KR920006538Y1 - Power circuit - Google Patents

Abstract

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Description

Circuit break control circuit

1 is a circuit interrupt control circuit diagram of the present invention.

2 is a circuit cutoff control circuit diagram according to the present invention.

3 is an operation control flow chart according to the present invention.

* Explanation of symbols for main parts of the drawings

1: open / close switch 2-4: rectifier

5-7: Signal Conversion Circuit 8: Analog / Digital Conversion Circuit

9: power supply section 10: microcomputer

1l: Instantaneous circuit 12: Trip device

CT1-CT3: Current transformer A1-A3: Burden circuit

B1-B3: voltage conversion circuit 21: amplifier

22, 24: multiplexer 23: gain conversion circuit

25: adjustment conversion circuit

The present invention relates to a circuit breaker circuit, and more particularly, to a circuit breaker control circuit capable of protecting a distribution line by properly detecting an accident current by an electronic circuit and cutting off input power.

In general, a circuit breaker is a low voltage circuit breaker used to protect a low voltage distribution line. The circuit breaker is electronically controlled by a conventional circuit breaker control circuit. The three-phase (R, S, T) power supply is rectified by the rectifier (2-4) after detecting the current through each phase current transformer (CT1-CT3). After rectifying through the rectifying unit 2-4, they are applied to the respective load circuits Al-A3, and are then applied to the power supply unit 9 and the trip device 12 in common through the diodes D1-D3. The zener voltage abnormal time generating circuit 11 is applied to the zener diodes ZD1 and ZD2. The power supply unit 9 supplies the operating power of each part at a constant voltage.

The diodes D1-D3 are commonly applied to the next stage through the respective diodes D1-D3, and are thus ringed by the diodes D1-D3. The signal voltages induced by the burden circuits A1-A3 convert the absolute value waveform into a signal corresponding to the effective value or the average value through the signal conversion circuits 5-7, respectively. Since each output of the signal conversion circuit 5-7 is applied to the analog / digital conversion circuit 8 in common through the diodes D4-D4, the signal conversion output according to three phases (R, S, T) is output. This ring is converted into a digital signal by the analog / digital conversion circuit 8 and input to the microcomputer 10. Accordingly, the microcomputer 10 determines digital signals according to a program and outputs them through an output port rule. When an abnormal current is detected, the microcomputer 10 outputs a high potential to the gate of the SCR and turns them on, so that the trip device 12 is turned on to open the opening. The position control unit 1 is controlled. That is, the contact of the opening and closing switch unit 1 is opened to block the line. In addition, since the rectified voltage of the rectifier 2-4 is applied to the time generation circuit 11 through the zener diodes ZD1 and ZD2 after being divided by the diodes D1-D3, the zener diode ( When the zener voltage of ZD1) and (ZD2) is equal to or higher, that is, when an abnormal current is generated in any one of the three-phase (R, S, T) power lines and becomes higher than the zener voltage, the time generation circuit 11 operates to operate the gate of the SCR. Output high potential to. Accordingly, since the SCR is turned on to operate the trip device 12, the trip device 12 opens a contact point of the open / close switch unit 1 to perform a line blocking action.

However, such a conventional circuit interrupt control circuit is limited in the ability to adjust the operating range and the adjustment range of the rated current of the microcomputer, it is difficult to safely and accurately control the abnormal current detection.

The present invention devised a circuit blocking control circuit that can adjust the range and the operating time of the rated current in view of such a problem, will be described in detail with reference to the accompanying drawings as follows.

2 is a circuit break control circuit diagram according to the present invention, and as shown therein, the current through the current transformers CT1, CT2, and CT3 in each of the three phases R, S, and T inputted through the open / close switch unit 1 is shown in FIG. Is rectified by the rectifier (2) and through the charge circuit (Al, A2, A3) and voltage conversion circuit (Bl, B2, B3) connected in parallel through each of the diodes (D1, D2, D3) Commonly applied to the power supply unit 9 and the trip device 12, and is applied to the instantaneous circuit 11 through the zener diode (ZD11), the output of the rectifier (2-4) direct signal conversion circuit (5) After converting to the effective value or the average signal waveform through the oring through the respective diodes (D4, D5, D6) to obtain the maximum value, and amplified by the amplifier 21, input to the multiplexer 24, the amplifier 21 ) Is gain controlled by the gain conversion circuit 23 through the multiplexer 22 under the control of the microcomputer 10, and the multiplexer 24 is Under the control of the microcomputer 10, the output of the adjustment conversion circuit 25 and the amplifying unit 21 is selected and input to the analog / digital converter 8, and the detection current through the analog / digital converter 8. Instantaneous operation when the value is applied, generates a control signal according to the rated current range set through the adjustment conversion circuit 25 to control the gate trigger of the SCR, and operates when the zener voltage of the zener diode ZD11 is higher than the zener voltage. The gate trigger of the SCR is controlled by the output of the circuit 11, and the trip device 12 is controlled through the SCR to control the open / close switch unit 1.

Referring to the operation and effects of the present invention configured as described above are as follows.

When the rectified voltage according to the current detected through the current transformers CT1-CT3 becomes equal to or greater than the zener voltage of the zener diode ZDl1, the instantaneous circuit 11 operates to output the trigger signal to the gate of the SCR, so that the SCR is turned on. The trip device 12 is operated, and accordingly, the trip device 12 opens the contact of the open / close switch unit 1 to cut off three-phase (R, S, T) power. In addition, the microcomputer 10 adjusts the rated current externally through the adjustment circuit 25 at the time of initial operation and sets it as a reference value. At this time, when the abnormal current is detected by the current transformers CTl, CT2, and CT3, after propagating through the rectifier 2-4, the diode D1 is passed through the burden circuits A1-A3 and the voltage conversion circuits B1-B3. D3) is applied to the power supply unit 9 in common through the rate again, and the outputs of the rectifiers 2-4 are converted into effective values or average values in the signal conversion circuits 5-7, respectively, through the diodes D4-D6. Since it is ringed, the maximum value is applied to the heavy portion 21. The microcomputer 10 controls the multiplexer 22 to convert the amplification gain of the amplifier 21 through the gain converter circuit 23, and the output of the amplifier 21 is analogized after the multiplexer 24. The digital converter 8 inputs the digital value to the microcomputer 10.

Accordingly, the microcomputer 10 compares and controls the rated current set by the adjustment conversion circuit 25 with the detected current. The control trigger signal is output according to the long time characteristic time and the rated current and the short time characteristic time and the rated rectification. Turn on. The trip device 12 operates according to the turn-on of the SCR to control the open / close switch unit 1.

3 is an operation control flow chart according to the present invention, after initializing as shown in the figure through the adjustment conversion circuit 25 to adjust the long time rated current, long time characteristic time, short time current, short time characteristic time After setting to the reference value, the detection current is discriminated, and when the fault current is set, the fault condition is set. When the time limit is generated and the new time elapses longer than the long time characteristic time and the short time characteristic time, the trip device 12 is operated.

That is, after setting the characteristic time for the fault situation over the rated current over the rated time or the fault condition for a short time, after setting the fault condition for each case, if the accumulated current exceeds the time limit, the trip device ( Open and close the switch 11 to control through l2).

As described above, the present invention can adjust the long-time rated current and the specific time, the short-time rated current and the specific time through the adjustment conversion circuit, and adjust the gain width of the detection current through the gain conversion circuit to adjust the rated current range. Since it can be enlarged, there is an effect that accurate control can be performed.

Claims (1)

Current transformer CT1-CT3 for detecting current of the three-phase (R, S, T) power supply through the open / close switch unit 1, and rectifier 2-4 for full-wave rectifying the output of the current transformer (CT1-CT3). And voltage conversion circuits B1-B3 for converting the outputs of the rectifiers 2-4 into voltages through burden circuits A1-A3, and diodes D1- of the voltage conversion circuits B1-B3. An instantaneous circuit 11 which operates when the common output via D3) is equal to or greater than the zener voltage of the zener diode ZDl1, and a signal conversion circuit converting the output of the rectifier 2-4 into an effective average value signal (5-). 7), the analog / digital converter 8 and the microcomputer 10, and under the control of the instantaneous circuit 11 and the microcomputer 10 under the control of the SCR (SCR) under the control of the opening and closing switch unit (1) In the circuit breaking control circuit comprised of the trip device 12 which controls the control circuit, the amplification part 21 which amplifies the common output through the diodes D4-D6 of the signal conversion circuit part 5-7, and the microcomputer 10) A gain conversion circuit 23 for converting the medium width gain of the medium width portion 21 through the multiplexer 22 receiving the air, and a control conversion circuit for adjusting the specific time and the rated current and the short time and the rated current. (25) and a multiplexer (24) for inputting the output of the adjustment converter circuit (25) and the heavy portion (21) to the microcomputer (10) through the analog / digital converter (8). Circuit break control circuit.