KR970010611B1 - High speed power cut-off circuit of a power supply device - Google Patents

Abstract

A circuit for blocking a high speed power of a power supplier is disclosed. A load is derived by the voltage excited at the secondary coil of the transformer(13). A control signal at a controller(16) is generated according to the voltage applied to the load. The transformer(13) is operated by switching a switching unit(15) according to the control signal. In case that the inputted current power is smaller than the voltage inputted to the controller(16), the operation of the controller is stopped. Thereby, the voltage applied to the load is abruptly blocked.

Description

High speed power cut off circuit of power supply

1 is a view showing the configuration of a general power supply.

2 is a view showing a configuration of a high speed power cut-off circuit of the power supply apparatus according to the present invention.

* Designation of symbols for the main parts of the drawing

11 bridge diode 12 flat portion

13 transformer 14 output unit

15: switching unit 16: control unit

17: high speed power cut-off part R71: resistance

cin co C71: Capacitor Q71: Transistor

Do, D71, D72: Diode

The present invention relates to a power supply device, in particular to a high-speed power cut-off circuit of a power supply device that can protect the load driven by the voltage output from the power supply by blocking the voltage output from the power supply at high speed It is about.

A general power supply device is composed of a bridge diode (1) for full-wave rectification of the AC power (AC) input through the power switch (SW), as shown in Figure 1, and the capacitor is output from the bridge diode (1) Comprising a flattening section (2) for flattening the voltage, a transformer (3) for outputting the excitation voltage to the secondary coil by the flattened voltage of the flattening section (2), a diode (Do) and a capacitor (Co) And an output unit 4 for rectifying the excited voltage of the transformer 3 and outputting it to a load, a switching unit 5 configured of a transistor for driving the transformer 3, and at the output unit 4 The control unit 6 detects an output voltage and outputs a control signal for driving the switching unit 5.

In the general power supply configured as described above, the input AC power AC is first full-wave rectified by the bridge diode 1, and the full-wave rectified voltage is flattened by the capacitor of the flat part 2.

Then, the flattened voltage of the flattening part 2 is applied to the transformer 3 to be excited to the secondary coil of the transformer 3, and the excited secondary voltage of the transformer 3 is the diode of the output part 4 ( Rectified by Do), the output voltage of the rectified diode Do is output after being flattened by the capacitor Co.

At this time, the voltage output from the condenser Co is applied to and sensed by the controller 6, a control signal corresponding to the sensed voltage is output from the controller 6, and the control signal output from the controller 6 is a switching unit ( It is applied to the transistor of 5) to control the switching of the transistor.

In the general power supply device as described above, when the power switch SW is cut off, the charged voltage of the capacitor of the flat portion 2 is discharged at a high speed, and the discharge speed is equal to the current output from the output portion 4. It is related to size.

In the general power supply as described above, when the amount of current output from the output is small, the discharge rate of the capacitor in the flat portion is slow. Therefore, when the discharge of the capacitor is completed, the output arm of the output part is continuously applied to the load and the power switch is turned on. There was a problem that the load continued to operate even after being cut off and the user was confused.

Accordingly, the present invention is to solve such a problem, an object of the present invention is to provide a high speed power cut-off circuit of a power supply device that can stop the operation of the load by cutting off the voltage output from the output section at high speed. It's in the ship.

The object of the present invention is that the load is driven by the secondary coil-excited voltage of the transformer and the voltage applied to the load is applied to the control unit to output a control signal corresponding to the voltage, the switching unit is switched by the control signal In the power supply for controlling the driving of the transformer, if the half-wave rectified voltage of the input AC power is less than the voltage applied to the manufacturing industry, the driving of the control unit is stopped by the voltage applied to the control unit and the driving stop of the control unit It can be achieved by providing a high-speed power cut-off circuit of the power supply device characterized in that the output of the control signal applied to the switching unit is cut off and the voltage applied to the load is cut off at high speed.

Exemplary embodiments of the high speed power cut-off circuit of the power supply apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the configuration of a high-speed power cut-off circuit of the power supply device according to the present invention, as shown in this, the bridge diode 11 for full-wave rectifying AC power (AC) input through the power switch (SW) ), A flattening unit 12 for flattening the voltage output from the bridge diode 11 composed of a capacitor, and a transformer 13 for outputting an excitation voltage to the secondary coil by the flattened voltage of the flattening unit 12. ), A diode (Do) and a capacitor (Co), the output unit (14) for rectifying the excited voltage of the transformer 13 and outputting it to a load, and a transistor to drive the transformer 13 Half-wave rectification of the switching unit 15, the control unit 16 for sensing the voltage output from the output unit 11 to output a control signal for driving the switching unit 15, and the input AC power AC The voltage is supplied to the controller 16. If the voltage is less than the applied voltage, the driving of the control unit 16 is stopped by the voltage applied to the control unit, and the output of the control signal applied to the switching unit 15 is interrupted by the driving stop of the control unit 16 and the load is applied to the load. It is composed of a high speed power cut-off unit 17 in which the applied voltage is cut at high speed.

Here, the fast power cut-off unit 17 includes a diode D71 for half-wave rectifying the input AC power AC, a capacitor C71 having a flattened voltage output from the diode D71, and a capacitor C71. Transistor Q71 which is switched by a resistor R71 for discharging the charged voltage and a control signal for stopping driving of the controller 16 by being switched by the voltage charged and discharged by the capacitor C71. And a diode D72 for protecting the transistor Q71.

In the high speed power cut-off circuit of the power supply apparatus according to the present invention configured as described above, the AC power input first is applied to the bridge diode 11 to be full-wave rectified, and the voltage full-wave rectified by the bridge diode 11 is It is flattened by the capacitor | condenser of the flat part 12.

The flattened voltage of the capacitor is applied to the transformer 13 to excite the secondary coil of the transformer 13, and the excited secondary voltage of the transformer 13 is applied to the diode Do of the output unit 14. Half-wave rectified and the output voltage of the half-wave rectified diode Do is output after being flattened by the capacitor Co.

At this time, the voltage output from the condenser Co is applied and sensed by the controller 16, a control signal corresponding to the sensed voltage is output from the controller 16, and the control signal output from the controller 16 is a switching unit ( 15) to control the switching of the transistor.

Meanwhile, the input AC power AC is half-wave rectified by the diode D71 of the high speed power cut-off unit 17, and the voltage half-wave rectified by the diode D71 is charged by the capacitor C71.

At that time, if the power switch SW is still connected, the transistor Q71 is kept in the off state because the magnitude of the charged voltage of the capacitor C71 is larger than the power supply voltage Vcc of the control unit.

On the other hand, when the power switch SW is cut off, the voltage charged in the capacitor C71 is discharged through the resistor R71 so that the charged voltage of the capacitor C71 is smaller than the voltage applied to the emitter side of the transistor Q71. The transistor Q71 is switched on so that a control signal in a high potential state is output from the transistor Q71, and a control signal in a high potential state is applied to the control unit 16 to stop driving of the control unit 16.

Since the output of the control signal applied to the switching unit 15 is stopped by the driving stop of the control unit 16, the power applied to the load is cut off at high speed.

At this time, since the magnitude of the voltage charged in the capacitor C71 is hundreds of volts, and the magnitude of the voltage applied to the emitter of the transistor Q71 is tens of volts, the destruction of the transistor Q71 is caused to the diode 72. Is prevented by

As described above, the high-speed power cut-off circuit of the power supply device according to the present invention can prevent the damage of the load by cutting off the power applied to the load before the capacitor of the flat portion is completely discharged, the power switch When the load is off and on again, it takes a long time for the load to operate normally, thereby eliminating the possibility of mistaken for the load failure.

Claims (3)

The load is driven by the secondary coil-excited voltage of the transformer and the voltage applied to the load is applied to the controller to output a control signal corresponding to the voltage, and the switching unit is switched by the control signal to control the driving of the transformer. In the supply device, if the half wave current pin voltage of the AC power input is less than the voltage applied to the manufacturing industry, the driving of the control unit is stopped by the voltage applied to the control unit, and the control unit is applied to the switching unit by the driving unit of the control unit. A high speed power cut-off circuit of a power supply device, characterized in that the output of the signal is cut off and a high speed power cut-off means for blocking the voltage applied to the load at high speed. The high speed power cut-off means includes: a diode (D71) for half-wave rectifying the input AC power (AC), a capacitor (C71) for flattening the voltage output from the diode (D71), and the capacitor (C71). A resistor R71 for discharging the charged voltage of the transistor) and a transistor Q71 for controlling a signal for stopping the driving of the controller by switching by the voltage charged and discharged by the capacitor C71. High speed power cut off circuit of power supply. 3. The high speed power cut-off circuit of claim 2, wherein the high speed power cut-off means further includes a diode (D72) for protecting the transistor (Q71).