JPH022800A - Speech path networking system - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to the configuration of a channel network system for a large-scale exchange that provides various telephone and ISDN services.

(Prior Art) FIG. 2 shows an example of the configuration of a conventional large-scale switch network system. In Figure 2, 11-1 and 12
-1 is a time switch, which is connected to the input digital highway 13-1 and the output digital highway 14-1, respectively.
and constitutes a communication path switch 1O-1. n communication path switches are configured with a similar configuration, and time switches 11-1 to 11-n in each communication path switch 10-1 to n
and time switches 12-1 to 12-n are connected by a distribution switch 15.

(Problem to be Solved by the Invention) In the configuration shown in Figure 2, all the lines between the input highway and the output highway are exchanged and connected via the distribution switch, so a failure in the distribution switch will immediately cause the system to go down and the service to be serviced. There is a reliability drawback in that it causes interruptions. Another drawback is that the link blocking rate of the channel network is restricted by the link blocking rate of the distribution switch.

(Means for Solving the Problems) The present invention has been devised in view of the drawbacks of the prior art described above, and provides a communication path network system configuration with high reliability and a low link block rate.

The features of the present invention for achieving the above object include an input highway distribution circuit, an output highway selection circuit, a time switch 1 connecting between the distribution circuit and the selection circuit, and a time switch 1 disposed after the distribution circuit. A plurality of communication path switches including a time switch 2 and a time switch 3 disposed in front of the selection circuit, and a distribution switch that connects the time switch 2 and the time switch 3 in each of the communication path switches. The line between the input highway and the output highway accommodated in the traffic path switch is exchange-connected by the time switch 1 in the traffic path switch, and the line between the input highway and the output highway that straddles the traffic path switch is The line includes the time switch 2 in the traffic path switch that accommodates the input highway, the time switch 3 in the traffic path switch that accommodates the output highway, and the time switch 2 and the time switch 3.
The purpose is to perform an exchange connection using the distribution switch that connects the .

(Example) Hereinafter, an example of the present invention will be described in detail using FIG. 1. In Figure 1, 12-1.13-1 and 14-1
is a time switch. Input digital highway 16
-1 is distributed to time switches 12-1 and 13-1 by distribution circuit 11-1. In addition, the time switch 12-
Either the output of 1 or 014-1 is selected by the selection circuit 15.
-1 selected output digital highway 17-1
is output to. Here, time switch 12-1.13-
1 and 14-1, distribution circuit 11-1 and selection circuit 1
5-1 constitutes a communication path switch 10-1. n communication path switches are configured in a similar manner, and each communication path switch 10-! ~n time switches 13-1~n
and time switches 14-1 to 14-n are connected by a distribution switch 18.

In the configuration shown in this figure, exchange connections can be made using the communication path switch itself. That is, the line between the input highway and the output highway accommodated in the communication path switch is connected to the time switch 12-! in the communication path switch. -n are connected in exchange. Only for lines between input highways and output highways that span two different communication path switches, the time switches 13-1 to 13-n in the communication path switch that accommodates the input highway and the output highway are accommodated via the distribution switch. The switching connection is made by time switches 14-1 to 14-n in the communication path switch.

Therefore, even if a distribution switch fails, the communication path switch itself can be replaced and connected, and the reliability of the entire system can be improved. For example, in a subscriber switching hierarchy, since many calls originate and arrive within a subscriber area, if a call path switch is installed in such a subscriber area m, the effect of a distribution switch failure will be further reduced. Furthermore, even in the relay switching hierarchy, if the lines accommodated in each communication path switch are equalized for each route, it becomes possible to substantially ignore the effects of distribution switch failures. That is, with the configuration shown in this figure, it is possible to easily configure a large-scale communication path network with little interruption of service and high reliability.

Furthermore, in the configuration of the present invention, since the exchange connection of the communication path switch itself is performed in a non-blocking manner, the link block rate of the entire communication path network can be reduced to that extent. In particular, as in the example mentioned above, in the subscriber exchange hierarchy, the call path switch is a unit of subscription area, and in the transit exchange hierarchy, if the line accommodation to each call path switch is equalized by route, the calls connected by the distribution switch can be Since this decreases, the link block rate can be further lowered.

(Effects of the Invention) As explained above, according to the configuration of the present invention, multiple call path switches that can be independently exchanged and connected are connected by a distribution switch, so reliability is high and link blocking rate is low. Large-scale channel networks are easily configurable.

[Brief explanation of the drawing]

FIG. 1 shows an example of a configuration of a communication path network system according to the present invention, and FIG. 2 shows an example of a conventional configuration. 10-1; communication path switch; 11-1; distribution circuit. +2-1; Time switch 1.1:l-1; Time switch 2゜14-1; Time switch 3.15-1; Selection circuit. 18: Distribution switch. + plan qf49 'it 715η iγ・'' Figure 1

Claims (1)

[Claims] A distribution circuit connected to an input digital highway, a selection circuit connected to an output digital highway, a time switch 1 connecting between the distribution circuit and the selection circuit, and a time switch 1 disposed after the distribution circuit. a plurality of communication path switches including a time switch 2 and a time switch 3 disposed in front of the selection circuit; and a distribution switch that connects the time switch 2 and the time switch 3 in each communication path switch. The line between the input highway and the output highway accommodated in the traffic path switch is exchange-connected by the time switch 1 in the traffic path switch, and the line between the input highway and the output highway accommodated in the traffic path switch is exchanged and connected by the time switch 1 in the traffic path switch. Line connections between the time switch 2 in the communication path switch accommodating the input highway, the time switch 3 in the communication path switch accommodating the output highway, and the distribution connecting the time switch 2 and the time switch 3 A communication path network system characterized by exchange connections using switches.