JPH0715757A - Normalcy confirmation system for standby system device - Google Patents

Abstract

PURPOSE:To confirm the normalcy of a standby system device like a dual communications line switch part or the like without current/standby systems switching. CONSTITUTION:Each of line interface parts 102 is provided with a line selective turning-back circuit 104 which connects the data line from a current system line switch part 101ACT to a corresponding communications line and has a function to turn back the data line from a standby system line switch part 101SBY. When the normalcy confirmation test of the standby system device is performed by the from a control part 106 for maintenance operation, data is sent by the route from a standby system line control part 103SBY to the standby system line switch part and the line interface part 102 through the standby system line switch part and is turned back by the line selective turning-back circuit 104 of the line interface part 102.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for confirming normality of a standby system device for confirming the normality of a standby system device such as a duplicated communication line switch section.

As a communication system having a cross-connect function and a line concentrating function, a line switch unit is configured as a dual system of an active system and a standby system, and a plurality of communication lines are accommodated in each of the line switch units via a line interface unit. There is a communication system in which each of the line switch units is connected to a plurality of line control units each having a standby system configuration in addition to each communication line. In such a communication system, the normality confirmation of the standby system ( When performing a health check, it is desirable to be able to perform a health check of the entire system including the active system side as well as the standby system side.

[0003]

2. Description of the Related Art FIG. 7 shows a conventional example of a communication system having a cross-connect function and a line concentrating function. In FIG. 7, reference numerals 1-1 and 1-2 are dual line switching units for the active system and the standby system, each of which includes a switch unit 11, a switch control circuit 12, a loopback control circuit 13 and the like. Here, the line switch unit 1-1 is used for the active system (AC
T system) and the line switch unit 1-2 as a standby system (SBY system). The line switch units 1-1 and 1-2 are connected to the line interface units 2-1 to 2-k and the line control units 3-1 to 3-j corresponding to the communication lines according to an instruction from the maintenance operation control unit 4 '. It is to connect. The loopback control circuit 13 in the line switch unit has a function of looping back the line data passed through the switch unit 11. .

Reference numerals 3-1 to 3-j are line control units having a standby system configuration. Here, the line control units 3-1 to 3- (j-1) are the active system,
The line control unit 3-j is used as a standby system. These line control units 3
-1 to 3-j are for performing communication protocol control corresponding to the communication line, and receive a switching instruction between the active system and the standby system and iPL control from the maintenance operation control unit 4 ′ via the system bus 5. 2-1 to 2-k are line interface units provided for the respective communication lines, and these line interface units 2-1 to 2-k have an electrical terminating function of the communication lines.

FIG. 8 is a diagram for explaining a conventional method for confirming the normality (health check) of the line connection and the protection line switch unit in the above communication system.

First, the normal operation will be described. Here, the line switch unit 1-1 is used as the active system and the line switch unit 1-2 is used as the standby system. In FIG. 8, the working line switch unit 1-1
Then, the switch control information from the maintenance operation control unit 4'is analyzed in the switch control circuit 12, and the switch unit 11 is set based on the analysis result. The line controller 3
Normally, it is connected to the active line switch unit 1-1, and is connected to one of the communication lines via the line interface unit 2 according to the switch setting of the switch unit 11 in the active line switch unit 1-1. Data is transmitted / received to / from the communication line.

Next, a method for confirming the normality of the standby line switch unit 1-2 during operation of the communication system will be described. In this case, one of the standby system line control units (here, the line control unit 3-j) is connected to the standby system line switch unit 1-2 according to an instruction from the maintenance operation control unit 4 ', and is normally operated. Set the switch route for which you want to check the property, and at the same time, turn back control circuit 1 corresponding to the switch route.
Set 3 to loopback mode. After making the above settings, the test data is sent from the line control unit 3-j of the standby system to the line switch unit 1-2 of the backup system and looped back by the loopback control circuit 13. The normality of the standby line switch unit 1-2 is confirmed by receiving the returned test data at -j and collating it with the original test data.

[0008]

However, the above-mentioned conventional method has the following problems. One of the problems is the normality of the connection between the standby system line control unit 3 and the standby system line switch unit 1-2 and the standby system when the loopback control unit 13 of the standby system line switch unit 1-2 returns the data. The normality of the functions of the switch unit 11 and the switch control unit 12 in the line switch unit 1 can be confirmed, but the connection from the standby system line switch unit 1 to each line interface unit 2-1 to 2-k is normal. It is not possible to confirm the sex.

Another problem is that all the line control units 3-1 to 3-j
In order to confirm the normality including the connection between the standby system line switch 1-2 and the standby system line switch 1-2, switch the active / standby system configuration of the line control unit 3 and set the line control unit 3 to check the connection as the standby system. Therefore, it is necessary to confirm the normality from the line control unit newly set as the standby system to the standby system line switching unit. In this case, the line control unit performs protocol control / buffering of the communication line. Therefore, switching the active / standby system of the line control unit causes communication data to be lost at the time of switching. It may be interrupted. For this reason, it is not desirable to switch the active / standby system except when the line control fails.

Therefore, normality confirmation (health check)
In order to do so, the regular switching method of periodically switching the circuit of the active system to the standby system cannot be adopted, and the switching method at the time of failure must be adopted.Therefore, always check the normality of the standby system device under normal operating conditions. What you can do is important and essential.

The present invention has been made in view of the above problems, and an object of the present invention is to make it possible to confirm the normality of the connection between the line switch unit and the line interface unit. The purpose is to make it possible to confirm the normality of each line control unit without switching between the active system and the standby system.

[0012]

FIG. 1 is a diagram illustrating the principle of the present invention. In order to solve the former problem mentioned above,
As one mode, the normality confirmation method of the standby system device of the present invention is a line switch unit 10 having a cross-connect function.
1 is duplexed in the active system and the standby system, and a plurality of communication lines are accommodated in the respective line switch units 101 via the line interface unit 102, and each of the line switch units 101 corresponds to each communication line. In addition to the above, in the communication system configured to be connected to each of the plurality of line control units 103 having the standby system configuration, the line interface unit 10
The line selection loopback circuit 104, which has a function of connecting the data line from the active line switch unit 101 _ACT to the corresponding communication line and _looping back the data line from the _standby system line switch unit 101 _SBY, is provided for each of the 2 the instruction from the operation control unit 106 in performing normality confirmation test of the standby system device, via the protection line switching unit 101 _SBY, the protection line control unit 103 _SBY protection line switching unit 101 _SBY, the line interface unit 102 It is characterized in that the data is sent by the route of and the data is looped back by the line selection loopback circuit 104 of the line interface unit 102.

In order to solve the latter problem described above, the normality confirmation method of the standby system apparatus according to the present invention is, as another form, a line switch section 10 having a cross-connect function.
1 is duplicated in the active system and the standby system, and a plurality of communication lines are accommodated in the respective line switch units 103 via the line interface unit 102, and the respective line switch units 101 are respectively connected to the respective communication lines. In addition, in a communication system configured to be connected to each of a plurality of line control units 103 having a standby system configuration, each of the line control units 103 is provided with a function of returning data from the _standby system line switch unit 101 _SBY and Switch unit 101
A line selection loop-back circuit 1 for connecting a spare line control unit 103 _SBY and another active line control unit 103 _ACT to each
No. 05 is provided, and the normality confirmation test of the standby system device is performed according to the instruction from the maintenance and operation control unit 106, the standby system line control unit 103 _SBY to the standby system line switch unit 10
1 _SBY, is characterized in that it has to wrap the data line selection folding circuit 105 of the active system line control unit 103 _ACT sending data in the primary system route to the line control unit 103 _ACT.

The normality confirmation system of the standby system of the present invention is, in another form, a combination of the former system and the latter system.

[0015]

In the former normality confirmation method, when performing a health check on the backup system side of the duplicated line switch unit 101, the line interface unit 012 is instructed through the backup system line switch unit 103 _SBY or the like according to the instruction of the maintenance operation control unit 106. By instructing the standby system line control unit 103 _SBY from the _standby system line control unit 103 _SBY without affecting communication with the active system side line switch unit 101 _ACT.
1 _SBY , the test data is sent by the route of the line interface unit 102, and the line selection loop circuit 104 there returns the data so as to follow the reverse route, whereby the line switch unit on the backup system side including the connection with the line interface unit is returned. Perform 101 _SBY health check.

In the latter normality confirmation method, the line switch unit 101 is instructed by an instruction from the maintenance operation control unit 106.
_{In SBY} , the line control unit 103 _{SBY of the standby} system is connected to the line control unit 103 _ACT of the working system to be tested, and the line selection loopback circuit 105 is used by the working system side to the line control unit 103 _ACT of the working system. The line switch unit 101 _SBY on the protection side without affecting the communication of the data, the line control unit 103 _SBY of the protection system, the line switch unit 101 _SBY of the protection system, and the line control unit 103 _{ACT of the} working system. Test data is sent by the route of and the line selection loopback circuit 1 there
At 05, the data is returned so as to follow the reverse route, and the health check of the line switch unit 101 _SBY on the standby system side including the connection with the line control unit of the active system is performed.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 2 shows a communication system according to the normality confirmation system of a standby system device as an embodiment of the present invention. In FIG. 2, as described in the section of the prior art, 1-1, 1-2
Is a line switch unit for the working / standby system, 2-1 to 2-k is a line interface unit for each communication line, 3-1 to 3-j is a line control unit having a standby system configuration, and 4 is a maintenance operation control Parts 5 are system buses.

A difference from the conventional system is that each of the line interface units 2-1 to 2-k is provided with a line selection loopback circuit 21, and transmission / reception from each line switch unit 1-1, 1-2 is performed. The data line is connected to the communication line via the line selection loopback circuit 21. The line selection loopback circuit 21 receives the “line switch side loopback instruction” from the line switch unit side of the standby system, and thereby does not affect the communication with the line switch unit of the active system, and the standby system It has the function of looping back the transmission / reception data line from the line switch unit to the standby line switch unit side.

Each of the line control units 3-1 to 3-j is also provided with a line selection loopback circuit 31, and the signal lines from the line switch units 1-1 and 1-2 are connected to the line selection loopback circuit. Three
1 is connected to the internal circuit of the line control unit. This line selection loopback circuit 21 receives a "line switch side loopback instruction" from the backup line switch unit side so that the line switch unit of the backup system does not affect communication with the line switch of the active system. It has a function to fold the send / receive data line back to the backup line switch side.

Further, the line switch units 1-1 and 1-2 have a function of notifying the line interface unit 2 from the line switch unit of the standby system to the loopback instruction on the backup system line switch side in accordance with the instruction of the maintenance operation control unit. I have it. Furthermore, in accordance with an instruction from the maintenance and operation control unit, a function to connect the line control unit to the line control unit in the line switch unit, and also from the maintenance operation control unit to the standby line control unit from the line control unit. It also has a function of notifying the backup system line switch side return instruction.

FIG. 3 shows a configuration example of the line selection loopback circuit 21 in the line interface section 2. Since the line selection loopback circuit 31 has almost the same configuration, the detailed configuration of the line selection loopback circuit 31 is omitted.

In FIG. 3, B1 to B8 are buffer gates, G1 and G2 are NAND gates, and G4 and G5 are AND gates.
Gates, Q1 to Q6 are inverters, S is a transmission data line,
R is a reception data line. Here, the # 0 system circuit is connected to the active line switch unit 1-1, and the # 1 system circuit is connected to the standby line switch unit 1-2.

In the line selection loopback circuit 21, when the active / standby system switching signal "ACT0" from the line switch unit 1 side is "enabled" and "ACT1" is "disabled", # 0. Buffer gate B of system circuit
2 and B3 are turned on and the buffer gate B4 is turned off to connect the transmission / reception data line from the line switch section 1-1 to the communication line, and at the same time, the buffer gates B6 and B of the # 1 system circuit are connected.
7 is turned off and the transmission / reception data line from the line switch unit 1-2 is disconnected from the communication line. On the contrary, when "ACT0" is "disabled" and "ACT1" is "enabled", the buffer gates B2 and B3 of the # 0 system circuit are OF.
When it becomes F, the transmission / reception data line from the line switch unit 1-1 is disconnected from the communication line, and at the same time, the buffer gates B6 and B7 of the # 1 system circuit are turned on, the buffer gate B8 is turned off, and the line switch unit 1-2 is turned on. Connect the send / receive data line of to the communication line.

Further, in this line selection loopback circuit 21,
When "LOOP1" which is the loopback instruction from the line switch section 1-2 side becomes "enabled", # 1
The buffer gates B6 and B7 of the system circuit are turned off and the buffer gate B8 is turned on so that the input data from the transmission data line S is returned to the reception data line R. On the contrary, "LO" which is the loopback instruction from the line switch unit 1-1 side
When "OP0" becomes "enable", the buffer gates B2 and B3 of the # 0 system circuit are turned off, the buffer gate B4 is turned on, and the input data from the transmission data line S is returned to the reception data line R via the buffer gate B4.

The operation of this embodiment system will be described below with reference to FIGS.
Description will be made with reference to the active communication route and the health check route in FIG. First, the operation when performing normal operation will be described with reference to FIG. In this case, in accordance with an instruction from the maintenance operation control unit 4, the active / standby system switching signal from the line switch unit 1 to the line interface unit 2 and the line control unit 3 is "ACT0" being "enabled",
Since "ACT1" is "disabled",
Each of the line selection folding circuits 21 and 31 allows the transmission / reception data line input to the # 0 system circuit to pass therethrough. Therefore, for example, the transmission / reception data line from the active line control unit 3-1 passes through the switch unit 11 of the active line switch unit 1-1 and the line selection loopback circuit 21 of the line interface unit 2-2. Connected to a communication line. Similarly, for example, a transmission / reception data line from the active line control unit 3-2 passes through the switch unit 11 of the active line switch unit 1-1 and the line selection loopback circuit 21 of the line interface unit 2-k.
And is connected to the communication line.

Next, the operation of the normality confirmation test including the connection with the line interface section will be described with reference to FIG. First, in order to confirm the normality of the standby system line switch unit 1-2, the standby system line control unit 3-j is connected to the standby system line switch unit 1-2. At the same time, in accordance with the instruction from the maintenance and operation control unit 4, the standby system line switch side return instruction to the line interface unit (for example, the line interface unit 2-2) that confirms the connection from the standby system line switch unit 1-2. Then, the # 1 system circuit of the line selection loopback circuit 21 of the line interface unit 2-2 is set to the loopback mode, and the transmission / reception data line on the line switch unit side of the backup system is looped back. In this state, the line control unit 3-j of the standby system, the line switch unit 1-2 of the standby system, and the line interface unit 2-2
A data transmission / reception test is performed through the circuit, and the test data is returned by the line selection loopback circuit 21 of the line interface unit 2-2 to check the normality of the standby line switch including the connection with the line interface unit 2-2. .

Next, a case will be described below with reference to FIG. 6 in which normality confirmation is performed including connection confirmation with the currently used line control unit (for example, line control unit 3-1) of the active system. In order to confirm this normality, according to an instruction from the maintenance and operation control unit 4, the switch unit 11 in the line switch unit 1-2 of the standby system uses the line control unit 3-j of the standby system and the line control unit 3 of the active system. -1 is connected, and at the same time, by the instruction from the maintenance and operation control unit 4, the standby system line switch unit 3-2 sends a "standby system line switch side return instruction" to the working line control unit 3-1. The line selection loop circuit 31 of the line control unit 3-1
At, the transmission / reception data from the line switch 1-2 side of the standby system is set to the return state. In this state, the test data is transmitted by the route from the line control unit 3-j of the standby system to the line switch unit 1-2 of the standby system and the line control unit 3-1 of the active system. The test data returned by the line selection loopback circuit 31 is received by the line control unit 3-j of the backup system via the reverse route and collated with the original test data, so that the line control unit 3-1 of the working system is connected. Check the normality of the standby line switch including connection.

[0028]

As described above, according to the present invention, it is possible to confirm the normality of the connection between the line switch unit and the line interface unit. Further, the normality of each line control unit can be confirmed without switching the active system / standby system.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a diagram showing a communication system based on a normality confirmation method as an embodiment of the present invention.

FIG. 3 is a diagram showing a configuration example of a line selection loopback circuit of a line interface unit in the communication system of the embodiment.

FIG. 4 is a diagram for explaining a normal communication route in the communication system according to the embodiment.

FIG. 5 is a diagram for explaining a health check route in the communication system according to the embodiment.

FIG. 6 is a diagram for explaining a health check route in the communication system according to the embodiment.

FIG. 7 is a diagram showing a conventional communication system.

FIG. 8 is a diagram for explaining a normal communication route and a health check route in a conventional communication system.

[Explanation of symbols]

 1-1, 1-2 line switch unit 2-1 to 2-k line interface unit 3-1 to 3-j line control unit 4 maintenance operation control unit 4'maintenance operation control unit 5 system bus 11 switch unit 12 switch control Circuit 13 Loopback control circuit 21, 31 Line selection loopback circuit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Hiroyuki Tanaka, 1015 Kamiodanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture, Fujitsu Limited (72) Inventor Ryuichi Hara, 1-6, Uchisaiwaicho, Chiyoda-ku, Tokyo Nihon Telegraph and Telephone Within the corporation

Claims (3)

[Claims] 1. A line switch unit (101) having a cross-connect function is duplicated in an active system and a standby system, and a plurality of communication lines are accommodated in each of the line switch units via a line interface unit (102). Then, in a communication system having a configuration in which each of the line switch units is connected to a plurality of line control units (103) each having a standby system configuration in addition to each communication line, each of the line interface units has a working system. A line selection loopback circuit (104) having a function of connecting the data line from the line switch unit to the corresponding communication line and folding back the data line from the standby line switch unit is provided, and an instruction from the maintenance operation control unit (106) is provided. When performing the normality confirmation test of the standby system equipment, the standby system line control unit, the standby system line switch unit, the standby system line switch unit, Normality confirmation method of the standby system and wherein the sending data in route to the line interface unit in the line selection folding circuit 該回 line interface unit that was folded back the data. 2. A line switch unit (101) having a cross-connect function is duplicated in an active system and a standby system, and a plurality of communication lines are accommodated in each of the line switch units via a line interface unit (102). Then, in a communication system in which each of the line switch units is connected to a plurality of line control units (103) each having a standby system configuration in addition to each communication line, a standby system line is provided to each of the line control units. A function for returning data from the switch unit is provided, and a line selection return circuit (105) for connecting a spare line control unit and another working line control unit is provided to each of the line switch units.
When performing the normality confirmation test of the standby system device according to an instruction from the maintenance operation control unit (106), data is sent by a route from the standby system line control unit to the standby system line switch unit and the working system line control unit. A normality confirmation method for a standby system device, characterized in that the line selection loop circuit of the system line control unit returns the data. 3. A normality confirmation system for a standby system device, characterized by combining the system according to claim 1 and the system according to claim 2.