KR19980066355U - Data service unit spare channel switching device by terminal control - Google Patents

Abstract

The present invention relates to a spare channel switching device of a data service unit by a terminal control, which is suitable for an operation method for setting a switching condition according to an error degree of transmission data. The present invention relates to a terminal connection unit for a physical connection with an external terminal, a dedicated circuit, Main channel circuit connection part for connection of the main channel, spare channel circuit connection part for connection with the spare line, main channel signal processor for signal conversion to transfer the data received through the dedicated line to the terminal, data received through the spare line Preliminary channel signal processing unit converts the signal to transmit the signal to the terminal, Receive signal monitoring and determining unit to determine the abnormality of the dedicated line by using the received signal on the dedicated line, and transfers the spare channel from the main channel. A transfer processing unit, and a terminal to a spare channel between the terminal connection unit and the transfer processing unit. It consists of a command receiving / determining unit that receives and executes a code indicating a screen, and the operator of the terminal detects an error of data received through a dedicated channel of a data service unit having a spare channel by the receiving signal monitoring and determining unit. When a certain standard is exceeded, a specific code (n data bits) is transmitted, and when the data service unit receives this code, the circuit is switched to a spare channel.

Description

Data service unit spare channel switching device by terminal control

The present invention relates to a spare channel switching device of the data service unit by the terminal control, and more particularly to a data service unit spare channel switching device by the terminal control to be suitable for the operation method of setting the switching condition according to the error degree of the transmission data. It is about.

As a conventional method of switching a data service unit to a spare channel, a method of switching and returning the data service unit by determining whether or not there is an abnormality in a dedicated line is used.

1 is a diagram illustrating a network operation of a data service unit having a conventional spare line. Referring to FIG. 1, the data service unit (DSU) A 120 and the data service unit B 130 are terminal A. FIG. The device 110 is responsible for long-distance data transmission on the 110 and the terminal B 140. In normal operation, data is transmitted and received through the dedicated line 150 of four lines. However, the dedicated line 150 has an abnormality. In case of occurrence, the network is configured to transfer data to and from the spare circuit 170 of the spare channels 180 and 190. In the case of a modem, the spare line of the spare channel is two lines, and the case of the modem is shown here. Reference numeral 160 in the drawing indicates an interface between the terminal and the data service unit.

In addition, Figure 2 shows a block diagram of a conventional data service unit (DSU) switching to a spare channel, referring to the component with reference to this figure, the terminal connection unit 210 for physical connection with the external terminal, There is a part for external connection such as the main channel line connecting unit 260 and the spare channel line connecting unit 270 for connecting the dedicated line and the spare line, and there is a signal conversion inside to transfer data from the line to the terminal side. Receiving signal monitoring and determining unit 240 to determine the abnormality of the dedicated line by using the main channel signal processing unit 230 and the preliminary channel signal processing unit 250, the received signal from the dedicated line 150 to receive It is composed of a switching processing unit 220 in charge of the switching from the main channel to the reserve channel by the instruction of the signal monitoring and determination unit 240. In the description of the drawings, the same parts as those described above are denoted by the same reference numerals and description thereof will be omitted.

The data generated in the terminal is converted into a signal type to be transmitted to the line from the main channel signal processing unit 230 via the terminal connection unit 210 during normal operation, and then the dedicated line 150 is connected through the main channel line connection unit 260. Transmitted to the other station through, the signal received from the dedicated line 150 converts the signal in the main channel signal processor 230, and then sends data to the terminal. In this case, when an error occurs in the dedicated line 150 in the data transmission process, the reception signal monitoring and determining unit 240 detects this and notifies the transfer processing unit 220 to notify the dedicated line 150 as a spare channel ( 170), and after the data transmission is made through the spare channel 170, the reception signal monitoring and determination unit 240 continues to monitor the abnormal state of the dedicated line 150 and resumes normal operation. Instructs the transfer processing unit 220 to return to the original state.

On the other hand, in the transmission line abnormal state detected by the reception signal detection and determination unit 240 is the line is disconnected and there is no incoming signal from the outside, or switching of the line only when receiving the line abnormal signal generated by the inter-station transmission device Will be detected as a condition.

However, in the conventional reserve circuit switching method, the transfer from the main channel to the reserve channel is performed only when the line is disconnected or when a transmission error code is transmitted by the inter-station transmission device. Even when a transmission line has no value as transmission data due to a large number of errors, there is a problem that it is not possible to switch to a spare channel because it does not correspond to a switching condition. In addition, the conventional data service unit does not have a function to determine whether there is an error in the data transmitted between the terminals, there was no way to solve the above problems by itself.

The present invention has been made in view of the above-described problems of the prior art, and provides a data service unit spare channel switching device by terminal control that is suitable for an operation method for setting a switching condition according to an error degree of transmission data. have.

Switching device of the present invention for achieving the above object, the terminal connection for physical connection with the external terminal, the dedicated circuit connection for connection with the dedicated line, the preliminary circuit connection for the connection with the reserve circuit, the dedicated circuit The main channel signal processor converts the data received through the preliminary line to the terminal, the pre channel signal processor converts the received data to the terminal, and the received signal on the dedicated line. Reception signal monitoring and determining unit for determining abnormality of the dedicated line, switching processing unit in charge of switching from the main channel to the spare channel, and instructing the transfer from the terminal to the spare channel between the terminal connection unit and the switching processing unit. And a command receiving / determining unit for receiving and executing code.

1 is a diagram illustrating a network operation of a data service unit having a conventional spare line;

2 is a spare channel switching block circuit diagram of a conventional data service unit;

3 is a spare channel switching block circuit diagram of a data service unit according to the present invention;

4 is a detailed circuit diagram of a command receiving / determining unit according to the present invention.

* Description of the symbols for the main parts of the drawings *

120,130: data service units 110, 140; terminal

150: dedicated circuit 160: interface

170: spare circuit 180,190: spare channel

210,310: Terminal connection part 260,360: Main channel circuit connection part

270,370: spare channel circuit connection unit 230,330: main channel signal processor

250,350: spare channel signal processing unit 240,340: reception signal monitoring and determining unit

220,320: transfer processing unit 380: command reception / decision unit

411, 412, 413,... , 414, 415: Shift register

421, 422, 423,... , 424, 425: Exclusive Logic Gate

430: multi-input logic gate

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment according to the present invention.

The configuration of the present invention is shown in FIG. 3, and is mostly similar to the conventional spare channel switching block shown in FIG. 2, and is executed by receiving a code indicating a transfer from the terminal to the spare channel between the terminal connection unit and the transfer processing unit. The command receiving / determining unit is further configured.

Referring to Figure 3 describes the components of an embodiment of the present invention in detail as follows. The terminal connection unit 310 for physical connection with the external terminal, the main channel line connection unit 360 for connection with the dedicated line, the spare channel line connection unit 370 for connection with the spare line, and the dedicated line A main channel signal processor 330 for signal conversion to transfer the data received through the terminal to the terminal, a spare channel signal processor 350 for signal conversion to transfer the data received through the spare line to the terminal, and Receiving signal monitoring and determining unit 340 for determining the abnormality of the dedicated line by using the received signal on the line, switching processing unit 320 for switching from the main channel to the spare channel, and the terminal connection unit ( It can be seen that between the 310 and the transfer processing unit 320 is provided with a command receiving / determining unit 380 for receiving and executing a code instructing the transfer from the terminal to the spare channel.

The switching device of the present invention having the above-described components detects an error of data received through a dedicated channel of a data service unit having a spare channel by the reception signal monitoring and determination unit 340 to set a predetermined standard determined by the operator of the terminal. If it exceeds, it transmits a specific code (n data bits), and when the data service unit receives this code, it switches the circuit to a spare channel.

In the following description, since the function of the basic data service unit of the switching device according to the present invention is the same as the conventional method, the redundant description will be omitted, and only the parts added in the present invention will be described in detail. In addition, in the description of the drawings, the same parts as those described above are denoted by the same reference numerals and description thereof will be omitted.

As shown in FIG. 1, the terminal A 110 connected to the data service unit A 120 through the terminal interface 160 communicates data with the terminal B 140 through the dedicated line 150 during normal operation. Can send and receive

In addition, the terminal typically does not have a function of checking how much error there is in the transmission and reception data. However, if more errors occur than the standard (the standard is settable by the terminal operator) on the dedicated line, the terminal sends a specific code, for example, 0X95A5 (100101010100101B, the code can vary depending on the developer of the data service unit). When transmitting, the command receiving / determining unit 380 shown in FIG. 3 receives it and compares it with a predetermined code, and if it matches, instructs the switching processor to switch the main channel to the spare channel.

When the operation state at the command reception / decision unit is explained in detail through the detailed circuit diagram of the command reception / decision unit according to the present invention shown in Fig. 4, the configuration of the detailed circuit is n (where n is the number of bits of a specific code). Shift registers 411, 412, 413, ..., 414, 415, n exclusive logic gates 421, 422, 423, ..., 424, 425, and one multi-input logic gate 430. The registers 411, 412, 413, ..., 414, 415 monitor all data frames inputted from the terminal, and the plurality of exclusive logic gates 421, 422, 423, ..., 424, 425 are the shift registers. Each of the data bits shifted at each stage of the input signal and a predetermined bit set to a high state or a low state are input, and the multi-input logic gate 430 is provided with the plurality of exclusive logic gates 421, 422, 423,... 424, 425 as an input to the transfer processing unit according to a predetermined condition A control signal of 320 is output.

In operation, a data frame input from a terminal enters the input side of n shift registers, which monitor all data frames. If the data bits shifted in the shift registers 411, 412, 413, ..., 414, 415 coincide with a predetermined bit, the corresponding exclusive logic gate output goes low, and if n data frames match, n Outputs of two exclusive logic gates are turned low. When all the exclusive logic gates are output low and finally the outputs of the multi-input logic gates are low, the switching processing unit 320 is notified of the result to switch the circuit from the main channel to the spare channel.

When returning to the main channel, the same specific code is transmitted again or another code is selected and used.

According to the present invention as described above, in general, the transfer of the data service unit having the spare channel to the spare channel is much more frequent than that in the case of switching by the disconnection of the dedicated line and the alarm code from the inter-station transmission equipment. It is impossible to prepare for the data error at all, but by setting the data error criterion of the transmission line on the terminal side, the data service unit performs the spare channel switching according to the data error state of the dedicated line so that the data can be changed through the smooth transmission line switching. This has the effect of preventing errors.

Claims (2)

Terminal connection part for physical connection with external terminal, main channel line connection part for connection with dedicated line, spare channel line connection part for connection with spare line, signal conversion to transfer data received through dedicated line to terminal The main channel signal processing unit for transmitting the signal, the spare channel signal processing unit for converting the signal to transfer the data received through the spare line to the terminal, and the reception signal monitoring for determining the abnormality of the dedicated line using the received signal on the dedicated line. And a determination unit, a switching processing unit that is responsible for switching from the main channel to the spare channel, and a command reception / determination unit that receives and executes a code for instructing a transfer from the terminal to the spare channel between the terminal connection unit and the switching processing unit. Receive an error in data received through a dedicated channel of a data service unit having a spare channel. When the monitoring and judging unit detects exceeding a predetermined standard determined by the operator of the terminal, it transmits a specific code (n data bits), and when the data service unit receives this code, the circuit is switched to a spare channel. Spare channel switching device for data service unit by terminal control. The apparatus of claim 1, wherein the command receiving / determining unit receives a plurality of shift registers for monitoring all data frames inputted from a terminal, each data bit shifted at each end of the shift register, and a predetermined arbitrary bit as input. A plurality of exclusive logic gates and a multi-input logic gate to control the switching processing unit according to a predetermined condition by inputting the outputs of the plurality of exclusive logic gates. Channel changer.