KR20210095502A - A method for sending Trip Information Packet at the Protective Relay Test - Google Patents

Abstract

The present invention relates to a protective relay and a method of controlling the protective relay in a protective relay test. The protective relay comprises: a detection unit detecting different current relay elements based on a reference value preset by a user; a control unit performing a trip or an alarm operation based on the detection result, and constructing an occurrence information packet with the operation performing status; and a communication unit transmitting the occurrence information packet to relay test equipment. Also, the control unit determines whether a transmission link for transmitting the occurrence information packet is being used, determines packet transmission scheduling based on the determination result, whether a plurality of different current relay elements are detected by the reference value, and the importance of each current relay element, and includes information associated with the packet transmission scheduling in the occurrence information packet.

Description

{A method for sending Trip Information Packet at the Protective Relay Test}

The present invention relates to a protection relay inspection, and more particularly, to a control method of a protection relay in a protection relay inspection.

In connection with circuit breakers such as ACB (Air Circuit Breaker) or MCCB (Mold Case Circuit Breaker, circuit breaker), the protection relay is connected with current relay elements (long-time overcurrent, short-time overcurrent, instantaneous current, ground fault current, PTA). (PRE TRIP ALARM, etc.) is a device that trips the circuit breaker or alarms the user through LEDs, etc.).

The user can set the reference value for detecting the current relay element with the current value and operation time for each current relay element in the protection relay or relay test equipment, and when the current relay element is detected by measuring more than the set reference value, Trip or It can be set to operate as an alarm.

On the other hand, the relay test equipment is an equipment for testing whether the protective relay operates correctly according to the set reference value and the alarm or trip operation setting when different current relay elements occur.

In order to check whether the protective relay performs an accurate operation according to the preset reference value and the alarm or trip operation setting, a current greater than the preset reference value should actually flow through the protective relay. However, it is almost impossible to flow enough current to generate a current relay element in the externally installed protective relay.

Therefore, in the relay test equipment, the test voltage for the current corresponding to more than the reference value is supplied to the secondary side of the current transformer and the zero-phase current transformer using the OCR electronic part and the connection connector that operate the protective relay to protect the occurrence of the current relay element. The operation of the relay can be easily tested. At this time, so that the relay test equipment can determine whether the protective relay operates normally, the protective relay configures a packet for whether the operation is performed while performing the relay operation and transmits it to the relay test equipment.

In addition, in the relay test equipment, it is possible to periodically check and update the set value of the protective relay set by the user, and then determine whether the protective relay operates normally and whether the test voltage supply is stopped based on the received packet.

For example, if alarm operation is set for all current relay elements or trip operation is set for all current relay elements, the relay test equipment supplies a voltage higher than alarm operation or trip operation, and then the first occurrence information packet is received, the test voltage supply is stopped and it is judged that the protective relay operates normally. As another example, if Alarm or Trip operation is set in combination for a plurality of different current relay elements, the relay test equipment supplies an abnormal voltage for Alarm and Trip operation, and if the received packet is Alarm occurrence information, the test voltage supply Continue, and then, when the Trip occurrence information packet is received, the test voltage supply is stopped and the protective relay is judged to have operated normally.

However, an additional current relay element may occur while transmitting the generation information packet regarding the previously generated current relay element, and a plurality of different current relay elements may occur at the same time. In this case, the corresponding occurrence information packet cannot be transmitted immediately when the current relay element occurs, resulting in a delay in packet transmission. can occur

An object of the present invention is to solve the above and other problems, and in a protection relay, when different current relay elements occur, Trip or Alarm operation is performed, and whether the operation is performed is configured as an occurrence information packet and transmitted Its purpose is to provide a method for doing so.

Another object of the present invention is to provide a method for a protection relay to transmit the occurrence information packet without error, perform packet transmission scheduling and transmit information related to the packet transmission scheduling in the occurrence information packet. do it with

According to an aspect of the present invention to achieve the above or other object, the protection relay according to an embodiment of the present invention, based on a preset reference value, a detection unit for detecting different current relay elements and based on the detection result A control unit configured to perform a Trip or Alarm operation and to configure whether the operation is performed as an occurrence information packet and a communication unit for transmitting the occurrence information packet to a relay test equipment, wherein the control unit includes a transmission for transmitting the occurrence information packet Determines whether Link is in use, determines packet transmission scheduling based on the determination result, whether a plurality of different current relay elements are detected by the reference value, and the importance of each current relay element, and It may be characterized in that the related information is configured to be included in the occurrence information packet.

In an embodiment, the reference value may be set to a current value and an operating time for each of the different current relay elements, and when the different current relay elements are detected based on the reference value, Trip or It may be characterized in that it can be set to operate as an alarm.

In an embodiment, when the transmission link is in use, if there is a trip occurrence information packet in the transmission link, the control unit does not transmit the occurrence information packet related to at least one trip or alarm operation that has occurred currently, and does not transmit the transmission link. If there is no trip occurrence information packet in the link, it may be characterized in that packet transmission scheduling is determined for at least one trip or alarm operation currently occurring.

In an embodiment, in the packet transmission scheduling, a primary priority is determined according to whether Trip or Alarm is operated by each current relay element, and a secondary priority is determined according to the type of each current relay element. can be characterized as

In an embodiment, the packet transmission scheduling has the highest priority based on the primary and secondary priorities when at least one trip operation is performed when a plurality of different current relay elements are detected. It may be characterized in that only the trip occurrence information packet is transmitted, and when all alarm operations are performed, the alarm occurrence information packet having the highest priority is sequentially transmitted based on the secondary priority.

In an embodiment, the control unit may include whether a Trip or Alarm operation is performed by the detected current relay element, a type of the current relay element, and a packet transmission delay time in the occurrence information packet. there is.

In an embodiment, the packet transmission delay time is a transmission delay time generated by packet transmission scheduling, and is determined as a delay time from the time when the current relay element is detected to the time when the actual packet is transmitted, and the relay test It may be characterized in that the equipment can be used as a basis for judging whether the protective relay operates normally without errors.

According to an aspect of the present invention to achieve the above or other object, the protective relay control method according to an embodiment of the present invention, based on a preset reference value, the step of detecting different current relay elements and the detection result Based on the Trip or Alarm operation, determining whether a transmission link for transmitting by composing and transmitting whether the operation is performed as an occurrence information packet is in use, and detecting a plurality of different current relay elements based on the determination result and the reference value Determining packet transmission scheduling based on whether or not and the importance of each current relay element, configuring information related to the packet transmission scheduling to be included in the occurrence information packet, and transmitting the occurrence information packet to the relay test equipment It may be characterized in that it comprises a step.

In an embodiment, the reference value may be set to a current value and an operating time for each of the different current relay elements, and when the different current relay elements are detected based on the reference value, Trip or It may be characterized in that it can be set to operate as an alarm.

In one embodiment, when the transmission link is in use, if there is a trip occurrence information packet in the transmission link, the occurrence information packet related to at least one trip or alarm operation that is currently occurring is not transmitted, but a trip occurs in the transmission link If there is no information packet, it may be characterized in that the packet transmission scheduling is determined for at least one trip or alarm operation currently occurring.

In an embodiment, in the packet transmission scheduling, a primary priority is determined according to whether Trip or Alarm is operated by each current relay element, and a secondary priority is determined according to the type of each current relay element. can be characterized as

In an embodiment, the packet transmission scheduling has the highest priority based on the primary and secondary priorities when at least one trip operation is performed when a plurality of different current relay elements are detected. It may be characterized in that only the trip occurrence information packet is transmitted, and when all alarm operations are performed, the alarm occurrence information packet having the highest priority is sequentially transmitted based on the secondary priority.

In an embodiment, the occurrence information packet may include whether a Trip or Alarm operation is performed by the detected current relay element, a type of the current relay element, and a packet transmission delay time.

In an embodiment, the packet transmission delay time is a transmission delay time generated by packet transmission scheduling, and is determined as a delay time from the time when the current relay element is detected to the time when the actual packet is transmitted, and the relay test It may be characterized in that the equipment can be used as a basis for judging whether the protective relay operates normally without errors.

According to at least one of the embodiments of the present invention, the present invention provides a method for performing a Trip or Alarm operation when different current relay elements occur in a protection relay, and configuring whether the operation is performed as an occurrence information packet and transmitting it. can provide

According to at least one of the embodiments of the present invention, in order for the protection relay to transmit the occurrence information packet without error, packet transmission scheduling is performed, and information related to the packet transmission scheduling is included in the occurrence information packet. A method of transmission may be provided.

1 is a conceptual diagram for a relay operation test of a protective relay according to an embodiment of the present invention.
2 is a block diagram showing the structure of a protective relay according to an embodiment of the present invention.
3 is a flowchart illustrating a control method of a protection relay according to an embodiment of the present invention.
4 is a flowchart illustrating packet transmission scheduling according to an embodiment of the present invention.
5 is an exemplary diagram illustrating an example of an occurrence information packet according to an embodiment of the present invention.
6 is an exemplary view showing the test voltage supply of the relay test equipment 130 and the transmission of the generation information packet of the protection relay 100 according to an embodiment of the present invention.
7 to 10 are exemplary diagrams illustrating in more detail the generation information packet transmission scheduling of the protection relay 100 according to an embodiment of the present invention.

The above-described object of the present invention, the configuration of the present invention for achieving it, and its effects will be more clearly understood by the following description of the preferred embodiment of the present invention with reference to the accompanying drawings.

The embodiments described in this specification will be described in detail with reference to the accompanying drawings, but the same or similar components are assigned the same reference numbers regardless of reference numerals, and redundant description thereof will be omitted. In addition, in describing the embodiments disclosed in the present specification, if it is determined that detailed descriptions of related known technologies may obscure the gist of the embodiments disclosed in the present specification, the detailed description thereof will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in the present specification, and the technical spirit disclosed herein is not limited by the accompanying drawings, and all changes included in the spirit and scope of the present invention , should be understood to include equivalents or substitutes.

Terms including an ordinal number, such as first, second, etc., may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

First, FIG. 1 is a conceptual diagram for testing the relay operation of the protective relay 100 in the relay test equipment 130 according to an embodiment of the present invention.

Referring to FIG. 1 , the protective relay 100 is connected to a circuit breaker 110 such as ACB (Air Circuit Breaker, Air Circuit Breaker) or MCCB (Mold Case Circuit Breaker, circuit breaker for wiring), and when a current relay element occurs, the circuit breaker It is a device that trips or alarms a user through an LED, etc., and the relay test equipment 130 is a test equipment for testing whether the protective relay operates correctly.

Here, the current relay element may be long-time overcurrent, short-time overcurrent, instantaneous current, ground fault current, PTA (PRE TRIP ALARM), etc., and may have the following priority according to the importance of each current relay element.

- Instantaneous current > Ground fault current > Short-time overcurrent > Long-time overcurrent > PTA

The current relay element may be added or deleted depending on the type of the protection relay 100 and the relay test equipment 130 , and is not limited to the type described herein.

On the other hand, in order to test whether the protective relay 100 operates correctly, the user can set the reference value as the current value and the operating time for each current relay element in the protective relay 100 or the relay test equipment 130, It can be set to operate as a Trip or Alarm when a current relay element is detected by measuring more than the reference value.

In addition, the relay test equipment 130 may simply check whether the protective relay 100 operates normally by supplying a test voltage for a current greater than or equal to the preset reference value. Thereafter, when different current relay elements are detected, the protection relay 100 performs a Trip or Alarm operation according to the set reference value, and configures an occurrence information packet for whether a Trip or Alarm is performed, and the relay test equipment 130 send to

In addition, the relay test equipment 130 periodically checks and updates the user set value of the protection relay 100, so that when the generation information packet is received from the protection relay 100, it is accurately checked whether the protection relay 100 operates normally. It is possible to determine whether the test voltage supply continues or stops.

For example, when set to Alarm operation for all current relay elements or Trip operation for all current relay elements, the relay test equipment 130 supplies a voltage greater than the Alarm operation or Trip operation, and then the first When the generation information packet is received, the test voltage supply is stopped and it is determined that the protection relay 100 operates normally. As another example, when the Alarm or Trip operation is set for a plurality of different current relay elements, the relay test equipment 130 supplies a voltage above the Alarm and Trip operation, and then tests if the received packet is Alarm occurrence information. If the voltage supply is continued and the trip occurrence information packet is received thereafter, the test voltage supply is stopped and it is determined that the protective relay 100 operates normally.

Meanwhile, FIG. 2 is a block diagram showing the structure of the protection relay 100 according to an embodiment of the present invention.

Referring to FIG. 2 , the protection relay 100 operates as a trip or alarm when a current relay element occurs and a reference value that can detect a current relay element with a current value and operating time for each different current relay element by a user. and a key input unit 270 that can be set.

In addition, the detection unit 260 of the protection relay 100 measures the reference values of different current relay elements preset through measurement information (current, voltage, frequency, etc.), determines that the current relay element is detected, and provides related information transmitted to the control unit 220 .

For example, the user may set the reference value for detecting the long-time overcurrent, which is an example of the current relay element, as a specific current value and operating time through the key input unit 270 , and set it to operate as a trip when the long-time overcurrent occurs. After that, when the detection unit 260 of the protection relay uses measurement information (current, voltage, frequency, etc.) to measure more than the specific current value and the operating time, it is determined as overcurrent for a long time and provides related information to perform a Trip operation. transmitted to the control unit 220 .

On the other hand, the control unit 220 controls the operation unit 250 to perform a trip operation based on the set values of the different current relay elements or displays the display unit 210 to perform an alarm operation to the user through an LED or the like. can be controlled

In addition, an occurrence information packet for informing the relay test equipment 130 of whether a Trip or Alarm operation is performed according to the detection of the current relay element is configured and transmitted to the communication unit 230 , and the communication unit 230 receives the occurrence information The packet is transmitted to the relay test equipment 130 .

3, the control method of the protection relay 100 according to an embodiment of the present invention is shown in more detail.

First, when at least one or more current relay elements are detected by the preset reference value (S310), the controller 220 performs a Trip or Alarm operation on the detected at least one or more current relay elements (S320), and the operation It can be determined whether a transmission link for transmission is in use by composing whether or not to perform the occurrence information packet (S330).

When the transmission link is in use, a scheduling for transmitting the occurrence information packet is determined (S340), the occurrence information packet is constructed based on the packet transmission scheduling (S350), and transmitted to the communication unit 230 (S360). ).

On the other hand, when the transmission link is empty, the generation information packet is directly constructed (S350) and transmitted to the communication unit 230 (S360).

4 is a flowchart illustrating in more detail scheduling for transmission of the occurrence information packet according to an embodiment of the present invention. The control unit 220 performs a Trip or Alarm operation for the detected at least one or more current relay elements, respectively, and determines whether a transmission link for transmitting the operation by composing a generation information packet is in use (S410) ).

If the transmission link is in use, it is checked whether there is a trip occurrence information packet in the transmission link (S420), and if the packet in the transmission link is a trip occurrence information packet, occurrence information about at least one trip or alarm operation currently being performed No packets are sent. When the relay test equipment 130 receives the first trip operation occurrence information packet, it is determined that the protection relay 100 operates normally and the circuit breaker is blocked, and the test voltage supply is stopped. because it has no meaning. This is illustrated in detail in FIG. 7 .

On the other hand, when there is no trip occurrence information packet in the transmission link, that is, when the transmission link is empty or there is only an alarm occurrence information packet in the transmission link, the control unit 220, It is checked whether the current relay element is detected (S430).

As a result of the check, if only one current relay element is detected, if the previous user set value is an Alarm operation, an Alarm operation is performed, and the operation result is configured as an occurrence information packet (S440), and transmitted to the communication unit 230 (S490) )do. On the other hand, if the previous user set value is Trip, the trip operation is performed, and if there is at least one alarm occurrence information packet waiting to be transmitted, the packet for the alarm occurrence information waiting to be transmitted is not transmitted and the alarm occurrence information being transmitted. When the packet transmission is completed, the occurrence information packet for the trip operation currently occurring after TIME OUT is formed (S440) and transmitted to the communication unit 230 (S490). This is because the trip operation has a higher priority than the alarm operation, so the trip operation occurrence information packet must be transmitted prior to the alarm operation occurrence information packet. This is illustrated in detail in FIG. 8 .

The TIME OUT time according to an embodiment of the present invention of FIG. 8 means a minimum time interval for preventing a collision with a packet being transmitted first in sequentially transmitting the occurrence information packet, and the processor performance of the protection relay may be determined by, and is not limited to the specific time described herein.

On the other hand, when at least two or more different current relay elements are detected by the control unit 220, a Trip or Alarm operation is performed for different current relay elements, respectively, and packet transmission for transmitting at least two or more occurrence information packets perform scheduling. Since the transmission link cannot transmit multiple packets at the same time, when a plurality of current relay elements are detected at the same time, packet transmission scheduling is required to sequentially transmit the occurrence information packets according to the priority of each current relay element. .

For packet transmission scheduling, first, the control unit checks the number of trip operations (S450).

As a result of the check, if at least two or more trip operations are performed, based on the priority of each current relay element, a trip operation occurrence information packet by the current relay element having the highest priority is configured (S460), and the communication unit ( 230) (S490), and the occurrence information packet for the remaining trip operation is not transmitted. A description of this is illustrated in detail in FIG. 9 . In addition, if there is at least one or more alarm occurrence information packets waiting to be transmitted at this time, the priority of the trip operation is higher, so that at least one or more alarm occurrence information packets waiting to be transmitted are not transmitted. This is because, when the relay test equipment 130 receives the first trip operation generation information packet, the protective relay 100 operates normally and determines that the circuit breaker is blocked, and stops supplying the test voltage.

In addition, when one trip operation is performed, a corresponding trip operation occurrence information packet is constructed (S470) and transmitted to the communication unit 230 (S490). At this time, if there is at least one alarm occurrence information packet waiting to be transmitted, the priority of the trip operation is higher, so that the at least one alarm occurrence information packet is not transmitted.

In addition, when all operations are performed as Alarms, based on the priority of each current relay element, the alarm operation occurrence information packet by the current relay element having the highest priority is first configured and transmitted, and then the rest of the alarm operation is performed. The packet of occurrence information is sequentially configured according to the priority (S480) and transmitted to the communication unit 230 (S490). A description of this is illustrated in detail in FIG. 10 .

On the other hand, by sequentially transmitting the occurrence information packets by packet transmission scheduling, a transmission delay occurs from the time when the actual current relay element is detected until the occurrence information packet is transmitted, which causes the protection relay 100 to operate normally. In spite of this, a problem in which the relay test equipment 130 determines that the operation fails may occur.

Thus, the protection relay 100 according to an embodiment of the present invention transmits the occurrence information packet 500 including whether a Trip or Alarm operation 540 and a packet transmission delay time 570 as shown in FIG. 5 . do.

Looking at the occurrence information packet in more detail, the Slave Address 510 has the Common ID value of the protection relay 100, the Function Code 520 indicates that it is a relay operation-related occurrence information packet, and the Data Length 530 is transmitted The total length of the data.

In addition, the Trip/Alarm 540 field according to an embodiment of the present invention indicates whether the protection relay 100 operates as a Trip or an Alarm by each current relay element, and the Trip operation has priority over the Alarm operation. is high

On the other hand, the Trip item 550 field means the type of the current relay element. Here, the current relay element may be long-time overcurrent, short-time overcurrent, instantaneous current, ground fault current, PTA (PRE TRIP ALARM), etc., and may be added or deleted according to the protection relay 100 and the relay test equipment 130. and is not limited to the types described herein.

In addition, the Tx Delay Time 570 according to an embodiment of the present invention represents a packet transmission delay time that may be generated by sequentially transmitting the occurrence information packets 500 by packet transmission scheduling. The packet transmission delay time is determined as the delay time from the time when each current relay element is actually detected to the time when the actual occurrence information packet is transmitted by packet scheduling, and then the relay test equipment 130 is 100) can be used as a basis for judging the normal operation without error.

6 is a transmission test voltage supply of the relay test equipment 130 according to an embodiment of the present invention and a Trip or Alarm operation occurrence information packet by the detection of a current relay element in the protection relay 100 to the relay test equipment 130 It is an example diagram showing what to do.

According to this exemplary diagram, the relay test equipment 130 supplies a test voltage, the protection relay 100 performs a Trip or Alarm operation, and configures whether the operation is performed as an occurrence information packet to the relay test equipment 130 . send to When the relay test device 130 receives the Trip or Alarm occurrence information packet, it determines whether the protective relay operates normally and stops supplying the test voltage.

7 to 10 are exemplary diagrams illustrating in more detail packet transmission scheduling that may occur in various cases according to an embodiment of the present invention.

First, FIG. 7 shows that the protection relay 100 according to an embodiment of the present invention performs a first trip operation by detecting a current relay element, and constructs and transmits a generation information packet regarding whether the operation is performed or not, at least one or more It is an exemplary diagram showing a case where a current relay element is additionally detected. In this case, the protection relay 100 does not transmit the Trip or Alarm operation occurrence information packet by at least one or more additionally detected current relay elements. When the relay test equipment 130 receives the first trip operation occurrence information packet, it is determined that the protective relay 100 operates normally and the circuit breaker is blocked, and the test voltage supply is stopped. because it has no meaning.

8 is an exemplary diagram illustrating a case in which a trip operation is additionally performed when at least one alarm occurrence information packet is waiting for transmission in the transmission link according to an embodiment of the present invention. At this time, the protection relay 100 does not transmit at least one or more alarm occurrence information packets currently on standby, and when the transmission of the alarm occurrence information packet being transmitted is completed, it configures the occurrence information packet for the trip operation that has occurred after TIME OUT. send. This is because the trip operation has a higher priority than the alarm operation, so the trip operation occurrence information packet must be transmitted first.

9 is an exemplary diagram illustrating a case in which at least two or more different relay elements are detected by a preset reference value according to an embodiment of the present invention.

When at least two trip operations by two or more different relay elements occur according to the preset reference value, the trip operation is generated by the current relay element having the highest priority based on the priority of each current relay element Only information packets are constructed and transmitted. When the relay test equipment 130 receives the first Trip operation occurrence information packet, it is determined that the protective relay 100 operates normally and the circuit breaker is blocked, and stops supplying the test voltage, so the Trip or Alarm operation occurrence information packet Transmission makes no sense.

10 is a diagram illustrating a case in which an alarm operation is performed by at least two or more different relay elements according to a preset reference value.

In this case, based on the priority of each current relay element, the alarm operation occurrence information packet by the current relay element having the highest priority is first configured and transmitted, and then the occurrence information packet for the remaining alarm operation is transmitted to the current relay element. It is sequentially configured and transmitted according to the priority of

The present invention described above can be implemented as computer-readable code on a medium in which a program is recorded. The computer-readable medium includes all types of recording devices in which data readable by a computer system is stored. Examples of computer-readable media include Hard Disk Drive (HDD), Solid State Disk (SSD), Silicon Disk Drive (SDD), ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. There is also a carrier wave (eg, transmission over the Internet) that is implemented in the form of. In addition, the computer may include the control unit 220 of the protection relay. Accordingly, the above detailed description should not be construed as restrictive in all respects but as exemplary. The scope of the present invention should be determined by a reasonable interpretation of the appended claims, and all modifications within the equivalent scope of the present invention are included in the scope of the present invention.

100: protective relay 110: circuit breaker
130: relay test equipment 210: display unit
220: control unit 230: communication unit
240: memory unit 250: operation unit
260: detection unit 270: key input unit
500: occurrence information packet
510 : Slave Address: Common ID of the device (0xF8)
520 : Function Code: Trip information transmission packet command code (0xF7)
530 : Data Length: Transmission data length (0x04)
540: Trip/Alarm: Device Trip or Alarm
550: Trip Item: Device-generated trip type (1: Long-time (L), 2: Short-time Stage1(S1), 3: Short-time Stage2(S2), 4: Instantaneous (I), 5: Ground fault (G), 6: PTA (PTA)
560: Trip Phase: Device trip phase
570 : Tx Delay Time: Trip information transmission packet transmission delay time
580: CRC: packet CRC check

Claims (14)

a detection unit configured to detect different current relay elements based on a preset reference value;
A control unit that performs a Trip or Alarm operation based on the detection result and configures whether the operation is performed as an occurrence information packet; And
and a communication unit for transmitting the generation information packet to the relay test equipment,
The control unit determines whether a transmission link for transmitting the occurrence information packet is in use,
Determines packet transmission scheduling based on whether a plurality of different current relay elements are detected by the determination result and the reference value and the importance of each current relay element,
Protective relay, characterized in that the information related to the packet transmission scheduling is configured to be included in the occurrence information packet. According to claim 1, wherein the reference value,
It can be set to a current value and an operating time for each of the different current relay elements,
When the different current relay elements are detected based on the reference value,
Protection relay, characterized in that it can be set to operate as a Trip or Alarm for each current relay element. According to claim 1, wherein the control unit,
If the above transmission link is in use,
If there is a trip occurrence information packet in the transmission link, the occurrence information packet related to at least one trip or alarm operation that is currently occurring is not transmitted,
If there is no trip occurrence information packet in the transmission link, the protection relay, characterized in that the packet transmission scheduling is determined for at least one trip or alarm operation currently occurring. The method of claim 1, wherein the packet transmission scheduling comprises:
The primary priority is determined according to whether Trip or Alarm is operated by each current relay element,
Protective relay, characterized in that the secondary priority is determined according to the type of each current relay element. 5. The method of claim 4, wherein the packet transmission scheduling comprises:
When a plurality of different current relay elements are detected,
When at least one or more trip operations are performed, only the trip occurrence information packet having the highest priority is transmitted based on the primary and secondary priorities;
When all of the alarm operations are performed, the protection relay, characterized in that it sequentially transmits the alarm occurrence information packet having the highest priority based on the secondary priority. According to claim 1, wherein the control unit,
Whether a Trip or Alarm operation is performed by the detected current relay element, a type of the current relay element, and a packet transmission delay time are included in the occurrence information packet. The method of claim 6, wherein the packet transmission delay time is:
Transmission delay caused by packet transmission scheduling,
It is determined by the delay time from the time when the current relay element is detected to the time when the actual packet is transmitted,
Protective relay, characterized in that the relay test equipment can be used as a basis for judging the normal operation of the protective relay without error. In the control method of the protection relay,
detecting different current relay elements based on a preset reference value;
performing a Trip or Alarm operation based on the detection result, and determining whether a transmission link for transmission is in use by composing whether the operation is performed as an occurrence information packet;
determining packet transmission scheduling based on whether a plurality of current relay elements different from each other are detected according to the determination result and the reference value and the importance of each current relay element; and
and transmitting information related to the packet transmission scheduling so as to be included in the generation information packet and transmitting the information. The method of claim 8, wherein the reference value is
It can be set to a current value and an operating time for each of the different current relay elements,
When the different current relay elements are detected based on the reference value,
A control method of a protective relay, characterized in that it can be set to operate as a Trip or Alarm for each current relay element. The method of claim 8, wherein when the transmission link is in use,
If there is a trip occurrence information packet in the transmission link, the occurrence information packet related to at least one trip or alarm operation that is currently occurring is not transmitted,
If there is no trip occurrence information packet in the transmission link, packet transmission scheduling is determined for at least one trip or alarm operation currently occurring. The method of claim 8, wherein the packet transmission scheduling comprises:
The primary priority is determined according to whether Trip or Alarm is operated by each current relay element,
A control method of a protective relay, characterized in that the secondary priority is determined according to the type of each current relay element. The method of claim 11, wherein the packet transmission scheduling comprises:
When a plurality of different current relay elements are detected,
When at least one or more trip operations are performed, only the trip occurrence information packet having the highest priority is transmitted based on the primary and secondary priorities;
When all of the alarm operations are performed, based on the secondary priority, the alarm occurrence information packet having the highest priority is sequentially transmitted, the protection relay control method. The method of claim 8, wherein the occurrence information packet comprises:
Whether a Trip or Alarm operation is performed by the detected current relay element, a type of the current relay element, and a packet transmission delay time are included. 14. The method of claim 13, wherein the packet transmission delay time is:
Transmission delay caused by packet transmission scheduling,
It is determined by the delay time from the time when the current relay element is detected to the time when the actual packet is transmitted,
A control method of a protective relay, characterized in that the relay test equipment can be used as a basis for judging whether the protective relay is operating normally without error.

Images