JPH0993796A - Protection control device for electric power system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily further quickly and surely perform confirmation of a transmission part and an arithmetic part in a protection control device and a data delivery test between the protection control device and a data receiving device. SOLUTION: A protection control device 1 fetches an input data 2 of voltage information, current information, equipment information, etc., in an electric power system from an input part 3, and performs conversion calculation or the like from the input data 2 to a transmission data 6 in an arithmetic part 4. In the case of switching a changeover switch 8 to a side of the arithmetic part 4, its result is transmitted to a data receiving device 12 from a transmission part 5. In the case that the changeover switch 8 remains switched to the side of a simulation data 7, the simulation data 7 built in the protection control device 1 is input to the transmission part 5 to be transmitted therefrom to the data receiving device 12. In this way, even in the case that the input data 2 can not be fetched by the protection control device 1, a fixed value can be transmitted as a data to the data receiving device 12 from the transmission part 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a protection control device for a power system.

[0002]

2. Description of the Related Art A conventional power system protection control apparatus is shown in FIG.
As shown in FIG. 3, the protection control device 1 takes in the input data 2 such as the voltage information, the current information, and the device information of the power system at the device input unit 3. Further, the reception unit 15 receives the reception data 14 from the transmission device 13. In the protection control device 1, using the input data 2 and the received data 14 that have been taken in, the calculation unit 4 performs a conversion calculation to the transmission data 6 and a protection control calculation that determines whether or not device control necessary for system protection control And so on. Then, the result calculated by the calculating unit 4 is transmitted from the transmitting unit 5 to the data receiving device 12, or the output unit 16
To output the output data 17.

[0003]

In the above-mentioned conventional power system protection control device, when the input data 2 cannot be input from the outside, it is confirmed that the transmission unit 5 operates correctly, and the data reception device 12 correctly transmits the transmission data 6. I could not confirm that was entered. Even if the input data 2 can be input from the outside, the input data 2 cannot be changed depending on the situation, and the transmission data 6 cannot be arbitrarily changed to check the transmission unit 5. There were many things. In addition, when there are many input data from the outside, many testing devices are required for testing.

When the data receiving device 12 confirms the function, it is necessary to keep the transmission data 6 under a certain condition.
When inputting data from the outside, it was difficult to make a predetermined state even when inputting with a test device when the input was current or voltage. When receiving data from the transmission device 13, if the transmission device 13 or the transmission line connecting the transmission device 13 and the protection control device 1 cannot be used, the function of the arithmetic unit 4 of the protection control device 1 cannot be confirmed.

Even if the transmission device 13 and the transmission path are prepared, it is necessary to input various data on the transmission device 13 side when it is desired to change the data from the transmission device 13 in various ways. If there are many transmitters, and if the transmitters are distant or dispersed, more manpower and test equipment is needed.

The present invention has been made in order to solve the above-mentioned problems, and when the input data 2 cannot be input from the outside, the input data 2 cannot be changed arbitrarily, the transmitting device 13 or the transmitting device. Even if the transmission line connecting 13 and the protection control device 1 cannot be used, it is easy to check the transmission unit and the calculation unit in the protection control device 1 and to perform a data transfer test between the protection control device 1 and the data reception device 12. The purpose is to enable quick, reliable and fast operation.

[0007]

The means of the present invention keeps the input data in a constant state when the input data cannot be input to the protection control device from the outside or when the input data cannot be arbitrarily changed. If it is not possible, use the simulated data inside the protection control device to check the function of the calculation unit, the transmission unit, the data transfer between the protection control device and the data reception device, and the calculation of the data reception device. Enables easy, quick and reliable operation.

According to a first aspect of the present invention, there is provided a power system protection control device, a data input unit for fetching various data of the power system, a calculation unit for performing power system protection control calculation using these data, and a calculation unit. It consists of a transmitter that sends the result of the above to another device, simulated data built into the protection control device, and a changeover switch.The protection control device receives input data such as voltage information, current information, and device information of the power system. The data is input from the input unit, and the calculation unit performs conversion calculation from input data to transmission data.

When the changeover switch is switched to the arithmetic unit side, the result of the arithmetic unit is transmitted from the transmitting unit to the data receiving device. Further, when the changeover switch is switched to the simulated data side, the simulated data contained in the protection control device is input to the transmission unit and transmitted from the transmission unit to the data receiving device. As a result, even if the input data cannot be taken into the protection control device, a certain value can be transmitted from the transmitting unit to the data receiving device.

According to a second aspect of the present invention, there is provided a power system protection control apparatus, a data input unit for fetching various data of the power system, a calculation unit for performing power system protection control calculation using these data, and a calculation unit. It comprises a transmitter for transmitting the result of the section to another device, a plurality of sets of simulated data built in the protection control device, and a changeover switch. The changeover switch 8 is composed of the calculation unit 4, simulated data 1 ... Simulated data n. Switch to 3 or more positions. By switching the changeover switch, the transmission data can be instantaneously switched to the result calculated by the calculation unit or a plurality of sets of simulated data.

According to a third aspect of the present invention, there is provided a power system protection control apparatus, a data input unit for fetching various data of the power system, a calculation unit for performing power system protection control calculation using these data, and a calculation unit. Section for transmitting the result of the section to another device, a plurality of sets of simulated data built in the protection control device, a first changeover switch for selectively switching the result of the computing section and the simulated data, and a plurality of sets of simulated It is composed of a second changeover switch for selecting arbitrary simulated data from the data, and when the first changeover switch is changed over to the arithmetic side,
The result of the arithmetic unit is transmitted from the transmitting unit to the data receiving device.

[0012] The second changeover switch is a switch that automatically switches at fixed time intervals, and when the first changeover switch is changed over to the simulated data side, the simulated data 1 ... Simulated data n, simulated data at fixed time intervals. It is transmitted as transmission data in the order of 1. As a result, the simulated data can be changed at regular time intervals.

According to a fourth aspect of the present invention, there is provided a power system protection control device, a data input unit for fetching various data of the power system, a calculation unit for performing power system protection control calculation using these data, and a calculation unit. A transmission section for transmitting the result of the control section to another device, a simulated data input section incorporated in the protection control device,
When the changeover switch is switched to the arithmetic unit side of the data input unit, the result of the arithmetic unit is transmitted from the transmitting unit to the data receiving device.

When the changeover switch is switched from the data input section to the simulated data input section side, the simulated data is taken in by the simulated data input section. The transmitting unit transmits the simulated data as transmission data to the data receiving device. As a result, the simulated data can be changed to any value, and it is easy to keep the value constant.

According to a fifth aspect of the present invention, there is provided a power system protection control device, a data input unit for fetching various data of the power system, a computing unit for performing system protection control computation using these data, and a computing unit. The transmission unit for transmitting the result of the above to another device, the simulated data input unit built into the protection control device, the simulated data operation unit, and the changeover switch, and the changeover switch is switched to the operation unit side of the data input unit. If there is,
The result of the arithmetic unit is transmitted from the transmitting unit to the data receiving device.

When the changeover switch is switched from the data input operation side to the simulated data operation side, the simulated data input section performs an operation to convert the simulated data into transmission data. The transmission unit transmits the calculation result of the simulated data calculation unit as transmission data to the data receiving device. As a result, the simulated data can be changed according to a certain function.

According to a sixth aspect of the present invention, there is provided a power system protection control device, a data input section for fetching various data of the power system, a computing section for performing system protection control computation using these data, and a computing section. A transmission unit for transmitting the result of the above to another device, a simulated data input unit built in the protection control device, a simulated data calculation unit, and a changeover switch, and further, a synchronization signal is transmitted from the transmission unit to the simulated data calculation unit. The function to do is added.

The simulated data calculation unit fetches the simulated data from the simulated data input unit and the transmission control synchronization signal from the transmission unit, and calculates the transmission data synchronized with the synchronization signal. When the changeover switch is switched to the arithmetic unit side of the data input unit, the result of the arithmetic unit is transmitted from the transmitting unit to the data receiving device. When the changeover switch is switched to the simulated data input side, the transmission data synchronized with the synchronization signal calculated by the simulated data calculation unit is input to the transmission unit and transmitted from the transmission unit to the data receiving device.

According to a seventh aspect of the present invention, there is provided an electric power system protection and control apparatus, which has an input section for taking in a plurality of input data such as electric power system voltage information, current information, equipment information, and the like. A calculation unit that performs conversion calculation to multiple transmission data, a simulation data input unit in which multiple simulation data corresponding to multiple transmission data are input, multiple changeover switches, and the input data The protection control device takes in a plurality of input data such as voltage information, current information, device information, and the like of the power system at the input part. In the protection control device, the plurality of input data that has been taken in is calculated by the calculation unit.
The conversion calculation from a plurality of input data to a plurality of transmission data is performed.

In the simulated data input section, a plurality of simulated data corresponding to a plurality of transmission data are input. Among the transmission data, the data whose corresponding changeover switch is switched to the arithmetic unit side inputs the result of the corresponding arithmetic unit to the transmitting unit. Further, among the transmission data, the data whose corresponding changeover switch is switched to the simulated data input section side inputs the corresponding simulated data to the transmission section. The transmitting unit transmits the data input as described above to the data receiving device as the transmission data. As a result, part of the input data can be transmitted, and the other part of the simulated data can be transmitted.

A protection control device for an electric power system according to claim 8 of the present invention is a simulation in which a receiving unit for receiving a plurality of transmission data from a transmitting device and a plurality of simulation data corresponding to the plurality of transmission data are input. Data input section, changeover switch,
The protection control device includes an arithmetic unit that selectively performs a conversion arithmetic operation on the received data and the simulated data, and an output unit that outputs the arithmetic result. The protection control device takes in the received data from the transmitting device by the receiving unit. When it is switched to the side, the arithmetic unit performs arithmetic using the received data.

When the changeover switch is switched to the simulated data input section side, the arithmetic section uses the inputted simulated data to perform a calculation. The output unit selectively outputs the result calculated by the calculation unit to the outside. As a result, even if reception from another device is not possible during the test, it is possible to confirm the arithmetic unit by using the simulated data without using the transmission system.

According to a ninth aspect of the present invention, in a power system protection control apparatus, a receiving unit for receiving a plurality of transmission data from a plurality of transmission apparatuses and a plurality of simulated data corresponding to the plurality of transmission data are input. The protection control device includes a simulated data input unit, a plurality of changeover switches, an arithmetic unit for selectively converting the plurality of received data and a plurality of simulated data, and an output unit for outputting the arithmetic result. Receives a plurality of received data from a plurality of transmitters in the receiving unit. When all the changeover switches are switched to the receiving unit side, the calculating unit performs an operation using the received data. If the received data cannot be received due to communication failure from the transmitter, etc., the reception data changeover switch that cannot be received is switched to the corresponding simulated data input section side, and the calculation section calculates using the input simulated data. Do.

The output unit outputs the result calculated by the calculation unit to the outside. This allows all data to be received by using the corresponding simulated data without using the transmission system of that device, even if some other devices could not be received during the test. Similarly, it is possible to confirm the calculation unit.

[0025]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of a protection control device for a power system according to claim 1 of the present invention will be described with reference to FIG. FIG.
In FIG. 10, the same parts as those in FIG. Reference numeral 1 denotes a protection control device, which includes an input unit 3 for taking in input data 2 from the outside, a calculation unit 4, and transmission data 6.
Is composed of a transmitter 5, a simulated data 7, and a changeover switch 8. 12 is a data receiving device.

The protection control device 1 takes in input data 2 such as voltage information / current information / device information of the power system at the device input section 3. In the protection control device 1, when the arithmetic unit 4 uses the input data 2 thus fetched, the changeover switch 8 for converting the electric power value P, which is the arithmetic operation for converting the transmission data 6, is switched to the arithmetic unit 4 side. Transmits the power value P calculated by the calculation unit 4 from the transmission unit 5 to the data reception device 12 as transmission data 6.

On the other hand, in the simulation data 7, a power value is recorded as a numerical value (for example, P = 123W). When the changeover switch 8 is switched to the simulated data 7, the simulated data 7 (123 W) is transmitted from the transmission unit 5 to the data reception device 12 as the transmission data 6. By switching the changeover switch 8 to the simulated data 7 side, it is possible to easily set the transmission data 6 to a predetermined value without inputting data from outside the protection control device 1. For this reason,
It is possible to easily and surely confirm the operation of the transmission unit 5 and the transmission data 6 in the data receiving device 12.

An embodiment of a protection control device for a power system according to claim 2 of the present invention will be described with reference to FIG. 2, the same parts as those in FIG. 1 and the corresponding parts are designated by the same reference numerals. In this apparatus, the transmission data output from the transmission unit 5 has a value of "1" or "0".

The difference between this embodiment and the embodiment shown in FIG. 1 is that it has a plurality of sets of simulated data, in this example, two sets of simulated data 7a, 7b. Yes, simulated data 7a is "1", simulated data 7b
Is recorded as "0".

When confirming the operation of the transmitter 5 and confirming the transmission data 6 with the data receiving device 12, the changeover switch 8 is switched to the simulated data 7a side and further to the simulated data 7b side. Since the transmission data is a binary number, the calculation unit 4
All data can be simulated regardless of the value of.
Therefore, it is possible to easily confirm the data of all patterns without inputting data from the outside of the protection control device 1.

An embodiment of a protection control device for a power system according to claim 3 of the present invention will be described with reference to FIG. 3, the same parts as those in FIG. 2 and the corresponding parts are designated by the same reference numerals. Like the embodiment shown in FIG. 2, this embodiment also has two sets of simulated data 7a and 7b. The simulated data 7a is recorded as "1" and the simulated data 7b is recorded as "0". ing.

What is different from the embodiment shown in FIG. 2 is that the first changeover switch 8 for selectively switching the result of the arithmetic unit and the simulated data and an arbitrary one from a plurality of sets of simulated data. Second changeover switch 8 for selecting simulated data
1.

When the first changeover switch 8 is switched to the arithmetic unit 4 side, the result of the arithmetic unit 4 is transmitted from the transmitting unit 5 to the data receiving device 12. Second changeover switch 81
Is a switch that automatically switches at regular intervals,
When the first changeover switch 8 is switched to the simulated data side, the simulated data 1 ... Simulated data n, the simulated data 1 ... Are selected in order at constant time intervals.

When confirming the operation of the transmitter 5 and confirming the transmission data 6 with the data receiver 12, the first changeover switch 8
By switching to the second changeover switch 81 side,
The second changeover switch 81 is automatically switched at fixed time intervals, and “1” and “0” are sent to the transmission unit 5 from the two sets of simulated data 7a and 7b at fixed time intervals. Then, the transmission unit 5 similarly transmits the transmission data “1” and “0” at regular time intervals.
Then, the data reception device 12 alternately receives the transmission data 6 at regular time intervals of “1” and “0”. As a result, it is possible to confirm that the transmitter 5 and the data receiver 12 are operating correctly in time without inputting data from outside the protection control device 1.

An embodiment of a protection control device for a power system according to claim 4 of the present invention will be described with reference to FIG. 4, the same parts as those in FIG. 1 and the corresponding parts are designated by the same reference numerals. The difference between this embodiment and the embodiment shown in FIG. 1 is that the protection control device 1 is provided with a simulated data input section 11 so that external simulated data 7 can be freely set.

The power value P is directly input to the simulated data input section 11 as a numerical value. When the changeover switch 8 is switched to the arithmetic unit 4 side, the result of the arithmetic unit 4 is transmitted from the transmitting unit 5 to the data receiving device 12. When the changeover switch 8 is switched to the simulated data input unit 11 side, the value input to the simulated data input unit 11 is transmitted from the transmission unit 5 to the data reception device 12 as transmission data 6. Thereby, the transmission data 6 is confirmed by the data receiving device 12.

When performing various tests in the arithmetic section of the data receiving apparatus 12, the changeover switch 8 of the protection control apparatus 1 is switched to the simulated data input section 11 side, and various simulated data 7 are set in the simulated data input section 11. As a result, the transmission data 6 can be easily changed without changing the input data 2 from outside the protection control device 1.

When the confirmation test is performed by the arithmetic unit of the data receiving apparatus 12, the transmission data 6 can be easily changed, so that various confirmation tests can be performed. Further, it is difficult to adjust the tester so as to obtain a predetermined P value by using the tester that generates V · I, and it is not easy to keep P at a constant value. However, maintaining the transmission data 6 in a constant state is important when conducting a confirmation test of the data receiving device 12. In this embodiment, it is possible to easily maintain a constant value by transmitting the simulated data 7.

An embodiment of a power system protection control apparatus according to claim 5 of the present invention will be described with reference to FIG. 5, the same parts as those in FIG. 4 and the corresponding parts are designated by the same reference numerals. The difference between this embodiment and the embodiment shown in FIG. 4 is that the simulated data calculation unit 9 is provided at the next stage of the simulated data input unit 11.

In the simulated data input section 11, the initial value of the electric power value is input as a numerical value. When the changeover switch 8 is switched to the arithmetic unit 4 side, the result of the arithmetic unit 4 is transmitted from the transmitting unit 5 to the data receiving device 12. When the changeover switch 8 is switched to the simulated data input unit 11 side, the simulated data calculation unit 9 sets the switched time t = 0, and calculates the value of P according to the equation (1). The value of P calculated by the simulated data calculation unit 9 is transmitted as transmission data via the transmission unit 5.

[0041]

[Equation 1] P = P0 × f (t) (1) P0: Simulated data input value f (t): 0 ≦ t <t1 f (t) = 1 t1 ≦ t <t2 f (t) = 0 t2 ≦ t f (t) = 1 t1, t2: Input of simulated data or constant

The above data is one model when an accident occurs in the system. The data receiving device 12 receives the model data at the time of the accident, thereby expanding the range of the function test.

An embodiment of the protection control device for the electric power system according to claim 6 of the present invention will be described with reference to FIG. 6, the same parts as those in FIG. 5 and the corresponding parts are designated by the same reference numerals.

The simulated data input section 11 inputs numerical values of simulated data 7 including current / voltage amplitude values, current / voltage phase angles, and cycles. The simulated data calculation unit 9 includes the transmission unit 5
Receives a synchronization signal 10 for transmission control from. Synchronous signal 1
0 is a signal transmitted at a constant cycle, and the data receiving device 12 receives data according to the synchronization signal 10. When the changeover switch 8 is switched to the arithmetic unit 4 side, the result of the arithmetic unit 4 is transmitted from the transmitting unit 5 to the data receiving device 12.

When the changeover switch 8 is switched to the simulated data computing unit 9, the simulated data computing unit 9 synchronizes with the synchronization signal 1
Equation (2) is calculated using 0 and the data of the simulated data input unit 11 to obtain I. I obtained by the simulated data calculation unit 9
From the transmission unit 5 as the transmission data 6 to the data receiving device 1
Send to 2.

[0046]

[Equation 2] I = k1 × sin (ωt−θ) (2) k1, ω, θ: Data input to the simulated data input unit 11 t: Time (at synchronization signal reception t = 0)

When confirming the operation of the transmitting unit 5 and confirming the transmitting data 6 by the data receiving device 12, the setting of the transmitting data 6 can be easily performed by switching the switch 8 to the simulated data calculating unit 9 side. Is possible. Further, the data receiving device 12 and the protection control device 1 for transmitting the transmission data 6
If it is necessary to synchronize the data when passing the data, it is necessary to transmit the transmission data 6 synchronized with the synchronization signal 10 for the test.

In such a case, a test device for outputting a current synchronized with the sync signal 10 is usually required. According to the present invention, however, the transmission data 6 synchronized with the sync signal 10 can be easily obtained without using the test device. It can be transmitted, and is very effective when the data receiving device 12 is tested.

An embodiment of a protection control device for a power system according to claim 7 of the present invention will be described with reference to FIG. 7, the same parts as those in FIG. 4 and the corresponding parts are designated by the same reference numerals.

Reference numeral 1 is a protection control device, which takes in a plurality of input data 2 (voltage information / current information of the power system) by an input unit 3. In the protection control device 1, the arithmetic unit 4 uses the plurality of input data 2 (V, I1, I2, I3) thus fetched to convert a plurality of power values (P1
, P2, P3). The simulated data input unit 7 corresponds to the transmission data 6 of 3 quantities, and the power simulation value of 3 quantities.
Input (P1M, P2M, P3M). The change-over switch 8 corresponds to the transmission data 6 of three volumes, and the three change-over switches 8
There are a, 8b, and 8c.

When the changeover switches 8a and 8b are switched to the arithmetic unit 4, the data P1 and P2 of the arithmetic unit 4 are transmitted as transmission data 6 via the transmission unit 5 to the data receiving device 12.
Send to. The changeover switch 8c is the simulated data input section 11
As for the data of the portion switched to, the data P3 M of the simulated data input unit 11 is transmitted through the transmission unit 5 and the transmission data 6
To the data receiving device 12. As a result, the transmission data 6 has three amounts of P1, P2 and P3M.

When confirming the operation of the transmission unit 5 and confirming the transmission data 6 on the data receiving device 12 side, if I3 of the input data 2 cannot be input from the input unit 3, it cannot be input from the input unit 3. By switching the changeover switch 8c corresponding to the data I3 to the simulated data input unit 7 side, the transmission data 6 is transmitted from the transmission unit 5 without inputting the data I3 from the input unit 3.
Can be sent to

An embodiment of a protection control device for a power system according to claim 8 of the present invention will be described with reference to FIG. In FIG. 8, the protection control device 1 includes a reception unit 15 that receives input data such as voltage information, current information, and device information of the power system from the transmission device 13 as reception data 14, and a simulation data 7.
A simulated data input section 11 for inputting the received data 1
An operation unit 4 for performing a protection control operation or the like for determining the necessity of equipment control necessary for system protection control using 4, and an output unit 16 for outputting the result calculated by the operation unit 4 as output data 17. It is composed of a changeover switch 8.

When the changeover switch 8 is switched to the receiving section 15 side, calculation is performed using the received data 14, and when it is switched to the simulated data input section 11 side, calculation is performed using the simulated data 7. . Then, the result calculated by the calculation unit 4 is output to the output unit 16 as the output data 17.

As described above, before the transmitter 13 is installed or when the data of the transmitter cannot be freely changed, the confirmation test of the arithmetic unit 4 can be performed by the calculation using the simulated data 14. You can easily. This is very effective when it is desired to perform a confirmation test on only the calculation unit 4 of the protection control device 1.

An embodiment of a power system protection control apparatus according to claim 9 of the present invention will be described with reference to FIG. 9, the same parts as those in FIG. 8 and the corresponding parts are designated by the same reference numerals.

The difference between this embodiment and the embodiment shown in FIG. 8 is that there are a plurality of sets of receiving units for receiving various data such as a plurality of sets of voltages, currents, and device states from a plurality of other devices. And a simulated data input section for inputting simulated data of
In addition, a plurality of changeover switches are provided.

When the receiving unit 15 receives the reception data 14 (14a, 14b) from the two transmission devices 13 (13a, 13b), the reception data 14b cannot be received from the transmission device 13b due to a communication failure or the like. , Only the device that cannot receive the data 7 corresponding to the simulated data input 11
By switching to b, calculation can be performed in the same manner as when all the data can be received.

As described above, even in the protection control device 1 which cannot perform the calculation unless all the data are gathered, the calculation unit 4 can be confirmed by using the simulated data 7.
Further, when confirming the calculation unit 4, it is necessary to change the data of the plurality of transmitting devices 13, and when the plurality of transmitting devices 13 are distant from each other, the data of the plurality of transmitting devices 13 are changed at the same time. However, according to the present invention, the function can be confirmed by simply selecting the simulated data in the protection control device 1.

[0060]

According to the present invention, with the above configuration, when the input data cannot be input from the outside or the input data cannot be changed arbitrarily, the transmission device or the transmission path connecting the transmission device and the protection control device is provided. Even if it cannot be used, check the transmitter in the power system protection control device.
This makes it possible to easily, swiftly and surely perform a data transfer test between the operation control unit and the protection control device and the data receiving device, and it requires a large amount of manpower and a test device, which is economically advantageous.

[Brief description of drawings]

FIG. 1 is an embodiment diagram of a protection control device for a power system according to claim 1 of the present invention.

FIG. 2 is an embodiment diagram of a protection control device for a power system according to claim 2 of the present invention.

FIG. 3 is an embodiment diagram of a protection control device for a power system according to claim 3 of the present invention.

FIG. 4 is an embodiment diagram of a protection control device for a power system according to claim 4 of the present invention.

FIG. 5 is an embodiment diagram of a protection control device for a power system according to claim 5 of the present invention.

FIG. 6 is an embodiment diagram of a protection control device for a power system according to claim 6 of the present invention.

FIG. 7 is an embodiment diagram of a protection control device for a power system according to claim 7 of the present invention.

FIG. 8 is an embodiment diagram of a protection control device for a power system according to claim 8 of the present invention.

FIG. 9 is an embodiment diagram of a protection control device for a power system according to claim 9 of the present invention.

FIG. 10 is an embodiment diagram of a protection control device for a power system according to a conventional technique.

[Explanation of symbols]

 1 Protection control device 2 Input data 3 Input section 4 Calculation section 5 Transmission section 6 Transmission data 7,7a, 7b Simulated data 8,81,8a, 8b, 8c Changeover switch 9 Simulated data calculation section 10 Synchronous signal 11 Simulated data input section 12 data reception device 13, 13a, 13b transmission device 14, 14a, 14b reception data 15 reception unit 16 output unit 17 output data

Claims (9)

[Claims] 1. A data input unit for fetching various data such as voltage, current, and equipment status in a power system, a calculation unit for performing system protection control calculation using these data, and a result of the calculation unit for other devices. In a protection control device including a transmission unit for transmitting to the power control system, it is possible to switch to transmitting simulated data contained in the protection control device instead of transmitting the result of the calculation unit. . 2. The protection control device for the electric power system according to claim 1, wherein the protection control device has a plurality of sets of simulation data and is switched to transmit an arbitrary simulation data. 3. The protection control of a power system according to claim 1, wherein the protection control device has a plurality of sets of simulated data, and when the simulated data is transmitted, the simulated data to be transmitted is switched at regular intervals. apparatus. 4. The power system protection control apparatus according to claim 1, further comprising a simulation data input section for taking the simulation data into the protection control apparatus, and transmitting the simulation data input from the simulation data input section. 5. The protection control of the power system according to claim 4, wherein the simulation data input to the simulated data input section incorporated in the protection control device can be switched so as to transmit the result of calculation of the simulated data according to a certain function. apparatus. 6. A data input unit for fetching various data such as voltage, current and equipment state in a power system, a calculation unit for performing system protection control calculation using these data, and a result of the calculation unit for other devices. In a protection control device comprising a transmission unit having a transmission control synchronization signal for transmitting to
Instead of transmitting the result of the calculation unit, the result of calculating the simulated data input to the simulated data input unit built into the protection control device according to a certain function using a variable with the transmission control synchronization signal of the transmission unit as the reference is calculated. A protection control device for a power system, which can be switched to transmit. 7. A data input section for fetching various data such as voltage, current, and equipment status in a power system, a computing section for performing system protection control computation using these data, and a plurality of results of the computing section In the protection control device including a transmission unit for transmitting to the device, the result of the arithmetic unit or the simulated data input to the simulated data input unit incorporated in the protection control device is selected for each data and transmitted. A protection control device for a power system, which is capable of performing. 8. A receiving unit that receives various data such as voltage, current, and device status from another device, a computing unit that performs system protection control computation using these data, and an output that outputs the result of the computing unit. In a protection control device comprising a control unit, instead of calculating the reception data of the receiving unit, it is possible to switch the calculation using the simulation data input to the simulation data input unit incorporated in the protection control device. Protection control equipment. 9. A receiving section for receiving various sets of data such as a plurality of sets of voltages, currents, and device states from a plurality of other devices, a simulated data input section for inputting a plurality of simulated data, and using these data. An operation unit that performs system protection control operation,
In a protection control device including an output unit that outputs a result of a calculation unit, instead of calculating reception data of an arbitrary reception unit, switching is performed by selecting and using the corresponding simulated data input to the simulated data input unit. A power system protection and control device characterized by being capable of performing.