KR100994880B1 - System and method for acquiring power monitoring data using distributed network protocol - Google Patents

Abstract

The present invention collects power monitoring data using DNP communication, which collects data of digital protection relay using a user defined DNP point list when collecting data of digital protection relay using DNP (Distributed Network Protocol) communication. The present invention relates to a system and method, in which a relay collects an event generated during a power system monitoring, stores the collected event when it is included in a user defined point list, and stores the user defined point list according to the event information request of the monitoring apparatus. Is transmitted to the monitoring device using DNP communication.

Digital Protection Relay, Power System Monitoring, DNP, Point List, Custom

Description

Power monitoring data collection system and method using DNP communication {SYSTEM AND METHOD FOR ACQUIRING POWER MONITORING DATA USING DISTRIBUTED NETWORK PROTOCOL}

The present invention relates to the data collection of the digital protection relay in the monitoring device, and in particular, the digital protection by using a user defined DNP point list when collecting the data of the digital protection relay using DNP (Distributed Network Protocol) communication in the monitoring device The present invention relates to a power monitoring data collection system and method using DNP communication for collecting data of a relay.

The DNP protocol in the digital protective relay is an industrial standard protocol used for acquiring the information of the power system. In particular, the DNP protocol is used as a communication method between a monitoring device and a digital protective relay (hereinafter referred to as a relay). The basic unit of information.

The relay's DNP point list is a list that assigns each relay's information to each point, and is generally set according to the unique information characteristics of the relay, and the monitoring device is required based on the relay's DNP point list. The data points are specified to obtain the necessary data from the relay.

The Digital Protection Relay is equipped with various protection algorithms to protect the system from various accidents such as overcurrent, short circuit, ground fault, etc., and provides various additional functions such as self-diagnosis function, fault recording function, and SOE function. Device.

FIG. 1 is a diagram illustrating a general monitoring device and a relay, and FIG. 2 is a view illustrating a communication method between a monitoring device and a relay according to the prior art, and the monitoring device 10 uses the DNP communication to relay 50. Communication for data collection).

At this time, as shown in FIG. 2, the relay 50 includes R phase voltage, S phase voltage, T phase voltage, R phase current, S phase current, T phase current, and R phase frequency, which are various power monitoring data generated during power system monitoring. , 3 phase power, voltage-current phase, 2nd harmonic, 3rd harmonic, 4th harmonic, 5th harmonic, 6th harmonic, image voltage, image voltage maximum value, reverse phase voltage, reverse phase current, etc. Collect according to the order of basic DNP point list provided.

In the monitoring device 10, the R phase voltage, the S phase voltage, the T phase voltage, the R phase current, the S phase current, the T phase current, the image voltage, the image voltage maximum value, the reverse phase voltage, the reverse phase current, etc. When the data is to be collected through DNP communication, the data are not arranged continuously but are arranged discontinuously as shown in FIG. 2, and thus, the data request-response process must be performed a total of four times.

In FIG. 2, a total of 161 data is defined in the order of the R phase voltage, the S phase voltage, and the T phase voltage in the DNP point list of the relay 50.

At this time, the data that the monitoring device 10 wants to acquire from the relay 50 using the DNP protocol is R phase voltage, S phase voltage, T phase voltage, R phase current, S phase current, T phase current, image voltage, In the case of video voltage maximum value, reverse phase voltage, reverse phase current, a total of 4 request-response processes are obtained to obtain this data, or a maximum of 161 data is obtained through a total of 1 request-response process and then the monitoring device 10 It needs to go through a separate process to get necessary data internally.

As described above, in the conventional data collection method, all data collected by the relay 50 are registered and managed in the DNP point list, and a plurality of points discontinuously arranged in the monitoring device 10 to which a plurality of relays are connected. In the case where the list information is to be acquired, a request command of the desired information must be issued for each relay 50 or a command for requesting a large amount of data at once.

In this case, the number of request-response increases according to the kind of discontinuous data point list, so that the DNP communication system of the monitoring device 10 needs more transmission / reception or a large amount of data must be transmitted and processed at one time. Therefore, there is a problem that the traffic of the entire system is increased and the occupancy time of the communication line is unnecessarily increased.

In addition, the generation of the DNP event from the relay 50 in the monitoring device 10 is one of important operations. When an event corresponding to the DNP point list of the relay 50 occurs, the monitoring device 10 Information about an event that does not need to be acquired is transmitted from the relay 50, so that the monitoring device 10 has to perform a separate process for this, which is a very inefficient problem.

An object of the present invention is to allow the relay to collect data according to a continuous list of DNP points defined by the user, so that the monitoring device can acquire all the necessary information from the relay in one request and response, thereby increasing the efficiency of data collection. The present invention provides a power monitoring data collection system and method using DNP communication.

The technical means of the present invention for achieving the above object is to collect the events generated during the monitoring of the power system, determine whether the collected event is included in the user-defined point list and store only the event information included in the user-defined point list Monitoring device for storing the user-defined point list generated by editing the relay and the initial DNP point list in the memory, and requesting the relay event information to receive the stored user-defined point list using DNP (Distributed Network Protocol) communication Characterized in that it comprises a.

Specifically, the relay receives and stores a user defined point list from the monitoring apparatus.

The technical method of the present invention for achieving the above object, the monitoring device stores the user-defined point list generated by editing the initial DNP point list in the memory, the relay receives and stores the user-defined point list from the monitoring device In the first step, the relay collects the events generated during the monitoring of the power system, and the second step of determining whether the collected event is included in the user-defined point list, the determination result in the user-defined point list of the collected event And a fourth step of storing only the included event and transmitting the stored user-defined point list to the monitoring device using DNP communication according to the event information request of the monitoring device. .

Specifically, the user defined point list includes at least two or more data of each phase voltage, each phase current, image voltage, image voltage maximum value, reverse phase voltage, and reverse phase current, and the data are continuously arranged. It is done.

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As described above, the present invention allows the relay to collect data according to a continuous list of DNP points defined by the user, thereby improving communication efficiency of the monitoring device and implementing the data in a convenient way in acquiring the necessary data. By doing so, there is an advantage of improving data collection efficiency in DNP communication between the monitoring device and the relay.

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

3 is a flowchart illustrating a data collection process of the relay in the monitoring apparatus according to the present invention, which will be described with reference to FIGS. 1 and 4 to 6.

First, referring to FIG. 1, a data collection system according to the present invention collects events generated during power system monitoring, determines whether the collected events are included in the user defined point list, and then collects the collected events in the user defined point list. If included in the relay 50 for storing the collected event, and the monitoring device 10 for receiving the event information to the relay 50 is stored using a DNP (Distributed Network Protocol) communication network stored Consists of

The relay 50 receives and stores a user defined point list from the monitoring device 10, and the monitoring device 10 stores a user defined point list in which an initial DNP point list is edited in a memory, and the user defined point. It is configured to download the list to the relay 50.

The operation of the data collection system configured as described above will be described using the flowchart of FIG. 3.

The user newly defines the DNP point list of the relay 50 to be acquired by the monitoring apparatus 10 using a predetermined point list editing program as shown in FIG. 4 to create a user-defined DNP point list (S1).

That is, as shown in FIG. 4, the initial DNP point list of the relay 50 includes an R phase voltage, an S phase voltage, a T phase voltage, ..., voltage-current phase, ..., harmonics, ..., reverse phase current, and the like. A total of 161 data are defined in order of. A user-defined DNP point list is generated by newly defining a total of 10 point lists in the order of, for example, R phase voltage, S phase voltage, T phase voltage, ..., reverse phase current, etc., using a point list editing program. .

The monitoring apparatus 10 stores the DNP point list thus redefined, and downloads the user-defined DNP point list to at least one relay 50 connected through a network (S2).

Accordingly, the relay 50 stores the user-defined DNP point list transmitted from the monitoring device 10 (S3).

Subsequently, the relay 50 sequentially collects the events occurring during the monitoring of the power system (S4), and compares and determines whether the collected events correspond to the data of the stored user-defined point list (S5).

That is, the relay 50 collects 23 events, for example, various events generated during power system monitoring as shown in FIG. 5, and determines whether the collected events correspond to a pre-stored user defined point list. Here, it can be seen that only the R phase voltage, the T phase current, the image voltage, and the T phase voltage event among the 23 events correspond to the user defined point list redefined in FIG. 4.

Accordingly, the relay 50 stores only events corresponding to the user-defined point list, that is, only data such as the R phase voltage, the T phase current, the image voltage, and the T phase voltage (S6), and ignores the remaining data without storing the data. (S9).

Subsequently, the relay 50 determines whether an event transmission command is received from the monitoring device 10 (S7), and when the event transmission command is received, monitors the event information defined by the user-defined point list as shown in FIG. 5. The device 10 transmits the data to the device 10 (S8).

Through this, the monitoring device 10 required an operation for a total of 23 event occurrences, but the proposed method only requires an operation for a total of 4 event occurrences.

That is, in the conventional method, as shown in the DNP point list of FIG. 2, the monitoring apparatus 10 is arranged in a position discontinuously at a position where phase voltage, phase current, image voltage, image voltage maximum value, reverse phase voltage, and reverse phase current are separated from each other. In order to obtain the corresponding information, a total of four request-response communication processes with the relay 50 are required, or after transmitting a total of 161 data from the relay 50 to the monitoring device 10, the monitoring device 10 It was quite inefficient because it required a separate process to obtain only the necessary data. However, in the present invention, the phase voltage, the phase current, the image voltage, the image voltage maximum value, the reverse phase voltage, and the reverse phase current can be obtained with a single request through the user-defined DNP point list as shown in FIG.

Preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit of the present invention. Therefore, such modifications, changes and additions should be determined not only by the claims below, but also by equivalents to those claims.

1 is a view showing a general monitoring device and a relay.

2 is a view for explaining a communication method between the monitoring device and the relay according to the prior art.

3 is a flowchart illustrating a data collection process of the relay in the monitoring apparatus according to the present invention.

4 is a diagram illustrating a method of editing a DNP point list according to the present invention.

5 is a view showing a data collection method in the relay according to the present invention.

6 is a view showing a communication method between the monitoring device and the relay according to the present invention.

Claims (6)

A relay that collects events generated during power system monitoring, determines whether the collected events are included in a user defined point list, and stores only event information included in the user defined point list; And A monitoring device storing a user defined point list generated by editing an initial DNP point list in a memory, and requesting the relay for event information, and transmitting the stored user defined point list using DNP (Distributed Network Protocol) communication; Power monitoring data collection system using the DNP communication. The method according to claim 1, The relay is a power monitoring data collection system using a DNP communication, characterized in that for receiving and storing a user-defined point list from the monitoring device. delete The monitoring apparatus stores a user defined point list generated by editing an initial DNP point list in a memory, and the relay receives and stores the user defined point list from the monitoring apparatus; The relay collects an event generated during power system monitoring, and determines whether the collected event is included in a user defined point list; Storing only an event included in the user defined point list among the events collected as a result of the determination; And And transmitting a stored user-defined point list to the monitoring device using a DNP communication in accordance with the event information request of the monitoring device. delete The method according to claim 4, The user defined point list, At least two or more data of each phase voltage, each phase current, image voltage, image voltage maximum value, reverse phase voltage, and reverse phase current, and the data are collected by power monitoring data using DNP communication, characterized in that the arrangement Way.

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