signal combiner 240, the output 250 of the optical signal combiner is always equal to the output signal of the desired ORXP.

3 is a flowchart illustrating an embodiment of a method for switching over optical channel protection according to the present invention.

As shown in FIG. 3, the optical channel protection switching method in the multi-channel optical multiplex system adopting the 1 + 1 protection switching method according to the present invention receives an optical signal (310), an optical signal of a preliminary system and an operating system. After detecting a failure signal from the reception channel (320), determining whether the corresponding reception optical channel is switched according to the detected failure signal (330), controlling the reception optical channel according to the determination result (340), and This is accomplished by combining (350) and outputting (360) the signals of the controlled receive optical channel.

At this time, the control process according to the failure of the optical channel, by activating only one optical channel of the optical signal reception channel of the preliminary system and the operating system that does not have a failure, and then combined the output signal of the two systems, and eventually activated In this case, the optical signal and the output optical signal of the side system where the failure does not occur are identical.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention provides an optical signal that is a passive element that does not require an external power supply or control means for selecting an output optical signal in an optical channel protection switching such as a multichannel optical multiplex system adopting a 1 + 1 protection switching method. By using a coupler, it is possible to implement a simpler and more stable optical transmission system.

Claims (5)

An optical channel protection switching device for protecting traffic by switching over a failed optical channel, Failure detection means for detecting the presence or absence of a failure of each optical signal reception channel; Switching whether determining means for judging whether or not the corresponding reception optical channel is switched according to a failure signal detected by the failure detection means; Control means for controlling the received optical channel in accordance with a determination result of the transfer determining unit; And Optical signal combining means for combining and outputting signals of a received optical channel controlled by the control means Fiber channel protection switching device comprising a. The method of claim 1, The optical signal coupling means, A plurality of optical connectors for transmitting signals of each of the received optical channels; And Optical signal combiner for combining and outputting the signals of the receiving optical channel transmitted through the plurality of optical connectors Fiber channel protection switching device comprising a. The method according to claim 1 or 2, The control means, And activating one optical channel in which the failure does not occur among the plurality of receiving optical channels, and maintaining a current state when all the reception optical channels have failed. In the optical channel protection switching method applied to the optical channel protection switching device, Detecting the presence or absence of a plurality of optical signal receiving channels; A second step of determining whether to switch the corresponding received optical channel according to the detected failure signal; A third step of controlling the reception optical channel according to the determination result of the second step; And A fourth step of combining and outputting signals of the controlled reception optical channel Fiber channel protection switching method comprising a. The method of claim 4, wherein The third step, And activating one optical channel in which the failure does not occur among the plurality of reception optical channels, and maintaining a current state when all the reception optical channels have failed.