JP4220646B2 - Speech path device and interface unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a redundantly configured speech path device (switch) having a dual switch unit, and more particularly, easily changes the configuration of a line corresponding unit (line interface unit) from a single configuration to a dual configuration. It relates to a possible speech path device.
[0002]
[Prior art]
For example, as shown in FIG. 8, the communication path device having a redundant configuration includes the switch units 2a and 2b of the active system (# 1) and the standby system (# 0), and a plurality of interface units 1-i (i = 1). 2m) and the control device 5 for controlling these elements, the input / output of each interface unit 1 is connected to both the active switch unit 2a and the standby switch unit 2b. Yes.
[0003]
Each interface unit 1-i accommodates a plurality of pairs of transmission lines 30 (30-i-1 to 30-i-2n) composed of an input line and an output line, and is provided for each input / output line. Line interface units (line interface: LIF) 10-j and 11-j (j = 1 to n), and switch interfaces of the active system (# 1) and the standby system (# 0) connected to these line interface units The active switch interface 20a is connected to the i-th input / output port of the active switch unit 2a by the input / output signal line 20A-i, and the standby switch interface 20b is connected to the input / output signal line 20B. -I 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 signals (packets) input from the interface units 1-1 to 1-2m to the input ports are output to any output port. Exchange operation.
[0004]
FIG. 8 shows a redundantly configured speech path device in which not only the switch unit but also the line corresponding unit is duplicated. In each interface unit 1-i, the line corresponding units 10-1 to 10-n of the first group are provided. The working system and the second group of line corresponding units 11-1 to 11-n are backup systems. Each of the line corresponding units includes first and second input / output signal lines, and the active switch interface 20a includes active line corresponding units 10-1 to 10-n and a standby line corresponding unit 11-1. .About.11-n first input / output signal lines are accommodated.
[0005]
The active switch interface 20a normally selects input signals from the active line corresponding units 10-1 to 10-n by the confounding function, multiplexes these plural input signals, and uses the active switch 2a. Are supplied to the i-th input port, and the multiplexed signal output from the i-th output port of the active switch 2a is separated and distributed to each line corresponding unit in the unit.
On the other hand, the protection system switch interface 20b accommodates the second input / output signal lines of the working system and protection system line corresponding parts, and normally the input signals from the working system line corresponding parts 10-1 to 10-n. Are multiplexed and supplied to the i-th input port of the standby system switch 2b, and the multiplexed signal output from the i-th output port of the standby system switch 2b is separated and distributed to each line corresponding unit in the unit.
[0006]
As described above, the output signals of both the active switch interface 20a and the standby switch interface 20b are sent to the active and standby line corresponding units 10-1 to 10-n and 11-1 to 11-n. Although normally supplied, the input signal from the active switch interface 20a is selected by the confounding function controlled by the control signal C from the control device 5, and is output to the transmission line 30 associated therewith. .
[0007]
In the communication path apparatus configured to interlace the above-described active and standby line corresponding units 10-j and 11-j (j = 1 to n) by the switch interfaces 20a and 20b, as the number of accommodated lines increases. Thus, there is a problem that the wiring between the line corresponding unit and the switch interface (selector function unit) becomes complicated. In this regard, for example, in Japanese Patent Laid-Open No. 7-7753, a printed circuit board on which a line-corresponding part is mounted and a printed circuit board that forms an entangled part corresponding to the switch interface are formed on a back wiring board (BWB). Proposals have been made to reduce the amount of hardware by connecting with printed wiring.
[0008]
[Problems to be solved by the invention]
However, in the speech path device, in addition to the redundant configuration shown in FIG. 8, there is a demand for a redundant configuration in which the line corresponding unit is single and only the switch unit is dual.
If the back wiring board (BWB) used in the speech path device shown in FIG. 8 is utilized to realize a redundant configuration in which the line corresponding unit is single, for example, as shown in FIG. From 1-i, the package substrates of the second group of line corresponding units 11-1 to 11-n that have been used as standby systems are removed, and only the working line corresponding units 10-1 to 10-n are left. Structure.
In this case, the number of interface units 1 connected to the switches 2a and 2b is 2m, as in FIG. 8, and the BWB size is reduced despite the fact that the number of package substrates in the line-corresponding portion in each interface unit is halved. Since this is unchanged, a structure with a very low mounting density is left, leaving a large space in each interface unit.
[0009]
SUMMARY OF THE INVENTION An object of the present invention is to provide a speech path apparatus that can be realized with a high mounting density in both a redundant configuration in which both the line corresponding unit and the switch unit are duplicated and a redundant configuration in which only the switch unit is duplicated. It is in.
Another object of the present invention is to use the same BWB and to achieve both a redundant configuration in which the line corresponding unit and the switch unit are duplicated and a redundant configuration in which only the switch unit is duplicated at a high mounting density. It is an object of the present invention to provide a feasible speech path device and an interface unit.
[0010]
[Means for Solving the Invention]
In order to achieve the above object, the present invention provides a communication path device comprising a plurality of interface units each accommodating a plurality of input / output lines, and a working system and a standby system switch unit connected to each interface unit. ,
Each interface unit is connected to an input / output line, and a plurality of line corresponding parts forming the first and second groups and an input / output signal of each of the plurality of line corresponding parts are multiplexed to each of the active system or the standby system. Back wiring board having at least one pair of active and standby switch interfaces coupled to the switch unit and wiring for connecting each line corresponding unit to the active and standby switch interfaces (BWB)
When the BWB uses the first group's line corresponding unit as the active system and the second group's line corresponding unit as the standby system, each of the first and second group of line corresponding units is used as a pair of active systems. , When connecting to both of the standby switch interfaces and using all of the line corresponding parts of the first and second groups as the active system, each line corresponding part of the first group is connected to the pair of active systems, A plurality of sets of connection wiring patterns according to the configuration of the redundant configuration are connected so as to connect to the standby switch interface and to connect each line-corresponding portion of the second group to the other pair of active and standby switch interfaces. In advance, each line corresponding unit of the second group validates a part of the connection wiring on the BWB coupled with the line corresponding unit and invalidates the rest according to the usage pattern. Output selection Characterized in that it comprises a stage.
[0011]
More specifically, in the speech path device of the present invention, each of the switch interfaces has a working input port and a standby input port, and a plurality of signals that selectively output an input signal from any one of the input ports. Selectors, a signal multiplexing circuit for multiplexing the output signals of the selectors and inputting the multiplexed signals to the active or standby switch unit, and multiplexed signals output from the active or standby switch unit And a multiplexed signal separation circuit for selectively distributing to a plurality of branch circuits each having an active system output port and a standby system output port,
The connection wiring pattern of the BWB connects each line-corresponding part of the first group to the working input / output port of either of the pair of active and standby switch interfaces, and each line-corresponding part of the second group It is connected to any one of the above-mentioned standby system input / output ports of the active system and the standby system switch interface and to any of the other pair of active system input / output ports of the active system and the standby system switch interface. To do.
[0012]
In the speech path device of the present invention, each of the switch interfaces has n (n = integer) selectors and n distribution circuits,
Each line-corresponding section of the first group branches the output signal of the input line interface circuit for processing the received signal from the input line to the active line output port and the standby line output port, and outputs it. A branch circuit that performs switching, an input selection circuit that selectively outputs a switch interface output signal received at either the active system input port or the standby system input port, and an output signal from the input selection circuit that is processed and output to an output line An output line interface circuit for outputting,
Each line corresponding unit of the second group has an input line interface circuit for processing a received signal from the input line, and an output signal of the input line interface circuit of the first and second output ports serving as an active output port. An output selection circuit that selectively outputs to any one of the third and fourth output ports serving as a standby system output port, a first and second input port serving as a working system input port, and a standby system input port; An input selection circuit that selectively takes in the switch interface output signal received at any of the third and fourth input ports, and an output line for processing the output signal from the input selection circuit and outputting it to the output line An interface circuit,
The BWB is the working system of the j-th line corresponding unit (j = 1 to n) of the first group, the working system of the standby system, and the working system of the j-th selector of the paired working system and the protection system switch interface. Connect to the input port, connect the active and standby input ports of the line corresponding section to the active output port of the j-th branch circuit of the pair of active and standby switch interfaces, respectively, and the second group The first and third output ports of the j-th line corresponding unit are respectively connected to the spare system input ports of the j-th selector of the pair of active and standby switch interfaces, and the first and third of the line corresponding unit are connected. The input ports are respectively connected to the standby output ports of the j-th branch circuit of the pair of active and standby switch interfaces, and the second and fourth output ports of the line corresponding unit are respectively connected to the other ports. Connect to the working input port of the j-th selector of the paired working system and protection switch interface, and connect the second and fourth input ports of the line corresponding unit to the other pair of working system and protection system switch interfaces, respectively. The connection wiring pattern is provided so as to be connected to a working output port of the j-th branch circuit.
[0013]
In order to reduce the cost of the speech path device by sharing the parts used, the first group to the fourth output port, the first to fourth, as the second group, as the line corresponding unit of the first group. The application with the input port 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 connected to the j-th selector of the pair of active and standby switch interfaces, respectively. Connect wiring to the working system input port, and connect the first and third input ports of the line corresponding section to the working system output port of the j-branch circuit of the pair of working system and standby system switch interface, respectively. A pattern may be formed.
[0014]
According to the present invention, since the BWB of each interface unit is provided with a plurality of sets of connection patterns corresponding to the form of the redundant configuration in advance, when the line corresponding unit is duplicated, one of the active system and the standby system When using a pair of switch interfaces and using a single line interface unit, add a pair of switch interfaces to the active and standby systems so that all of the line interface units that can be accommodated in each interface unit A redundantly configured speech path device can be constructed in an effective use.
Further, according to the present invention, when the line corresponding unit is made single, each interface unit is provided with two pairs of switch interfaces in the active system and the standby system. Therefore, the number of interface units is reduced by half compared to the case where the line corresponding unit is doubled, and the communication path device can be reduced in size.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an embodiment of a redundantly constructed speech path device according to the present invention in which both a line corresponding unit and a switch unit are duplicated.
The communication path device shown here is similar to the conventional device shown in FIG. 8 in that the switch units 2a and 2b of the active system (# 1) and the standby system (# 0) each having 2m input / output ports are provided. The number of interface units 1-i (i = 1 to 2m) equal to the number of input / output ports 2m of the switch unit, and the control device 5 for controlling these elements. It is configured to be connected to both the active system switch unit 2a and the standby system switch unit 2b via the input / output signal lines 20A-i and 20B-i.
[0016]
Each of the interface units 1-i includes a first group of line corresponding units 10-j (j = 1 to n) serving as an active system and a second group of line corresponding units 11-j (j = 1) serving as a standby system. N), the active system (# 1) switch interface 20a, the standby system (# 0) switch interface 20b, and the BWB 40 having a printed wiring for connecting each of the line corresponding parts to the switch interfaces 20a and 20b, Each of the line corresponding units and a processor 50 for controlling the switch interface in response to a command C from the control device 5, and the active switch interface 20a is connected to the active switch unit by input / output signal lines 20A-i. The spare switch interface 20b is connected to the i-th input / output port of 2a by the input / output signal line 20B-i. It is connected to the i input ports of the switch unit 2b.
[0017]
One of the features of the present invention is that the BWB 40 includes a first wiring pattern required when the line corresponding part is doubled and a second wiring pattern required when the line corresponding part is singled. If it is desired to create a single line correspondence unit in advance, as shown in FIG. 2, 2n is added by adding a working (# 1) switch interface 21a and a standby (# 0) switch interface 21b. This is because all the line corresponding units 10-1 to 10-n and 11-1 to 11-n can be used as active systems.
[0018]
In the case where the line corresponding unit is made single, 20a and 20b become the working and standby switch interfaces for the line corresponding unit groups 10-1 to 10-n, and 21a and 21b become the line corresponding unit group 11-1. It becomes the working system and backup system switch interface for .about.11-n. In this case, since each interface unit 1-i includes two series of input / output signal lines 20A-i and 21A-i and 20B-i and 21B-i in the active system and the standby system, 2m A total of m interface units, which are smaller than the apparatus configuration of FIG. 1, are connected to the active and standby switches 2a and 2b having the input / output ports.
[0019]
Another feature of the present invention is that, in order to selectively use the first and second wiring patterns formed in the BWB 40, each line corresponding unit 10, 11 is connected to a switch interface according to the redundant configuration. An input / output selection circuit for properly using the input / output signal lines between them is provided.
[0020]
FIG. 3 shows a configuration of the second group of line corresponding units 11 having two usage modes as a standby system in a duplex configuration and an active system in a duplex configuration.
The line corresponding unit 11 includes an input line interface circuit 12 that processes a received signal from the input line 30-IN, and first and second output selection circuits (selectors) to which an output signal from the input line interface circuit 12 is supplied. ) 13a, 13b, first and second input selection circuits 14a, 14b for selecting one of the two input signals, respectively, and a third input for selecting one of the outputs of these input selection circuits It comprises a selection circuit 15 and an output line interface circuit 16 that processes the output signal of the third input selection circuit 15 and transmits it to the output line 30-OUT.
[0021]
The first output selection circuit 13a is for selecting a signal supply line to the active switch interface (20a or 21a), and the signal supplied from the input line interface circuit 12 is used as the first output port S1. And selectively output to any one of the second output ports S2. The second output selection circuit 13b is for selecting a signal supply line to the backup switch interface (20b or 21b), and outputs the output signal from the input line interface circuit 12 to the third output. The signal is selectively output to either the port S3 or the fourth output port S4.
On the other hand, the first input selection circuit 14a selects either the first input port S1 ′ or the second input port S2 ′ connected to the active switch interface, and the second input selection circuit 14b One of the third input port S3 ′ and the fourth input port S4 ′ connected to the standby switch interface is selected.
[0022]
These selection circuits 13 a, 13 b, 14 a, 14 b, 15 are connected to the one output port and the input port by a select signal generated by the processor 50 or an unillustrated construction mechanism and given through the signal line 51. Select operation is fixed.
For example, when the output selection circuits 13a and 13b are selecting the first and third output ports S1 and S3, respectively, the input selection circuits 14a and 14b are also the first and third input ports S1 ′ and S3, respectively. Select '. On the other hand, when the output selection circuits 13a and 13b select the second and fourth output ports S2 and S4, respectively, the input selection circuits 14a and 14b also have the second and fourth input ports, respectively. Select S2 'and S4'. The selection circuit 15 normally selects an output signal from the active switch interface output from the first input selection circuit 14 a and supplies it to the output line interface circuit 15.
[0023]
The line correspondence unit 10 of the first group is connected to the pair of switch interfaces 20a and 20b of the active system and the standby system regardless of the form of the redundant configuration, and is connected to the added switch interfaces 21a and 21b. Absent. Accordingly, the line correspondence unit 10 of the first group deletes the output selection circuits 13a and 13b and the input selection circuits 14a and 14b from the configuration of FIG. 3, and outputs the input line interface circuit 12 to the two output ports S1 and S3. Any structure may be used as long as it is branched and one of the input signals from the two input ports S 1 ′ and S 3 ′ is selected by the selection circuit 15 and supplied to the output line interface 16. However, in the following embodiment, in order to share components, the same configuration as that of the second group line correspondence unit 11 shown in FIG. 3 is applied to the first group line correspondence unit 10.
[0024]
FIG. 4 shows the configuration of the switch interface 20 (20a, 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, and these input selection circuits in parallel. A signal multiplexing circuit 22 that multiplexes the input signals supplied in time and outputs them to the signal line 200 in time series, and the multiplexed signals supplied in time series from the signal line 200 ′ are separated into a plurality of branches. A multiplexed signal demultiplexing circuit 23 that sequentially distributes the circuits 24-1 to 24-n.
[0025]
Each of the branch circuits 24-i (i = 1 to n) sends the output signal supplied from the separation circuit 23 to both the first and second output ports P1 ′ and P2 ′. Each input selection circuit 21-i fixes either one of the input ports P1 and P2 according to a select signal generated by the processor 50 or an unillustrated mechanism and supplied via the signal line 52. To choose.
In FIG. 1, the output signal line 200 of the multiplexing circuit and the input signal line 200 ′ of the separation circuit are collectively shown as an input / output signal line 20A or 20B. In addition, the signal lines connected to the first input / output ports P1 and P1 ′ and the signal lines connected to the second input / output ports P2 and P2 ′ are respectively shown as one input / output signal line. .
[0026]
FIG. 5 shows an effective wiring pattern of the BWB 40 in the redundant configuration of FIG. 1 in which both the line corresponding part and the switch part are duplicated.
The BWB 40 includes a total of 2n line corresponding units 10-1 to 10-n and 11-1 to 11-n in the first and second groups, as shown by solid lines and broken lines. A plurality of sets of connection wiring patterns are formed in advance so that they can be connected to a pair or two pairs of switch interfaces.
[0027]
Here, in order to simplify the drawing, only the connection wiring between the ports S1 to S4 and the ports P1 and P2 from the line corresponding units 10 and 11 to the switch interfaces 20a and 20b is shown. In each of the line corresponding units 10 and 11, as described with reference to FIG. 3, the output selection circuits 13a and 13b and the input selection circuits 14a and 14b perform a selection operation in pairs. The connection wiring between the ports S1 ′ to S4 ′ and the ports P1 ′ and P2 ′ toward the input selection circuits 14a and 14b of the line corresponding units 10 and 11 is also connected between the output ports S1 to S4 and the ports P1 and P2. It is formed on the BWB 40 with the same connection relationship as the wiring between them.
[0028]
When the line correspondence units are duplicated, the first group line correspondence units 10-1 to 10-n serving as the active system and the second group line correspondence units 11-1 to 11-n serving as the standby system are selected. A select signal is applied so that the circuits 13a and 14a select the first input / output ports S1 and S1 ′, and the selection circuits 13b and 14b select the third input / output ports S3 and 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-n, 11-1 11-n and the switch interfaces 20a and 20b are connected by a wiring pattern indicated by a solid line.
[0029]
That is, in the working switch interface 20a, the first output port S1 of the working line corresponding unit 10-j (j = 1 to n) is connected to the first input port P1 of the input selection circuit 21-j (j = 1 to n). And the signal of the first output port S1 of the protection line corresponding unit 11-j (j = 1 to n) is supplied to the second input port P2. Among these, the input signal from the first input port P1 is selected, supplied to the multiplexing circuit 22, and the signal multiplexed by the multiplexing circuit 22 is used through the input / output signal line 20A-i. The signal is input to the i-th input port of the system switch unit 2a.
[0030]
The signal exchanged by the active switch unit 2a is input from any output port to the active switch interface 20a of the interface unit 1-k via the input / output signal line 20A-k. By the separation circuit 23 shown, distribution is made to the branch circuits 24-1 to 24-n. Each of the branch circuits 24-1 to 24-n outputs a switch output signal in parallel to the first and second output ports P1 ′ and 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 the standby system. The signal is supplied to the first input port S1 ′ of the line corresponding unit 11-j. Therefore, the signal lines from the active switch interface 20a to the active and standby line corresponding parts have the same wiring pattern as the signal lines indicated by solid lines in the BWB 40 of FIG.
[0031]
On the other hand, in the standby switch interface 20b, the third output port of the working line corresponding unit 10-j (j = 1 to n) is connected to the first input port P1 of each input selection circuit 21-j (j = 1 to n). The signal from S3 is supplied, and the signal from the third output port S3 of the protection line corresponding unit 11-j (j = 1 to n) is supplied to the second input port P2, and of these, the first input port P1 The input signal from the working line corresponding unit 10-j supplied to is selected and input to the multiplexing circuit 22. The signal output from the multiplexing circuit 22 is input to the i-th input port of the standby system switch unit 2b via the input / output signal line 20B-i, and the exchanged signal is one of the interface units 1-k. To the standby switch interface 20b.
As in the active switch interface 20a, the standby switch interface 20b processes the output signal from the standby switch unit 2b and outputs the first and second outputs of the branch circuits 24-j (j = 1 to n). Output to 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 standby line corresponding unit 11-j that have a corresponding relationship.
[0032]
As a result, in each of the working and protection line corresponding units, the output signal of the working system switch interface 20a is input to the first input port S1 ′, and the output signal of the protection system switch interface 20b is input to the third input port S3 ′. Is entered. 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.
[0033]
When a failure occurs in the active switch 2a, the control device 5 gives a command to the processor 50 of each interface unit, and the selection circuit 15 of each of the line corresponding units 10 and 11 via the signal line 51 from the processor 50. By supplying a switching signal to the output line interface circuit 16, the output signal of the standby system switch 20b output from the input selection circuit 14b may be supplied to the output line interface circuit 16.
[0034]
When a failure occurs in any of the active input / output lines 30-i-j, the switch interfaces 20 a and 20 b are connected via the signal line 52 in the interface unit 1-i that accommodates the failed line. By supplying a switching signal to the selection circuit 21-j, the input signal of the protection line corresponding unit 11-j input from the second input port is supplied to the switch units 2a and 2b of the working system and the protection system. What should I do? In this case, in the interface unit 1-i that accommodates the faulty line, by switching the input in all the selection circuits 21-j (j = 1 to n) of the switch interfaces 20a and 20b, the active unit is used in units of interface units. It is also possible to switch from the system I / O line to the standby I / O line.
[0035]
FIG. 6 shows an effective wiring pattern of the BWB 40 in the redundant configuration of FIG. 2 in which the line correspondence unit is single and only the switch unit is double.
In the present invention, when only the switch unit is duplicated, two pairs of switch interfaces 20a and 20b and 21a and 21b are used as the active and standby switch interfaces. Of the 2n line corresponding units accommodated in the interface unit, the first group line corresponding units 10-1 to 10-n have the same wiring pattern as that of FIG. The line correspondence units 11-1 to 11-n of the second group connected to the switch interfaces 20a and 20b are connected to the second active system and the standby system switch interface 21a by the wiring pattern shown by the broken line in FIG. Connect to 21b.
[0036]
In this case, in the second group of line corresponding units 11-1 to 11-n, the output selection circuits 13a and 13b shown in FIG. 3 select the second and fourth output ports S2 and S4, respectively, and input selection is performed. A select signal is given so that the circuits 14a and 14b select the second and fourth input ports S2 ′ and S4 ′, respectively. As a result, in the second group line corresponding units 11-1 to 11-n, the wirings connected to the first and third input / output ports S1, S1 ′, S3, and S3 ′ become invalid. 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 active switch interface 20a, and the first standby switch interface 20b is connected to the first switch I / O ports S1 and S1 ′. Only the third input / output ports S3 and S3 ′ of the one group line corresponding units 10-1 to 10-n are connected.
[0037]
As shown by the solid line in FIG. 6, the second input / output ports S2 and S2 ′ of the second group line corresponding units 11-1 to 11-n are connected to the newly added second active switch interface 21a. The second standby switch interface 21b is connected to the fourth input / output ports S4 and S4 ′ of the second group line corresponding units 11-1 to 11-n.
With the above-described configuration, two series of active input / output signal lines 20A-i and 21A-i each having a signal capacity of n lines are drawn from the switch interfaces 20a and 21a, and n lines are respectively connected from the switch interfaces 20b and 21b. Thus, it is possible to draw out two series standby system input / output signal lines 20B-i and 21B-i having the signal capacity.
[0038]
When commercializing the speech path device shown in FIGS. 1 and 2, for example, the printed circuit board constituting the switch units 2a and 2b and the printed circuit board constituting the control device 5 are combined into one unit (switch unit). For each interface unit 1-i, a printed circuit board for the line corresponding units 10-1 to 10-n and 11-1 to 11-n and a printed circuit board for the switch interfaces 20 and 21 are unitized in a bookshelf structure, and the switch The unit and each interface unit are connected by input / output signal lines 20A-i, 20B-i, 21A-i, 21B-i (i = 1 to m or 1 to 2m) and a control signal line (bus) C.
[0039]
FIG. 7 shows an example of an implementation of the interface unit 1-i.
When a redundant configuration in which both the line corresponding unit and the switch unit are duplicated is adopted, a plurality of printed circuit boards 10-1 to 10-n and 11-1 to 11-n for the line corresponding unit are provided for the BWB 40. The printed circuit boards 20a and 20b for the switch interface and the printed circuit board 50 for the processor are mounted on the bookshelf. 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.
[0040]
If you want to adopt a redundant configuration with a single line interface, add a second printed circuit board 21a for the current system switch interface and a printed circuit board 21b for the second system switch interface as shown in the figure. The cable wiring of the input / output signal line between each interface unit and the switch unit may be changed as shown in FIG. If all the interface units have a single line-corresponding portion, the number of interface units can be halved to m, so that the size of the communication path device can be greatly reduced.
[0041]
As described above, according to the present invention, in the communication path device having a redundant configuration in the switch unit, the line corresponding unit is easily changed from the duplex configuration to the single configuration for each interface unit, or vice versa. it can. In the embodiment, an example (FIG. 1) in which all the interface units have a line-corresponding unit in a duplex configuration (FIG. 1) and an example in which all the interface units have a line-corresponding unit in a single-layer configuration (FIG. 2) are shown. A part of the plurality of interface units may have a duplex configuration corresponding to a line, and the rest may have a duplex configuration corresponding to a line.
[0042]
【The invention's effect】
As apparent from the above embodiments, according to the present invention, it is easy to change the redundancy configuration of the line corresponding unit, and each interface unit can be used regardless of whether the line corresponding unit is doubled or singled. Can be configured with a high mounting density, which is effective for miniaturization of a speech path 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 device 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 an embodiment of a redundantly configured speech path device according to the present invention in which a switch unit is duplexed and only a line corresponding unit is duplexed.
3 is a diagram showing a configuration of a line corresponding unit 11 (11-1 to 11-n) in FIGS. 1 and 2. FIG.
4 is a diagram showing a configuration of switch interfaces 20 (20a, 20b) and 21 (21a, 21b) in FIGS. 1 and 2. FIG.
FIG. 5 is a diagram showing a connection relationship between a line correspondence unit and a switch interface by the BWB 40 when the redundant configuration of FIG. 1 is realized.
6 is a diagram showing a connection relationship between a line correspondence 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 an implementation form of the interface unit 1 in the present invention.
FIG. 8 is a block diagram showing a configuration of a conventional speech path apparatus in which both a switch unit and a line corresponding unit are duplicated.
FIG. 9 is a block diagram showing a configuration of a speech path device according to the prior art in which a switch unit is duplexed and only a line corresponding unit is duplexed.
[Explanation of symbols]
1 ... interface unit, 2a ... active switch unit,
2b: standby switch unit, 5 ... control device, 10, 11 ... line correspondence unit,
20, 21 ... switch interface, 40 ... BWB, 50 ... processor.

Claims (5)

In a speech path device 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,
Each of the interface units 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 are multiplexed to each of the active system or the standby system. Back-wiring in which at least a pair of switch interfaces of the active system and the standby system for coupling to the switch section of the system and wiring for connecting each line corresponding section to the switch interface of the active system and the standby system are formed A board (BWB)
In the first redundant configuration in which the BWB uses the first group of line corresponding units as an active system and the second group of line corresponding units as a standby system, the first and second group of line corresponding units are In the second redundant configuration in which all of the first and second groups of line corresponding parts are used as the active system, connected to both a pair of active and standby system switch interfaces, each line of the first group A redundant configuration in which the corresponding unit is connected to the pair of active and standby switch interfaces, and each line corresponding unit of the second group is connected to the other pair of active and standby switch interfaces. A plurality of sets of connection wiring patterns corresponding to the
When each line corresponding part of the second group is used as the standby system, the connection wiring pattern for the first redundant configuration is selected from the connection wirings on the BWB coupled to the line corresponding part. as a valid, it invalidates the rest, when used as the active system, as the enable connection wiring pattern for the second redundant, and characterized in that it comprises output selecting means for disabling the remaining Call path device to do. Each switch interface has an active input port and a standby input port, and a plurality of selectors that selectively output an input signal from any one of the input ports, and an output signal of each selector is multiplexed. The signal multiplexing circuit for input to the active or standby switch unit is separated from the multiplexed signal output from the active or standby switch unit, and the active system output port and the standby system output, respectively. And a multiplexed signal separation circuit for selectively distributing to a plurality of branch circuits having ports,
The connection wiring pattern for the first redundant configuration of the BWB connects each line corresponding part of the first group to the working system input / output port of either the pair of working system or protection system switch interface, Each line corresponding part of the second group is connected to a standby input / output port of the pair of active and standby switch interfaces , and the second redundant configuration connection wiring pattern is connected to the second group. 2. The communication path device according to claim 1, wherein each line-corresponding part of the group is connected to any one of the other pair of active and standby switch interfaces. Each of the switch interfaces has n (n = integer) selectors and n distribution circuits,
Each line corresponding unit of the first group branches an input line interface circuit for processing a received signal from the input line, and an output signal of the input line interface circuit to a working output port and a standby output port. A branch circuit that outputs, an input selection circuit that selectively outputs a switch interface output signal received at either the active system input port or the standby system input port, and an output line that processes the output signal from the input selection circuit. An output line interface circuit for outputting to
Each line corresponding unit of the second group processes an input line interface circuit for processing a received signal from an input line, and first and second output ports that use output signals of the input line interface circuit as active output ports. , An output selection circuit that selectively outputs to any of the third and fourth output ports that serve as a standby system output port, and first and second input ports that serve as an active system input port and a standby system input port An input selection circuit that selectively takes in the switch interface output signal received at any of the third and fourth input ports, and an output for processing the output signal from the input selection circuit and outputting it to the output line A line interface circuit,
The connection wiring pattern for the first redundant configuration of the BWB is connected to the pair of working systems for the working and standby output ports of the j-line corresponding section (j = 1 to n) of the first group, respectively. The active system input port of the j-th selector of the standby system switch interface is connected to the active system input port of the j-branch circuit of the pair of active system and standby system switch interface. Connect to the working output port, and connect the first and third output ports of the j-th line corresponding section of the second group to the spare system input port of the j-selector of the pair of working and standby switch interfaces, respectively. and, first of the line interface unit connects the third input port each said pair of working system, the standby system output port of the j branch circuit of the standby system switch interface, the second redundant Connection wiring pattern for forming said second j-th line corresponding unit of the second group, the fourth respectively the output port the other pair of the working system, the active system input port of the j selectors of the standby system switch interface And the second and fourth input ports of the line corresponding unit are respectively connected to the working output port of the j-th branch circuit of the other pair of working and standby switch interfaces. Item 3. A speech path device according to Item 2. Each of the switch interfaces has n (n = integer) selectors and n distribution circuits,
Each of the first and second groups corresponding to the line corresponds to an input line interface circuit for processing a received signal from the input line, and the output signal of the input line interface circuit serves as a working output port. An output selection circuit that selectively outputs to any one of the two output ports, any of the third and fourth output ports serving as the standby output port, and the first and second input ports serving as the active system input port and the spare An input selection circuit that selectively receives a switch interface output signal received at any of the third and fourth input ports serving as a system input port, and an output signal from the input selection circuit is processed and output to an output line An output line interface circuit for
The connection wiring pattern for the first redundant configuration of the BWB has the first and third output ports of the j-th line corresponding part (j = 1 to n) of the first group as the pair of working systems, The working system is connected to the working input port of the jth selector of the standby system switch interface, and the first and third input ports of the line corresponding section are respectively used as the working system of the pair of working system and the jth branch circuit of the standby system switch interface. Connected to the output port, and the first and third output ports of the j-th line corresponding part of the second group are connected to the standby input port of the j-th selector of the pair of active and standby switch interfaces, respectively. the first of the line interface unit, the third respective input ports said pair active system, connected to the standby system output port of the j branch circuit of the standby system switch interface, connections for the second redundant The line pattern, connected to the second first j second line unit of the group, the fourth respectively the output port the other pair of the working system, the active system input port of the j selectors of the standby system switch interface, 3. The second and fourth input ports of the line corresponding unit are connected to the working output ports of the j-th branch circuit of the other pair of working and standby switch interfaces, respectively. Call path device. In an interface unit applied to a speech path device having a redundant configuration having an active system and a standby system switch unit,
A plurality of line corresponding units that are connected to the input / output lines and form the first and second groups, and input / output signals of the plurality of line corresponding units are multiplexed and coupled to the active or standby switch unit. And at least a pair of switch interfaces for the active and standby systems, and a back wiring board (BWB) on which wiring for connecting each of the line corresponding parts to the switch interfaces of the active and standby systems is formed. Become
In the first redundant configuration in which the BWB uses the first group of line corresponding units as an active system and the second group of line corresponding units as a standby system, the first and second group of line corresponding units are In the second redundant configuration in which all of the first and second groups of line corresponding parts are used as the active system, connected to both a pair of active and standby system switch interfaces, each line of the first group A redundant configuration in which the corresponding unit is connected to the pair of active and standby switch interfaces, and each line corresponding unit of the second group is connected to the other pair of active and standby switch interfaces. A plurality of sets of connection wiring patterns corresponding to the
When each line corresponding part of the second group is used as the standby system, the connection wiring pattern for the first redundant configuration is selected from the connection wirings on the BWB coupled to the line corresponding part. It is characterized by comprising input / output selection means for validating the remaining redundant and invalidating the connection wiring pattern for the second redundant configuration and invalidating the remaining when used as the working system. Interface unit.

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