JPH0311895A - Digital trunk - Google Patents

Abstract

PURPOSE:To eliminate manual error for setting such as synchronizing setting by constituting a digital trunk with a synchronizing detection section and a synchronizing signal transmission section interlocking with the synchronizing detection section so as to decrease kinds of the digital trunks. CONSTITUTION:A digital trunk 1 consists of a synchronizing detection section 2 and a synchronizing signal transmission section 3. A synchronizing data is inputted from a digital line 4a to synchronizing detection circuits 21a, 21b and 21c. In this case, when the data is synchronous with the synchronizing detection circuit 21b, the synchronizing detection circuit 21b establishes synchronization after the retrieval of a synchronizing pattern. Then the synchronizing detection circuits 21a, 21c are in the state of out of synchronism. An output signal of the synchronizing detection circuit 21b is sent from a selector 22 to a main body system and an output signal of the synchronizing signal transmission circuit 31b is sent from a selector 32 to a line 4b.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a digital trunk installed in a digital electronic exchange and terminating a digital line, and in particular to a digital trunk that is installed in a digital electronic exchange and terminates a digital line. Regarding the digital trunk made possible.

[Conventional technology]

Conventionally, when accommodating digital lines with different synchronization frame configurations in a digital electronic exchange, processing has been mainly performed using two methods. In the first method, a digital trunk is provided in a digital electronic exchange for each digital line with a different synchronization frame structure to accommodate the digital lines. In the second method, a plurality of synchronization detection circuits are provided in the digital trunk, and the synchronization detection circuits are set by switching orders to accommodate digital lines.

[Problem to be solved by the invention]

In the first conventional method described above, since a digital signal is prepared for each digital line with a different synchronization frame structure, there are disadvantages in that the types of digital trunks are not suitable and it is troublesome in terms of device management. Further, in the second method, even when the problem is handled by switching the work order, the work order switching is performed manually, so there is a drawback that human error may occur.

The present invention has been made in order to eliminate the above-mentioned drawbacks, and an object of the present invention is to provide a digital trunk that can be reliably synchronized and that can simplify device management.

[Means to solve the problem]

The digital trunk of the present invention is installed in a digital electronic exchange and terminates a digital line, and uses a plurality of synchronization detection circuits to detect synchronization with respect to received signals including multiple types of frame configurations taken in from the digital line. A synchronization detection section that outputs only the output signal from the synchronization detection circuit that has detected synchronization, and a plurality of synchronization signal sending circuits can each send out synchronization signals containing multiple types of frame configurations, and the aforementioned synchronization establishment can be achieved. The apparatus is characterized in that it is comprised of a synchronization signal sending section that sends out only the synchronization signal from the synchronization signal sending circuit to the digital line based on the information.

According to the present invention, the digital trunk is configured with a synchronization detection section that reliably establishes synchronization and outputs the synchronization signal, and a synchronization signal sending section that works in conjunction with the synchronization detection section, which reduces the number of types of digital trunks and allows synchronization settings. This eliminates human errors in settings such as

〔Example〕

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

FIG. 1 is a block diagram illustrating an embodiment of a digital trunk of the present invention. The digital trunk shown in FIG. 1 is installed in a digital electronic exchange (not shown).
It is structured as follows.

The digital trunk 1 includes a synchronization detection section 2 and a synchronization signal transmission section 3. The synchronization detection section 2 is connected to a digital line 4a, and the synchronization signal transmission section 3 is connected to a digital line 4b.

Here, the synchronization detection unit 2 includes a plurality of synchronization detection circuits 21a, 21 for a received signal including a plurality of types of frame configurations and a multi-frame configuration taken in from the digital line 4a.
b, 21c, and a selector 22. The plurality of synchronization detection circuits 21a, 21b, and 21c are configured to perform synchronization detection, respectively. The selector 22 selects and outputs the output from the synchronization detection circuit 21x that has established synchronization among the plurality of synchronization detection circuits 21a, 21b, and 21c. In addition, X is any one of a to C.

The synchronization signal sending unit 3 includes a plurality of synchronization signal sending circuits 31a each capable of sending out synchronization signals including a plurality of types of frame configurations and multi-frame configurations.

31b, 31c, and a plurality of synchronization detection circuits 21a.

Among 21b and 21c, the synchronization detection circuit 21 has established synchronization.
The selector 32 transmits only the synchronizing signal from the synchronizing signal sending circuit 31X to the digital line 4b based on the selection signal from the synchronizing signal sending circuit 31X.

Note that X indicates that the synchronization signal sending circuits 31a, 31b, and 31C correspond to the plurality of synchronization detection circuits 21a, 21b, and 21C.

The operation of the embodiment configured in this way will be explained.

Synchronization detection circuit 212.21b, 2 from digital line 4a
Synchronous data is input to 1c. At this time, it is assumed that this data is synchronized with the synchronization detection circuit 21b. The synchronization detection circuit 21b establishes synchronization after searching for a synchronization pattern. At this time, the synchronization detection circuits 21a and 21C remain out of frame and multiframe synchronization, resulting in a line failure state. Three types of synchronization detection circuits 218
The state of synchronization established or not established between 21b and 21c is supplied to the selector 22 as is. Moreover, since the state is the gate signal of the selector 22.32, the output signal of the synchronization detection circuit 21b is transmitted from the selector 22 to the main body system, and the output signal of the synchronization signal sending circuit 31b is transmitted from the selector 32. is sent to the data line 4b.

All of the above procedures depend only on the data sent from the opposite station via the digital line 4a, and do not require any control on the switching system side.

〔Effect of the invention〕

As explained above, the present invention has the following features in the digital trunk:
It consists of a synchronization detection section that reliably establishes synchronization and outputs the synchronization signal, and a synchronization signal sending section that works with this, reducing the number of types of digital trunks and preventing human errors in settings such as synchronization settings. This has the effect of increasing safety in maintenance and operation.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1...Digital trunk, 2...Synchronization detection section, 3...Synchronization signal sending section, 21a, 21b, 21c...Synchronization detection circuit, 3
1a, 31b, 31c... synchronous signal sending circuit,
22.23...Selector.

Claims (1)

[Claims] In a digital trunk installed in a digital electronic exchange and terminating a digital line, a plurality of synchronization detection circuits perform synchronization detection on a received signal including a plurality of types of frame configurations taken in from the line, A synchronization detection section that outputs only an output signal from a synchronization detection circuit that detects synchronization, and a transmission circuit that are capable of respectively transmitting synchronization signals including multiple types of frame configurations, and transmitting the synchronization signal based on information on the establishment of synchronization. A digital trunk comprising: a synchronization signal sending unit that sends only a synchronization signal from a circuit to a digital line.