JPH0282894A - Diagnostic circuit - Google Patents

Abstract

PURPOSE:To diagnose a standby port by increasing one output port of a 1st stage switch in a switch section of a cross connector, increasing one input port of a post-stage switch and further increasing one middle-stage switch. CONSTITUTION:The 1st stage and the post-stage switches 7, 9 of switch sections 3, 4 are constituted respectively by 17X32 switches and 32X17 switches and a middle stage switch 8 is constituted by 32X32 switches. The number of switches of the 1st, post and middle stages is provided by 32 switches each to diagnose the redundant part of line interface sections 1, 2 and 5, 6. Thus, the 32nd switch of the middle stage switch 8 of the switch section 3 is not in use and nonblocking cross connection is attained. Thus, even if working ports IN1-512 are idle while a standby port is in operation, the ports in idle state are diagnosed through the 32nd middle stage switch 8.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a cross-connect device that can connect any input port to any output port, and relates to a redundant section of a line interface section of a cross-connect device with special button redundancy. This relates to the diagnostic circuit (preliminary part).

[Conventional technology]

Conventionally, this type of diagnostic circuit has one circuit as shown in FIG.
Line interface sections 1, 2 and 5, 6 have a redundant configuration of :M (M=16), and a first-stage switch 7, a middle-stage switch 8, and a second-stage switch 903 have a redundant configuration of s :N (N=1). Switch parts 3 and 4 composed of switches
In a cross-connect device composed of 4, and outputs a diagnostic signal to the diagnostic output capacitor (19) of the output line interface elements 5, 6.

It is used for diagnosis.

Here, the line interface section 1.2 on the ingress side includes an interface element (8IE) 10 for a standby boat,
It consists of a work interface element (II) 12, a protection switch 14 for protecting the line interface section, and a diagnostic switch 16, and has 16 working input ports as its input ports. , IN497-512) and a diagnostic input board 18. Similarly to the incoming line interface unit, the outgoing line interface unit 5.6 also includes a standby port interface element (8).
IE) 11 and work interface element (Ig)
13, a protection switch 15 for protecting the line interface section, and a diagnostic switch 17, and 16 working output ports 0υT (OUT1 to 16, 0UT4) as output ports.
97 to 512) and a diagnostic output port 19, respectively.

Further, in the switch section 3.4, the first and second stage switches 1 and 9 are each 17X31 switches.

There are 32 of them, each consisting of 31x17 switches. The middle switch 8 consists of 31 32×32 switches. In addition, the input side and output side line interface sections 1.2, 5, and 6 are both 32 pieces, and the first and third
The second one is illustrated.

[Problem to be solved by the invention]

Switch section 3.4 of the above-mentioned conventional cross-connect device
In this case, the protection switch 14 for redundancy of the line interface section is simply used in combination with the first stage switch 7.
In order to realize a non-blocking switch including the input port of the first stage switch connected to the interface element for the standby boat in the switch section, the first stage switch 7 must be a 17x33 switch, and the second stage switch 9 must be a 33x17 switch. Then, middle switch 8
33 Fi32x32 switches are required. However, since the conventional circuit is configured with a smaller switch scale, working ports IN1-5122)? 1 if used! When authenticating a path using a standby port, it is blocked at the switch unit and the standby port cannot be diagnosed.

[Means to solve the problem]

In order to solve these problems, the diagnostic circuit of the present invention includes a line interface section with a 1:M (M is a natural number) redundant configuration and a switch section with a 1:N (N is a natural number) redundant configuration. It has a redundant configuration in which a protection switch for protection on the line interface side is used in conjunction with the switch in the switch section, and the switch section is the first stage.

In a cross-connect device that is composed of three-stage switches, a middle stage and a rear stage, and can connect any input port to any output port, the first stage and rear stage switches of the switch section are each 17x32 switches.

32x17 switch, and the middle switch is 32
It is intended that the redundant portion of the line interface section be diagnosed using X32 switches, and the number of first-stage, middle-stage, and second-stage switches is 32 each.

[Effect]

Therefore, according to the present invention, in the switch section of the cross-connect device, the number of output ports of the first-stage switch is increased by one to 17X32. Increase the input port of the rear stage switch by one to 32X17, and add one 32X32 middle stage switch.
By increasing the number of switches to 32, it is possible to diagnose the standby boat using the 32nd intermediate switch even when all of the working boats are used.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram of a cross-connect device according to an embodiment of the present invention, in which a case of 512 ports is shown. This embodiment is different from the conventional example shown in FIG. If the number of first stage, middle stage and rear switches is 32 each, the line interface section 1,
The redundant parts (spare parts) of 2, 5, and 6 are diagnosed. In addition, in the figures, the same reference numerals indicate the same or corresponding parts.

According to the above embodiment, the working input and output port I
N1~512,0UT1~512 are all used,
Even when a path is set in switch unit 3,
Non-blocking or loss connection is possible without using the 32nd switch of the middle switch 8 of the switch section 3. Therefore, the input side standby port and the output side standby port can be connected through the 32nd middle stage switch 8. Depending on the amount,
The signal input from the diagnostic input port 18 is outputted from the input standby port to any output standby port through the input diagnostic switch 16, and then output to any output standby port through the input diagnostic switch 16.
can be output to the output port 19 for diagnosis. In addition, even if the protection switch 14 operates and the standby port is in use (working ports) IN1-512 are empty, the 32nd middle switch 8
Through this, it is possible to diagnose an empty boat.

〔Effect of the invention〕

As explained above, the present invention provides a first stage switch and a second stage switch of a switch section of a cross-connect device, each having a size of 17x32.
The standby port of the line interface section can be diagnosed by configuring the switch, 32x17 switch, and the middle stage switch from 32x32 switch, and providing 32 each of the first stage, middle stage, and second stage switches. There is an effect. Also,
In order to diagnose the standby port, there is a method to configure the switch part to be a non-blocking configuration including the standby port part, but in this case, the first stage switch is 17
X33 switch, rear switch is 33X17 switch,
The middle stage switches each require 33 32x32 switches, whereas the configuration of the present invention has the effect of requiring fewer switch elements.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a conventional block diagram of the company. 1.2, 5.6-〇...Line interface section, 3.4
...Switch section, 7...First stage switch, 8...
No./Middle stage switch, 9... Rear stage switch, 10.1
1 ・Temple...Standby Ho) interface element,
12, 13...work interface element, 14
．． No. 15...Protection switch, 16, 17...
・e11 Diagnostic switch, 18...Diagnostic input port, 19...ψ/Diagnostic output port.

Claims (1)

[Claims] It is composed of a line interface section with a redundant configuration of 1:M (M is a natural number) and a switch section with a redundant configuration of 1:N (N is a natural number), and the protection switch for protecting the line interface section side is connected to the switch. In a cross-connect device that has a redundant configuration for use in combination with a switch in the first stage of the switch part, the switch part is composed of three-stage switches of first stage, middle stage, and second stage, and can connect any input port to any output port, the first stage of the switch part Diagnosis of the redundant part of the line interface section is performed by setting the following switches to 17 x 32 switches and 32 x 17 switches, and the middle switches to 32 x 32 switches, and the number of first, middle, and latter switches to 32. A diagnostic circuit characterized by: