JPH0227818A - N:1 line switchboard - Google Patents

Abstract

PURPOSE:To send a dummy signal to a standby line with simple circuit constitution when no standby line is used by providing an amplifier circuit to the input side of a hybrid circuit. CONSTITUTION:An amplifier circuit 11 is provided to the input side of the hybrid circuit 10. When the standby line is not entirely in use, after an input signal in the active line is amplified by the amplifier circuit 11, the signal is branched by the hybrid circuit 10 and sent to the standby line and becomes a dummy signal. In this case, the amplification factor by the amplifier circuit 11 is set tn response to the rate of signal attenuation by giving the signal through the hybrid circuit 10. Thus, even if the input signal level is decreased in the hybrid circuit 10, since the dummy signal fetched in the standby line is of the same level as that of the original input signal, the dummy signal and the input signal to the active lines are of the same level and the circuit for matching the signal levels is not required.

Description

[Detailed Description of the Invention] Overview: One protection line for each N working lines of a multiplex communication system.
The purpose of this N:1 line switching device is to send a dummy signal to this protection line with a simple circuit configuration when the protection line is not in use, and has a protection line for multiple working lines. , when there is no input signal on the protection line, the signal of one of the plurality of working lines is branched by a hybrid circuit and sent to the protection line N:
In a single-line switching device, an amplifier circuit is provided on the input side of a hybrid circuit.

INDUSTRIAL APPLICATION FIELD The present invention relates to a Ni1 line switching device having one protection line for every N working lines of a multiplex communication system.

In multiplexed data communications, for example, one backup line is provided for each of the multiple working lines (normally used lines), and if a failure occurs in the working line,
I'm trying to switch to a backup line for communication. In this way, the protection line has a lower priority than the working line in line switching, and normally this protection line handles low-priority signals.

FIG. 5 shows a general configuration diagram of the Ni1 line switching device.

A bipolar signal SIN is input to the transmitting side line switching device (SW-5) 37, and the receiving side line switching device (SW-5) 37 receives the bipolar signal SIN.
SW-R) 38 is the working line 26 to 28 and the protection line 29.
It receives the signal sent via the terminal and outputs a bipolar signal 5OUT. 39.40 is the terminal relay equipment (
LTE), with working lines 26 to 28 and protection line 29.
It has become a terminal. Bipolar signals (three values) pass through the line switching devices 37 and 38, and lines are switched using relays or the like. Furthermore, when the low priority signal 5INO is not used on the protection line 29, there will be no human input signal to the protection line 29, and an input signal down alarm will occur, making it difficult to confirm whether the protection line is operating normally. become unable.

However, in order to use it as a protection line, protection line 2
It is necessary to confirm the normal operation of terminal station relay device 39.
It is necessary to manually input some kind of signal (dummy signal) to the backup line relay section.

Prior Art FIG. 3 shows a block diagram of a conventional N:1 line switching device.

30 is a line switching device, 22 to 25 are relays provided corresponding to the respective lines, 21 is a terminal relay device, and 31 is a dummy signal generator. This is a 3:1 line switching device in which one protection line 29 is provided for three working lines 26 to 28. A signal from a dummy signal generator 31 is manually input to the protection line 29 via the relay 22. Relays 23 to 25 provide fault power (
When this occurs, one operation is performed to switch to the protection line 29 side.

For example, when a failure occurs in the working line 27, the contacts of the relay 24 corresponding to the working line 27 are closed, and the contacts of the relay 22 are closed to the 2 side. Therefore, the human signal S I N 21'! , relay 24.2
2 to the P section of the terminal relay device 21 and transmitted via the protection line 29.

FIG. 4 shows a block diagram of another conventional example of an N:1 line switching device, which is a 3:1 line switching device in which one protection line is provided for three working lines.

The line switching device 36 is provided with an attenuator 32 for attenuating the input signal, relays 22 to 25 for line switching, and hybrid circuits 33 to 35 for branching the input signals 5IN1 to 3 to the backup line 29 side. Terminal relay device 21
Since the signal level of the human input signal 5INI~3 taken in is passed through the hybrid circuits 33~35 using transformers, it is 3 dB (decibel) lower than the input signal 5INI~3 before being input to the hybrid circuits 33~35. Become. The attenuator 32 is provided to match the level of the low priority signal 5INO to this input signal level lowered by 3 dB.

When the protection line 29 is not in use (no low-priority signal!), the contact of the J relay 2 is closed to the 2 side, and when there is no fault in the working lines 26 to 28. Since the contacts of the relay 23 are in a closed state, a signal of 5INI is input to the P section of the terminal relay device 21.For example, when a fault occurs in the working line 27, the relay 24 The contacts of the relay 23 are closed, and the contacts of the relay 23 are opened.As a result, the signal of 5IN2 is sent to the P section of the terminal relay device 21 via the hybrid circuit 34, the relay 24, and the relay 22, and is connected to the backup line. 29.

Problems to be Solved by the Invention However, in the conventional N:1 line switching device as described above, when a dummy signal generator is used as a dummy signal to the protection line, the number of channels accommodated by the terminal relay device increases. When the number of signals increases, the number of output signals from the dummy signal generator also increases, resulting in a problem that the system becomes larger and the cost becomes higher.

In addition, when the input signal of the working line is branched by a hybrid circuit using a transformer and taken in as a dummy signal, the level of the input signal taken in by the end station repeater is lower than the original human input signal by passing through the hybrid circuit. B/U (
There is a problem in that the Ginaramic range of bipolar/unipolar (bipolar/unipolar) conversion must be widened, and the circuit configuration becomes extremely complex.

The present invention has been made in view of these points, and its purpose is to provide an N:1 line switching device that sends out a dummy signal to the protection line with a simple circuit configuration when the protection line is not in use. The goal is to provide the following.

Means to solve problems FIG. 1 is a block diagram of the principle of the present invention.

When a protection line is provided for a plurality of working lines and there is no human input signal on the protection line, the signal of one of the working lines is branched at the no-brid circuit 10. , the amplifier circuit 1 is connected to the input side of the hybrid circuit 100 in the N:1 line switching device that sends out to the protection line.
1 will be provided.

According to the present invention, when the protection line is not used at all,
After the input signal on the working line is amplified by the amplifier circuit 11, it is branched by the hybrid circuit 10 and sent to the protection line to become a dummy signal. At this time, the amplification factor by the amplifier circuit 11 is set according to the rate at which the signal is attenuated by passing through the hybrid circuit 10. As a result, even if the input signal level drops in the hybrid circuit 10, the dummy signal taken in by the protection line will be at the same level as the original human input signal, so the dummy signal and the input signal to the working line will be at the same level, and the signal level will be No circuit is required to match.

EXAMPLES The present invention will be explained in detail below based on examples shown in the drawings.

FIG. 2 shows a block diagram of an embodiment of the N:1 line switching device according to the present invention.

10 is a hybrid circuit using a transformer, 11 is a 3d
20 is a line switching device, 21 is a terminal relay device, and 22 to 25 are relays for line switching. 3
It is a 3:1 line switching device in which one protection line 29 is provided for the main working lines 26 to 28. The amplifier circuit 11 and the hybrid circuit 10 are provided at the input signal 5INI input section in the line switching device 20, and the amplifier circuit 11 is provided at the input side of the hybrid circuit 100. Furthermore, although it is possible to provide the amplifier circuit 11 and the hybrid circuit 10 corresponding to all the input signals SIN, in this embodiment, in order to reduce power consumption, they are provided only in the 5INI human power section.

When the protection line 29 is not used as a low-priority signal line and no fault has occurred in the working lines 26 to 28,
Since the contacts of the relay 22 are closed to the 2 side and the contacts of the relay 23 are also closed, a signal of 5INI is sent to the P section of the terminal relay device 21. This 5INI signal is amplified by 3dB in the amplifier circuit 11, and the hybrid circuit 1
Since the signal is attenuated by 3 dB at 0, the original input signal 5
It is on the same level as IN1.

For example, when a fault occurs in the working line 26, the contacts of the relay 23 remain closed, so the input signal 5
The INI is sent to the P section and W1 section of the terminal relay device 21 and transmitted via the protection line 29. The human power signal 5IN2 goes to the W2 section of the terminal relay device 21, and the human power signal 5IN3 goes to the W3 section.
The information is sent to each department.

When a fault occurs in the working line 27, the contacts of the relay 23 are opened and the contacts of the relay 24 are closed. Therefore,
The input signal 5IN2 is sent to the P section of the terminal relay device 21 and W21!
and transmitted over the protection line 29. The input signal 5INI is sent to the W1 section of the terminal relay device 21.
IN3 is sent to the W3 section.

Effects of the Invention Since the Ni1 line switching device of the present invention is configured as detailed above, it is possible to input a dummy signal on the protection line without using a dummy signal generator, and furthermore, the dummy signal level can be changed. is the same level as the human signal level, and B/
Since there is no need to widen the dynamic range of U conversion, etc., the circuit configuration is simple and the cost can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of the principle of the present invention. FIG. 2 is a block diagram of an embodiment of the N:1 line switching device according to the present invention. FIG. 3 is a block diagram of a conventional N:1 line switching device. 5 is a block diagram of another conventional example of an N:1 line switching device, and FIG. 5 is a general configuration diagram of the N:1 line switching device. 1.39.40...Terminal relay device, 2-25...Relay-, 6-28...Working line, 9...Protection line, 1...Dummy signal generator, 2 ...Attenuator.

Claims (1)

[Claims] When a protection line is provided for a plurality of working lines, and there is no input signal on the protection line, the signal of any one of the plurality of working lines is transferred to a hybrid circuit ( In the N:1 line switching device that branches at 10) and sends out to the protection line, an amplifier circuit (11) is installed on the input side of the hybrid circuit (10).
An N:1 line switching device characterized by being provided with.