KR19990015134A - Overvoltage Breaker Circuit - Google Patents

Abstract

An overvoltage blocking circuit, comprising: a power supply unit for outputting an AC voltage; a bridge diode for rectifying the AC voltage output from the power supply unit; and a DC voltage output from the bridge diode and a reference voltage to detect an overvoltage. And an overvoltage detector, a relay switched according to the voltage output from the overvoltage detector, and a switch switched on / off according to the operation of the relay.

Description

Overvoltage Breaker Circuit

The present invention relates to an overvoltage blocking circuit, and more particularly, to an overvoltage blocking circuit suitable for stabilization of a power supply.

In general, the overvoltage is cut through the SCR (Silicon Conrtolled Rectifier), but the present invention is to use a switch relay for more complete over-power cutoff.

1 is a general overvoltage blocking circuit diagram.

Referring to FIG. 1, in the general overvoltage blocking circuit, the AC power source AC of the power supply unit 10 is connected to the input comparator 20 and the overvoltage detector via the diode D1 and D2 of the secondary coil of the power transformer T1. The resistor R1 of the 40 is connected to the R11, and the resistor R11 of the overvoltage detector 40 is connected to the inverting terminal of the comparator OP2 to which the voltage VR2 of the reference voltage B + is applied.

The output terminal of the comparator OP2 passes through the resistor D15 and the zener diode 4 of the display unit 50 through the diode D4, and the resistor R16, the capacitor C2, and the cathode are grounded. The anode of is connected to the light emitting diode 1 connected to the power source B +.

On the other hand, the resistor R1 of the input comparator 20 is connected in series with the resistor R2 and then connected to the inverting terminal of the comparator OP1 to which the reference voltage VR1 applied by the resistors R3 and R4 is applied. do.

The output terminal of the comparator OP1 is connected to the resistor R8 of the output control unit 40 and the base of the transistor Q1 through resistors R5 and R6, and is connected in series with the diode D3. The emitter of transistor Q1 is connected between R8, the cathode of power supply 10 diode D1 is connected to the anode of diode D3, and the collet of transistor Q1 is resistor R9. The resistor R10 and the capacitor C1 and the gate of the SCR 3 are connected to each other, the anode of the SCR 3 is connected to the anode of the diode D3, and the cathode of the SCR 3 is grounded.

The operation of the overvoltage blocking circuit configured as described above is as follows.

First, the output voltage induced by the power transformer T1 and rectified by the diodes D1 and D2 is divided by the resistors R1 and R2 and then applied to the comparator OP1 to supply the reference voltage VR1. Are compared.

Here, when the output voltage rises to a level higher than the reference voltage VR1, the output of the comparator OP1 becomes low. Accordingly, the transistor Q1 is turned on so that the current due to the output voltage causes the diode D3 and the resistor R7. Transistor Q1 flows through it, whereby the output voltage from the collector of transistor Q1 is applied to the gate of SCR 3 so that SCR 3 is turned on so that the output voltage is shut down.

When the overvoltage is shut down by the SCR 3, a low level voltage is applied to the inverting terminal of the comparator OP2, so that the comparator OP2 is compared with the reference voltage VR2 by the resistors R13 and R14. The output goes high.

Therefore, this voltage is applied to the gate of the SCR 2 beyond the zener voltage of the zener diode 4 so that the SCR 2 is turned on so that the light emitting diode 1 emits light and the output voltage of the light emitting diode 1 emits light. You will be notified of the above.

The overvoltage blocking circuit configured as described above has a problem in that the overvoltage output is not completely shut down by the SCR alone, so that the overvoltage is affected by the overvoltage.

The present invention has been made to solve the problems according to the prior art, an object of the present invention is to provide an overvoltage cut-off circuit that can prevent the destruction of the storage control element in the overvoltage state of the DC output voltage and effectively protect the load end In providing.

1 is a general overvoltage blocking circuit diagram,

2 is an overvoltage blocking circuit according to the present invention.

Explanation of symbols for main parts of the drawings

100: power supply unit 200: bridge diode

300: overvoltage detection unit 400: relay

500: switch

Features of the lifetime detection device and detection method of the fluorescent lamp according to the present invention, the power supply unit for outputting an AC voltage, a bridge diode for rectifying the AC voltage output from the power supply unit with a DC voltage, and the DC voltage output from the bridge diode and The overvoltage detection unit automatically detects an overvoltage by comparing a reference voltage, a relay switched according to a voltage output from the overvoltage detection unit, and a switch switched on / off according to the operation of the relay.

Hereinafter, a preferred embodiment of the overvoltage blocking circuit according to the present invention will be described.

2 is an overvoltage blocking circuit according to the present invention.

Referring to FIG. 2, the overvoltage blocking circuit according to the present invention includes a power supply unit 100 for outputting an AC voltage, a bridge diode 200 for rectifying a predetermined AC voltage output from the power supply unit 100 to a DC voltage, and The overvoltage detector 300 detects the overvoltage by comparing the DC voltage output from the bridge diode 200 and the reference voltage, the relay 400 switched according to the voltage output from the overvoltage detector 300, and the relay ( It is composed of a switch 500 that is turned on / off according to the operation of 400.

The operation of the overvoltage blocking circuit according to the present invention configured as described above is as follows.

First, a predetermined AC voltage output from the power supply unit 100 is rectified from the bridge diode 200 into a DC voltage.

The output voltage rectified by the bridge diode 200 is divided by the resistors R1 and R2 of the overvoltage detector 300 and applied to the comparator OP to be compared with a reference voltage by the zener diode ZD. .

When the voltage output from the comparator OP is output at a level higher than the reference voltage by the zener diode ZD, that is, overvoltage, the relay 400 is turned off accordingly. Turn off 500).

Therefore, when the voltage output from the comparator OP of the overvoltage detector 300 is greater than the reference voltage, the relay 400 is turned off to be automatically cut off.

If the voltage output from the comparator OP is output at a level lower than the reference voltage by the zener diode ZD, that is, the constant voltage, the relay 400 is turned on accordingly. The switch 500 is turned on.

Therefore, when the voltage output from the comparator OP of the overvoltage detector 300 is smaller than the reference voltage, the relay 400 is turned on to output a DC output voltage.

The overvoltage blocking circuit according to the present invention has the effect of removing the influence of the overvoltage delivered to the load terminal by cutting the output voltage when the output voltage is an overvoltage.

In particular, the use of a switch relay has the effect that a more complete over-power cut off.

Claims (2)

A power supply unit for outputting an AC voltage; A bridge diode rectifying the AC voltage output from the power supply unit into a DC voltage; An overvoltage detector for detecting an overvoltage by comparing a DC voltage output from the bridge diode with a reference voltage; A relay switched according to the voltage output from the overvoltage detector; And an on / off switch according to the operation of the relay. The method of claim 1, The overvoltage detection unit divides the voltage output from the bridge diode and resistors R1 and R2 connected in series; A zener diode operating when the voltage output from the bridge diode exceeds an rated voltage and becomes an overvoltage; And a comparator for comparing the resistance and the voltage output from the zener diode.