KR970013557A - Overvoltage Protection Circuit of Power Supply - Google Patents

Abstract

The present invention relates to a power supply, and in particular, after comparing all voltages output from the power supply using a comparator and applied to a load, when the voltage is an overvoltage, the power supply is stopped at a high speed to supply power. It relates to an overvoltage protection circuit of a power supply that can protect a device. As described above, the present invention provides an overvoltage detection circuit for detecting an overvoltage by comparing a voltage applied to a load with a set reference voltage, an overvoltage controller for controlling a voltage applied to the load according to an output signal of the overvoltage detection circuit, and an output of the overvoltage controller. The latching unit further includes a latching unit for removing the output signal of the auxiliary power generator by latching the signal.

Description

Overvoltage Protection Circuit of Power Supply

Since this is an open matter, no full text was included.

3 is a view showing the configuration of an overvoltage protection circuit according to the present invention;

4 is a detailed circuit diagram of FIG.

Claims (6)

When the voltage VA and VC output from the power supply and applied to the loads LD1 and LD3 are overvoltages, the pulse width modulator is driven according to the output power Vcc of the auxiliary power generator 10. A power supply provided with a switching unit 17 for varying the pulse width modulated signal of 16 to quickly stop driving of the transformer T, the voltage VA being applied to the load LD1 LD3. An overvoltage control circuit for controlling the voltage VB applied to the load LD2 according to the output signal of the overvoltage detection circuit 18 and the overvoltage detection circuit 18 for detecting an overvoltage by comparing the voltage reference voltage VB with a set reference voltage. And a latching unit 20 for latching the output signal of the overvoltage control unit 19 to remove the output signal Vcc of the auxiliary power generating unit 15. Protection circuit. The voltage applied to the load LD1 (LD3) from the voltage (VA) (VB) (VC) applied to the load (LD1) (LD2) (LD3), respectively. A voltage setting unit 18A for setting a reference voltage from the voltage VB applied to the VA VA, VC, and the load LD2, and a comparison unit 19B for comparing the voltage output from the voltage setting unit 18A. Overvoltage protection circuit of the power supply, characterized in that provided with). The voltage setting unit (18A) is a resistor (R1) (R2) and the resistor (R1) for dividing the output voltage (VB) of the second power output unit 13 to output as a reference voltage. Zener diode ZD1 for stabilizing the reference voltage of R2, resistors R3 and R4 for distributing the output voltage VA of the first power output unit 12, and the third power output unit And a resistor (R5)-(R7) for biasing after distributing the output voltage (VC) of 14). The first comparator of claim 2, wherein the comparing unit 18B compares the reference voltage of the resistors R1 and R2 of the voltage setting unit 18A with the divided voltage of the resistors R3 and R4. COMP1), a resistor R8 that determines the amplification degree of the first comparator COMP1, and a second comparator COMP2 that compares a reference voltage of the resistors R1 and R2 with an output signal of the resistor R7. ) And a resistor (R9) for determining the amplification degree of the second comparator (COMP2). The resistance voltage control unit (10) of claim 1, wherein the overvoltage control unit (19) biases the output voltage (VB) of the second power output unit (13), and the output signal and resistance (R10) of the comparison unit (18B). ) R11 superimposed and biased, a transistor Q1 for switching according to the output voltage of the resistor R11, a resistor R12 for controlling the output current of the transistor Q1, and the second A resistor R13 for biasing the output voltage VB of the power supply output unit 13, a transistor Q2 for switching according to the output voltage of the resistor R13 and the switching state of the transistor Q1, and the transistor ( And a photodiode (PD1) and a resistor (R14) for remotely transmitting the current flowing according to the switching state of Q2) as an overvoltage signal. The method of claim 1, wherein the latching unit 20 is switched by the output signal of the overvoltage control unit 19 to change the current amount according to the phototransistor PT1 and the switching state of the phototransistor PT1 A transistor Q3 for switching, a resistor R15 for biasing the auxiliary power supply Vcc of the auxiliary power generator 15 to rest on the transistor Q3, and switching according to a switching state of the transistor Q3. And a transistor (Q4) and a resistor (R16) for biasing the output current of the transistor (Q3) and applying it to the transistor (Q4). ※ Note: The disclosure is based on the initial application.