KR101345512B1 - Digital Protective Relay with Duplex Function - Google Patents

Abstract

The present invention allows a digital protection relay having both a line duplication function and a process duplication function to correspond appropriately to the configuration of the far monitoring station so that communication with the far monitoring station can be performed without confusion. To this end, the digital protection relay maintains data to be transmitted to each communication line in a separate database for process redundancy, but when a single remote monitoring station is connected, it uses one database according to the duplex operation mode set by the administrator. Process to ensure continuity and consistency of data. Accordingly, while using the process redundancy function when connecting individual remote monitoring boards independently, it is possible to appropriately cope with a situation in which a communication line is switched when a single remote monitoring panel is connected, so that data can be transmitted and received smoothly.

Description

Digital Protective Relay with Duplex Function

The present invention relates to a digital protection relay having a redundancy function, and in particular, a digital protection relay having both a line redundancy function and a process redundancy method for responding to independent communication requests from different remote monitoring panels is appropriately adapted to the configuration of the remote monitoring board. Make sure you communicate without confusion.

Digital protection relay is a device installed in power system such as power generation or transmission and distribution. It monitors and protects the state of power system. When an abnormality occurs in the power system, a circuit breaker operates to cut off the circuit between the power system and the load device. It protects the power system and load equipment by playing the role of.

Various data such as electricity quantity and fault information of digital protective relay can be collected from remote monitoring station through communication line.

Digital protection relay uses general serial communication method such as RS-232 and RS-485 to interface with administrator or remote monitoring station. Recently, communication method with remote monitoring station using Ethernet has been applied.

When the digital protection relay and remote monitoring panel are connected through a single communication line, if the communication line is defective, communication is impossible. Therefore, a redundant communication line is provided with a redundant communication port in the digital protection relay. ) Is being applied.

Because the line redundancy simply includes one more communication line to communicate with the remote monitoring station, the digital protective relay cannot communicate independently with multiple remote control panels at the same time.

For example, it is not applicable to a system that separates and operates a remote surveillance group dedicated to transmitting control commands to the digital protective relay and a remote surveillance group dedicated to collecting monitoring data from the digital protective relay.

In other words, the line redundancy alone cannot satisfy the necessity of diversification of the remote monitoring system, diversification of the communication protocols that can be supported, and differentiation of the general monitoring function and emergency message transmission function.

Therefore, the duplication method (process duplication method), which operates a separate communication process for each communication line, may be used together with the line duplication method.

The process duplication method is connected to each remote monitoring board through a separate communication line and maintains independent communication processes. Therefore, the configuration of the remote monitoring board is diversified, the communication protocols that can be supported, the general monitoring function and emergency message transmission function are differentiated. It can satisfy the necessity such as

However, in the process redundancy method, since the communication process for each communication line operates independently, when one remote monitoring panel is connected to the digital protection relay, it may not operate properly.

For example, if a digital protective relay is connected to a single remote monitoring station and an abnormality occurs in one communication line, causing a switchover to communicate via another communication line, data is not shared between two independent communication processes of the digital protection relay. As a result, failure history data monitored by one side may be duplicated on the other communication line.

Accordingly, the present invention has been made to solve the above problems, so that the digital protection relay having both the line redundancy function and the process redundancy function can properly correspond to the configuration of the remote monitoring panel to maintain communication with the remote monitoring panel without confusion. Its purpose is to.

In order to achieve the above object, the digital protection relay having a redundancy function according to the present invention, the first communication unit for transmitting data stored in the first database by communicating with the remote monitoring panel via the first communication line; A second communication unit for transmitting data stored in a second database by communicating with a remote monitoring group through a second communication line; A channel data processor configured to store data to be transmitted through the first communication line among data of a main database in the first database and to store data to be transmitted through the second communication line in the second database; And a switching processor configured to switch the second communication unit to transmit data of the first database instead of the second database according to a duplex operation mode set by an administrator.

The switching processor may switch the first communication unit to transmit data of the second database instead of the first database according to a duplex operation mode set by an administrator.

The same remote monitoring panel may be commonly connected to the first communication line and the second communication line, and different remote monitoring panels may be connected to each other to independently communicate with the digital protection relay.

The transfer processing unit may transmit the data of the first database when the second communication unit is in a redundant operation mode in which the same remote monitoring panel is connected to the first communication line (main line) and the second communication line (spare line). Can be transferred

The transfer processing unit transmits data of the second database when the second communication line (main line) and the first communication line (spare line) are connected to the same remote monitoring panel in a redundant operation mode. Can be transferred

The first communication unit and the second communication unit, respectively, a communication port physically connected to the remote monitoring panel, a communication controller communicating with the remote monitoring panel connected to the communication port using a predetermined communication protocol, and according to the switching state of the transfer processing unit And a channel task processor that reads data of one of the first database and the second database and transfers the data to the corresponding communication controller.

According to the present invention, when a single remote monitoring panel is connected to a digital protection relay to which both a line duplication function and a process duplication function are applied, the digital protection relay always transmits common internal data to the far monitoring group regardless of whether the communication line is switched.

Therefore, when switching the communication line, it is possible to prevent an error such as unnecessary data being duplicated and transmitted to the remote monitoring station.

If independent remote monitoring boards are independently connected to the digital protection relay, the process redundancy function of transmitting the internal data, which is individually maintained in response to each communication line, to the corresponding remote monitoring board is performed as it is.

By setting the redundant operation mode of the digital protective relay, the administrator can use the digital protective relay installed at each site according to its purpose.

1 is an example of the configuration of a digital protective relay,
2 and 3 are examples of the connection structure between the digital protective relay and the remote monitoring panel,
4 and 5 each embodiment of the digital protective relay according to the present invention,
6 is an example summarizing an operation process according to a redundant operation mode of a digital protection relay.

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

Referring to FIG. 1, the digital protection relay 10 may include a central processing unit (CPU) 13, which collectively controls the digital protection relay, and a ROM storing a computer program for operating the digital protection relay. Read Only Memory (14), RAM for temporarily storing data during operation (RAM), first communication port 11-1 and second communication port 11-2 for line redundancy, each The first communication controller 12-1 and the second communication controller 12-2, which communicate with the remote monitoring station through the communication ports 11-1 and 11-2, the administrator computer 19 such as a notebook computer. ) May be configured to include a download port 16 or the like to connect or set the operation information of the digital protection relay.

When the digital protection relay 10 starts to operate, the central processing unit 13 executes a computer program stored in the ROM 14 to operate, and the necessary information during operation is stored and maintained in the RAM 15.

Although not shown separately, the central processing unit 13 includes operation information and sensors input from a current transformer (CT) for detecting current from a power system, a displacement transformer (PT) for detecting a voltage from a power system, and the like. Various types of information such as the measured information are managed and transmitted to the remote monitoring station through the communication controllers 12-1 and 12-2.

On the other hand, both the line redundancy function and the process redundancy function are applied to the digital protection relay 10.

Referring to FIG. 2, the digital protective relay 10 may be connected to a single remote monitoring panel 21 through each communication port 11-1 and 11-2.

That is, one remote monitoring panel 21 via a first communication line connected to the first communication port 11-1 of the digital protective relay 10 and a second communication line connected to the second communication port 11-2. Is connected to the remote monitoring panel 21 via the first communication line, if an abnormality occurs during communication with the second communication line by switching the communication path through the second communication port (11-2) far monitoring panel (21) Communicate with

Referring to FIG. 3, the digital protective relay 10 may be connected to separate remote monitoring panels 21 and 22 through communication ports 11-1 and 11-2.

That is, the digital protective relay 10 is connected to the remote monitoring panel A 21 through the first communication line connected to the first communication port 11-1, and is connected to the second communication port 11-2. It is connected to another remote monitoring group B 22 through two communication lines.

At this time, the digital protective relay 10 independently maintains a communication process for communicating with the far-field monitoring group A 21 through the first communication line, and a communication process for communicating with the far-field monitoring group B 22 through the second communication line. Each communication process can communicate independently without being affected by other communication processes.

Therefore, one far surveillance group A 21 is responsible for transmitting control commands to the digital protection relay 10 and another far surveillance group B 22 collects surveillance data from the digital protection relay 10. It will be possible to operate remote monitoring groups separately from each other.

In particular, the digital protection relay according to the present invention is connected to a separate remote monitoring panel and a separate remote monitoring panel by switching data to be transmitted to the remote monitoring panel through each communication line according to the redundant operation mode set by the administrator. Make sure you respond appropriately to each situation.

Referring to FIG. 4, an embodiment of the digital protection relay 10 according to the present invention will be described.

The first communication unit 41 communicates with the remote monitoring station through the first communication line to transmit data stored in the first database 42, and the second communication unit 43 uses the second communication line. It communicates with the remote monitoring station and transmits the data stored in the second database 44.

 The first database 42 holds data to be transmitted via the first communication line, and the second database 44 holds data to be transmitted via the second communication line.

That is, since the digital protection relay 10 basically provides a process redundancy function, data to be transmitted through each communication line is independently maintained.

The first communication unit 41 and the second communication unit 43 are communication ports 11-1 and 11-2, communication controllers 12-1 and 12-2, and channel task processing units that are physically connected to the remote monitoring panel, respectively. 41-3,43-3).

Each communication controller 12-1, 12-2 performs a role of communicating with a remote monitoring station using a predetermined communication protocol, for example, an Ethernet communication method, and each channel task processing unit 41-3, 43-3 currently The data of either the first database 42 or the second database 44 is read and transmitted to the communication controllers 12-1 and 12-2 according to the set duplication mode.

In other words, the first database 42 and the second database 44 are independently maintained in correspondence with the first communication line and the second communication line, respectively.

However, according to the duplex operation mode, the second channel task processing unit 43-3 selectively transfers the data of the first database 42 or the data of the second database 44 to the second communication controller 12-2. do.

FIG. 4 illustrates an embodiment in which a path of data transmitted from the second channel task processor 43-3 to the second communication controller 12-2 is changed. However, as shown in FIG. Accordingly, the first channel task processor 41-3 may be configured to selectively transmit data of the first database 42 or data of the second database 44 to the first communication controller 12-1. to be.

The roles of the first channel task processor 41-3 and the second channel task processor 43-3 may be implemented by using a task function generated and maintained by the CPU 13 during its operation. .

The channel data processor 47 stores, in the first database 42, data to be transmitted through the first communication line among the information of the main database 48 storing the internal data of the digital protection relay 10, and the second communication. Data to be transmitted via the line is stored in the second database 44.

The data stored in the first database 42 and the data stored in the second database 44 by the channel data processor 47 may be the same or different according to the connection relationship between the digital protection relay 10 and the remote monitoring panel.

The role of the channel data processor 47 may be implemented by using a task function generated and maintained by the CPU 13 during its operation.

The transfer processing unit 46 switches the second communication unit 43 to transmit the data of any one of the first database 42 and the second database 44 to the remote monitoring station according to the duplex operation mode set by the administrator.

That is, when the duplication operation mode set by the administrator is a mode in which remote monitoring panels that are independent of each other are connected as shown in the example shown in FIG. 44).

At this time, the first communication unit 41 transmits the data of the first database 42 to the remote monitoring group A 21, and the second communication unit 43 transmits the data of the second database 44 to the remote monitoring panel B 22. Send.

However, if the redundant operation mode set by the administrator is a mode in which a single remote monitoring panel is connected as shown in the example shown in FIG. 2, the transfer processing unit 46 sends the second channel task processing unit 43-3 to the first database 42. Connect with

At this time, in the normal state, only the first communication unit 41 transmits the data of the first database 42 to the remote monitoring panel 21.

When communication is performed through the first communication unit 41 and an abnormality occurs in the first communication line and the communication line is switched to the second communication line, the second communication unit 43 remotely monitors the data of the first database 42. (21).

That is, in the mode in which a single remote monitoring panel is connected, even if the communication line is switched, the data of the first database 42 are commonly transmitted to the remote monitoring panel, so that problems such as duplicate transmission do not occur.

On the other hand, as described above, in the digital protection relay 10, the first channel task processor 41-3 may perform data or second database in the redundant operation mode according to the redundant operation mode, as opposed to the example illustrated in FIG. 4. And may optionally be configured to pass data of 44 to the first communication controller 12-1.

Referring to FIG. 5, in this embodiment, the transfer processing unit 46 is configured such that the first communication unit 43 stores data of one of the first database 42 and the second database 44 according to the duplex operation mode set by the administrator. Switch to transmit to remote monitoring station.

That is, when the duplication operation mode set by the administrator is a mode in which remote monitoring panels that are independent of each other are connected as shown in the example shown in FIG. 3, the transfer processing unit 46 sets the first channel task processing unit 41-3 to the first database ( 42).

At this time, the first communication unit 41 transmits the data of the first database 42 to the remote monitoring group A 21, and the second communication unit 43 transmits the data of the second database 44 to the remote monitoring panel B 22. Send.

However, if the duplex operation mode set by the administrator is a mode in which a single remote monitoring panel is connected as in the example shown in FIG. 2, the transfer processing unit 46 sends the first channel task processing unit 41-3 to the second database 44. Connect with

At this time, in the normal state, only the second communication unit 43 transmits the data of the second database 44 to the remote monitoring panel 21.

When communication is performed through the second communication unit 43 and an abnormality occurs in the second communication line and the communication line is switched to the first communication line, the first communication unit 41 remotely monitors the data of the second database 44. (21).

That is, in the mode where the single remote monitoring panel is connected, even if the communication line is switched, the data of the second database 44 are commonly transmitted to the remote monitoring panel, so that problems such as duplicate transmission do not occur.

Referring to FIG. 6, the data transmission process of the second communication unit 43 in the embodiment shown in FIG. 4 will be summarized.

Referring to FIG. 6A, when the administrator sets the duplex operation mode to a mode for connecting a single remote monitoring panel (S61-1), the second communication unit 43 communicates with the first database 42 by the transfer processing unit 46. It is connected (S61-2).

Accordingly, when the communication line is switched from the first communication line, which is the main line, to the second communication line, which is a spare line, the second communication unit 43 transmits the data of the first database 42 to the remote monitoring panel 21 ( S61-3).

Referring to FIG. 6B, when the administrator sets the duplex operation mode to a mode for connecting a separate remote monitoring panel (S62-1), the second communication unit 43 uses the second database 42 by the transfer processing unit 46. It is connected to (S62-2).

As a result, the second communication unit 43 transmits the data of the second database 44 to the remote monitoring panel 22.

In this way, the administrator decides the connection method between the digital protection relay and the remote monitoring panel, and then sets the duplex operation mode of the digital protection relay accordingly, so that when a single remote monitoring panel is connected while using the process redundancy function when connecting the individual remote monitoring panel normally. Even when the communication line is switched, the communication can be properly handled so that data can be transmitted and received smoothly.

It is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

10: digital protective relay 11-1: first communication port
11-2: second communication port 12-1: first communication controller
12-2: second communication controller 13: central processing unit
14: Romans 15: Ram
16: Download port 21,22: remote watchdog
41: first communication unit 41-3: first channel task processing unit
42: first database 43: second communication unit
43-3: second channel task processing unit 44: second database
46: transfer processing unit 47: channel data processing unit
48: main database

Claims (4)

In the digital protection relay having a redundancy function that is used for the protection of the power system and can communicate with the remote monitoring station through a separate communication line,
A first communication unit communicating with a remote monitoring group through a first communication line to transmit data stored in a first database;
A second communication unit for transmitting data stored in a second database by communicating with a remote monitoring group through a second communication line;
A channel data processor configured to store data to be transmitted through the first communication line among data of a main database in the first database and to store data to be transmitted through the second communication line in the second database; And
A switching processing unit for switching the second communication unit (or the first communication unit) to transmit data of the first database (or the second database) instead of the second database (or the first database) according to a duplex operation mode set by an administrator; Digital protection relay having a redundancy function comprising a. The method of claim 1,
The transfer processing unit may transmit the data of the first database when the second communication unit is in a redundant operation mode in which the same remote monitoring panel is connected to the first communication line (main line) and the second communication line (spare line). A digital protective relay having a redundancy function, characterized by switching. The method of claim 1,
The transfer processing unit transmits data of the second database when the second communication line (main line) and the first communication line (spare line) are connected to the same remote monitoring panel in a redundant operation mode. A digital protective relay having a redundancy function, characterized by switching. The method of claim 1,
The first communication unit and the second communication unit, respectively, a communication port physically connected to the remote monitoring panel, a communication controller communicating with the remote monitoring panel connected to the communication port using a predetermined communication protocol, and according to the switching state of the transfer processing unit The digital protection relay having a redundancy function comprising a channel task processing unit for reading the data of any one of the first database and the second database to pass to the communication controller.

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