JP2001238279A - Channel apparatus and interface unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a channel apparatus that can easily change a redundancy form of a line adaptor section with a high mount density. SOLUTION: In the cannel apparatus where switch sections are made redundant, each interface unit comprises 1st and 2nd group line adaptor sections, at least a couple of switch interfaces where line adaptor sections are multiplexed to be coupled with an active system or standby switch section, and a back wiring board(BWB) that forms connection wiring between each line adaptor section and each switch interface. The BWB has a wiring pattern for the case that the 1st group line adaptor section is used for the active system and the 2nd group line adaptor section is used for the standby system and has a wiring pattern for the case that all the line adaptor sections are used for the active system and each the 2nd group line adaptor section is provided with an input selection means that validates a part of the connection wirings on the BWB in response to the application form and invalidates the rest.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a redundantly configured communication path apparatus (switch) having a double switch unit, and more particularly, to a structure of a line corresponding unit (line interface unit) which is changed from a single structure to a double unit. The present invention relates to a communication path device that can be easily changed to a redundant configuration.

[0002]

2. Description of the Related Art A communication path device having a redundant configuration is, for example,
As shown in FIG. 8, the active system (# 1) and the standby system (#
0), switch units 2a and 2b, a plurality of interface units 1-i (i = 1 to 2m), and a control device 5 for controlling these elements. It is configured to be connected to both the working switch unit 2a and the standby switch unit 2b.

Each interface unit 1-i has a plurality of pairs of transmission lines 30 (30-30) each comprising an input line and an output line.
i-1 to 30-i-2n), and a line-corresponding unit (line interface: L
IF) 10-j and 11-j (j = 1 to n), and active (# 1) and standby (# 0) switch interfaces 20a and 20b connected to these line corresponding units, The active system switch interface 20a is connected to the active system switch unit 2a by the input / output signal line 20A-i.
And the standby system switch interface 20b is connected to the input / output signal line 20B-i.
It is connected to the i-th input / output port of the standby switch unit 2b. Each of the active and standby switches 2a and 2b has 2m input / output ports, and transfers a signal (packet) input from the interface unit 1-1 to 1-2m to an input port to any output port. Exchange operation.

FIG. 8 shows a redundantly configured speech path apparatus in which not only a switch section but also a line corresponding section are duplicated. In each interface unit 1-i, a first group of line corresponding sections 10-1 to 10-1 to 10-4 are provided. -N is the active system, and the line corresponding units 11-1 to 11-n of the second group are the standby systems.
Each of the line corresponding units includes first and second input / output signal lines, and the active switch interface 20a includes the active line corresponding units 10-1 to 10-n and the standby line corresponding unit 11-1. To 11-n first input / output signal lines.

The active switch interface 20a
Is normally connected to the working line corresponding unit 1 by the confounding function.
Input signals from 0-1 to 10-n are selected, these input signals are multiplexed and supplied to the i-th input port of the working switch 2a, and from the i-th output port of the working switch 2a. Separate the output multiplexed signal,
Distribute to each line corresponding part in the unit. On the other hand, the protection system switch interface 20b accommodates the second input / output signal line of the working system and protection system line corresponding unit.
The input signals from the working line corresponding units 10-1 to 10-n are multiplexed and supplied to the i-th input port of the protection switch 2b, and the multiplexed signal output from the i-th output port of the protection switch 2b is multiplexed. It is separated and distributed to each line corresponding unit in the unit.

[0006] Each of the line responding units 10-1 to 10-1 to the working system and the standby system
10-n, 11-1 to 11-n, as described above,
The output signals of both the active switch interface 20a and the standby switch interface 20b are supplied. In normal times, however, the confounding function controlled by the control signal C from the control device 5 causes the output from the active switch interface 20a. An input signal is selected and output to the transmission line 30 associated with each input signal.

The above-mentioned working system and protection system line handling unit 10
-J, 11-j (j = 1 to n) are entangled by the switch interfaces 20a and 20b, the line corresponding section and the switch interface (selector function section) increase as the number of accommodated lines increases. ) Is complicated. In this regard, for example, in Japanese Patent Application Laid-Open No. 7-7753, a printed circuit board on which a line corresponding portion is mounted and a printed circuit board on which a entangled portion corresponding to the switch interface is formed are formed on a back wiring board (BWB). Proposals have been made to reduce the amount of hardware by connecting with a printed wiring.

[0008]

However, in addition to the redundant configuration shown in FIG. 8, there is also a demand for a redundant configuration in which the line-corresponding portion is made single and only the switch portion is made double in the communication path device. . When a back wiring board (BWB) used in the communication path device shown in FIG. 8 is used to realize a redundant configuration in which the line corresponding unit is unitized, for example,
As shown in FIG. 9, the package substrates of the line-corresponding units 11-1 to 11-n of the second group, which have been used as the standby system, are removed from each of the interface units 1-i. It becomes a structure leaving only 10-1 to 10-n. In this case, the number of interface units 1 connected to the switches 2a and 2b is the same as in FIG.
2 m, and despite the number of package substrates of the line corresponding part being halved in each interface unit, BW
Since the B size does not change, a structure having a very low mounting density with a large space left in each interface unit is obtained.

An object of the present invention is to provide a communication path device which can be realized with a high mounting density by using both a redundant configuration in which both a line handling unit and a switch unit are duplicated and a redundant configuration in which only a switch unit is duplicated. To provide. Another object of the present invention is to
Using the same BWB, the line handling unit and the switch unit
It is an object of the present invention to provide a communication path device and an interface unit capable of realizing both a duplicated redundant configuration and a redundant configuration in which only a switch unit is duplicated at a high mounting density.

[0010]

In order to achieve the above object, the present invention provides a plurality of interface units each accommodating a plurality of input / output lines, and a working system and a standby system connected to each of the above interface units. In a communication path device including a switch unit, each interface unit is connected to an input / output line, and a plurality of line corresponding units forming first and second groups, and input / output signals of the plurality of line corresponding units. To connect at least one pair of active and standby switch interfaces for multiplexing and coupling to the active or standby switch section, and to connect each line corresponding section to the active or standby switch interface And a back wiring board (BWB) on which the wiring of the first group is formed. Active system the 応部, when using the line interface of the second group as a standby system, the first, second
When each line corresponding unit of the group is connected to both a pair of active and standby system switch interfaces, and all the line corresponding units of the first and second groups are used as the active system, the first group Each line corresponding unit is connected to the pair of active and standby switch interfaces, and the second
A plurality of sets of connection wiring patterns corresponding to the form of the redundant configuration are provided in advance so as to connect each line corresponding unit of the group to another pair of the working system and the standby system switch interface. The unit is provided with input / output selection means for validating a part of the connection wiring on the BWB coupled to the line corresponding part and invalidating the rest in accordance with the usage mode.

More specifically, in the communication path device of the present invention, each of the switch interfaces has a working input port and a protection input port, and selectively receives an input signal from any one of the input ports. A plurality of selectors to be output, a signal multiplexing circuit for multiplexing the output signals of the respective selectors and inputting the multiplexed signals to the working or protection switching unit, and a signal multiplexing circuit output from the working or protection switching unit. A multiplexed signal separating circuit for separating the multiplexed signal and selectively distributing it to a plurality of branch circuits each having a working output port and a standby output port,
The BWB connection wiring pattern connects each line-corresponding portion of the first group to any one of the working-system input / output ports of the pair of working and standby switch interfaces, and connects each line-corresponding portion of the second group. One of the pair of the active system and the standby system switch interface,
It is characterized in that it is connected to any one of the active system input / output ports of another pair of active system and standby system switch interfaces.

Further, in the communication path apparatus according to the present invention, each of the switch interfaces has n (n = integer) selectors and n distribution circuits, and each line corresponding unit of the first group has an input line. An input line interface circuit for processing a received signal from the input line interface circuit, a branch circuit for branching and outputting an output signal of the input line interface circuit to a working output port and a protection output port, and a working input port and a protection system An input selection circuit for selectively outputting a switch interface output signal received at any of the input ports; and an output line interface circuit for processing an output signal from the input selection circuit and outputting the processed signal to an output line. An input line interface circuit for processing a signal received from an input line, and an input line interface circuit for processing a received signal from the input line. An output selection circuit for selectively outputting an output signal of the circuit to one of the first and second output ports serving as a working output port and one of the third and fourth output ports serving as a protection system output port; The first to be the system input port,
Third and fourth input ports that are the second input port and the standby input port
An input selection circuit for selectively receiving a switch interface output signal received at any of the input ports, and an output line interface circuit for processing an output signal from the input selection circuit and outputting the processed signal to an output line. , B above
WB is the j-th line corresponding unit of the first group (j = 1 to
n) The output ports of the working system and the protection system are connected to the working system input ports of the j-th selector of the pair of the working system and the protection system, respectively. Is the pair of working systems,
The j-th branch circuit of the protection system switch interface is connected to the working system output port, and the first and third output ports of the j-th line corresponding section of the second group are respectively connected to the pair of the working system and protection system switch interface. Connected to the standby input port of the j-th selector, and the first and third
An input port is connected to each of the pair of working and protection system switch interfaces, and a second and fourth output ports of the line corresponding unit are connected to the other pair of working systems. And the second and fourth input ports of the line-corresponding section are respectively connected to the working system input ports of the j-th selector of the system and protection system switch interfaces, and the j-th branch of the other pair of the working system and protection system switch interfaces. The connection wiring pattern is provided so as to be connected to a working output port of a circuit.

In order to make the parts used common and to reduce the cost of the communication channel device, the first to fourth output ports and the first The application having the fourth to fourth input ports may be applied. In this case, in the BWB, for example, the first and third output ports of the j-th line corresponding unit (j = 1 to n) of the first group are respectively connected to the j-th selector of the pair of the working system and the protection system switch interface. Connection wiring for connecting to the working system input port and connecting the first and third input ports of the line corresponding unit to the working system output port of the j-th branch circuit of the pair of working system and protection system switching interfaces, respectively. What is necessary is just to form a pattern.

According to the present invention, the BWB of each interface unit is provided with a plurality of sets of connection patterns in advance according to the form of the redundant configuration. When a pair of switch interfaces of the system is used and the line correspondence unit is made single, a pair of switch interfaces is further added to the working system and the standby system, so that the line correspondence unit that can be accommodated in each interface unit is provided. Can effectively construct a redundantly configured communication path device. Further, according to the present invention, when the line corresponding unit is unified, each interface unit is
As a result of having two pairs of switch interfaces for the working system and the standby system, it is possible to input and output two series of multiplexed signals to and from the switch unit. There is an advantage that the number of units can be halved and the communication path device can be downsized.

[0015]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of a redundantly configured speech path apparatus according to the present invention in which both a line handling section and a switch section are duplicated. The communication path device shown here is similar to the conventional device shown in FIG. 8 in that the active (# 1) and standby (# 0) switch sections 2a, 2b each having 2 m input / output ports are provided. The same number of interface units 1-i (i = 1 to 2m) as the number of input / output ports 2m of the switch unit;
A control device 5 for controlling these elements,
Each of the interface units 1-1 is connected to the active switch unit 2 via the input / output signal lines 20A-i and 20B-i.
a and the standby switch unit 2b.

Each of the interface units 1-i includes:
The first group line corresponding unit 10-j (j =
1 to n) and a line corresponding unit 1 of a second group to be a standby system
1-j (j = 1 to n), a working system (# 1) switch interface 20a, a protection system (# 0) switch interface 20b, and a circuit for connecting each of the above line corresponding units to the switch interfaces 20a and 20b. It comprises a BWB 40 having a printed wiring, and a processor 50 for controlling each of the line corresponding sections and the switch interface according to the command C from the control device 5, and the working switch interface 20a is connected to the input / output signal line 20A- i to the i-th input / output port of the active switch unit 2a, and the standby switch interface 20b to the i-th input / output port of the standby switch unit 2b via the input / output signal line 20B-i.
Connected to input / output port.

One of the features of the present invention is that the BWB 40 has a first wiring pattern required when the line corresponding part is duplicated and a second wiring pattern required when the line corresponding part is singled. When a pattern is formed in advance and the line corresponding unit is to be unified, an active (# 1) switch interface 21a and a standby (# 0) switch interface 21b should be added as shown in FIG. Thus, the 2n line corresponding units 10-1 to 10-n and 11-1 to 11-n can all be used as a working system.

In the case where the line corresponding part is made single, 20a,
Reference numeral 20b denotes an active and standby switch interface for the line corresponding unit groups 10-1 to 10-n.
1b is an active system for the line corresponding unit groups 11-1 to 11-n,
It becomes the standby system switch interface. In this case, each of the interface units 1-i has two input / output signal lines 20A-i and 21A-
i, 20B-i and 21B-i,
A total of m interface units, which is smaller than the device configuration of FIG. 1, are connected to the active and standby switches 2a and 2b having 2m input / output ports.

Another feature of the present invention is that, in order to selectively use the first and second wiring patterns formed on the BWB 40, each of the line corresponding sections 10 and 11 is provided with a switch according to the form of the redundant configuration. An input / output selection circuit for selectively using an input / output signal line with the interface is provided.

FIG. 3 shows a configuration of the second group line corresponding unit 11 having two usage patterns as a standby system in the duplex configuration and a working system in the duplex configuration. The line handling unit 11
An input line interface circuit 12 for processing a signal received from the input line 30-IN, first and second output selection circuits (selectors) 13a and 13b to which an output signal from the input line interface circuit 12 is supplied; First and second input selection circuits 14a and 14b for selecting one of the two input signals, and a third input selection circuit 15 for selecting one of the outputs of the input selection circuits; An output line interface circuit 1 for processing an output signal of the third input selection circuit 15 and transmitting the processed signal to an output line 30-OUT
6

The first output selection circuit 13a is for selecting a signal supply line to the working switch interface (20a or 21a), and outputs a signal supplied from the input line interface circuit 12 to the first output selection circuit 13a. The output is selectively output to one of the output port S1 and the second output port S2. The second output selection circuit 13b is for selecting a signal supply line to the standby switch interface (20b or 21b), and outputs an output signal from the input line interface circuit 12 to a third output terminal. Port S
3 and the fourth output port S4.
On the other hand, the first input selection circuit 14a selects one of the first input port S1 'and the second input port S2' connected to the active switch interface, and the second input selection circuit 14b A third input port S3 'and a fourth input port S4' connected to the standby switch interface
Is selected.

These selection circuits 13a, 13b, 14
a, 14b, and 15 are generated by the processor 50 or a construction mechanism (not shown), and fixedly select one of the output port and the input port by a select signal provided through the signal line 51. For example, when the output selection circuits 13a and 13b select the first and third output ports S1 and S3, respectively, the input selection circuit 14
a and 14b are also the first and third input ports S, respectively.
1 'and S3' are selected. Conversely, the output selection circuit 1
3a and 13b are the second and fourth output ports S, respectively.
2, when S4 is selected, the input selection circuits 14a, 1
4b also have second and fourth input ports S2 'and S4', respectively.
Select The selection circuit 15 normally selects an output signal from the active switch interface output from the first input selection circuit 14a and supplies the output signal to the output line interface circuit 15.

The line corresponding unit 10 of the first group is connected to a pair of switch interfaces 20a and 20b for the working system and the standby system and connected to the added switch interfaces 21a and 21b regardless of the form of the redundant configuration. Never. Therefore, the line handling unit 10 of the first group:
The output selection circuits 13a and 13b and the input selection circuits 14a and 14b are deleted from the configuration of FIG. 3, and the output of the input line interface circuit 12 is branched to two output ports S1 and S3, and the two input ports S1 'and S3 The input circuit may be configured so that one of the input signals from ′ is selected by the selection circuit 15 and supplied to the output line interface 16. However, in the following embodiment, in order to share parts, the first
The same configuration as the line corresponding unit 11 of the second group shown in FIG. 3 is applied to the line corresponding unit 10 of the group.

FIG. 4 shows the switch interface 20 (2
0a, 20b). A similar configuration is applied to the switch interface 21 (21a, 21b). The switch interface 20 includes first and second input ports P1 and P2, respectively, and a plurality of input selection circuits 21-1 to 21-n for selecting one of the input signals;
A signal multiplexing circuit 22 for multiplexing input signals supplied in parallel from these input selection circuits and outputting the multiplexed signals to the signal line 200 in time series, and a multiplexed signal supplied in time series from the signal line 200 ′ And a plurality of branch circuits 24-1 to 24-2
4-n, and a multiplexed signal separation circuit 23 for sequentially allocating the divided signals to 4-n.

Each of the branch circuits 24-i (i = 1 to n)
Converts the output signal supplied from the separation circuit 23 into the first and second signals.
To both output ports P1 'and P2'. Each of the input selection circuits 21-i is connected to the input ports P1 and P1 in accordance with a select signal generated by the processor 50 or a construction mechanism (not shown) and supplied through the signal line 52.
One of the two is fixedly selected. In FIG. 1, an output signal line 200 of the multiplexing circuit and an input signal line 2 of the separation circuit are shown.
00 ′ are collectively indicated by the input / output signal lines 20A or 20B. In addition, a signal line connected to the first input / output ports P1 and P1 ′ and a second input / output port P2 and P2 ′
Are shown by one input / output signal line, respectively.

FIG. 5 shows an effective wiring pattern of the BWB 40 in the redundant configuration of FIG. 1 in which both the line corresponding section and the switch section are duplicated. As shown by the solid line and the broken line, the BWB 40 has a total of 2n line-corresponding units 10-1 to 10-n and 11-1 to 11-n in the first and second groups according to the form of the redundant configuration. A plurality of sets of connection wiring patterns are formed in advance so as to connect to a pair or two pairs of switch interfaces.

Here, in order to simplify the drawing, the line interface units 10 and 11 switch the switch interface 20a,
Only the connection wiring between ports S1 to S4 toward 20b and ports P1 and P2 is shown. Each line corresponding unit 10,
In FIG. 11, as described with reference to FIG.
a, 13b and the input selection circuits 14a, 14b perform a paired selection operation. Therefore, the ports S1 ′ to S1 ′ to the input selection circuits 14a, 14b of the line corresponding units 10, 11 from the switch interfaces 20a, 20b. The connection wiring between S4 'and the ports P1' and P2 'is also formed on the BWB 40 in the same connection relationship as the wiring between the output ports S1 to S4 and the ports P1 and P2.

When the line corresponding units are duplicated, the line corresponding units 10-1 to 10-n of the first group serving as the active system and the line corresponding units 11-1 to 11-n of the second group serving as the standby system are used.
Then, the selection circuits 13a and 14a are connected to the first input / output port S
1, S1 'is selected, and a select signal is applied so that the selection circuits 13b, 14b select the third input / output ports S3, S3'. In this case, the wiring patterns connected to the second and fourth input / output ports S2, S2 ', S4, S4' of each line corresponding unit become invalid, and the line corresponding units 10-1 to 10-1 become invalid.
0-n, 11-1 to 11-n and the switch interfaces 20a, 20b are connected by a wiring pattern shown by a solid line.

That is, in the working switch interface 20a, the working line corresponding unit 10-j (j = 1) is connected to the first input port P1 of the input selection circuit 21-j (j = 1 to n).
To n) of the first output port S1 is supplied to the second input port P2, and the protection line corresponding unit 11-j (j = 1 to
n) The signal of the first output port S1 is supplied. Among them, the input signal from the first input port P1 is selected,
The signal supplied to the multiplexing circuit 22 and multiplexed by the multiplexing circuit 22 is input to the i-th input port of the working switch unit 2a via the input / output signal line 20A-i.

The signal exchanged by the working system switch section 2a is sent from one of the output ports to the input / output signal line 20.
The signal is input to the active switch interface 20a of the interface unit 1-k via A-k, and is split by the separation circuit 23 shown in FIG.
n. Each of the above branch circuits 24-1 to 24-
n outputs the switch output signal in parallel to the respective first and second output ports P1 ′, P2 ′. Here, the output signal from the output port P1 'of the branch circuit 24-j is supplied to the first input port S1' of the working line corresponding unit 10-j, and the output signal from the output port P2 'is It is supplied to the first input port S1 'of the line corresponding unit 11-j.
Therefore, the signal line from the working system switch interface 20a to each of the working system and the protection system corresponding to each line is indicated by B in FIG.
The wiring pattern is the same as the signal lines indicated by the solid lines on the WB 40.

On the other hand, the standby system switch interface 20
b, the first of the input selection circuits 21-j (j = 1 to n)
A working line corresponding unit 10-j (j = 1 to 1) is connected to the input port P1.
n), the signal from the third output port S3 is supplied,
The protection line corresponding section 11-j (j = 1 to 1) is connected to the input port P2.
n) from the third output port S3, and the input signal from the working line corresponding unit 10-j supplied to the first input port P1 is selected, and the multiplexing circuit 2
2 is input. The signal output from the multiplexing circuit 22 is input to the i-th input port of the standby switch unit 2b via the input / output signal line 20B-i, and the exchanged signal is output to one of the interface units 1-k. Is supplied to the standby switch interface 20b. Similarly to the active switch interface 20a, the standby switch interface 20b processes the output signal from the standby switch unit 2b and processes each branch circuit 24-j (j = 1 to 2).
n) to the first and second output ports P1 'and P2'.
The two output signals from the branch circuit 24-j are respectively input to the third input ports S3 'of the working line corresponding unit 10-j and the protection line corresponding unit 11-j which have a correspondence relationship with each other.

As a result, in each of the working system and protection system line corresponding units, the output signal of the working system switch interface 20a is input to the first input port S1 ', and the protection system switch interface 20b is connected to the third input port S3'. Is output. In this case, as shown in FIG. 3, the output signal of the active switch 2a is supplied to the output line interface circuit 16 by causing the selection circuit 15 to select the output of the input selection circuit 14a.

When a failure occurs in the active switch 2a, the control unit 5 gives a command to the processor 50 of each interface unit, and the processor 50 sends the command to each of the line corresponding units 10 and 11 via the signal line 51. Selection circuit 15
To the input selection circuit 1
What is necessary is just to supply the output signal of the standby system switch 20b output from 4b to the output line interface circuit 16.

Any of the input / output lines 30-
When a fault occurs in the interface unit 1-i, the interface unit 1-i accommodating the faulty line switches the switch interfaces 20 a and 20 b through the signal line 52.
, A switching signal is supplied to the selection circuit 21-j, and the input signal of the protection line corresponding unit 11-j input from the second input port is switched to each of the working and protection switch units 2.
a and 2b may be supplied. In this case, in the interface unit 1-i accommodating the faulty line, the input is switched by all the selection circuits 21-j (j = 1 to n) of the switch interfaces 20a and 20b, so that the active unit is used in the unit of the interface unit. It is also possible to switch from a system input / output line to a standby system input / output line.

FIG. 6 shows a BWB4 in the redundant configuration of FIG. 2 in which the line corresponding section is made single and only the switch section is made double.
0 shows an effective wiring pattern. In the present invention, when only the switch section is duplicated, two pairs of switch interfaces 20a and 20b and 21a and 21b are used as the switch interfaces of the active system and the standby system. Also, of the 2n line correspondence units accommodated in the interface unit, the line correspondence units 10-1 to 10-n of the first group
Are connected to the first working and standby switch interfaces 20a and 20b in the same wiring pattern as in FIG. 5, and the line corresponding units 11-1 to 11-n of the second group are indicated by broken lines in FIG. The connection to the second working and standby switch interfaces 21a and 21b is performed by the wiring pattern that has been set.

In this case, the line corresponding unit 11 of the second group
In the case of -1 to 11-n, the output selection circuit 13 shown in FIG.
a, 13b are the second and fourth output ports S2,
S4 is selected, and a select signal is provided so that the input selection circuits 14a and 14b select the second and fourth input ports S2 'and S4', respectively. As a result, the second and third group line corresponding sections 11-1 to 11-n can store the first and third groups.
The wiring connected to the input / output ports S1, S1 ', S3, and S3' of the first group becomes invalid, so the first working switch interface 20a has the first group line corresponding units 10-1 to 10-1.
Only the first input / output ports S1 and S1 'of the first group line corresponding units 10-1 to 10-n are connected to the first standby switch interface 20b. Only the ports S3 and S3 'are connected.

As shown by the solid line in FIG. 6, the newly added second working system switch interface 21a
The second input / output ports S2, S2 'of the line corresponding units 11-1 to 11-n of the group are connected, and the second standby system switch interface 21b is connected to the line corresponding units 11-1 to 11-1 of the second group. 11-n fourth input / output ports S4, S4
4 'is connected. With the above-described configuration, two lines of active input / output signal lines 20A-i, 21A each having a signal capacity of n lines are output from the switch interfaces 20a, 21a.
Pull out A-i, switch interface 20b, 2
From 1b, it is possible to draw out two lines of spare system input / output signal lines 20B-i and 21B-i each having a signal capacity for n lines.

When the communication channel device shown in FIGS. 1 and 2 is commercialized, for example, a printed circuit board forming the switch units 2a and 2b and a printed circuit board forming the control unit 5 are combined into one unit (switch unit). And line interface units 10-1 to 10-10 for each interface unit 1-i.
-N, a printed circuit board for 11-1 to 11-n and a printed circuit board for switch interfaces 20 and 21 are unitized in a bookshelf structure, and input / output signal lines 20A-i and 20 are connected between the switch unit and each interface unit.
Bi, 21A-i, 21B-i (i = 1 to m or 1
2m) and a control signal line (bus) C.

FIG. 7 shows an example of a mounting form of the interface unit 1-i. When employing a redundant configuration in which both the line corresponding unit and the switch unit are duplicated, a plurality of printed circuit boards 10-1 to 10-1 for the line corresponding unit are provided for the BWB 40.
0-n, 11-1 to 11-n, printed circuit boards 20a and 20b for a switch interface, and a printed circuit board 50 for a processor are bookshelf mounted. Control signal lines 51 and 52 from the processor board 50 to each interface unit and switch interface can be wired via the BWB 40.

When it is desired to adopt a redundant configuration in which the line-corresponding unit is unified, as shown, a printed circuit board 21a for the second switch interface of the working system and a second
The printed circuit board 21b for the switch interface may be additionally mounted, and the cable wiring of the input / output signal lines between each interface unit and the switch unit may be changed as shown in FIG. When all the interface units have a single line corresponding unit, the number of interface units can be halved to m, so that the size of the housing of the communication path device can be significantly reduced.

As described above, according to the present invention, in a communication path apparatus having a redundant configuration in a switch unit, a line corresponding unit is changed from a duplex configuration to a single configuration for each interface unit, or vice versa. Can be easily changed. In the embodiment, an example is shown in which the line correspondence unit is configured as a duplex configuration in all of the interface units (FIG. 1), and an example is shown in FIG. 2 in which the line correspondence unit is configured as a single configuration in all of the interface units. Alternatively, some of the plurality of interface units may be configured to have a dual line corresponding unit and the rest may be configured to have a single line corresponding unit.

[0042]

As is clear from the above embodiments, according to the present invention, it is easy to change the form of redundancy of the line corresponding part, and even if the line corresponding part is doubled, it becomes simple. However, since each interface unit can be configured with a high mounting density, it is effective for miniaturization of a speech channel device having a redundant configuration.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a redundantly configured speech path apparatus according to the present invention in which both a switch unit and a line corresponding unit are duplicated.

FIG. 2 is a block diagram showing one embodiment of a redundant communication path apparatus according to the present invention in which a switch unit is duplicated and only a line corresponding unit is duplicated.

FIG. 3 is a diagram illustrating a line corresponding unit 11 (11-1) in FIGS. 1 and 2;
FIGS. 11A to 11-n) are diagrams showing configurations.

FIG. 4 is a switch interface 2 in FIGS. 1 and 2;
The figure which shows the structure of 0 (20a, 20b) and 21 (21a, 21b).

FIG. 5 is a diagram showing a connection relationship between a line corresponding unit and a switch interface by the BWB 40 when the redundant configuration of FIG. 1 is realized.

FIG. 6 is a diagram showing a connection relationship between a line corresponding unit and a switch interface by the BWB 40 when the redundant configuration of FIG. 2 is realized.

FIG. 7 is a diagram showing an example of a mounting mode of the interface unit 1 according to the present invention.

FIG. 8 is a block diagram showing a configuration of a conventional communication channel device in which both a switch unit and a line corresponding unit are duplicated.

FIG. 9 is a block diagram showing a configuration of a conventional communication path device in which a switch unit is duplicated and only a line corresponding unit is duplicated.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Interface unit, 2a ... Working switch part, 2b ... Standby switch part, 5 ... Control device, 10, 1
1 ... line corresponding unit, 20, 21 ... switch interface, 40 ... BWB, 50 ... processor.

 ──────────────────────────────────────────────────続 き Continued on the front page (71) Applicant 000000295 Oki Electric Industry Co., Ltd. 1-7-12 Toranomon, Minato-ku, Tokyo (71) Applicant 000004237 NEC Corporation 5-7-1 Shiba, Minato-ku, Tokyo (72) Inventor Junya Obayashi 216 Totsuka-cho, Totsuka-ku, Yokohama-shi, Kanagawa Pref.Hitachi, Ltd.Communications Systems Division, Hitachi, Ltd. (72) Inventor Yukihiro Doi 2-3-1 Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Koichi Genda 2-3-1 Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Stock In-house (72) Inventor Takafumi Kobayashi 4-1-1, Kamikodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Prefecture Inside Fujitsu Limited (72) Person Satoshi Matsuo 4-1-1 Kamikadanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture Inside Fujitsu Limited (72) Inventor Tomohiro Tsuchida 1-7-12 Toranomon, Minato-ku, Tokyo Inside Oki Electric Industry Co., Ltd. (72) Inventor Hiroshi Noguchi 7-1, Shiba 5-chome, Minato-ku, Tokyo (72) Inventor Daisuke Sato 5-7-1, Shiba 5-chome, Minato-ku, Tokyo F-term (reference) 5K050 AA19 DD21 EE32 5K069 AA16 DA05 DA06 DC09 FD17 HA08 HA09 5K073 AA01 AA03 CC41 GG08 JJ25

Claims (5)

[Claims] 1. A communication path apparatus comprising: a plurality of interface units each accommodating a plurality of input / output lines; and active and standby switch units connected to the interface units, wherein each of the interface units comprises: A plurality of line-corresponding units respectively connected to the input / output lines and forming the first and second groups, and input / output signals of the plurality of line-corresponding units, respectively, are multiplexed and coupled to the working or protection switch unit. And a back-wiring board (BWB) in which wiring for connecting each line corresponding section to the working and standby switch interfaces is formed. The BWB sets the line corresponding unit of the first group to the working system and reserves the line corresponding unit of the second group. In the case of using the first and second groups, the line corresponding units of the first and second groups are connected to both a pair of working system and standby system switch interfaces, and all of the line corresponding units of the first and second groups are used as working units. When used as a system, each line corresponding unit of the first group is connected to the pair of working system and standby system switch interfaces, and each line corresponding unit of the second group is connected to the other one.
A plurality of sets of connection wiring patterns according to the form of the redundant configuration are provided in advance so as to be connected to the pair of the working system and the standby system switch interface. A communication path device comprising input / output selection means for validating a part of the connection wiring on the BWB coupled to the line corresponding unit and invalidating the rest. 2. The switch interface according to claim 1, wherein each of the switch interfaces has a working input port and a standby input port, and a plurality of selectors for selectively outputting an input signal from any one of the input ports. A signal multiplexing circuit for multiplexing an output signal and inputting the multiplexed signal to the working or protection switch unit; and a multiplexed signal output from the working or protection switch unit, and separating the multiplexed signal from the working system or protection system output unit. A multiplexed signal separating circuit for selectively distributing the signal to a plurality of branch circuits having a port and a standby system output port, wherein the BWB connection wiring pattern connects each line-corresponding section of the first group to the 1st group. Connected to either the working system input / output port of the pair of working system and protection system switch interfaces, and connecting each line corresponding unit of the second group to the pair of working system and protection system switches. 2. The connection according to claim 1, wherein any one of the standby system input / output ports of the switch interface is connected to any one of the active system input / output ports of the other pair of the active and standby switch interfaces. Communication device. 3. Each of the switch interfaces has n (n = integer) selectors and n distribution circuits, and each line corresponding unit of the first group processes a received signal from an input line. Input line interface circuit, a branch circuit for branching and outputting the output signal of the input line interface circuit to the working system output port and the protection system output port, and receiving at one of the working system input port and the protection system input port An input selection circuit for selectively outputting the selected switch interface output signal, and an output line interface circuit for processing an output signal from the input selection circuit and outputting the output signal to an output line. A line corresponding unit presents an input line interface circuit for processing a received signal from the input line and an output signal of the input line interface circuit. First as a system output port, and one of the second output port,
An output selection circuit for selectively outputting to any of the third and fourth output ports serving as a standby output port, and the first and second input ports serving as a working input port and a third input port serving as a standby input port An input selection circuit for selectively receiving a switch interface output signal received at any of the fourth input ports, and an output line interface circuit for processing an output signal from the input selection circuit and outputting the processed signal to an output line. And the BWB is a j-th line corresponding unit (j
= 1 to n) are respectively connected to the output ports of the working system and the protection system by the j-th switch interface of the pair of the working system and the protection system.
Connecting to the working system input port of the selector, and connecting the working system and protection system input ports of the line corresponding unit to the working system output port of the j-th branch circuit of the pair of working system and protection system switch interfaces, respectively; The first and third output ports of the j-th line corresponding section of the second group are respectively connected to the standby input port of the j-th selector of the pair of the working and standby switch interfaces, and 1,
A third input port is connected to each of the pair of the active and standby switch interfaces to a standby output port of the j-th branch circuit, and second and fourth output ports of the line corresponding unit are connected to the other pair. Connected to the working system input port of the j-th selector of the working system and the protection system switch interface.
The connection wiring pattern is provided so that the second and fourth input ports of the line corresponding unit are respectively connected to the working output ports of the j-th branch circuit of the other pair of the working system and the protection system switching interface. 3. The communication path device according to claim 2, wherein: 4. Each of the switch interfaces has n (n = integer) selectors and n distribution circuits, and each of the first and second groups corresponds to a signal received from an input line. Line interface circuit for processing the output signal, one of the first and second output ports serving as an active system output port, and the third and fourth output ports serving as a standby system output port. And a switch received at one of the first and second input ports serving as active input ports and the third and fourth input ports serving as standby input ports. An input selection circuit for selectively capturing an interface output signal, and processing an output signal from the input selection circuit,
An output line interface circuit for outputting to an output line, wherein the BWB is a j-th line corresponding unit (j
= 1 to n) are respectively connected to the working input ports of the j-th selector of the pair of working and protection switching interfaces, and the first and third inputs of the line corresponding unit are connected. Ports are respectively connected to the working output ports of the j-th branch circuit of the pair of the working and protection switching interfaces, and the first and third output ports of the j-th line corresponding section of the second group are respectively connected to the first and third output ports. The j-th selector of the pair of the working system and the protection system is connected to the protection system input port of the j-th selector, and the first and third input ports of the line corresponding unit are respectively connected to the j-th of the pair of the working system and the protection system switch interface. Connected to the protection system output port of the branch circuit, and the second and fourth output ports of the line corresponding unit are respectively used by the j-th selector of the other pair of the working system and the protection system switch interface. An input port, and the second and fourth input ports of the line corresponding unit are respectively connected to the active output port of the j-th branch circuit of the other pair of the active and standby switch interfaces. The communication path device according to claim 2, further comprising a connection wiring pattern. 5. An interface unit applied to a redundant channel device having a working system switch unit and a standby system switch unit, wherein a plurality of line corresponding units connected to input / output lines and forming first and second groups, respectively. And at least one pair of switch interfaces of an active system and a standby system for multiplexing input / output signals of a plurality of line corresponding units and coupling the multiplexed input / output signals to the working or standby switch unit; A back-wiring board (BWB) on which wiring for connecting to the working and standby switch interfaces is formed, wherein the BWB connects the line-corresponding portion of the first group to the working system and the second group; When the line corresponding unit is used as a standby system, each of the line corresponding units of the first and second groups is used as a pair of a working system and a standby system switch interface. In the case where all of the line corresponding units of the first and second groups are used as the working system, each of the line corresponding units of the first group is connected to the pair of the working system and the standby system switch. Interface, and connects each line corresponding section of the second group to another 1
A plurality of sets of connection wiring patterns according to the form of the redundant configuration are provided in advance so as to be connected to the pair of the working system and the standby system switch interface. An interface unit comprising input / output selection means for validating a part of the connection wiring on the BWB coupled to the line corresponding unit and invalidating the rest.