KR20000009092U - Circuit inspection device in data transmission system - Google Patents

Abstract

The present invention relates to a circuit inspection apparatus in a data transmission system, and more particularly, to a circuit inspection apparatus in a data transmission system that can accurately and stably check whether a data transmission line is disturbed by using a plurality of patterns of signals. .

Conventionally, since TAXI uses a differential line electrically, abnormal noise is generated or impedance matching is not performed in the data transmission line when the data transmission line is dislocated or a failure occurs. A watch dog signal is applied.At this time, a watchdog signal is detected on the data receiver side even though the data transmission line is abnormal.As a result of a test error that determines a fault line as a normal line, There is a problem that causes a failure of the system by causing a data transmission error.

The present invention checks whether the data transmission line is faulty using multiple patterns of watchdog signals, so if an abnormal watchdog signal is transmitted to the data receiving side when the data transmission line fails, the inspection error that judges the failure line as a normal line in advance Therefore, it is possible to accurately and stably determine whether or not the data transmission line is disturbed.

Description

Circuit inspection device in data transmission system

The present invention relates to a circuit inspection apparatus in a data transmission system, and more particularly, to a circuit inspection apparatus in a data transmission system that can accurately and stably check whether a data transmission line is disturbed by using a plurality of patterns of signals. .

In general, when performing data transmission / reception using TAXI (Transpa- rent Asynchronous Transmitter / Receiver Interface) in the point-to-point transmission method, it is necessary for the correct transmission / reception of data. It is often necessary to check the failure of the data transmission line between TAXI.

As such, the circuit inspection apparatus in the conventional data transmission system for inspecting whether a data transmission line is installed between TAXIs includes a data transmitter 10 and a data receiver 20 as shown in FIG. 1. .

The data transmitter 10 includes a signal generator 11 and a TAXI 12. The signal generator 11 is configured to provide a specific watch dog signal and data applied from a subscriber. It is applied to the TAXI (12) according to the cycle, the TAXI (12) matches the watchdog signal and data applied from the signal generator 11 to the data transmission line and transmits to the data receiving apparatus 20 side.

Meanwhile, the data receiver 20 includes a TAXI 21, a signal detector 22, and a fault signal processor 23. The TAXI 21 is a watch periodically transmitted through a data transmission line. The dog signal and the data are matched and applied to the signal detector 22, and the signal detector 22 detects only the watchdog signal and the watchdog signal among the data applied from the TAXI 21 to set a predetermined time in the internal timer. If the watchdog signal is not detected during the operation, it is determined that a failure has occurred in the data transmission line, and the line failure signal is applied to the failure signal processor 23. After receiving the line failure signal from the signal detection unit 22, the failure signal processor 23 generates a signal informing the system controller or the system operator that there is a failure in the data transmission line.

The operation of the line test apparatus in the conventional data transmission system configured as described above will be described with reference to FIG. 1.

The signal generator 11 of the data transmitter 10 transmits data applied from the subscriber side to the TAXI 12 and generates a watchdog signal for checking the state of the data transmission line. The dock signal is applied to the TAXI 12 at regular intervals.

Accordingly, the TAXI 12 matches the watchdog signal and data applied from the signal generator 11 to the data transmission line and transmits the data to the TAXI 21 side of the data receiving apparatus 20. The TAXI 21 transmits data. Data applied from the TAXI 12 of the device 10 through the data transmission line and the watchdog signal are matched and applied to the signal detector 22, and the signal detector 22 is applied from the TAXI 21. It detects only watchdog signal among watchdog signals and checks whether the watchdog signal is applied within a certain time set in the internal timer.If the watchdog signal is not detected for a certain time, it is determined that the data transmission line has a failure. The line fault signal is applied to the fault signal processor 23.

At this time, when the line signal is transmitted from the signal detecting unit 22, the fault signal processing unit 23 generates a signal informing the system controller or the system operator that there is a fault in the data transmission line, thereby causing the corresponding data transmission line. It alerts you so you can recover it.

In the conventional line inspection apparatus of the data transmission system described above, since TAXI uses a differential line electrically, abnormal noise is generated in the data transmission line when the data transmission line is opened or a failure occurs. Impedance matching is not achieved, and an irregular watchdog signal is applied to the data transmission line. In this case, even though the data transmission line is abnormal, a watchdog signal is detected on the data receiver side. There is a problem that causes a failure of the system by causing a data transmission error due to the occurrence of a test error determined by the circuit.

The present invention is to solve the problems described above, its purpose is to use the watchdog signal of a plurality of patterns having a certain order to check whether the data transmission line has a failure, the watchdog signal applied to the data receiving side when the circuit failure By accurately detecting an abnormal state of the circuit, it is possible to prevent a test error that determines a fault line as a normal line in advance.

Features of the present invention for achieving the above object, and a data transmission device 30 for transmitting a plurality of sequential watchdog signal patterns in a certain period; The data receiver 30 is configured to monitor whether a plurality of sequential watchdog signal patterns that are applied at regular intervals from the data transmitter 30 are normally applied to determine whether the data transmission line is normal.

1 is a block diagram of a circuit inspection apparatus in a conventional data transmission system.

2 is a block diagram illustrating a circuit inspection apparatus in a data transmission system according to an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

10,30: Data transmitting device 20,40: Data receiving device

11: signal generator 31: pattern generator

32: signal transmission unit 43: pattern comparison unit

23,44: fault signal processor 22,42: signal detector

12,21,33,41: TAXI (Transparent Asynchronous Transmitter / Receiver Interface)

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The line test apparatus in the data transmission system according to the embodiment of the present invention includes a data transmitter 30 and a data receiver 40 as shown in FIG.

The data transmitter 30 includes a pattern generator 31, a signal transmitter 32, and a TAXI 33. The pattern generator 31 generates watchdog signals of different signal patterns consisting of 4-bit signals and applies them to the signal transmitter 32 at regular intervals. The signal transmitter 32 applies a watchdog signal applied from the pattern generator 31 and data transmitted from the subscriber to TAXI 33. The TAXI 33 matches the watchdog signal and data applied from the signal transmitter 32 to the data transmission line and transmits the data to the TAXI 41 side of the data receiver 40.

In addition, the data receiver 40 includes a TAXI 41, a signal detector 42, a pattern comparator 43, and a fault signal processor 44. The TAXI 41 matches the watchdog signal and data applied through the data transmission line and applies the data to the signal detection unit 42. The signal detector 42 detects only the watchdog signal among the data applied from the TAXI 41 and the watchdog signal of the plurality of patterns and applies it to the pattern comparator 43. The pattern comparison unit 43 determines whether the data transmission line is disturbed by monitoring whether or not a plurality of sequential watchdog signals transmitted from the signal detector 42 at regular intervals are normally applied. The signal is applied to the fault signal processor 44. When the fault signal processor 44 receives the line fault signal from the pattern comparator 43, the fault signal processor 44 generates a signal indicating that the data transmission line is faulty to the system controller or the system operator.

The operation of the line test apparatus in the data transmission system according to the embodiment of the present invention configured as described above will be described with reference to FIG. 2.

The pattern generator 31 of the data transmission apparatus 30 sets a plurality of signals having a sequential pattern consisting of a 4-bit signal as a watchdog signal to check whether a data transmission line is disturbed, The watchdog signal is applied to the signal transmitter 32 according to a predetermined period. For example, when a signal from 4 (0100) to '15 (1111) 'is set as a watchdog signal, The pattern generator 31 sequentially transmits the watchdog signal of '4 (0100)' to the watchdog signal of '15 (1111) 'and sequentially applies the signal to the signal transmitter 32 according to a predetermined period. After transmitting the watchdog signal of 15 (1111), the watchdog signal from '4 (0100)' to '15 (1111) 'is applied to the signal transmitter 32 according to a predetermined period. Accordingly, the signal transmitter 32 applies a plurality of patterns of the watchdog signal applied from the pattern generator 31 and data transmitted from the subscriber side to the TAXI 33, and the TAXI 33 receives the signal from the signal transmitter 32. The applied data and watchdog signals are matched to the data transmission line and transmitted to the TAXI 41 side of the data receiving device 40.

In addition, the TAXI 41 matches the data and watchdog signals transmitted from the TAXI 33 side of the data transmitter 30 to the signal detector 42, and the signal detector 42 transmits the TAXI 41. Among the data applied to the watchdog signal and the watchdog signal, the watchdog signal is detected and applied to the pattern comparator 43, and the pattern comparator 43 is sequentially applied from the signal detector 42 according to a predetermined period. First, the applied watchdog signal is latched so as to be preserved until the next watchdog signal is applied, and then the watchdog signal is compared with the next watchdog signal to determine whether the data transmission line is interrupted. That is, the watchdog signal is applied to determine the state of the data transmission line by using watchdog signal patterns continuously applied at a predetermined time interval from '4 (0100)' to '15 (1111) '. When the pattern of '4 (0100)' is the next applied watchdog signal pattern '5 (0101)', the state of the data transmission line is determined to be normal, but the applied watchdog signal is '5 (0100)'. If the pattern is other than 0101), the state of the data transmission line is determined to be abnormal. Similarly, if the pattern of the applied watchdog signal is '5 (0101)' first and the pattern of the applied watchdog signal is '6 (0110'), then the status of the data transmission line is determined to be normal, and then If the applied watchdog signal is other than '6', the state of the data transmission line is determined to be abnormal.

In addition, if the pattern of the first applied watchdog signal is '15 (1111) 'and the pattern of the next applied watchdog signal is' 4 (0100)', the state of the data transmission line is determined to be normal, If the watchdog signal is other than '4 (0100)', the state of the data transmission line is determined to be abnormal. As a result, the pattern comparison unit 43 determines that the state of the data transmission line is normal when the difference between the first applied watchdog signal and the next applied watchdog signal is a decimal number '1' or '11', and the watch applied first. If the difference between the dock signal and the next applied watchdog signal is not a decimal number '1' or '11', it is determined that a failure occurs in the data transmission line, and a line failure signal is generated and applied to the failure signal processor 44. In addition, the pattern comparison unit 43 monitors whether the period of the watchdog signal continuously applied from the signal detection unit 42 matches the time set in the internal timer, and if it does not match, determines that the data transmission line has failed. The line fault signal is applied to the fault signal processor 44.

Accordingly, when the fault signal processor 44 receives the line fault signal from the pattern comparator 43, the fault signal processor 44 generates a signal to the system controller or the system operator to indicate that there is a fault in the corresponding data transmission line. To recover.

As described above, the present invention uses a plurality of patterns of watchdog signals to check the failure of the data transmission line so that an abnormal watchdog signal is transmitted to the data receiver when the data transmission line fails, thereby determining the failure line as a normal line. Since the inspection error is prevented in advance, there is an advantage that it is possible to accurately and stably determine whether the data transmission line has a failure.

Claims (4)

A line test apparatus in a data transmission system, comprising: a data transmitter (30) for transmitting a plurality of watchdog signal patterns sequentially at regular intervals; Data transmission device comprising a data receiving device 40 for monitoring the normal transmission of the data transmission line by monitoring whether a plurality of sequential watchdog signal patterns applied from the data transmission device 30 at regular intervals is normally applied Line tester in the system. The method of claim 1, The data transmission device 30 includes: a pattern generator 31 generating a plurality of sequential watchdog signal patterns and sequentially outputting the plurality of watchdog signal patterns; A signal transmitter 32 for outputting a watchdog signal pattern applied from the pattern generator 31 and data applied from a subscriber side; And a first TAXI (33) for matching a watchdog signal and data applied from the signal transmitter (32) to a data transmission line. The method of claim 1, The data receiving device (40) includes: a second TAXI (41) for matching a watchdog signal and data transmitted from the first TAXI (33) through a data transmission line; A signal detector 42 which detects and outputs only a watchdog signal from among the watchdog signal and data applied from the second TAXI 41; A pattern comparison unit (43) for checking whether a plurality of watchdog signals are sequentially input from the signal detection unit (41) at predetermined intervals and determining whether the data transmission line is in an error state; And a failure signal processor (44) for generating a signal informing of a failure of the data transmission line when the circuit failure signal is received from the pattern comparison unit (43). The method of claim 3, The pattern comparison unit 43 latches a watchdog signal first applied from the signal detector 42 and then checks a code difference with a watchdog signal applied next. And then check whether the input period between the applied watchdog signal coincides with a predetermined time set in the internal timer to determine whether the data transmission line has failed, and transmits a line failure signal to the failure signal processor 44 when a failure occurs. Line inspection apparatus in a data transmission system, characterized in that the authorization.