KR20110068222A - Digital protection relay - Google Patents

Abstract

PURPOSE: A digital protection relay is provided to prevent a circuit breaker from being tripped due to an error by including a microprocessor which outputs a trip control signal when an inrush current is generated. CONSTITUTION: A current detector(1) provides an analog current detection signal about a current value in a circuit. An analog-digital converter(2) converts the current detection signal from the current detector into a digital signal and outputs the digital signal. A breaker state input circuit unit(3) receives on, off, or trip operation signal. A microprocessor(4) outputs a trip control signal which trips the circuit breaker. An output circuit unit(5) transmits an on control signal or trip control signal received from the microprocessor into the circuit breaker.

Description

DIGITAL PROTECTION RELAY

The present invention relates to a digital protection relay, and more particularly, to a digital protection relay capable of preventing malfunction against inrush current.

The digital protection relay is a relay that can be controlled to supply or cut off power to a load such as an electric motor, and can protect the load in the event of an accident current such as overcurrent and short circuit current in the load. For the protection purpose of the load device, the digital protection relay is controlled by the current sensor (SENSOR) that detects the current on the power supply circuit and the digital protection relay in the event of an accidental current to cut off the circuit to protect the load from the accidental current. It is used in connection with a breaker.

In such a digital protective relay, when the load is supplied to the load, a closing control signal (CLOSING CONTROL SIGNAL) is output from the digital protective relay to the circuit breaker, and in response, the circuit breaker is turned on (the ON position). Switch to power the load. When switching to the circuit breaker input position in this way, a large inrush current of several times the rated current is generated during the initial short time of switching, and the digital protection relay which receives the inrush current from the current detection sensor moves the circuit breaker to the trip (TRIP) position. It was controlled to operate. Thus, the circuit was cut off and the power supply to the load such as the electric motor was stopped. The inrush current is generated temporarily only for a short time at the beginning of the switching position of the circuit breaker, but the digital protection relay according to the prior art has no means and a function to prevent the malfunction of the circuit breaker control caused by the inrush current. In addition, there is a problem that the user has to manually operate the circuit breaker again to the on position after the inrush current generation time and the circuit breaker trips so that time and physical loss occurs during the circuit break time.

Accordingly, an object of the present invention is to solve the above problems of the prior art, and an object of the present invention is to provide a digital protection relay capable of a stable protection relay which can prevent the malfunction of the circuit breaker due to the initial inrush current of the circuit breaker.

The object of the present invention, in the digital protective relay,

A current detector for providing an analog current detection signal for a current value flowing on a circuit;

An analog-digital converter configured to convert the current detection signal from the current detector into a digital signal and output the digital signal;

A breaker state input circuit section for receiving and providing an operating state signal of ON, OFF or TRIP from a circuit breaker connected on the circuit;

Connected to the analog-digital converter and the breaker state input circuit, and based on a digital signal from the analog-digital converter and an operation state signal from the breaker state input circuit, a preset inrush current reference value and a preset delay time. And a microprocessor outputting a trip control signal to trip the breaker only when the digital signal exceeding the inrush current reference value is received after the predetermined delay time has elapsed when the operation state signal indicating the on state is received. (MICROPROCESSOR); And

It can be achieved by providing a digital protection relay according to the present invention including an output circuit unit for outputting the on control signal or trip control signal received from the microprocessor to the breaker.

The digital protection relay according to the present invention trips the circuit breaker only when receiving a current detection signal exceeding the inrush current reference value after a predetermined delay time has elapsed when receiving the operation state signal indicating the on state from the circuit breaker. Since a microprocessor outputs a trip control signal to prevent the circuit breaker from malfunctioning when an inrush current occurs, it is possible to provide a digital protection relay capable of a stable protection relay. have.

The object of the present invention, the configuration of the present invention to achieve the same and the effects thereof will be more clearly understood by the following description of the preferred embodiment of the present invention with reference to the accompanying drawings.

1 is a functional block diagram showing a circuit configuration of a digital protective relay according to the present invention, Figure 2 is a flow chart showing a control process performed by a microprocessor in the digital protective relay according to the present invention, Figure 3 In the digital protection relay according to the present invention, a waveform diagram showing a time-dependent relationship between an inrush current, a breaker input control signal, an operation state signal of a circuit breaker, and an operation start signal of a digital relay.

Referring to FIG. 1, the digital protection relay according to the preferred embodiment of the present invention includes a current detector 1, an analog-to-digital converter 2, a circuit breaker state input circuit 3, and a microprocessor MICROPROCESSOR. 4) and an output circuit section (also known as an output control section) 5.

The current detector 1 may be configured as, for example, a well-known current transformer as a current sensor that provides an analog current detection signal for a current value flowing on a circuit.

The analog-digital converting section 2 may be configured as an analog-digital converting circuit section for converting and outputting the analog current detection signal from the current detecting section 1 into a digital signal.

Circuit breaker state input circuit section 3 is a circuit breaker operating state signal which is connected to a circuit breaker connected on a circuit and receives and provides an operating state signal of ON, OFF or TRIP from the circuit breaker. Input circuit section.

The microprocessor 4 is connected to the analog-to-digital converter 2 and the breaker state input circuitry 3. The microprocessor 4 is configured with a digital signal from the analog-to-digital converter 2 and an operation state signal from the breaker state input circuit unit 3 and an inrush current reference value preset by the user or the manufacturer of the digital relay. On the basis of the delay time, the trip control signal to trip the circuit breaker only when the digital signal exceeding the inrush current reference value is received after the predetermined delay time has elapsed when the operation state signal indicating the on state is received. Outputs The operation of the microprocessor 4 may be performed according to a prestored processing program and a setting value (delay time, setting value of the inrush current reference value) stored in the memory inside the microprocessor 4. If the microprocessor 4 does not receive the digital signal exceeding the inrush current reference value after the predetermined delay time has elapsed when the operation state signal from the breaker state input circuit section 3 indicating the on state is received, The current detection value and the preset inrush current reference value are determined to determine whether the current detection value according to the digital signal from the analog-digital converter converting the current detection signal into a digital signal exceeds the preset inrush current reference value. A processing program for repeating the processing to compare is provided.

 A more detailed description of the operation of the microprocessor 4 will be described later with reference to the signal waveform diagram of FIG. 3 and the flowchart of FIG. 2.

The output circuit section (aka output control section) 5 outputs the ON control signal or the trip control signal received from the microprocessor 4 to the circuit breaker.

On the other hand, the operation of the digital protective relay according to a preferred embodiment of the present invention configured as described above with reference to FIGS. 2 and 3 as follows.

The description of the operation is described in that the microprocessor 4 is connected to the circuit breaker by the output circuit section (also known as the output control section) so that the circuit breaker controlled by the digital protection relay according to the present invention operates in the input position, that is, the circuit connection (ON) position. Through 5), the input control signal starts from outputting as a constant voltage output signal as shown in the waveform of FIG.

In Fig. 2, in step ST1, the microprocessor 4 inputs the digital conversion value of the current detection signal through the analog-to-digital converter 2.

Next, the process proceeds to step ST2, and the microprocessor 4 compares the reference value of the inrush current which is set in advance and stored in the internal memory with the digital conversion value of the current detection signal input through the analog-digital converter 2.

In step ST2, if the digital conversion value of the current detection signal input through the analog-digital converter 2 is greater than or equal to the reference value of the inrush current, the flow advances to step ST3, and the analog-digital converter ( If the digital conversion value of the current detection signal input through 2) is small, the microprocessor 4 repeats the processing operation of step ST2.

In the next step ST3, the microprocessor 4 counts the set delay time of the delay time Tds of FIG. 3, which is set in advance and stored in the internal memory, and then proceeds to step ST4 to determine whether the input operation state signal of the circuit breaker is input. Check

The circuit breaker that receives the input control signal from the output circuit unit 5 in the starting step actually operates to the input position after the first time Tdo of FIG. 3 and generates an operating state signal indicating the input state of FIG. b) Output like waveform.

After a second time Tdi from the time when the circuit breaker outputs the operating state signal in the input state, the microprocessor 4 of the digital protective relay according to the present invention is connected to the circuit breaker state input circuit part 3 of FIG. Receive an operation status signal indicating an input state such as a waveform.

Accordingly, the microprocessor 4 has a larger digital conversion value of the current detection signal input through the analog-to-digital converter 2 than the reference value of the inrush current at the end of the preset time Tds which is preset and stored in the internal memory. Since the circuit breaker is in the closing operation state, the trip control signal is output as shown in the waveform (d) of FIG. 3 so that the circuit breaker breaks the circuit (step ST5).

In FIG. 3 (d), the code Tdss indicates that the trip control signal is outputted in error so that the circuit breaker is cut off when the delay time Tds is set to be shorter than the generation time Ti of the inrush current larger than the reference value by the time difference Tdss. Indicates that it can. Therefore, the delay time Tds is set by the user or the manufacturer of the digital protective relay to accurately measure in advance the occurrence time of the inrush current larger than the reference value so as not to be shorter than the measurement occurrence time.

As described above, the digital protection relay according to the present invention detects a current exceeding the inrush current reference value after a predetermined delay time Tds when receiving an operation state signal indicating an on state (input state) from the circuit breaker. The microprocessor 4 which outputs a trip control signal to trip the circuit breaker only when a signal is received, prevents the malfunction of controlling the circuit breaker to trip by an error when an inrush current occurs when the circuit breaker is input. The effect of providing a digital protective relay capable of relaying can be obtained.

1 is a functional block diagram showing a circuit configuration of a digital protection relay according to the present invention,

2 is a flowchart showing a control process performed by a microprocessor in the digital protection relay according to the present invention;

FIG. 3 is a waveform diagram illustrating a time-dependent relationship between an inrush current, a breaker input control signal, an operation state signal of a circuit breaker, and an operation start signal of a digital relay in a digital protection relay according to the present invention.

3 (a) is a waveform diagram according to the passage of time of the breaker input control signal,

3B is a waveform diagram of an operation state signal output of the circuit breaker showing that the circuit breaker operates at the input position with a predetermined time delay;

3C is an input signal waveform diagram of an operation state signal showing that the operation state signal from the circuit breaker is input to the microprocessor by a predetermined time delay;

3D is an output waveform diagram showing waveforms of a trip control signal output from a microprocessor when an inrush current exceeding the inrush current reference value is input as a current detection signal within a predetermined delay time.

3E is a waveform diagram showing waveforms of inrush current generated on a circuit at the initial stage of a circuit breaker input operation.

* Explanation of symbols on the main parts of the drawings

1: current detector 2: analog-to-digital converter

3: breaker status input circuitry 4: microprocessor

5: output circuit section (aka output control section)

Claims (2)

In the digital protective relay, A current detector for providing an analog current detection signal for a current value flowing on a circuit; An analog-digital converter configured to convert the current detection signal from the current detector into a digital signal and output the digital signal; A breaker state input circuit section for receiving and providing an operating state signal of ON, OFF or TRIP from a circuit breaker connected on the circuit; Connected to the analog-digital converter and the breaker state input circuit, and based on a digital signal from the analog-digital converter and an operation state signal from the breaker state input circuit, a preset inrush current reference value and a preset delay time. The micro circuit outputs a trip control signal to trip the circuit breaker only when the digital signal exceeding the inrush current reference value is received after the preset delay time elapses when the operation state signal indicating the on state is received. A processor (MICROPROCESSOR); And And an output circuit unit outputting an on control signal or a trip control signal received from the microprocessor to a circuit breaker. The method of claim 1, The microprocessor, The analog-to-digital converter converts the current detection signal into a digital signal if there is no reception of the digital signal exceeding the inrush current reference value after the predetermined delay time has elapsed when the operation state signal indicating the on state is received. And a microprocessor comprising a processing program for comparing the current detection value with the preset inrush current reference value to determine whether the current detection value according to the digital signal from the digital signal exceeds the preset inrush current reference value. relay.

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