JPH11215233A - System changeover device, system changeover method and communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress missing or a change of user information delivered through a speech channel in the case of system changeover in a cold standby state. SOLUTION: Upon the detection of a fault by an active system monitor control section 11, a control information set to an active system switch section 12 is transferred to a standby system monitor control section 12 via a link section 19, and the control section 11 outputs a monitor control section changeover request signal 51. A system changeover control section 10 outputs a monitor control section changeover instruction signal 55 to get the active system monitor control section 11 to the standby state and the standby system monitor control section 12 to the active state. The standby system monitor control section 12 sets a standby system switch section 14 to a state equivalent to an active system switch section 13, the active system switch section 13 is operated uniquely for that time to exchange user information sent from a channel 18 and outputs a channel changeover request signal 54 after detection of the setting end. The system changeover control section 10 outputs a channel changeover instruction signal 56 to set the active system switch section 13 to the standby state and the standby system switch section 14 to the active state.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system switching device, a system switching method, and a communication device, and more particularly to system switching for switching from a working system to a standby system in a duplexed system in which a standby system is in a cold standby state. The present invention relates to a device, a system switching method, and a communication device.

[0002]

2. Description of the Related Art Generally, various communication devices such as electronic exchanges and transmission devices are required to have a high degree of reliability due to the nature of the devices used for public use. Therefore, for such various communication devices, a duplex configuration is adopted in an appropriate circuit portion as necessary.

[0003] Conventionally, as for the switching control system of a device having a duplex configuration, for example, the following has been proposed for duplexing of a control unit, duplexing of a communication path device, and duplexing of a transmission line as follows.

[0004] First, the duplication of the control device is described in, for example, Japanese Patent Application Laid-Open No. 6-59701. This particularly relates to a switching control method for performing start-up processing or the like in a system that controls a controlled part by a control signal from one of the duplicated control parts. This system improves the reliability of the system by reducing the role burden of the switching unit and minimizing the system down.

[0005] Next, regarding the duplexing of the communication path device,
For example, it is described in JP-A-4-6986.
Here, in the electronic exchange, between the input-side interface unit and the output-side interface unit, the active and standby communication path devices are connected in parallel to be duplicated,
A duplex communication path device in which the system switching control device that executes these system switching is also duplicated is described.

[0006] The duplication of the transmission path is described, for example, in Japanese Patent Application Laid-Open No. 7-15375. Here, a line system selection control circuit for generating a control signal for selecting one as the active system according to the failure state of the line termination circuit of the duplicated transmission line is provided, and the information of one transmission line is provided by this control signal. The present invention relates to a line system selection method provided with a duplicated internal device. Thus, when a failure occurs in the line termination control circuit when a failure occurs in the line system selection control circuit, a normal system can be selected.

[0007] Further, regarding the duplication of the pre-stage device and the post-stage device constituting the system, see, for example, Japanese Patent Laid-Open No. 5-114.
No. 944. Here, a failure switching system in the case where inter-system confounding is provided between a duplicated upstream device and downstream device is described. With this configuration, it is not necessary to check data or the like in the standby system, and a failure switching method that can always perform a failure search is provided.

[0008]

Generally, as a duplex configuration, there are a hot standby system and a cold standby system. In the above-described prior art, it is assumed that the standby device is operating under hot standby. For this reason, the same control as that of the active device is always executed in the standby device, and the standby device operates so that the same data as the active device can be input and output. When a failure occurs in the active system, the system is switched to the corresponding device in the standby system immediately because the hot standby system is used.

However, in such a dual configuration of the hot standby system, it is necessary to constantly operate both the active system and the standby system.
The power consumption of the entire apparatus increases, and the amount of heat radiation from the apparatus increases. Therefore, a configuration is considered in which the standby system device is set to the cold standby and the standby system device is set to the active state only when system switching is necessary for occurrence of a failure or maintenance / inspection.

Furthermore, in the conventional system switching system, even when the system is hot standby, processing time for system switching is required when switching from the active system to the standby system. Data or control information flowing on a road or the like may be lost or changed.
For example, if a failure occurs while the monitoring control unit that controls the exchange switch unit is operating as the active system, system switching is performed from the active system to the standby system that is on standby. In some cases, data, control information, and the like accumulated in a queue of a buffer in the active system monitoring and control device for controlling the system switch unit may be lost. Also,
Data and control information may change due to the influence of noise due to switching operation at the time of system switching, switching timing, switching interval, and the like.

Such a loss or change of data or control information is not only possible in a hot standby dual configuration but also in a cold standby dual configuration, since it takes time until the standby system starts up. Can be high.

In view of the above, the present invention employs a redundant configuration of cold standby, and performs system switching when a failure occurs in the active system or when a system switching request is issued for maintenance and inspection. It is an object of the present invention to suppress loss or change of data, control information, and the like flowing through a communication path at the time. further,
An object of the present invention is to provide a system switching device, a system switching method, and a communication device that realize low power consumption by setting a standby system in a cold standby state.

[0013]

According to a first solution of the present invention, an active switch for exchanging information, an active supervisory controller for controlling the active switch, and a cold standby state. Yes, a standby system switch unit that exchanges the information in the active state, a standby system monitoring control unit that is in the cold standby state, and controls the standby system switch unit in the active state, and a failure of the active system or a request for system switching. Is detected, a supervisory control unit switching instruction signal is output to switch from the active supervisory control unit to the standby supervisory control unit,
The standby switch is output by outputting a communication path switching instruction signal after the standby switch is set based on the control information of the active switch to switch the active switch to the standby switch. There is provided a system switching device including a system switching control unit for performing switching control so as to transmit the information between a unit and a line.

More specifically, an active system switch for exchanging information, an active system supervisory controller for controlling the active system switch, and a spare for exchanging the information in an active state in a cold standby state. A system switch unit, a standby system control unit that is in a cold standby state and controls the standby system switch unit in an active state, and switches either the active system monitoring control unit or the standby system monitoring control unit to an active state. And a system switching control unit for performing switching control for transmitting the information between any one of the working system switching unit and the protection system switching unit and a line. Is performed, an operation for transferring control information from the active system monitoring control unit to the standby system monitoring control unit is performed, and the active system monitoring control unit performs the system switching control. Sends a monitoring control unit switching request signal to the working system and the standby system monitoring control unit in response to the monitoring control unit switching request signal. Controlling the active system monitoring and control unit to a standby state, and setting the standby system monitoring and control unit to an active state, wherein the standby system monitoring and control unit performs the standby based on the control information transferred from the active system monitoring and control unit. After setting the system switch unit, a communication path switching request signal is transmitted to the system switching control unit, and the system switching control unit transmits a communication path switching instruction signal in response to the communication path switching request signal. The present invention provides a system switching device for controlling the active switch unit to a standby state and the standby switch unit to an active state.

According to a second solution of the present invention,
The active system switch unit and the active system monitoring and control unit, the standby system switch unit and the standby system monitoring and control unit in the cold standby state, and information between any one of the active system switch unit and the standby system switch unit and the line. In a system switching method for a communication apparatus including a system switching control unit that performs switching control for transmission, when a failure of a working system or a request for system switching is detected, a monitoring control unit switching signal is output from the system switching control unit. Is output and the switching control is performed from the active system monitoring control unit to the standby system monitoring control unit. After the standby system switching unit is set based on the control information of the active system switching unit, a call is made from the system switching control unit. A path switching instruction signal is output to switch the working switch section to the spare switch section, thereby switching the information to be transmitted between the spare switch section and the line. To provide a system switching method for performing a control.

More specifically, any one of the active system switch unit and the standby system control unit, the standby system switch unit and the standby system monitor control unit in the cold standby state, and the active system switch unit or the standby system switch unit In a system switching method for a communication apparatus including a system switching control unit for performing switching control for transmitting information between the mobile system and a line, when a failure of the active system or a request for system switching is detected, An operation for transferring control information from a monitoring control unit to the standby system monitoring control unit is performed, and the working system monitoring control unit sends a monitoring control unit switching request signal to the system switching control unit, and the system switching control The unit sends a supervisory control unit switching instruction signal to the working system and the standby supervisory control unit in response to the supervisory control unit switching request signal, thereby setting the working system supervisory control unit to a standby state. The standby system monitoring control unit is controlled to the active state, and the standby system monitoring control unit sets the standby system switch unit based on the control information transferred from the active system monitoring control unit. The system switching control unit sends a communication path switching instruction signal in response to the communication path switching request signal, thereby setting the working system switching unit to the standby state, It is an object of the present invention to provide a system switching method for controlling a system switch unit to an active state.

Further, according to a third solution of the present invention, a first switch unit for exchanging information from a line,
A first system including a first monitoring control unit that manages and controls the first switch unit, a second switch unit that exchanges information from a line, and management control of the second switch unit A second system including a second monitoring control unit that performs the first monitoring and a second monitoring control unit that outputs a monitoring control unit switching instruction signal upon detecting a request to switch between the first system and the second system. Control unit and the second
And the switch unit of the switching destination system is set based on the control information of the switching unit of the switching source system, and then outputs a speech path switching instruction signal to output the first switch unit and the second switching unit. And a system switching control unit for switching between two switch units and controlling exchange of information from the line by either the first system or the second system.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a configuration diagram of a system switching device as a background of the present invention.

Such a system switching device includes a duplicated active system duplexer 100, a standby system duplexer 101, and a non-redundant unit 102. Here, in the embodiment of the present invention, for convenience of explanation, the terms “active system” and “standby system” are used, but one of the duplicated systems is one of the first system and the other is the second system. It may be called a system or a system 0 or system 1. In addition, according to the operation status of each system of the duplex unit, one of the two systems is used for
In addition to the standby system, it may also be called an act system / standby system or a working system / protect system.

The active system duplex unit 100 includes an active system monitoring control unit 11 and an active system switch unit 13. The redundant system redundancy unit 101 includes a redundant system monitoring control unit 12 and a redundant system switch unit 14. The deduplication unit 102 includes the line interface unit 15. In each of the active and standby system duplexing units 100 and 101, the active and standby system monitoring control units 11 and 12 place the active and standby system switch units 13 and 14 independently under control, and perform the switching operation. Control. The working system and protection system switching units 13 and 14 have working system and protection system communication paths 16 and 17 duplexed with the line interface unit 15.
The line interface unit 15 is connected to the line 18.

FIG. 2 is an explanatory diagram (1) of the system switching device in which the standby system is in the cold standby state.

FIG. 2 shows, as a general example, the flow of signals when the active system is in the active state. The configuration surrounded by the broken line is in the active state, and information is input from the line 18 to the active switch unit 13 through the line interface unit 15 of the non-duplexing unit 102 as indicated by the bold arrow. This information is stored in the active switch unit 1.
After the switching in the line 3, the line 18 passes through the working communication path 16 and the line interface unit 15 of the non-duplexing unit 102.
Is output to The setting and monitoring of the active system switch unit 13 are performed by the SP bus (Speech P
This is executed by a control / monitoring signal via the ath bus 1.

FIG. 3 is an explanatory diagram (2) of the system switching device in which the standby system is in the cold standby state.

FIG. 3 shows, as a general example, the flow of signals when the active system is switched to the standby system which is on standby and the standby system is in the active state. The configuration of the portion surrounded by the broken line is in the active state, and information is input from the line to the standby switch unit 14 via the non-duplexing unit 102 as indicated by the thick arrow. Also, this information is exchanged by the standby system switch unit 14, and then the standby system communication path 1 is exchanged.
7 and the line interface unit 15 of the non-duplexing unit 102
Is output to the line. Note that the standby switch unit 14
Is set and monitored by a control / monitoring signal from the standby system monitoring control unit 12 via the SP bus 2.

Next, an embodiment of the system switching device according to the present invention will be described in detail.

FIG. 4 shows a schematic diagram of a system switching device according to the present invention.

The system according to the present invention comprises a system switching control unit 1
0, duplicated active and standby system monitoring and control units 11 and 12, respectively, and active and standby system switching units 13 and 1
4 and a line interface unit 15. here,
The standby system monitoring control unit 12 and the standby system switch unit 14 are in a cold standby state and are on standby.

The system switching control unit 10 includes a system switching control circuit 20.
Is provided. The system switching control unit 10 is supplied with monitoring control unit switching request signals 51 and 52 and speech path switching request signals 53 and 54 from the active and standby system monitoring control units 11 and 12, respectively. The system switching control circuit 20 includes a monitoring control unit switching instruction signal 55 for determining an active state or a standby state for the active system and standby system monitoring control units 11 and 12, the active system and standby system switching paths 13 and 14, and a communication path. A switching instruction signal 56 is output.

Active and standby system supervisory control units 11 and 12
Are the active and standby switch units 13 and 14, respectively.
And SP buses 1 and 2. Then, through the SP buses 1 and 2, the active and standby switch units 13
By outputting control information such as transfer path setting information for the information exchanged by the switches 14 and 14 and a control signal for the switch section, the active and standby switch sections 13 and 14 can be placed under independent management. The exchange operation is controlled. In addition, the active and standby system monitoring control units 11 and 1
2 performs system management such as initialization of each unit, state setting such as path setting of a switch unit, failure processing, maintenance and inspection, and the like. Further, a link unit 19 for transferring data is provided between the active system monitoring control unit 11 and the standby system monitoring control unit 12.

Active and standby switch units 13 and 14
Has duplex working and protection communication paths 16 and 17 with the line interface unit 15, respectively.
The active and standby switch units 13 and 14 exchange user information coming from the line 18, respectively.

Here, the "user information" includes, for example, (1) information of main signals such as sound, image, data, etc.
(2) Management information such as maintenance / monitoring / failure information, or (3)
All information such as call information such as caller information and callee information shall be included. One or a plurality of these types of information are transmitted to the line 18 or the communication paths 16 and 17 in an appropriate signal format such as a cell, a packet, or a time slot.

The line interface unit 15 terminates the line 18 and performs conversion, addition, and deletion of a header and destination information for user information. Further, the line interface unit 15 may include a selection circuit for switching between the active system and the standby system.

When switching from the active system to the standby system,
For example, there is a case where a failure occurs in the active system device, and a case where a switching request is made for maintenance or inspection. The failure includes, for example, a bus error in the active system monitoring control unit 11 or the switch unit 13 or an interruption of software operation. For the detection of a failure, for example, for the failure of the active or standby system monitoring control unit 11 or 12, and for the failure of the active or standby switch unit 13 or 14, the active or standby system monitoring device 11 or The failure can be detected by providing a failure detection circuit inside the unit 12 or independently providing a failure detection circuit outside these units. Further, the active and standby system monitoring devices 11 and 12
A failure in each unit can be detected by a control device that supervises and manages the failures. When a switching request is issued for maintenance / inspection, etc., a request signal similar to the monitoring control unit switching request signal is supplied to the system switching control unit 20 by a maintenance device or the like that manages the system. Switching control can be performed in the same manner as described above.

Next, FIG. 5 shows a detailed configuration diagram (1) of the system switching device according to the present invention.

In FIG. 5, the active and standby system monitoring control units 11 and 12 are respectively provided with a system management control unit 21.
, 22 and tri-state buffers 29 and 30. Active and standby system management controllers 21 and 22
Between them, a link unit 19 for transferring control information is provided.

Active and standby switch units 13 and 14
Are user information switch units 23 and 24, respectively.
SP bus interface units 25 and 26, driver 3
1 and 32 and 33 and 34. The control information output from the tri-state buffers 29 and 30 is input to the SP bus interface units 25 and 26, respectively. The line interface unit 15 includes a data processing unit 27, an optical / electrical conversion unit 28, a selector 39, and drivers 35 to 38. The call path switching instruction signal 56 from the system switching control unit 10 is supplied to the selector 39, and the working system or the standby system is selected. If the line 18 is an electrical interface, the optical / electrical converter 28 is replaced or removed from the electrical condition converter.

Next, in the system switching method according to the present invention, the timing of the system switching operation when the system is switched from the working system to the standby system will be described in detail. Here, as an example,
An operation of switching the active system or the standby system by controlling the selector 39 in the line interface unit 15 using the configuration shown in FIG. 5 will be described.

FIG. 6 shows a flow chart of a system switching procedure in the system switching method according to the present invention. 7 and 8 are explanatory diagrams (1) and (2) of the system switching method according to the present invention.

First, as shown in FIG. 7A, it is assumed that the active system monitoring control unit 11 and the switch unit 13 are in the active state. As shown by the arrow, the active system monitoring control unit 1
1, the control information is given to the active switch unit 13, and the active switch unit 1 is transmitted via the line interface unit 15.
User information is transmitted between 3 and the line 18.
Here, the tri-state buffer 29 is in the ON state, and the tri-state buffer 30 is in the OFF state, while the selector 39 has selected the buffer 36.

In this state, for example, when a failure occurs in the active system monitoring and control unit 11, system switching is performed as follows.

First, as shown in FIGS. 6 and 7 (B), the active system monitoring and control unit 11 detects this failure and the user exchanged by the switch unit set in the active system switch unit 13. The control information such as the setting information of the information path and the control signal for the switch unit is transferred from the active system monitoring control unit 11 to the standby system monitoring control unit 12 via the link unit 19. Here, the standby system monitoring control unit 12 is on standby in the standby state.
9 is configured to be able to perform an operation related to transfer when receiving a signal from the control unit 9. Further, as shown in FIG. 6, the active system monitoring control unit 11 outputs a monitoring control unit switching request signal 51.

Next, as shown in FIG. 6, the system switching control unit 10 receives the monitoring control unit switching request signal 51, and in response thereto, the system switching control circuit 20 causes the monitoring control unit switching instruction signal to be transmitted. 55 is generated and output to the active and standby system monitoring and control units 11 and 12. As shown in FIG. 8A, the tristate buffer 29 in the active system monitoring and control unit 11 is turned off by the monitoring and control unit switching instruction signal 55.
F, on the other hand, the standby system monitoring control unit 12 controls the tri-state buffer 30 to be ON so that the SP bus 2
Is turned ON, and the active and standby system management control units 21 and 22 are switched. The tri-state buffer 29 is turned off by the active system monitoring control unit 11.
7 may be performed when a failure is detected (see FIG. 7).
(See the dashed arrow in (B).) At this time, the active SP bus 1
Is not supplied with unnecessary control information. In this way, the monitoring control unit switches from the working system (old working system) to the standby system (new working system).

Next, as shown in FIG. 6 and FIG. 8A, the standby system supervisory control unit 12 in the active state controls the control transferred via the SP bus interface unit 26 in the standby system switch unit 14. The standby user information switch unit 24 is set based on the information. For example, the standby system user information switch unit 24 is set to a state equivalent (same or almost the same) to the active system user information switch unit 23.
While the control information such as the setting information of the data transfer path is set in the standby user information switch unit 24, the active switch unit 13 separates from the control of the old active system monitoring control unit 11 and becomes independent. , The user information input from the line 18 via the working communication path 16 is
It flows through the active user information switch unit 23.

Then, as shown in FIG. 6, when the setting of the standby system switch unit 14 is completed, the standby system management control unit 22 detects the end of the setting, and thereafter, the standby system monitoring control unit 22 starts the communication. A route switching request signal 54 is output.
The detection of the completion of the setting may be performed, for example, by the device managing the system determining the detection by the detection unit and notifying the standby system monitoring control unit 12, or provided inside or outside the unit of the standby system monitoring control unit 12. The detection can be performed by the detecting unit detecting the detection. Alternatively, it is also possible to set a time required for setting a communication path in advance and detect the time-out.

Then, as shown in FIG. 6, the system switching control unit 10 receives the communication path switching request signal 54 from the standby standby system monitoring control unit 12 in the active state, and the system switching control circuit 20 causes the system switching control circuit 20 to issue a communication path switching instruction. A signal 56 is generated and output. In response to the speech path switching instruction signal 56, the line interface unit 15 performs system switching by controlling the selector 39, and the working speech path 13 is controlled to the standby state, and the protection speech path 14 is controlled to the active state. As a result, the user information input from the line 18 or output to the line 18 is transmitted to the standby switch unit 14 via the data processing unit 27, the optical / electrical conversion unit 28, and the standby communication path 17. Become like

As described above, as shown on the right side of FIG. 6, when the switching operation is performed by the old active system switch unit 13 and the old active system monitoring control unit 11, which are the switching source systems, a failure or the like occurs. When the system switching request is detected, the old active system monitoring and control unit 11 (switching source system) based on the monitoring control unit switching instruction signal 55 from the system switching control unit 10 (FIG. 6). Is in the standby state, while the standby system monitoring control unit 12 (switching destination system) is in the active state and executes the subsequent control as the new active system monitoring control unit. Also, the switch unit is the old active switch unit 13.
The (switching source system) remains under the control of the old active system monitoring and control unit 11 after switching to the new active system monitoring and control unit until switching to the standby system switch unit 14 (switching destination system). It operates independently to continuously exchange information from the line. Further, the standby system monitoring control unit 12 which is a new active system
Sets the standby system switch unit 14 (switching destination system) based on the control information transferred from the old active system monitoring control unit 11, and then sends a call path switching request signal 54 to the system switching control unit 10 (FIG. 9). 6). In response to this, the system switching control unit 10 transmits a communication path switching instruction signal 56 (see FIG. 6).
), The old active switch unit 13 (switching source system) is in the standby state, while the standby switching unit 14 (switching destination system) is in the active state and executes the subsequent switching as the new active switch unit. .

Therefore, even during the switching operation, the switch is replaced by the old active switch unit 13 and the switch unit is switched after the operation of the standby system is guaranteed, so that the information is not lost, changed or discarded.

Next, FIG. 9 shows a detailed configuration diagram (2) of the system switching device according to the present invention.

In FIG. 9, the active and standby switch units 13 and 14 are respectively provided with user information switch units 23 and 24 and SP bus interface units 25 and 2 respectively.
6, drivers 31 and 33, and MOS switches (moss-type transistor switches) 40 and 41. In addition,
MOS switches 40 and 41 may be tri-state buffers. Also, the line interface unit 15
Includes a data processing unit 27, an optical / electrical conversion unit 28, an OR gate 42, and drivers 35 to 38. Note that the drivers 36 and 37 are eliminated, and the OR gate 42 is
R may be used. The communication path switching instruction signal 56 from the system switching control unit 10 is supplied to the MOS switches 40 and 41 to control them. MOS switches 40 and 4
1 can be appropriately provided inside or outside the units of the active system and standby system switch units 13 and 14. Other configurations are the same as those shown in FIG.

The operation of switching between the active system and the standby system by controlling the MOS switches 40 and 41 in the switch units 13 and 14 with the configuration shown in FIG. 9 will be described below.

For example, when a failure occurs in the monitoring control unit 11, as in the embodiment of FIG.
1 to the standby system monitoring and control unit 12, and switches the standby system monitoring and control unit 12 to the active state. Then, similarly to the embodiment of FIG. 5, the standby system switch unit 14 is set to a state equivalent to the active system switch unit 13, and the end of the setting is determined. Thereafter, the system switching control unit 10 sends a call path switching request signal 54 from the standby system monitoring control unit 12 in the active state.
In response to this, the system switching control circuit 20 generates a communication path switching instruction signal 56 and outputs it to both system switching units 13 and 14. By controlling the MOS switch 40 in the active switch unit 13 to OFF according to the communication path switching instruction signal 56, the active communication path is set to the standby state and the MOS switch 41 in the standby switch unit 14 is controlled to ON. By doing so, the standby communication path is controlled to the active state.

After being controlled as described above, the MOS switches 4 in the active switch unit 13 and the standby switch unit 14
The output signals from 0 and 41 are sent to the line interface 1
5, the user information input from the line 18 or output to the line 18 is transmitted to the standby communication line 14 through the data processing unit 27 and the optical / electrical conversion unit 28. Will be done.

Next, a specific configuration for performing an operation of transferring control information between the active system monitoring control unit 11 and the standby system monitoring control unit 12 will be described.

FIG. 10 shows a configuration diagram for performing an operation of transferring control information.

FIG. 10 (A) shows a configuration in which the control information memories of the working system and standby system monitoring control units 11 and 12 are connected by a link unit 19. With such a configuration, the contents can be directly and instantaneously transferred from the control information memory 61 in the active system monitoring and control unit 11 to the control information memory 62 in the standby system monitoring and control unit 12.

In FIG. 10B, in order to perform an operation of transferring control information, a dual port memory 63 is provided between the link units 19, so that both the active and standby system monitoring control units 11 and 12 are provided. 1 shows a configuration in which the control information can be accessed from. According to such a configuration, when the standby system monitoring and control unit 12 is in the active state, the control information used in the active system monitoring and control unit 11 can be used as it is. When the standby system is brought into the active state, the working system is made non-writable, so that the influence of erroneous control information or noise after the failure can be suppressed. By applying the storage unit readable and writable by a plurality of devices such as a dual port memory to each of the above-described embodiments, the control information is transferred without being transferred via the link unit 19. Can be realized.

[0057]

As described above, according to the present invention, when a dual system of cold standby is employed, when a failure occurs in the active system or when a system switching request is issued for maintenance and inspection, etc. When switching is performed, it is possible to suppress the disappearance or change of the user information flowing through the communication path. Further, since the standby system is in the cold standby state, low power consumption can be realized.

[0058]

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a system switching device as a background of the present invention.

FIG. 2 is an explanatory diagram (1) of a system switching device in which a standby system is in a cold standby state.

FIG. 3 is an explanatory diagram (2) of a system switching device in which a standby system is in a cold standby state.

FIG. 4 is a schematic diagram of a system switching device according to the present invention.

FIG. 5 is a detailed configuration diagram (1) of a system switching device according to the present invention.

FIG. 6 is a flowchart of a system switching procedure in the system switching method according to the present invention.

FIG. 7 is an explanatory diagram (1) of a system switching method according to the present invention.

FIG. 8 is an explanatory view (2) of a system switching method according to the present invention.

FIG. 9 is a detailed configuration diagram (2) of the system switching device according to the present invention.

FIG. 10 is a configuration diagram for performing an operation of transferring control information.

[Explanation of symbols]

10 System switching control units 11, 12 Working system, standby system monitoring control unit 13, 14 Working system, standby system switching unit 15 ······· Line interface unit 20 ······ System switching control circuits 21 and 22 ··· Working system and standby system management control units 23 and 24 ··· · Active and standby user information switch units 25 and 26 ··· Active and standby SP bus interface unit 27 ····· Data processing unit 28 ······ · Optical / electrical converters 29, 30 ··· Tristate buffers 31-38 ··· Driver 39 ····· Selector 40, 41 ····· MOS switch 42 OR gate 100 duplicated unit for active system 1 01 ······· Standby redundant unit 102 ········ Non-redundant unit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Toshimichi Nome 216 Totsuka-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture, Hitachi, Ltd.

Claims (15)

[Claims] An active switch for exchanging information; an active monitoring and control unit for controlling the active switch; and a standby switch for exchanging the information in a cold standby state and in an active state. A standby monitoring control unit that is in a cold standby state and controls the standby system switching unit in an active state; and outputs a monitoring control unit switching instruction signal when a failure of the active system or a request for system switching is detected. Switching from the working system monitoring control unit to the protection system monitoring control unit, and after the protection system switching unit is set based on the control information of the working system switching unit, outputs a communication path switching instruction signal to output the working system By switching a switch unit to the standby system switch unit, a system switching control unit for performing switching control so as to transmit the information between the standby system switch unit and a line. System switching equipment provided. 2. An active switch for exchanging information; an active monitoring and control unit for controlling the active switch; and a standby switch for exchanging the information in a cold standby state and in an active state. And a standby monitoring control unit that is in a cold standby state and controls the standby system switch unit in an active state, and controls to switch any of the active system monitoring control unit or the standby system monitoring control unit to an active state, And a system switching control unit that performs switching control for transmitting the information between any one of the working system switching unit and the protection system switching unit and a line, and a failure of the working system or a request for system switching is provided. When being detected, an operation for transferring control information from the active system monitoring control unit to the standby system monitoring control unit is performed, and the active system monitoring control unit performs monitoring control by the system switching control unit. The system switching control unit sends a supervisory control unit switching instruction signal to the working system and the standby system supervisory control unit in response to the monitoring control unit switching request signal. Controlling the system monitoring control unit to a standby state and controlling the standby system monitoring control unit to an active state, wherein the standby system monitoring control unit is configured to control the standby system switching unit based on the control information transferred from the active system monitoring control unit. After setting, the system switching control unit sends a speech path switching request signal, and the system switching control unit sends a speech path switching instruction signal in response to the speech path switching request signal, thereby A system switching device for controlling a system switch unit to a standby state and controlling the standby system switch unit to an active state. 3. The working system monitoring and control unit from when a failure in the working system or a request for system switching is detected until the working system switch unit is switched to the standby system switching unit. The system switching device according to claim 1, wherein the information is continuously exchanged by operating independently from outside the management. 4. The standby system monitoring and control unit, after it is determined that the setting of the standby system switch unit is completed based on the transferred control information, or necessary for setting a communication path. 4. The system switching device according to claim 1, wherein the communication channel switching request signal is output after a lapse of time. 5. A detection unit for detecting a failure by the active system monitoring and control unit, or a detecting unit for detecting a failure of the active system monitoring and control unit by a device managing the active system monitoring and control unit. The system switching device according to claim 1, further comprising detecting a failure of the active system monitoring control unit. 6. The control system according to claim 1, wherein the control is performed between a control memory in the active system monitoring control unit and a control memory in the standby system monitoring control unit to perform an operation for transferring control information to the standby system monitoring control unit. The system switching device according to any one of claims 1 to 5, further comprising a link unit for transferring information. 7. A storage unit that can be commonly accessed by the active system monitoring control unit and the standby system monitoring control unit to perform an operation for transferring control information to the standby system monitoring control unit. Claim 1.
7. The system switching device according to any one of claims 1 to 6. 8. A gate or selector connected to the output side of the active switch unit and the output terminal of the standby switch unit and controlled by the communication path switching instruction signal output from the system switching control unit. 8. The system switching device according to any one of 1 to 7. 9. The active system switch unit and the active system monitoring and control unit, the standby system switch unit and the standby system monitoring and control unit in the cold standby state, and a line connected to either the active system switch unit or the standby system switch unit. A system switching method for a communication device comprising: a system switching control unit that performs switching control for transmitting information between the active system and a failure of the active system or a request for system switching is detected. A switching control signal is output from the working system monitoring control unit to the protection system monitoring control unit when a monitoring control unit switching signal is output, and after the protection system switching unit is set based on the control information of the working system switching unit, A communication path switching instruction signal is output from the switching control unit to control the switching of the working switch unit to the standby switch unit, thereby transmitting the information between the standby switch unit and a line. A system switching method that performs switching control to perform switching. 10. A working system switch unit and a working system monitoring and control unit, a protection system switch unit and a protection system monitoring and control unit in a cold standby state, and a line connected to either the working system switch unit or the protection system switch unit. A system switching method for a communication apparatus comprising: a system switching control unit that performs switching control for transmitting information between the active system and the active system monitoring control unit when a failure in the active system or a request for system switching is detected. Performing an operation for transferring control information to the standby system monitoring and control unit, the working system monitoring and control unit sends a monitoring control unit switching request signal to the system switching control unit, and the system switching control unit By transmitting a supervisory control unit switching instruction signal to the active and standby supervisory control units in response to the supervisory control unit switching request signal, the active supervisory control unit is set to the standby state, and the standby supervisory control is transmitted. The standby system control unit controls the standby system control unit to the active state, and the standby system monitoring control unit sets the standby system switch unit based on the control information transferred from the active system monitoring control unit, and then sets a communication path to the system switching control unit. A switching request signal, and the system switching control unit transmits a communication path switching instruction signal in response to the communication path switching request signal, so that the working system switching unit is in a standby state, and the standby system switching unit is System switching method for controlling the system to the active state. 11. The active system switch unit is connected to the active system monitoring and control unit from when a failure of the active system or a request for system switching is detected until the active system switch unit switches to the standby system switch unit. The system switching method according to claim 9, wherein the information is continuously exchanged by operating independently from outside the management. 12. After the setting of the standby switch unit is determined to be completed based on the transferred control information, or after a lapse of time necessary for setting a communication channel, the standby switch unit is set. The system switching method according to any one of claims 9 to 11, wherein a system monitoring control unit outputs the communication path switching request signal. 13. A first system comprising a first switch unit for exchanging information from a line, a first monitoring and control unit for managing and controlling the first switch unit, and information from the line. A second switch unit for exchanging the data, a second system including a second monitoring control unit for managing and controlling the second switch unit, and switching between the first system and the second system. When the request is detected, the controller outputs a monitoring controller switching instruction signal to switch between the first monitoring controller and the second monitoring controller, and the switching unit of the switching destination system switches the switching unit of the switching source system. After being set based on the control information, a communication path switching instruction signal is output to switch between the first switch unit and the second switch unit, and information from the line is transmitted to the first system or the second system. A communication device comprising: a system switching control unit that performs exchange control in any of the systems. 14. The switch unit of the switching source system monitors and controls the switching source system from when the switching request is detected until when the first switch unit and the second switch unit are switched. 14. The communication apparatus according to claim 13, wherein the information is continuously exchanged by operating independently under control of a unit. 15. The monitoring control unit of the switching destination system, after it is determined that the setting of the switching unit of the switching destination system is completed based on the transferred control information, or
15. The communication apparatus according to claim 13, wherein the communication path switching request signal is output after a time required for setting a communication path has elapsed.