JPH0423642A - Order wire system of ring constitution - Google Patents

Abstract

PURPOSE:To ensure a voice talking between stations and to improve the network operating and maintenance efficiency by selecting an order wire line when a fault takes place in an optical transmission line between stations. CONSTITUTION:When a fault takes place in a transmission line in a route other than a transmission line set to a non-use state, a switch section 170 provided to a transmitter-receiver connecting to both ends of the transmission line having a fault is used to set the system such that the transmission line having the fault is not in use. Simultaneously, the switch section 170 provided to transmitters-receivers 100-1, 100-n connecting to both ends of the transmission line set to the inoperating state sets the transmission line set in the non- operating state. As a result, the voice talking between stations is ensured by selecting the transmission line when a fault takes place in the transmission line between stations.

Description

[Detailed Description of the Invention] [Summary] Regarding the order wire system used for line maintenance of a ring-configured system having an optical at-drop device, the order wire line is secured when the line is cut off, and the order wire line is secured between each station. Our goal is to provide an order wire system with a ring configuration that enables telephone calls, where devices are connected to each other in a ring through a transmission line, and signals from telephones are multiplexed and sent out to the transmission line, or via the transmission line. It has a plurality of transmitting/receiving devices each having a multiplexing/demultiplexing circuit that receives signals from a telephone connected to another device, demultiplexes signals, and sends the signals to the telephone, and among the plurality of transmitting/receiving devices, In a system where the transmission path between two predetermined adjacent transmitting/receiving devices is set to an unused state during normal operation, multiplexing/receiving of the transmitting/receiving devices is possible.
Inserted between the separation circuit and the telephone, when a failure occurs in a transmission line in a route other than the transmission line set to an unused state, the transmission line in which the failure has occurred is set not to be used,
A switch section is provided to set the unused transmission path to use, so that even if a failure occurs in the transmission path, the transmission path can be switched to ensure signal transmission/reception between each transmitting/receiving device. Configure.

[Industrial application field]

The present invention relates to an improvement of an order wire system used for line maintenance of a ring-structured system having an optical at-drop device.

Optical fiber transmission systems usually have a system configuration in which a protection line is provided for the main signal in order to relieve failures in the optical transmission line. On the other hand, in the order wire system used for line maintenance, both active and backup lines are used. For this reason, there is a need for an orderwire system with a ring configuration that can secure the orderwire line even when the line is disconnected and enable calls between stations.

[Conventional technology]

FIG. 3 is a configuration diagram of an order wire type system with an example ring configuration.

FIG. 4 is a block diagram showing the configuration of a conventional at-drop device.

In FIG. 3, optical at-drop devices l-1 to 1 to 4 of four stations A, B, 0, and D and optical transmission lines 3-1 to 3 are shown.
A communication network is formed by a ring configuration with 8 and 8, and an order wire line is configured with routes of A-B-C-D stations. FIG. 4 shows the configuration of the at/drop device of each station.

The end stations A and D of the order wire line are terminated with the equipment shown in Fig. 4(b) and (C), respectively, and the through stations B and 0 have the equipment configuration shown in Fig. 4(a). It is realized by The operation of the device will be explained in detail below.

In FIG. 3, for example, telephone 2-1 connected to station A
A voice signal for maintenance is transmitted from telephone 2- connected to station B.
2, the audio signal from the telephone 2-1 is converted from 2 wires to 4 wires by the 2 W/4 W conversion circuit 16 in the at-drop devices 1 to 1 of the A station shown in FIG. 4(b). The signal is converted into a signal and outputted to an encoding/decoding circuit (hereinafter referred to as C0DEC) 8. C0DEC8 converts the analog audio signal into digital data and sends it to the multiplexer (hereinafter referred to as M).
(referred to as UX). After the above input data is inserted into the overhead bits by MUX5,
For example, it is converted into optical signal data by a laser diode and sent to the optical transmission line 3-1.

On the other hand, in the at-drop device 12 of the B station, as shown in FIG.
As shown in , after the optical signal data from the transmission path is converted into electrical signal data by a light receiving element (not shown) in the multiplexer/demultiplexer (hereinafter referred to as DMUX) 4, only the overhead bits are separated. Output to C0DEC8. The C0DEC8 converts it back to an analog audio signal, and the output is applied to the bridge circuit 10.

The input signal is branched by the bridge circuit IO and the output is added to adder circuits 11 and 15.

The signal added to the addition circuit 11 is obtained by adding the audio signal from the telephone 2-2 connected to the B station with the audio signal added via the 2W/4W conversion circuit 16 and the bridge circuit 14. , the output is added to C0DEC9 and converted from an analog signal to digital data, and the output is M
The signal is inserted into the above-mentioned overhead bit in the UX 5, sent out to the optical transmission line 3-3, and transferred to the at-drop devices 1-3 and -4 such as the 0 station or the D station.

On the other hand, the at-drop device 1 of the B station shown in FIG. 4(a)
The signal applied to the adder circuit 5 in ~2 is, for example, the at-drop device 13 of station 0 or station D, from ■-4 to D.
It is added to the audio signal from station 0 or station D transferred via MUX 7, CODEC 9, and bridge circuit 13, and output to 2W/4W conversion circuit 16.

After the 4-wire signal is converted into a 2-wire signal by the 2W/4W conversion circuit 16, the signal is transferred to the telephone 2-2 connected to the at-drop device 12 of the B station.

Then, the telephone 2-2 receives a voice signal for maintenance from the telephone 21 connected to the A station. Alternatively, maintenance audio signals from stations 0 and D are received.

When transferring voice signals for maintenance from telephone 2-1 connected to A station to telephone 2-3. Also when transferring voice signals for maintenance from 2-3.2-4 to telephone 2-1.2-2 connected to station A or station B,
Perform the same operation as above.

In addition, at stations A and D, in order to prevent the audio signal output from the own station from going around the loop and returning to the own station again, creating an eternal loop, causing problems such as so-called howling, the following steps are taken: The configuration is as shown in (b) and (C).

[Problem to be solved by the invention]

However, in the above device configuration, if a failure occurs in the optical transmission line 3-1 or 3-2 transmitting from station A to station B, and the line between stations A and B is disconnected, There was a problem in that it became impossible to make a call between station B, or between station A and station 0, or between station A and station D.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a ring-structured orderwire system that secures an orderwire line when the line is disconnected and enables communication between stations.

[Means to solve the problem]

The above problem is solved by the configuration of the device shown in FIG.

That is, in FIG. 1, the devices are connected to each other in a ring shape by a transmission line, and multiplex signals from telephones and send them out to the transmission line, or receive signals from telephones connected to other devices via the transmission line. A plurality of transmitting/receiving devices 1 comprising a multiplexing/demultiplexing circuit 500 for demultiplexing and transmitting the multiplexed data to a telephone set.
00-1 to 100-n, and a plurality of transmitting/receiving devices 1
In a system in which the transmission path between two predetermined adjacent transmitting/receiving devices 100-1.100-n among 00-1 to 100-n is set to an unused state during normal operation, 170 is a transmitting/receiving device. 100-1 to 100-n between the multiplexing/demultiplexing circuit 500 and the telephone set, and when a failure occurs in a transmission line in a route other than the transmission line set to an unused state, a transmission line where a failure occurs This is a switch unit that is set not to use the transmission line and to use the transmission line that is set to an unused state.

The configuration is such that even if a failure occurs in the transmission path, the transmission path is switched to ensure signal transmission/reception between the respective transmitting/receiving devices.

[For production]

In FIG. 1, transmitting/receiving devices 100-1 to 100n
In the switch unit 170 provided between the multiplexing/separating circuit 500 and the telephone set, during normal operation, two adjacent
The transmission path between the two transmitting/receiving apparatuses 100-1 and 100-n is set to an unused state.

Then, when a failure occurs in a transmission line in a route other than the transmission line set to an unused state, a switch unit 1 is installed in a transmitting/receiving device connected to both ends of the transmission line where the failure has occurred.
70, the transmission line in which the failure has occurred is set not to be used. At the same time, the switch unit 170 provided in the transmitting/receiving device 100-1.100-n connected to both ends of the transmission path set to an unused state is set to use the transmission path set to an unused state. .

As a result, voice communication between each station can be ensured by switching the transmission line when a failure occurs in the transmission line between the stations.

〔Example〕

FIG. 2 is a block diagram showing the configuration of an at-drop device according to an embodiment of the present invention.

The same reference numerals indicate the same objects throughout the figures.

The difference between the present invention and the conventional example is that, as shown in FIG. 2, there are Switches 17 and 18 are provided, and A
All of the at-drop devices for stations to stations D have the configuration shown in FIG. The operation will be explained below.

Assume that a failure occurs in the optical transmission line 3-1 or 3-2 between, for example, A station and B station in the system shown in FIG. Then, the at-drop devices 1 and 2 of the B station shown in FIG.
UX 4 detects the above fault and sets the alarm to switch 17.
Send to. For example, switch 17 connects DMUX 4 and D
Consists of an OR circuit (hereinafter referred to as OR circuit, not shown) that inputs the output of MUX 7 and calculates a logical sum, and an AND circuit (hereinafter referred to as AND circuit, not shown) connected to the output of the OR circuit. In this case, for example, DMUX
The switch 17 is activated by the alarm information of “0” of the output of 4.
Switch from on to off. At the same time, the at-drop devices 1 to 1 of station A also detect the above failure at DMUX 7,
An alarm is sent to switch 18. and switch 1
Switch 8 from on to off.

On the other hand, DMUX 4 of at-drop devices 1 and 2 of B station
Sends alarm information to MUX5. In the MUX 5, for example, a command signal for turning on the switch 17 of the A station and the switch 18 of the D station from OFF to ON is inserted into the overhead pit.

In the at/drop device l-1 of the A station, the DMUX 4 separates the alarm information, sends a signal to switch 17 from off to on, and turns on the switch 17 that was previously set to off. Also, at station D
The drop devices 1 to 4 also separate the above alarm information using the DMUX 4, send a signal to switch 18 from off to on, and switch 1, which was set to off,
Turn on 8.

In this way, for example, voice signals for maintenance are transmitted and received using the order wire line formed by the route B-0-D-A.

For example, if a failure occurs in the optical transmission line between the B station and the 0 station, the switch will be changed in the same way, and the 0 station -
For example, voice signals for maintenance purposes are transmitted and received using an order wire line configured with a route of station - station A - station B. The same procedure is also applied when a failure occurs in the optical transmission line between other stations.

In this manner, when a failure occurs in the optical transmission line between stations, voice communication between each station can be ensured by switching the order wire line.

〔Effect of the invention〕

As explained above, according to the present invention, in the order wire line of a ring-configured optical network system, when a failure occurs in the optical transmission path between stations, the order wire line can be switched, thereby enabling voice calls between each station. This greatly contributes to improving the efficiency of network operation and maintenance.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the principle of the present invention. FIG. 2 is a block diagram showing the configuration of an atto-drop device according to an embodiment of the present invention. FIG. 3 is a configuration diagram of an order wire system using an example of a ring configuration. FIG. 4 is a block diagram showing the configuration of a conventional at-drop device. In the figure, a switch section is shown. Unexploded B-moon Torareki II/) At Draw/7' Long 1/)
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Claims (1)

[Claims] The devices are connected to each other in a ring shape through a transmission path, and multiplex signals from telephones and send them out to the transmission path, or receive signals from telephones connected to other devices via the transmission path. A multiplexing/demultiplexing circuit (500
) comprising a plurality of transmitting/receiving devices (100-1 to 10
0-n), and the plurality of transmitting/receiving devices (100-1
In a system in which a transmission path between two predetermined adjacent transmitting/receiving devices (100-1, 100-n) among the transmitting/receiving devices (100-n) is set to an unused state during normal operation, the transmitting/receiving device ( It is inserted between the multiplexing/demultiplexing circuit (500) of 100-1 to 100-n) and the telephone set, and when a failure occurs in a transmission line within the route other than the transmission line set to an unused state, the corresponding A switch unit (170) is provided that sets the transmission line in which a failure has occurred so as not to use it, and sets the transmission line set in the unused state to be used, so that even if a failure occurs in the transmission line, the transmission line can be used. Switch to each send/
A ring-configured order wire system characterized by ensuring signal transmission/reception between receiving devices.