JP3013190B2 - Cross connect device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Overview] Data from a plurality of channels from an input-side interface unit is branched in parallel by a working-side switch system and a protection-side switch system, and output data of the working-side switch system is output from an output-side interface unit. For a cross-connect device that selects and outputs one of the output data of the protection switch system, switching to the corresponding channel of the protection switch system when a failure occurs in a part corresponding to any channel in the working switch system In this case, the purpose of the cross-connect device is to reduce the time required for switching, and all the data of a plurality of channels are branched and input to the working-side switch system and the protection-side switch system at the input-side interface unit. Each channel that is switch-controlled in the same way between the active side switch system and the standby side switch system In a cross-connect device that selects and outputs one of the working-side switch system channel and the protection-side switch system channel at the output-side interface unit, the input-side interface unit controls The switching signal generator controlled by the unit and the output interface unit are provided with a signal detector controlled by the control unit, and the switching signal generator is controlled by the control unit in the input interface unit so that the switching signal generator is controlled by the output interface unit. The switching information indicating the switch system to be output by the selection is added to the data of all the channels and sent to the output side via the branch of the working side switch system and the protection side switch system, and the output side interface at the output side The signal detector detects the switch system to be output based on the switching information under the control of the control unit. ,
Based on this, the output of either the working side switch system or the protection side switch system is selected, and the portion corresponding to a certain channel in the switch system which is currently output by the selection at the output side interface unit is selected. In the case where a failure occurs in the switch system where the failure occurs, the switching information of the corresponding channel is changed to new switching information, and the channel changed to the new switching information is transmitted to the control unit of the output interface unit. The data of the fault channel of the switch system which is detected by the signal detector by the control and is currently output by the selection at the output side interface unit is switched to the data of the corresponding channel at the output of the other switch system and output. So that

[Industrial applications]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cross-connect device for electronically routing a circuit in units of a digital multiplexed signal of a plurality of channels of a new international standard synchronous interface, and particularly to a channel corresponding to a failure of one switch system when a failure occurs in one switch system. To the same channel of the other switch system.

Since the cross-connect device is a device whose main purpose is to set a path to divide a plurality of input lines into, for example, a main line and a branch line, when a failure occurs in the working switch system,
It is necessary to switch to the standby switch system in a short time.

[Conventional technology]

Although the conventional cross-connect device has a small number of lines to be handled and is small in scale, it is not shown in the figure. Each switch system of T-SWOUT
Since it was possible to mount SW ₁ and SW ₀ in one shelf, it was possible to control SW ₁ and SW ₀ by one control unit.

So for example, if a certain channel of the working side SW ₁ system fails to collect fault information of the SW ₁ in the control unit of the SW _1, appropriate feed to the interface unit therefrom,
So it was switched to the appropriate channel for the backup SW _0.

[Problems to be solved by the invention]

However, recently, there has been a demand for a cross-connect device for handling a large number of lines, so that it has become necessary to disperse and configure each of the switching systems SW ₁ and SW ₀ on the working side and the protection side in a plurality of parts.

Therefore, if switching is performed in the same way as before,
The fault information collected in the control unit of each SW ₁ and SW ₀ is sent to the system control unit having all the line setting information,
A switching signal is output from the control unit of the interface unit to perform switching.

For this reason, when switching from a certain channel of the active SW system 20 to a corresponding channel of the standby SW system 30 when a failure occurs, a switching signal is output via each of three control units equipped with CPUs. As a result, the switching time becomes too long.

An object of the present invention is to provide a cross-connect device that requires a short time for switching when switching to a corresponding channel of a standby SW system when a failure occurs in a certain channel of a working SW system.

[Means for solving the problem]

According to the present invention, all of the data of a plurality of channels are branched and input to the working-side switch system and the protection-side switch system at the input-side interface unit according to the present invention, and the working-side switch system and the protection-side switch system perform the same switch control. Each of the channels is input to the output side interface unit from the working side switch system and the protection side switch system, and the output side interface unit selects and outputs one of the working side switch system channel and the protection side switch system channel. In the cross-connect device as described above, the input side interface unit is provided with a switching signal generator controlled by the control unit, and the output side interface unit is provided with a signal detector controlled by the control unit. The switching signal generator is set to output by selection at the output side interface unit by the control of The switching information indicating the switch system is added to the data of all the channels and sent to the output side through the branches of the working side switch system and the protection side switch system, and the output side is controlled by the control unit of the output side interface unit. The signal detector detects a switch system to be output according to the switching information,
Based on this, the output of either the working side switch system or the protection side switch system is selected, and the portion corresponding to a certain channel in the switch system which is currently output by the selection at the output side interface unit is selected. In the case where a failure occurs in the switch system where the failure occurs, the switching information of the corresponding channel is changed to new switching information, and the channel changed to the new switching information is transmitted to the control unit of the output interface unit. The data of the fault channel of the switch system which is detected by the signal detector by the control and is currently output by the selection at the output side interface unit is switched to the data of the corresponding channel at the output of the other switch system and output. This is achieved by a cross-connect device.

[Action]

In the present invention, all of the plurality of input channels are branched and input to the working side switch system and the protection side switch system via the input side interface unit, and both switch systems use the same switch control for setting the path of the plurality of channels. The output of each switch system is input to the output side interface unit, and one of the output data of the active system and the output data of the standby system is selected and output based on the path setting by the switch control of the switch system. Is done.

In this case, the selection of the switch system determined to be output at the output side interface unit for the working side switch system and the standby side switch system is performed by the switching information added to the data of each channel at the input side interface unit.

For example, when the active switch system is used, the switching information is set to “1”. On the other hand, when the standby switch system is used, “0” is added to the data of each channel as the switching information.

A switching signal generator controlled by the control unit is provided in the input interface unit for adding the switching information.

All the channels having the data to which the switching information is added are branched and input to the working side switch system and the protection side switch system at the output side of the input side interface unit, and the path of each channel is set in both switch systems. And the same switch control is performed, and both are input to the output side interface unit.

The output side interface unit is also provided with a signal detector controlled by the control unit, detects switching information added to the data of each channel, and if the switching information is, for example, “1”, the working side switch Select and output all channels from the system.

If, for example, a failure occurs in one of all the channels output from the input-side interface unit in the active switch system, the switching information added to the data of the corresponding channel in the failed switch system Is changed to new switching information.

For example, the switching information in this channel being “1” is changed to “0”.

Such new switching information is detected by a signal detector in the output side interface unit.

That is, the previous switching information “1” is replaced by new switching information “0”.
Therefore, the data of the same channel input to the output-side interface unit via the spare-side switch system is output without outputting the data of the failed channel at the output-side interface unit.

Therefore, in this case, only the data of the corresponding channel from the protection side switching system is output from the output side interface unit only to the channel in which the failure has occurred in the working side switching system, and the switching information becomes “1” from the working side switching system. Other channels are output.

As described above, according to the present invention, the switching of the switch system which is output by selection of the active side switch system and the standby side switch system at the output side interface unit is performed by the switching generated by the switching signal generator at the input side interface unit. This is performed by detecting information with a signal detector in the output side interface unit.

In the case of a failure in the switch system for one of the channels, the switching information added by the input side interface unit is
Changed to new switching information in the switch system where the failure occurred,
By detecting this with the signal detector of the output side interface unit, only that channel is selected by selecting the same channel from another switch system, so that the channel switching time is significantly reduced.

〔Example〕

The present invention will be further described with reference to the principle diagram of FIG. 1, FIG. 2 a partial detailed diagram, and a frame configuration diagram of a switching signal inserted into the data of each channel of FIG.

In FIG. ₁ , n-channel serial data input to (1) to (n) of the input side interface unit 1001
CH1 to CHn are converted into parallel data by the internal S / P converters (1) to (n), and are switched by the switching signal generator (1) controlled by the output of the controller 11 to the working interface INF.
On the output side of (1) and the backup side interface INF (2),
For example, 1-bit switching information SW is inserted into the data of each channel.

In this case, all these channels are branched and output from the input side interface unit to the working side switch system and the protection side switch system, but when the channel passing through the working side switch system is output from the output side interface unit, The switching information is, for example, (1). On the other hand, when the channel of the standby switch system is output, the switching information is set to “0”.

As shown in FIG. 3, a frame configuration diagram by adding the switching information is m-bit parallel data.

The parallel data is transmitted to the respective space switch units S- in the active side switch system 20 and the standby side switch system 30.
Through the SW, the output-side interface unit 100 ₂ (1) -
(N).

The output side interface unit 100 _2, the working side interface INF (3) and the output side of the pre-side interface INF (4), switching information of the 1-bit signal extracted from the data sequence
SW is detected by the signal detector 2 controlled by the control unit 12,
If the switching information of all the channels is "1", the channel of the working switch system 20 is selected and output. If the switching information is "0", the channel of the protection switch system 30 is selected and output. .

At this time, P / S converters of n channels (1) to (n)
Then, the parallel data is converted into serial data, and output data CH1 to CHn are output.

In FIG. 2, the first channel CH1 out of a plurality of n channels
Only the data of the interface unit (1) will be described.

Data output from the first channel of the input-side interface unit 100 ₁ is input to the input side time switch T-SWIN portion constituting a part of the active-side switch system (1).

Here, if a failure occurs in the T-SWIN unit (1),
On the output side of the SWIN unit (1), 1-bit switching information SW, such as "1", which has been inserted in the data so far is newly switched as an OR output by adding failure information, such as "0", from the T-SWIN unit. The information SW becomes “0”.

When the switching information SW is “0”, for example, new switching information “1” is output as an OR output by adding the failure information “0”.

The data to which the new switching information has been added is sent to the space switch S-SW unit and is subjected to switch control for path setting, and the output side time switch T-SW constituting the switch system.
Sent to OUT section.

In this case, since this channel is combined with a channel having normal data sent from another T-SWIN unit,
In the switching information SW, a value as it is added in the input interface unit and new switching information changed due to a failure in the switch system are mixed.

The data inserted with the switching information SW is a time switch T.
-Output side interface section 100 ₂ through SWOUT section (1)
The switching information SW is extracted here, and the signal detector 2
Then, a check is made as to whether the information is conventional switching information or new switching information.

When there is new switching information in the bits of the switching information SW, the control unit 12 controls the switching of this channel, and selects the data of the same channel sent from the standby system 30. Data can be switched from the active switch system 20 to the standby switch system 30 for the channel.

〔The invention's effect〕

As described above, according to the present invention, the switching of the active switch system and the standby switch system for transmission data and the switching of the failed channel are performed by the switching signal generator of the input interface and the signal of the output interface. Since the switching is performed only between the detectors, the switching time can be reduced.

Further, in this case, the mixture of the normal channel and the faulty channel is input to the output side interface unit via the same switch system, so that the normality and the fault can be easily detected and the circuit configuration can be simplified.

[Brief description of the drawings]

FIG. 1 is a principle diagram showing a basic configuration of a switching method in a cross-connect device of the present invention, FIG. 2 is a partial detailed view of FIG. 1, and FIG. 3 is a switching signal for explaining an operation of an embodiment of the present invention. FIG. 4 is a diagram illustrating a frame configuration of data and data. In the figure, 1 is a switching signal generator, 2 is a signal detector, 10
0 ₁ is the input side interface unit, 100 ₂ is the output side interface unit, 11 is the input side control unit, 12 is the output side control unit, 20
Is a working side switch system, and 30 is a standby side switch system.

Continuation of the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04Q 1/20 101 H04M 3/22 H04B 1/74

Claims (1)

(57) [Claims] An input interface section branches and inputs all data of a plurality of channels to a working switch system and a protection switch system, and the working switch system and the protection switch system perform the same switch control. Each of the channels is input to the output side interface unit from the working side switch system and the protection side switch system, and the output side interface unit selects and outputs one of the working side switch system channel and the protection side switch system channel. In the cross-connect device as described above, the input side interface unit is provided with a switching signal generator controlled by the control unit, and the output side interface unit is provided with a signal detector controlled by the control unit. The switching signal generator is switched by the control of The switching information indicating the system is added to the data of all the channels and sent to the output side via the branch of the working side switch system and the protection side switch system. At the output side, the signal is controlled by the control unit of the output side interface unit. The detector detects the switch system to be output based on the switching information, and based on that, selects the output of either the working side switch system or the standby side switch system. When a failure occurs in a portion corresponding to a certain channel in the switch system which is output by the selection of the switch, the switching information of the corresponding channel in the failed switch system portion is changed to new switching information. The channel changed to the proper switching information is detected by the signal generator under the control of the control unit of the output interface unit, and the current output interface is detected. Over data failure channel switch system as an output by selection in the scan section, the cross-connect device, characterized in that output is switched to the data of the corresponding channel that put the output of the other switch systems.