JP3479260B2 - Optical transmission system between frames in equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an intra-apparatus optical transmission system for transmitting main signal data between intra-apparatus racks by optical signals.

[0002]

2. Description of the Related Art Conventionally, main signal data transmission between intra-device racks has been performed by electric signals. However, with the increase in line speed and the increase in capacity of accommodated lines, the main signal data transmission between intra-device racks has been changed to optical signals. It is considered to be performed by a signal. Here, a configuration example of an intra-apparatus main signal data transmission system using an electrical signal and a currently conceived configuration example of an intra-apparatus main signal data transmission system using an optical signal will be described.

FIG. 5 shows an example of the configuration of a main signal data transmission system between equipment racks by electric signals. In the figure, the transmission side rack 50 includes two systems of the transmission side main signal package 51-.
1, 51-2 are arranged. On the receiving side rack 60, two receiving side main signal packages 61-1 and 61-2 are arranged. Further, an alarm monitoring package 62 and a redundant system switching control package 63 perform alarm / fault monitoring and redundant system switching control. It is a composition to be used. The main signal data 200 is transmitted to the transmission side main signal packages 51-1 and 51-2 via an inter-transmission line.
Is transmitted in parallel to the receiving side main signal packages 61-1 and 61-2. The electric signal abnormality / deterioration detection unit 64-1 of the reception-side main signal package 61-1 monitors the transmitted main signal data 200, and when abnormality / deterioration of the electric signal is detected, the electric signal abnormality / deterioration raw information. 201 is output. The same applies to the receiving side main signal package 61-2 of the other system.

On the other hand, in the main signal package 51-1 on the transmission side, the package fault information 203 output from the package fault detector 52-1 and the software setting controller 53 are provided.
Software setting incomplete information 204 output from -1
Is ORed by the OR circuit 54-1 and is transmitted to the receiving side main signal package 61-1 as the package fault information 205 of the DC electric signal. Receiving side main signal package 61-1
The input signal monitoring unit 67-1 monitors the package fault information 205 and outputs the upstream fault information 206 when a fault occurs in the transmission side main signal package 51-1 and a non-mounted fault is detected. .

The electric signal abnormality / deterioration raw information 201 and the upstream fault information 206 are logically ORed by the OR circuit 68-1.
It is output as the switching request information 207. The switching request information 207 is input to the redundant system switching control package 63 and the path AIS insertion unit 69-1 to switch the package and insert the path AIS. The electrical signal abnormality / deterioration raw information 201 is input to the alarm monitoring package 62 via the mask processing unit 70-1.
The mask processing is performed by 6. That is, the electrical signal abnormality / deterioration raw information 201 indicating the abnormality / deterioration of the electrical signal secondarily generated due to the failure of the transmission side main signal package 51-1 is:
The alarm monitoring package 62 is not notified by the mask processing based on the upstream failure information 206. As a result, the alarm monitoring package 62 is notified only when the electrical signal abnormality / deterioration raw information 201 is detected due to a transmission path abnormality or the like, even though the transmission side main signal package 51-1 is normal. Therefore, it is possible to identify the location of the failure. Other side transmission side main signal package 51-2
The same applies to the reception side main signal package 61-2.

FIG. 6 shows an example of the configuration of a main signal data transmission system for intra-apparatus racks using optical signals. Here, in the case of transmitting the optical main signal data, if an attempt is made to transmit the package fault information 205 by a DC electric signal, an electric cable for that is required, so the package fault information 205 is stored in the overhead of the optical main signal data. An example of inserting into an empty bit and transmitting is shown.

In the figure, on the transmission side rack 50, two systems of transmission side main signal packages 51-1 and 51-2 are arranged. On the receiving side rack 60, two receiving side main signal packages 61-1 and 61-2 are arranged. Further, an alarm monitoring package 62 and a redundant system switching control package 63 perform alarm / fault monitoring and redundant system switching control. It is a composition to be used. The optical main signal data 210 is transmitted in parallel from the transmission-side main signal packages 51-1 and 51-2 to the reception-side main signal packages 61-1 and 61-2 via the overhead optical transmission path. The optical signal abnormality / deterioration detection unit 65-1 of the reception-side main signal package 61-1 monitors the transmitted optical main signal data 210 and detects an abnormality / deterioration of the optical signal when the abnormality / deterioration of the optical signal is detected.
The deterioration raw information 211 is output. The same applies to the receiving side main signal package 61-2 of the other system.

On the other hand, in the transmission side main signal package 51-1 the package failure information 203 output from the package failure detection section 52-1 and the software setting control section 53.
Software setting incomplete information 204 output from -1
Is ORed by the OR circuit 54-1 and is input to the overhead insertion unit 55-1 as the package fault information 205,
It is inserted into an empty bit in the overhead of the optical main signal data 210 and transmitted to the receiving side main signal package 61-1.
The overhead extraction unit 66-1 of the reception side main signal package 61-1 extracts the package fault information 205 from the overhead of the optical main signal data.

The optical signal abnormality / deterioration raw information 211 and the package fault information 205 are logically ORed by the OR circuit 68-1 and output as switching request information 207. The switching request information 207 is input to the redundant system switching control package 63 and the path AIS insertion unit 69-1 to switch the package and insert the path AIS. In addition, optical signal abnormality
The deterioration raw information 211 is input to the alarm monitoring package 62 via the mask processing unit 70-1, but is masked by the package fault information 205. That is, the optical signal abnormality / deterioration raw information 211 indicating the abnormality / deterioration of the optical signal secondarily generated due to the failure of the transmission side main signal package 51-1.
Is not notified to the alarm monitoring package 62 by the mask processing based on the package fault information 205. The same applies to the transmission-side main signal package 51-2 and the reception-side main signal package 61-2 of the other system.

[0010]

By the way, when an attempt is made to insert the package fault information 205 into the overhead of the optical main signal data 210 for transmission due to a fault in the main signal package 51-1 on the transmission side, for example, Although the optical signal abnormality / deterioration raw information 211 is detected in the signal package 61-1, the overhead extraction unit 66-1 may not be able to correctly extract the package fault information 205. In this case, the optical signal abnormality / deterioration raw information 202 cannot be masked by the package fault information 205, and the alarm monitoring package 62 is notified. That is,
There is a problem that the alarm processing is performed and the location of the failure is erroneously recognized despite the abnormality / deterioration of the optical signal secondarily generated due to the failure of the transmitting side main signal packages 51-1 and 51-2.

Further, for example, the transmitting side main signal package 51
Even if -1 is normal, the package fault information 205 may be erroneously detected by the overhead extraction unit 66-1 due to abnormality / deterioration of the optical signal. In this case,
The optical signal abnormality / deterioration raw information 211 output from the optical signal abnormality / deterioration detection unit 65-1 is masked by the package fault information 205 that is erroneously detected, and the alarm monitoring package 62 is no longer notified. There is a problem that becomes unknown.

The present invention enables the transmission of package fault information without using a dedicated transmission line when the main signal data transmission between equipment racks is performed by an optical signal, and further reliably identifies the location of the fault. It is an object of the present invention to provide an intra-device optical transmission system that can be used.

[0013]

According to a first aspect of the present invention, there is provided an intra-apparatus optical transmission system in which a package fault information of a transmission side main signal package of another system is placed on a transmission side main signal package. Means for transmitting to the receiving side main signal package, detecting the package fault information of the transmitting side main signal package of the other system from the received optical main signal data, and outputting to the receiving side main signal package of the other system. If, means for masking the optical signal abnormality and deterioration raw information reported to the alarm monitoring package by package failure information of the transmission side main signal package autologous inputted from the receiving side main signal package of the other system, the receiving-side main Optical signal abnormality /
Based on the deterioration raw information, the package of the main signal package of the transmission side of other system is
Means for masking cage fault information.

With this, the package failure information of the transmitter main signal package of the own system can be transmitted via the transmitter main signal package and the receiver main signal package of another system in which no failure has occurred. It is possible to reliably mask the optical signal abnormality / deterioration raw information generated in the receiving side main signal package of the own system due to the failure of the transmitting side main signal package of the own system. Also, due to an error in the transmission path of another system.
Wrong package fault information can be masked.

In the intra-apparatus optical transmission system according to a second aspect of the present invention, optical main signal data is transmitted by carrying package fault information of its own system and package fault information of the transmitting side main signal package of another system. .

[0016]

In the intra-apparatus optical transmission system according to a third aspect , the package fault information is transmitted by inserting it into unused bits of the overhead of the optical main signal data.

In the intra-apparatus optical transmission system according to a fourth aspect , the package fault information is set and transmitted by the synchronous frame pattern of the optical main signal data.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) FIG. 1 shows a first embodiment of an intra-device optical transmission system of the present invention. This embodiment corresponds to claims 1, 3, and 4.

In the figure, on the transmission side rack 10, two types of transmission side main signal packages 11-1 and 11-2 are arranged. The receiving side frame 20 is provided with two receiving side main signal packages 21-1 and 21-2, and an alarm monitoring package 62 and a redundant system switching control package 63 perform alarm / fault monitoring and redundant system switching control. It is a composition to be used. The transmission-side main signal package 11-1 includes a package failure detection unit 52-1 that detects the package failure information 203, a software setting control unit 53-1 that detects software setting incomplete information 204, a package failure information 203, and software. An OR circuit 54-1 which outputs the logical sum of the setting incomplete information 204 as the package fault information 205;
The input signal monitoring unit 12 that monitors the package fault information 205 of the transmission side main signal package 11-2 of the other system and outputs the other system package fault information 101 when the package fault occurs in the other system or when the package is not mounted. -1 and an overhead insertion unit 55-1 for inserting the other system package failure information 101 into unused bits of the overhead of the optical main signal data 210. The same applies to the transmission-side main signal package 11-2 of the other system.

The reception-side main signal package 21-1 monitors the optical main signal data 210 and monitors the optical signal abnormality / deterioration raw information 2
An optical signal abnormality / deterioration detection unit 65-1 for detecting 11; an overhead extraction unit 66-1 for extracting other system package fault information 101 from the overhead of the optical main signal data 210 and outputting output main signal data 202; A mask processing unit 23-1 for masking the other system package failure information 101 with the optical signal abnormality / deterioration raw information 211, and another system package failure information 101 output from the other system mask processing unit 23-2 are monitored, From the other system package fault information 101 transmitted via the other system, the main signal package 1 on the transmitting side of the own system
The redundant signal switching control is performed by taking the logical sum of the input signal monitoring unit 24-1 that outputs the own system package failure information 102 indicating the failure of 1-1 and the own system package failure information 102 and the optical signal abnormality / deterioration raw information 211. The OR circuit 68-1 that outputs the switching request information 207 for the package 63 and the path AI to the output main signal data 202 according to the switching request information 207.
Path AIS inserting section 69-1 for inserting S and optical signal abnormality / deterioration raw information 211 for input to alarm monitoring package 62
And a mask processing unit 70-1 for performing a mask process on the self-system package fault information 102. The same applies to the reception side main signal package 21-2 of the other system.

That is, the receiving side main signal package 21-
The local system package failure information 102 output from the input signal monitoring unit 24-1 of No. 1 is the input signal monitoring unit 67-1 shown in FIG.
Performs the same function as the upstream failure information 206 output by.

Further, in the present embodiment, unlike the conventional configuration shown in FIG. 6, the package fault information of the transmission side main signal package 11-1 of its own system is used as the transmission side main signal package of another system in which no fault has occurred. An optical signal that is transmitted between the racks 11-2 and the main signal package 21-2 on the receiving side and is acquired by the main signal package 21-1 on the receiving side of the own system to acquire the own-system package fault information 102 and input to the alarm monitoring package 62. Signal abnormality /
The feature is that the deterioration raw information 211 is masked.
As a result, the optical signal abnormality / deterioration raw information 211 secondarily generated due to the failure of the transmission side main signal package 11-1 of the own system
Can be reliably masked. Further, the other system package failure information 101 extracted by the other system receiving side main signal package 21-2 is the other system optical signal abnormality / deterioration raw information 2.
By masking with 11, the output of the illegal other system package failure information 101 due to the failure of the other system is prohibited.

The operation of this embodiment will be described below. The optical main signal data 210 is transmitted in parallel from the transmission-side main signal packages 11-1 and 11-2 to the reception-side main signal packages 21-1 and 21-2 via an inter-optical transmission line. The optical signal abnormality / deterioration detection unit 65-1 of the reception-side main signal package 21-1 transmits the transmitted optical main signal data 210.
And outputs the optical signal abnormality / deterioration raw information 211 when detecting the abnormality / deterioration of the optical signal. The same applies to the reception side main signal package 21-2 of the other system.

On the other hand, in the transmission side main signal package 11-1, the package failure information 203 output from the package failure detection section 52-1 and the software setting control section 53 are included.
Software setting incomplete information 204 output from -1
Is output as the package fault information 205.
The package fault information 205 is input to the input signal monitoring unit 12-2 of the transmission-side main signal package 11-2 of the other system and converted into the other-system package fault information 101. The other-system package failure information 101 is input to the other-system overhead insertion unit 55-2, and the other-system optical main signal data 21 is input.
It is inserted into an empty bit in the overhead of 0 and transmitted to the receiving side main signal package 21-2.

The overhead extraction unit 66-2 of the reception side main signal package 21-2 of the other system is used for the optical main signal data 210.
Other system package fault information 101 is extracted from within the overhead of. Other side receiving side main signal package 21-2
The other-system package failure information 101 extracted in step 3) is input to the input signal monitoring unit 24-1 of the reception-side main signal package 21-1 of the own system via the mask processing unit 23-2 of the other system. Here, when the optical signal abnormality / deterioration detection unit 65-2 of the other system outputs the optical signal abnormality / deterioration raw information 211, the other system package failure information 101 is masked so that the optical signal of the other system is detected. The erroneous output of the other-system package failure information 101 due to a transmission path abnormality or the like is blocked. The input signal monitoring unit 24-1 receives the input other-system package failure information 10
Since 1 is based on the self-system package failure information 205, it is determined that the self-system package failure or the package is not mounted, and the self-system package failure information 102 is ORed.
It is output to the circuit 68-1 and the mask processing unit 70-1.

In the receiving side main signal package 21-1, the OR signal 68-1 is logically ORed between the optical signal abnormality / deterioration raw information 211 and the own system package failure information 102, and the switching request information 207 thereof is switched to the redundant system. It is input to the control package 63 and the path AIS insertion unit 69-1 to switch the package and insert the path AIS. The optical signal abnormality / deterioration raw information 211 is input to the alarm monitoring package 62 via the mask processing unit 70-1, but is masked when the own system package failure information 102 is output.
That is, an optical signal abnormality indicating an abnormality / deterioration of an optical signal secondarily generated due to a failure of the transmission side main signal package 11-1.
The deterioration raw information 211 is masked by the own system package failure information 102 obtained from the other system package failure information 101 transmitted via the other system path, and is not notified to the alarm monitoring package 62.

As a result, the transmitting side main signal package 11
Even if -1 is normal, the alarm monitoring package 62 is notified only when the optical signal abnormality / deterioration raw information 211 is detected due to a transmission path abnormality or the like. It will be possible. Other side transmission side main signal package 11-2 and reception side main signal package 21-
The same applies to 2.

(Second Embodiment) FIG. 2 shows a second embodiment of the intra-device optical transmission system of the present invention. The present embodiment corresponds to claims 2, 3 and 4.

In the first embodiment, the package fault information 205 generated in the main signal package of the transmitting side of the own system is transmitted as the package fault information 101 of the other system via the transmission line of the other system, and the main receiving side signal of the own system is transmitted. Although it is configured to be taken in the signal package, the present embodiment is characterized in that the package fault information 205 generated in the transmission side main signal package of the own system is transmitted simultaneously through the transmission paths of the own system and the other system. To do.

In the figure, on the transmission side rack 10, two transmission side main signal packages 11-1 and 11-2 are arranged. The receiving side frame 20 is provided with two receiving side main signal packages 21-1 and 21-2, and an alarm monitoring package 62 and a redundant system switching control package 63 perform alarm / fault monitoring and redundant system switching control. It is a composition to be used. The transmission-side main signal package 11-1 includes a package failure detection unit 52-1 that detects the package failure information 203, a software setting control unit 53-1 that detects software setting incomplete information 204, a package failure information 203, and software. An OR circuit 54-1 which outputs the logical sum of the setting incomplete information 204 as the package fault information 205;
The input signal monitoring unit 12 that monitors the package fault information 205 of the transmission side main signal package 11-2 of the other system and outputs the other system package fault information 101 when the package fault occurs in the other system or when the package is not mounted. -1, package fault information 205 and other system package fault information 101
Is inserted in unused bits of the overhead of the optical main signal data 210. The same applies to the transmission side main signal package 11-2 of the other system.

The receiving side main signal package 21-1 monitors the optical main signal data 210 and monitors the optical signal abnormality / deterioration raw information 2
11, the optical signal abnormality / deterioration detection unit 65-1 for detecting 11 and the package fault information 205 and the other-system package fault information 101 are extracted from the overhead of the optical main signal data 210.
An OR extractor 22-1, which outputs the output main signal data 202, ORs the optical signal abnormality / deterioration raw information 211 and the package fault information 205, and outputs the OR as switching request information 207 for the redundant system switching control package 63. The circuit 68-1, the path AIS inserting section 69-1 for inserting the path AIS into the output main signal data 202 by the switching request information 207, and the other system package failure information 101 are masked by the optical signal abnormality / deterioration raw information 211. The other-system package fault information 101 output from the mask processing unit 23-1 and the other-system mask processing unit 23-2 is monitored, and the other-system package fault information 101 transmitted via the other system is transmitted to the own system. An input signal monitoring unit 24-1 that outputs self-system package failure information 102 indicating a failure of the side main signal package 11-1 and an alarm Optical signal abnormality and deterioration raw information 211 autologous package failure information 10 to be input to the visual package 62
2, and a mask processing unit 70-1 for performing a mask process. The same applies to the reception side main signal package 21-2 of the other system.

In this embodiment, the package fault information 205
And the other-system package fault information 101 are transmitted at the same time, and the reception side main signal packages 21-1 and 21-2 use the logical sum of the package fault information 205 and the optical signal abnormality / deterioration raw information 211 as the switching request information 207. The same as in the first embodiment. That is, the optical signal abnormality / deterioration raw information 21
Self-system package failure information 102 for masking 1
Is obtained from the other-system package failure information 101 transmitted via the other-system path, so that an optical signal abnormality / secondary occurrence due to a failure of the transmission-side main signal package 11-1 of the own system
The deterioration raw information 211 can be reliably masked.

(Third Embodiment) FIG. 3 shows a third embodiment of the intra-device optical transmission system of the present invention. This embodiment corresponds to claims 2, 3 and 5.

In the first embodiment, the other-system package fault information 101 is inserted in the overhead of the optical main signal data 210 and transmitted. In the second embodiment, the package-fault information 205 and the other-system package fault information 101 are transmitted. Although it was inserted into the overhead of the optical main signal data 210 and transmitted,
This embodiment is applied when there is no empty bit in the overhead. Here, in the configuration of the second embodiment, an example in which the package fault information 205 and the other-system package fault information 101 are transmitted by changing the synchronization frame pattern is shown, but the same applies to the first embodiment. can do.

Transmitting side main signal package 11- shown in FIG.
Overhead insertion parts 13-1, 13-2 of 1, 11-2
Instead of the synchronous frame pattern generation units 14-1 and 14
-2 is arranged, and the receiving side main signal packages 21-1 and 21-21
-2, instead of the overhead extraction units 22-1 and 22-2, synchronous frame pattern detection units 25-1 and 25-2 are arranged.

Here, three types of synchronization frame patterns of the optical main signal data 210 are prepared: a pattern when a failure has not occurred, a pattern when a package failure has occurred, and a pattern when another system package failure has occurred. Then, according to the contents of the package fault information 205 and the other-system package fault information 101, the sync frame patterns generated by the sync frame pattern generation units 14-1 and 14-2 are changed according to the conditions shown in FIG.

Receiving side main signal packages 21-1, 21-
2 synchronization frame pattern detectors 25-1, 25-2
Monitors the received synchronization frame pattern and outputs the package fault information 205 and the other-system package fault information 101 according to the condition of FIG. The subsequent operation is similar to that of the second embodiment.

[0039]

As described above, according to the optical transmission system between intra-apparatus racks of the present invention, when the main signal data transmission between intra-apparatus racks is performed by an optical signal, the package fault information is used as an overhead of the optical main signal data. It can be transmitted by inserting it or by setting it with a synchronization frame pattern. As a result, the intra-device inter-frame connection cable can be only an optical fiber, and the transmission distance in intra-device inter-frame transmission can be expanded.

Further, the package fault information of the transmitting side main signal package of the own system is transmitted via the transmitting side main signal package and the receiving side main signal package of the other system in which no fault has occurred. The optical signal abnormality / deterioration raw information generated in the receiving side main signal package of the own system due to the failure of the transmitting side main signal package can be reliably masked, and the location of the failure can be surely specified.

Further, the receiving side main signal package masks the package fault information (other system package fault information) of the transmitting side main signal package of the other system by the optical signal abnormality / deterioration raw information, so that the receiving side main signal package is affected by the transmission line abnormality or the like. Since erroneous output of package fault information of another system is prohibited, the reliability of package fault information transmitted via another system can be improved.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a first embodiment of an intra-device optical transmission system of the present invention.

FIG. 2 is a configuration diagram showing a second embodiment of an intra-device optical transmission system of the present invention.

FIG. 3 is a configuration diagram showing a third embodiment of an intra-device optical transmission system of the present invention.

FIG. 4 is a diagram showing an example of setting a synchronization frame pattern according to the third embodiment.

FIG. 5 is a diagram showing a configuration example of an intra-device main signal data transmission system using electrical signals.

FIG. 6 is a diagram showing a configuration example of an intra-device main signal data transmission system using optical signals.

[Explanation of symbols]

10 Sending rack 11 Transmitter main signal package 12 Input signal monitor 13 Overhead insertion part 14 Synchronous frame pattern generator 20 receiver rack 21 Receiving side main signal package 22 Overhead extractor 23 Mask processing unit 24 Input signal monitor 25 Synchronous frame pattern detector 50 transmitter side 51 Transmitter main signal package 52 Package failure detector 53 Software setting control section 54 OR circuit 55 Overhead insertion part 60 receiver rack 61 Receiver main signal package 66 Overhead extractor 62 alarm monitoring package 63 Redundant system switching control package 64 Electric signal abnormality / deterioration detector 65 Optical signal abnormality / deterioration detector 67 Input signal monitor 68 OR circuit 69 pass AIS insertion part 70 Mask processing unit 101 Other system package failure information 102 Self-system package failure information 200 main signal data 201 Electric signal abnormality / deterioration raw information 202 Output main signal data 203 Package failure information 204 Software setting incomplete information 205 Package fault information 206 Upstream fault information 207 Switching request information 210 Optical main signal data 211 Optical signal abnormality / deterioration raw information

─────────────────────────────────────────────────── --- Continuation of the front page (56) References JP-A-5-268116 (JP, A) JP-A-5-167542 (JP, A) JP-A-7-226729 (JP, A) JP-A-62-1 274839 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04B 17/00 H04B 10/00 H04B 13/00

Claims (2)

(57) [Claims] 1. A transmission side rack is provided with at least two systems of transmission side main signal packages, and a reception side rack is provided with at least two systems of reception side main signal packages, an alarm monitoring package, and a redundant system switching control package. From the optical main signal data to the receiving side rack, and the optical signal abnormality / deterioration raw information indicating the abnormality / deterioration of the optical main signal data received by the receiving side main signal package is transmitted to the alarm monitoring package and the redundant system. In the intra-apparatus optical transmission method for notifying the switching control package and performing alarm / fault monitoring and redundant system switching control, the transmission side main signal package is used to transmit the package fault information of the transmission side main signal package of another system to the optical master. The receiving side main signal package is a package of a transmitting side main signal package of another system from the received optical main signal data. A means for detecting the failure information and outputting it to the receiving side main signal package of the other system, and a package failure information of the transmitting side main signal package of the own system input from the receiving side main signal package of the other system And a means for masking the optical signal abnormality / deterioration raw information to be notified , wherein the reception side main signal package has the optical signal abnormality / deterioration.
Based on the raw information, the package of the main signal package of the transmitter of the other system is
An intra-device optical transmission system equipped with means for masking cage fault information . 2. The transmitting side main signal package comprises means for transmitting the package fault information of its own system and the package fault information of the transmitting side main signal package of the other system on the optical main signal data and transmitting the package. The signal package detects the package fault information of its own system and the package fault information of the transmission side main signal package of the other system from the received optical main signal data, and outputs the package fault information of the transmission side main signal package of the other system to the other system. Optical signal abnormality / deterioration notified to the alarm monitoring package by means of output to the receiving side main signal package of the other system and the package fault information of the transmitting side main signal package of the own system input from the receiving side main signal package of another system. The optical transmission system between devices according to claim 1, further comprising means for masking raw information. 3. The transmission side main signal package is an optical main signal including package fault information of a transmission side main signal package of another system, or package fault information of its own system and package fault information of a transmission side main signal package of another system. The receiving side main signal package includes means for inserting into unused bits of data overhead and transmitting, and package fault information of the transmitting side main signal package of another system from the overhead of the received optical main signal data, claim, characterized in that it comprises means for extracting the package failure information of the system packages fault information and other systems transmitting side main signal package 1 or
Alternatively, the intra-device optical transmission system according to claim 2 . Wherein said transmitting side main signal package, other systems transmitting side main signal package package failure information or autologous packages fault information and other system optical main signal package failure information of the transmission side main signal package, the The receiving side main signal package comprises means for setting according to a data synchronization frame pattern, and the receiving side main signal package is a package fault information of a transmission side main signal package of another system from the synchronization frame pattern of the received optical main signal data, or an own system package. A contractor equipped with means for detecting fault information and package fault information of the main signal package on the transmitting side of another system.
The optical transmission system between device racks according to claim 1 or claim 2 .