JP2655597B2 - Loopback identification method for digital circuits - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a loopback identification method used for maintenance and recovery of a digital circuit of a frame synchronization method.

[Conventional technology]

In a conventional frame synchronous digital circuit,
The loopback performed for maintenance and recovery from a failure will be described with reference to FIG. 2 showing a digital line.
A station 201 and B station 202 have transmission side frame synchronization signal insertion circuits 203 and 204 and frame synchronization signal detection circuits 205 and 20 respectively.
6. Loopback switches 207, 208, 209 and 210 are provided, and the A station 201 and the B station 202 are connected to the downlink 211 and the uplink 2
12 and connected by. Then, the same frame synchronization pattern is used for the uplink 212 and the downlink 211,
For example, “0101” is used.

It is assumed that the switches 209 and 210 of the B station 202 are operated to perform loopback. At this time, the signal having the frame synchronization pattern of “0101” transmitted from the A station 201 loops back, and the frame synchronization signal detection circuit 205 of the A station 201 detects the frame synchronization pattern of “0101”. However, since this frame synchronization pattern is used even in a normal communication state, it is impossible to identify whether this signal is due to loopback or normal communication.

[Problems to be solved by the invention]

As described above, since the same frame synchronization pattern is used for the upstream line and the downstream line in the conventional frame synchronization type digital line, the line is looped back at the station A or the station B, and the frame synchronization signal detection is performed. Even if the circuit detects the frame synchronization signal, it is impossible to determine whether the state is a loopback state or a normal communication state unless a loopback signal is sent out on the line.

SUMMARY OF THE INVENTION An object of the present invention is to provide a loop-back identification system in a digital line of a frame synchronization system which can solve the above-mentioned drawback and can determine a loop-back state only by detecting a frame synchronization signal.

[Means for solving the problem]

In order to achieve the above object, according to the present invention, an output terminal of a frame synchronization signal insertion circuit for transmitting a first frame synchronization pattern is connected to one contact of a first loopback switch. The other contact of the second
An input terminal of a first frame synchronization signal detection circuit that is connected to one contact of a loopback switch and detects a first frame synchronization pattern, and an input of a second frame synchronization signal detection circuit that detects a second frame synchronization pattern An end is connected to the other contact of the second loop-back switch, a terminal of the first loop-back switch is connected to the down line, and a terminal of the second loop-back switch is connected to the up line. A station, an output terminal of a frame synchronization signal insertion circuit for transmitting a second frame synchronization pattern is connected to one contact of a first loopback switch, and the other contact of the first loopback switch is connected to a second loop. An input terminal of a first frame synchronization signal detection circuit that is connected to one contact of a back switch and detects a first frame synchronization pattern, and a second frame. An input terminal of a second frame synchronization signal detection circuit for detecting a frame synchronization pattern is connected to the other contact of the second loop-back switch, a terminal of the first loop-back switch is connected to the upstream line, and a second loop is connected. And a B station configured by connecting the terminal of the back switch to the down line.

〔Example〕

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

FIG. 1 is a block diagram showing a digital line of a frame synchronization system based on one embodiment of the present invention.

In FIG. 1, a frame synchronization signal insertion circuit 103 for inserting a frame synchronization signal having a pattern "1110" on the transmitting side is detected at the A station 101, and a frame synchronization signal having a pattern "1110" and "0001" is detected on the receiving side. Frame synchronization signal detection circuits 104 and 015, loopback switches 109 and 1
Ten are provided. On the other hand, B station 102 sends “000” to the transmitting side.
A frame synchronization signal input circuit 108 for inserting a frame synchronization signal having a pattern of "1", and "1110" and "0001" on the receiving side.
Frame synchronization signal detection circuits 106 and 107 for detecting frame synchronization signals having the following patterns, respectively, and loopback switches 111 and 112 are provided. And A station 101 and B
The station 102 is connected via a downlink 113 and an uplink 114.

Loopback is performed in this digital line as follows. Assuming that the switches 111 and 112 of the B station 102 operate and the signal having the frame synchronization pattern of “1110” transmitted from the A station 101 is looped back and input to the two frame synchronization signal detection circuits 104 and 105 of the A station 101. , The frame synchronization signal detection circuit 104 detects “1110”,
Identify a loopback condition. That is, in the normal communication state,
Since the frame synchronization pattern of the uplink 114 is "0001", the loopback state can be easily identified.

〔The invention's effect〕

As described above, according to the loopback identification method in the digital line of the frame synchronization method of the present invention,
By using different types of frame synchronization patterns for the uplink and downlink, there is an effect that the loopback state can be easily identified without using a special loopback signal. Therefore, it is possible to easily perform maintenance of a digital line using loopback, recovery from a failure, and the like.

[Brief description of the drawings]

FIG. 1 is a block diagram of a digital line of a frame synchronous system for explaining an embodiment of the present invention, and FIG. 2 is a block diagram of a digital line of a conventional frame synchronous system. 101,201 A station 102,202 B station 103,108,203,204 Frame synchronization signal insertion circuit 104-107,205,206 Frame synchronization signal detection circuit 109-112,207, -210 Switch 113,211 Downline 114,212 Upline

Claims (1)

(57) [Claims] An output terminal of a frame synchronization signal insertion circuit for transmitting a first frame synchronization pattern is connected to one contact of a first loopback switch, and the other contact of the first loopback switch is connected to a second contact. An input terminal of a first frame synchronization signal detection circuit that is connected to one contact of a loopback switch and detects a first frame synchronization pattern, and an input of a second frame synchronization signal detection circuit that detects a second frame synchronization pattern An end is connected to the other contact of the second loop-back switch, a terminal of the first loop-back switch is connected to the down line, and a terminal of the second loop-back switch is connected to the up line. A station and an output terminal of a frame synchronization signal insertion circuit for transmitting a second frame synchronization pattern are connected to one contact of a first loopback switch. The other end of the first loopback switch is connected to one end of the second loopback switch, and the input terminal of the first frame synchronization signal detection circuit for detecting the first frame synchronization pattern and the second frame. An input terminal of a second frame synchronization signal detection circuit for detecting a synchronization pattern is connected to the other contact of the second loop-back switch, a terminal of the first loop-back switch is connected to the uplink, and a second loop-back switch is connected. A station B constituted by connecting a terminal of a switch to a down line, and a loop back identification method in a digital line.