KR101088795B1 - Apparatus and method for detecting a connection error of scada rtu system - Google Patents

Abstract

PURPOSE: A device for detecting a disconnection error of a SCADA RTU system is provided to generate a grounding error generating alarm and a disconnection error alarm when a SCADA RTU system is constructed, thereby minimizing working hours and the number of workers for building the SCADA RTU system. CONSTITUTION: A power supply unit(220) supplies external power supplied from the outside to a SCADA RTU system through a cable. The power supply unit outputs the output voltage and the output current of supplied power. A determination unit(232) determines whether a SCADA RTU system abnormally operates due to a disconnection error of the cable based on the output voltage and the output current. If the determination unit determines the SCADA RTU system abnormally operates, a controller(234) controls the determination unit to generate an abnormal operation alarm. An alarm unit(250) generates an alarm by the controller, the SCADA RTU system informs an abnormal operation.

Description

Apparatus and method for detecting a connection error of SCADA RTU system}

The present invention relates to a connection error detection apparatus and method of the Skada RTU system, and more particularly, to prevent the connection error occurs during the initial cable connection for the initial installation of the Skada RTU system, to correct the connection error Disconnection and rewiring of the cables is unnecessary, and a device and method for detecting faults in the SCADA RTU system that remotely monitors grounding conditions caused by wiring errors caused by an unspecified number of operators even during operation of the SCADA facility. It is about.

Skada RTU is a core facility of substation unmanned operation and power automation operation, as shown in FIG. 1, the RTU 160 and the CCU 180 connected to the plurality of field facilities 140 are connected to the main power supply 120. do.

The SCADA RTU can cause near power substations or widespread outages in the event of a malfunction. To ensure the reliability of the RTU, the grounding of the monitoring and control cables accommodated must be in good condition, and in the event of an error, judgment and action must be taken immediately.

Grounding is usually caused by a wiring error. In case of grounding, the wiring error should be corrected. When checking the SCADA RTU acceptance and control cable grounding, it can be known only by checking the test point, so it takes 15 minutes to check the wiring error and 7 hours to remove the ground. This took This is mainly due to the complexity of loosening, measuring, and rewiring connections.

Due to the grounding caused by wiring error, the performance and lifespan of the parts are shortened due to the decrease of power output, and there are many problems because the communication port damage or system failure may occur due to the power system accident and the abnormal voltage generated when operating the power equipment.

The conventional SCADA RTU system 100 is constructed through a process of confirming that the wiring of the entire line is correct after the wiring of all the lines required for the system is completed. That is, the worker starts the connection to the plurality of lines in order to construct the SCADA RTU system 100. When the worker completes the wiring of the entire line, the operator checks the wiring error by driving the SCADA RTU system 100. When a wiring error occurs, the operator corrects the wiring error, reconnects it, and restarts the system to recheck the wiring error. When the wiring error occurs again, the worker repeats the above-described process to solve the wiring error. If the wiring error does not occur, the construction is completed.

In the conventional SCADA RTU system 100, when the ground occurs, the performance of the component is lowered due to a decrease in output of the power unit, and the life of the component is reduced, and the communication port is damaged due to an abnormal voltage generated during a power system accident and operation of a power facility, and A system failure will occur.

Therefore, the conventional SCADA RTU system 100 should check whether the SCADA RTU system 100 in operation is grounded to prevent grounding. At this time, the conventional SCADA RTU system 100 checks a plurality of inspection points using a tester when a worker consisting of a pair of two persons when checking whether the RTU acceptance monitoring and control cable is grounded during operation. In general, there are a distributed point consisting of 13 points and 18 points, and an aggregate point consisting of one point and six points. The inspection time takes about 15 minutes for each point of the check point.

When grounding occurs in the conventional SCADA RTU system 100, the operator must detect the grounding position to remove the grounding. In other words, the operator separates and inspects one FPD installed five units per substation to find the ground generation part and detects the enclosure in which the ground occurs. The operator separates and checks each of the ten monitoring modules installed in the detected enclosure (ie, a grounding enclosure) and detects the monitoring module in which the grounding occurs. The operator separates and checks approximately 32 cables, each of which is contained in the detected monitoring module (that is, the grounding monitoring module), to detect the grounding cable. In this process, the worker is composed of two groups, and the ground removal time is about 7 hours on average.

In case of installing the conventional SCADA RTU system, if the SCADA RTU system does not operate normally, check hundreds or thousands of lines already completed to each connected line one by one, and find out the wrong wiring. There is a problem that is consumed.

In the conventional SCADA RTU system, in order to remove the ground when the ground occurs, the FPD, the monitoring module, and the cable installed in the substation must be separated one by one to detect the grounded cable. Therefore, a huge amount of time and manpower is consumed to remove the ground. There is this.

The conventional SCADA RTU system separates and checks each one of the FPD, the monitoring module, and the cable installed in the substation in order to remove the ground, so that remote monitoring and control cannot be performed.

The present invention has been proposed to solve the above-mentioned conventional problems, and uses a power supply variation value of the SCADA RTU system when installing and operating the SCADA RTU system to detect a connection error and a change in the output current value. It is an object of the present invention to provide an apparatus and method for detecting a connection error in an RTU system.

Another object of the present invention is to provide a change in the value of the detected connection error and output current to a management device located at a remote location to quickly process the failure cause analysis and prediction, the connection error detection device and method of the SCADA RTU system In providing.

In order to achieve the above object, the connection error detection apparatus of the SCADA RTU system according to the embodiment of the present invention is a connection error detection apparatus of the SCADA RTU system that detects a cable connection error of the SCADA RTU system. A power supply unit supplying external power to the SCADA RTU system through a cable and outputting an output voltage and an output current of the supplied power; A determination unit determining whether the SCADA RTU system is abnormally driven due to a cable connection error based on an output voltage and an output current from a power supply unit; And a controller configured to generate an abnormal driving alarm when the determination unit determines that the SCDA RTU system is abnormally driven.

The alarm unit may further include an alarm unit configured to generate an alarm under the control of the controller to notify abnormal driving of the SCADA RTU system.

The apparatus further includes a reset processing unit for restarting the wiring error detection device to cancel the alarm occurrence.

The apparatus further includes an input unit for receiving an output voltage setting range and an output current setting range as reference for determining whether the SCADA RTU system is abnormally driven.

The apparatus further includes an output unit configured to display driving information of the SCADA RTU system including an output voltage and an output current, and an abnormal driving alarm occurrence of the SCADA RTU system.

The communication unit for transmitting the drive information of the SCADA RTU system to a remote operation management server further comprises.

In order to achieve the above object, in the connection error detection method of the SCADA RTU system according to the embodiment of the present invention, in the connection error detection method of the SCADA RTU system for detecting a cable connection error of the SCADA RTU system, the power supply unit A power supply step of supplying external power supplied from the outside to the SCADA RTU system through a cable to be connected, and outputting an output voltage and an output current of the supplied power; A determination step of determining, by the determination unit, whether the SCADA RTU system is abnormally driven due to a cable connection error based on the output voltage and the output current output in the power supply step; And an alarm control step to generate an abnormal driving alarm when the controller determines that the SCDA RTU system is abnormally driven in the determining step.

The alarm unit may further include an alarm step for generating an alarm according to the control of the alarm control step to notify abnormal driving of the SCADA RTU system.

The reset processing unit further includes a reset step of restarting the wiring error detection device to cancel the alarm occurrence.

The input unit receives a set time, which is a delay time for resupplying external power to the power supply unit, and an output voltage setting range and an output current setting range as reference for determining whether the SCADA RTU system is abnormally driven in the determination step. It further includes an input step.

The output unit may further include an output step of displaying the driving information of the SCADA RTU system including the output voltage and the output current, and an abnormal driving alarm occurrence of the SCADA RTU system.

The communication unit may further include a communication step of transmitting driving information of the SCADA RTU system to a remote operation management server.

According to the present invention, the connection error detection apparatus and method of the Skada RTU system generates an alarm when a connection error or a ground error occurs during the construction of the Skada RTU system, thereby reducing work time and manpower consumption according to the construction of the initial Skada RTU system. There is an effect that can be minimized.

In addition, the connection error detection device and method of the Skada RTU system continuously manages the connection error and ground error when operating the Skada RTU system, thereby minimizing the work time and manpower consumption according to the ground occurrence check. There is.

In addition, the connection error detection device and method of the Skada RTU system continuously manages the connection error and ground error when the Skada RTU system is operated, thereby eliminating unnecessary cable disconnection / wiring processes, and There is an effect that can minimize the occurrence of failures.

1 is a view for explaining a conventional SCADA RTU system.
2 is a block diagram illustrating a configuration of a wiring error detection apparatus of a SCADA RTU system according to an exemplary embodiment of the present invention.
3 is a view for explaining a connection error detection apparatus of the SCADA RTU system according to an embodiment of the present invention.
4 is a view for explaining a remote operation management server of FIG.
5 is a flowchart illustrating a connection error detection method of a SCADA RTU system according to an embodiment of the present invention.
6 is a flowchart illustrating a method for detecting abnormal driving of a SCADA RTU system according to an exemplary embodiment of the present invention.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. . First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, the wiring error detection apparatus of the SCADA RTU system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram illustrating a configuration of a connection error detection apparatus of the SCADA RTU system according to an embodiment of the present invention, and FIG. 3 is a view illustrating a connection error detection apparatus of the SCADA RTU system according to an embodiment of the present invention. 4 is a view for explaining a remote operation management server of FIG.

As shown in FIG. 2, the wiring error detecting apparatus 200 of the SCADA RTU system 100 includes an external power input unit 210, a power supply unit 220, a determination unit 232, and a control unit 234. The CPU 230 includes an CPU 230, an alarm 250, a reset processor 260, an input unit 270, an output unit 280, and a communication unit 290.

The external power input unit 210 receives an external power and supplies the external power to the power supply 220. That is, the external power input unit 210 receives external power from ± 48V and ± 24V from the main power supply device 120 of the SCADA RTU system 100 and supplies power to the power supply unit 220 through the power breaker. Here, the power input by the external power input unit 210 is a power for driving control of the SCADA RTU system 100.

The power supply unit 220 supplies external power supplied from the outside to the SCADA RTU system 100. That is, the power supply unit 220 supplies the external power supplied from the external power input unit 210 to each device of the SCADA RTU system 100 (that is, the RTU 160, the CCU 180, etc.). At this time, the power output unit 280 is composed of an eight-channel power supply for supplying power of ± 48V, ± 24V to the SCADA RTU system 100.

The power supply unit 220 outputs an output voltage and an output current of the supplied power. That is, the power supply unit 220 detects the output voltage and the output current of the power supplied to the SCADA RTU system 100 and transmits the same to the central processing unit 230. Here, the output voltage and the output current serve as a criterion for determining whether the SCADA RTU system 100 is abnormally driven (that is, whether the rotation is connected).

The CPU 230 determines whether the SCADA RTU system 100 is abnormally driven based on the output voltage and the output current from the power supply unit 220, and supplies power to the power supply unit 220 according to the determination result. Controls whether an alarm occurs. To this end, the central processing unit 230 is configured to include a determination unit 232 and the control unit 234.

The determination unit 232 determines whether the SCADA RTU system 100 is abnormally driven based on the output voltage and the output current from the power supply unit 220. That is, the determination unit 232 compares the output voltage with the output voltage reference range input through the input unit 270, and compares the output current with the output current reference range to determine whether the SCADA RTU system 100 is abnormally driven. do. At this time, the determination unit 232 determines that the output voltage is out of the output voltage reference range or the output current is out of the output current reference range as abnormal driving of the SCADA RTU system 100. Of course, the determination unit 232 may determine that the output voltage is out of the output voltage reference range, and the output current is out of the output current reference range as abnormal driving of the SCADA RTU system 100. This is because the output voltage and the output current are out of the reference range when abnormal driving of the SCADA RTU system 100 occurs due to a connection error or ground generation.

If the determination unit 232 determines that the SCDA RTU system 100 is abnormally driven, the controller 234 controls to cut off the external power supply from the power supply unit 220. That is, if abnormal driving of the SCADA RTU system 100 occurs due to a wiring error or grounding, the controller 234 cuts off the power supply to the SCADA RTU system 100 to close the substation 300 or a wide area power failure. To block this from happening. Here, the controller 234 may control the SCDA RTU system 100 to cut off only the power supply to a device that is abnormally driven due to a wiring error or grounding.

The controller 234 controls to generate an abnormal driving alarm when the determination unit 232 determines that the SCADA RTU system 100 is abnormally driven. That is, the controller 234 controls the alarm unit 250 to notify an administrator of abnormal driving of the SCADA RTU system 100 when abnormal driving of the SCADA RTU system 100 occurs. Here, the control unit 234 transmits an alarm signal to the remote operation management server 400 through the communication unit 290 so that the abnormal driving of the SCADA RTU system 100 can be confirmed even at a remote place.

The alarm unit 250 generates an alarm under the control of the controller 234 to inform the abnormal driving of the SCADA RTU system 100. That is, the alarm unit 250 sends the scarda RTU system 100 to the administrator through the occurrence of a buzzer sound or the lighting / flashing of a lamp or LED according to the control of the controller 234 when an abnormal driving of the Skada RTU system 100 occurs. Informs of abnormal operation of. Here, the alarm unit 250 turns on the LED of a channel having a problem such as a wiring error or grounding through the output unit 280 to be described later, or outputs a channel name to the administrator of the SCADA RTU system 100. It may also indicate abnormal driving.

The reset processing unit 260 restarts the wiring error detection apparatus 200 to release the alarm. That is, the reset processing unit 260 is configured with an input device such as a button to restart the wiring error detection device 200 by the operator's operation to terminate the alarm occurrence. At this time, the wiring error detection apparatus 200 which is re-driven by the reset processing unit 260 is terminated when a problem such as a wiring error or grounding is resolved (that is, the buzzer ends, the output unit 280 of the output unit 280). Channel LED blinks, output of the channel name of the output unit 280, etc.). Of course, the wiring error detecting apparatus 200 driven by the reset processor 260 maintains an alarm state when problems such as wiring errors and grounding have not been solved.

The input unit 270 receives an output voltage setting range and an output current setting range as reference for determining whether the SCADA RTU system 100 is abnormally driven. That is, the input unit 270 receives an output voltage setting range and an output current setting range which are references for generating an alarm.

The input unit 270 is generally composed of a button such as a direction key (up / down), a menu key, a selector, and the like. The input unit 270 may receive a buzzer sound generation time for an alarm and a flashing / lighting time of a lamp or an LED.

The output unit 280 outputs driving information of the SCADA RTU system 100 including the output voltage and the output current. That is, the output unit 280 screen-drives driving information including an output voltage, an output current, and the like according to the driving of the SCADA RTU system 100.

The output unit 280 outputs an abnormal driving alarm occurrence of the SCADA RTU system 100. That is, the output unit 280 turns on / flashes the LED of the corresponding channel or outputs the channel name when the power output (that is, the output voltage, the output current, etc.) is abnormal due to a wiring error or grounding.

The communication unit 290 transmits the driving information of the SCADA RTU system 100 to the remote operation management server 400. That is, the communication unit 290 transmits the drive information of the SCADA RTU system 100 including the output voltage and the output current, the alarm generation, etc. to the remote operation management server 400 through the network 500.

The wiring error detection apparatus 200 of the SCADA RTU system 100 is electrically connected to the main power supply 120 to receive external power, and to supply power to a plurality of electrically connected RTUs 160 and the CCU 180. Supply. Here, in the construction of the Skada RTU system 100, the connection error detection device 200 of the Skada RTU system 100 is connected as shown in FIG. 3 to confirm the connection error. When the wiring is started by the operator, each time the one line is connected, the wiring error detection device 200 of the SCADA RTU system 100 detects the wiring error, and when the wiring error does not occur, the operator next The process of wiring is done. As such, when the connection error detection device 200 of the SCADA RTU system 100 according to the embodiment of the present invention is used, an alarm is generated every time a connection error occurs from the start of the first line to the completion of the last line. Time can be minimized.

The remote operation management server 400 may manage a driving state of the SCADA RTU system 100 located at a remote place. That is, the remote operation management server 400 may manage and control the driving state of the remote RDA system 100 through the remote system operation management program. Here, as shown in Figure 4, the remote system operation management program is selected by the administrator confirmation process, configuration, wiring error detection device 200 registration, voltage fluctuations, current fluctuations, current voltage / current, alarm Outputs a screen that provides functions such as status and history search. Here, the environment setting is a function for setting setting values for operation management such as administrator registration, communication setting, alarm voltage range setting, re-insertion time setting, alarm generation time setting, and the like. The voltage fluctuation situation shows a graph of fluctuations of the output voltage, and the current fluctuation condition shows a graph of fluctuations of the output current. The current voltage / current screen displays the current output voltage and current consumption as a table, green if good, and red if bad. In alarm status, if the power output is abnormal, the LED of the corresponding channel turns on red, and it provides the function of canceling the alarm alarm when an alarm alarm occurs. In case of history search, when the event occurs, the occurrence time and contents are displayed. If you input the period to search, you can search the event occurrence history.

As described above, the connection error detection device 200 of the Skada RTU system 100 generates an alarm when a connection error or a ground error occurs during the construction of the Skada RTU system 100, thereby initializing the Skada RTU system 100. There is an effect that can minimize the work time and manpower consumption according to the construction. In addition, the connection error detection device 200 of the Skada RTU system 100 continuously manages whether a connection error or a ground error occurs during the operation of the Skada RTU system 100, thereby operating time and manpower according to the ground occurrence confirmation. There is an effect that can minimize the consumption. In addition, the connection error detection device 200 of the Skada RTU system 100 continuously manages whether connection errors or ground errors occur during the operation of the Skada RTU system 100, thereby eliminating unnecessary cable disconnection / wiring processes. In addition, there is an effect that can minimize the occurrence of failure due to the cable disconnection / connection process.

Hereinafter, a wiring error detection method of a SCADA RTU system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

5 is a flowchart illustrating a connection error detection method of a SCADA RTU system according to an embodiment of the present invention.

First, the wiring error detection apparatus 200 of the SCADA RTU system 100 is electrically connected to the main power supply 120 to receive external power, and to the plurality of electrically connected RTUs 160 and the CCU 180. It is connected to supply power (see FIG. 3).

When the wiring error detection device 200 of the Skada RTU system 100 is connected, when one line is connected by an operator (S110), the connection error detection device 200 of the Skada RTU system 100 is corresponding. It is determined whether a wiring error of the line occurs (S120). Here, whether the wiring error detection device 200 of the Skada RTU system 100 has a wiring error of the corresponding line based on the output voltage and the output current of the power supplied to the Skada RTU system 100 through the connected line. Judge. That is, the wiring error detection apparatus 200 of the SCADA RTU system 100 compares the output voltage with the output voltage reference range and determines the connection error of the corresponding line by comparing the output current with the output current reference range. At this time, the wiring error detection apparatus 200 of the SCADA RTU system 100 determines that the output voltage is out of the output voltage reference range, or the output current is out of the output current reference range, as the wiring error of the corresponding line. Of course, if the output voltage is out of the output voltage reference range, and the output current is out of the output current reference range, the determination unit 232 may determine that the connection error of the corresponding line.

If it is determined that the connection error occurs (S130; YES), the connection error detection device 200 of the SCADA RTU system 100 generates an alarm to inform the operator that a connection error has occurred in the corresponding line (S140).

After checking the wiring error occurrence alarm, the operator reconnects and corrects a line in which the wiring error has occurred (S150).

If it is determined that the connection error does not occur in the connection error detection apparatus 200 of the SCADA RTU system 100, it is determined whether the connection of all the lines is completed (S160). At this time, if the wiring of the entire line is not completed, the above-described steps S110 to S150 are repeatedly performed until the wiring of the entire line is completed.

6 is a flowchart illustrating a method for detecting abnormal driving of a SCADA RTU system according to an exemplary embodiment of the present invention. Here, the flowchart shown in FIG. 6 is a method of detecting abnormal driving due to a connection error, ground generation, etc. when the SCADA RTU system 100 is operated.

The connection error detection apparatus 200 of the SCADA RTU system 100 supplies power to the SCADA RTU system 100 through a corresponding line as a line is connected. At this time, the power supply unit 220 outputs the output voltage and the output current of the power supplied to the SCADA RTU system 100 to the determination unit 232 (S210).

The determination unit 232 compares the output voltage and the output current from the power supply unit 220 with a preset setting range, respectively, and determines whether the SCADA RTU system 100 is abnormally driven (S220). That is, the determination unit 232 compares the output voltage with the output voltage reference range input through the input unit 270, and compares the output current with the output current reference range to determine whether the SCADA RTU system 100 is abnormally driven. do. At this time, the determination unit 232 determines that the output voltage is out of the output voltage reference range or the output current is out of the output current reference range as abnormal driving of the SCADA RTU system 100. Of course, the determination unit 232 may determine that the output voltage is out of the output voltage reference range, and the output current is out of the output current reference range as abnormal driving of the SCADA RTU system 100.

If the determination unit 232 determines the abnormal driving of the Skada RTU system 100 (S230; YES), the controller 234 controls the alarm unit 250 to generate an abnormal driving alarm of the Skada RTU system 100. Occurs (S240). The alarm unit 250 may abnormally drive the Skada RTU system 100 to an administrator through the occurrence of a buzzer sound or the lighting / flashing of a lamp or LED according to the control of the controller 234 when an abnormal drive of the Skada RTU system 100 occurs. Tells. Here, the alarm unit 250 turns on the LED of a channel having a problem such as a wiring error or grounding through the output unit 280 to be described later, or outputs a channel name to the administrator of the SCADA RTU system 100. It may also indicate abnormal driving.

As described above, the connection error detection method of the Skada RTU system 100 generates an alarm when a connection error or a ground error occurs during the construction of the Skada RTU system 100, thereby preventing the construction of the initial Skada RTU system 100. There is an effect that can minimize the work time and manpower consumption. In addition, the connection error detection method of the Skada RTU system 100 continuously manages whether a connection error or a ground error occurs during the operation of the Skada RTU system 100, thereby minimizing work time and manpower consumption according to the ground occurrence check. It can work. In addition, the connection error detection method of the Skada RTU system 100 continuously manages whether a connection error or a ground error occurs during the operation of the Skada RTU system 100, thereby eliminating unnecessary cable disconnection / connection processes and disconnecting cables. There is an effect that can minimize the occurrence of failures due to the wiring process.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

100: Skada RTU system 120: main power supply
140: field equipment 160: RTU
180: CCU 200: wiring error detection device
210: external power input unit 220: power supply unit
230: central processing unit 232: determination unit
234: control unit 250: alarm unit
260: reset processing unit 270: input unit
280: output unit 290: communication unit
300: substation 400: remote operation management server
500: network

Claims (12)

In the connection error detection device of the Skada RTU system for detecting a cable connection error of the Skada RTU system,
A power supply unit supplying external power supplied from the outside to the SCADA RTU system through the cable and outputting an output voltage and an output current of the supplied power;
A determination unit that determines whether the SCADA RTU system is abnormally driven due to a connection error of the cable based on an output voltage and an output current from the power supply unit; And
And a controller for controlling an abnormal driving alarm to be generated when the determination unit determines that the SCADA RTU system is abnormally driven. The method according to claim 1,
And an alarm unit for generating an alarm under the control of the controller to notify abnormal driving of the SCADA RTU system. The method according to claim 1,
And a reset processing unit for re-activating the wiring error detection device to release the alarm occurrence. The method according to claim 1,
And an input unit configured to receive an output voltage setting range and an output current setting range as reference for determining whether the SCADA RTU system is abnormally driven. The method according to claim 1,
Connection error detection of the SCADA RTU system, characterized in that it further comprises an output unit for outputting the drive information of the SCADA RTU system including the output voltage and the output current, the abnormal drive alarm occurrence of the SCADA RTU system Device. The method according to claim 1,
Connection error detection apparatus of the SCADA RTU system further comprises a communication unit for transmitting the drive information of the SCADA RTU system to a remote operation management server. In the connection error detection method of the SCADA RTU system for detecting the cable connection error of the SCADA RTU system,
A power supply step of supplying, by a power supply unit, external power supplied from the outside to the SCADA RTU system through the connected cable, and outputting an output voltage and an output current of the supplied power;
A determination step of determining, by the determination unit, whether the SCADA RTU system is abnormally driven due to a connection error of the cable based on the output voltage and the output current output in the power supply step; And
And determining, by the control unit, an abnormal driving alarm to generate an abnormal driving alarm when it is determined in the determining step that the SCDA RTU system is abnormally driven. The method according to claim 7,
And an alarm step of generating an alarm according to the control of the alarm control step by an alarm unit to notify abnormal driving of the SCADA RTU system. The method according to claim 8,
And a reset step of restarting, by the reset processing unit, a wiring error detection device to cancel the alarm occurrence. The method according to claim 7,
By the input unit, a setting time which is a delay time for resupplying external power to the power supply unit, and an output voltage setting range and an output current setting range which are criteria for determining whether the SCADA RTU system is abnormally driven in the determination step Wiring error detection method of the SCADA RTU system characterized in that it further comprises an input step received. The method according to claim 7,
And an output step of outputting, by an output unit, driving information of the SCADA RTU system including the output voltage and the output current, and an abnormal driving alarm occurrence of the SCADA RTU system. Wiring error detection method of RTU system. The method according to claim 7,
And a communication step of transmitting, by the communication unit, the driving information of the SCADA RTU system to a remote operation management server.

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