KR0131818Y1 - Low output voltage protection circuit - Google Patents

Abstract

The present invention relates to a low output voltage protection circuit of a power supply, and in particular, a voltage detector (2) for detecting the output voltage of the power supply (1); A reference voltage generator (3) for providing a predetermined voltage as a reference voltage (Vref); A comparator (4) for comparing the output voltage of the voltage detector (2) with a reference voltage (Vref) to detect a low power state; An optical coupler (5) for selectively driving a device control field effect transistor (FET) according to the output state of the comparator (4); A field effect transistor (FET) for directly controlling the driving of the device (7) in accordance with the output state of the optocoupler (5); When the output voltage of the power supply 1 is normally returned, the drive time delay unit 6 is interconnected to prevent the device 7 from being driven immediately. By immediately shutting off the drive, the abnormal output voltage (that is, low voltage) can prevent the malfunction of the device in advance, which greatly improves the reliability of the product.

Description

Low output voltage protection circuit of power supply

1 is a low output voltage protection circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: power supply 2: voltage detector

3: reference voltage generator 4: comparator

5: optical coupler 6: driving time delay unit

7: device FET: field effect transistor

The present invention relates to a low output voltage protection circuit of a power supply. In particular, when the output voltage of the power supply falls below a predetermined voltage, the device is automatically shut off to prevent the device from malfunctioning due to abnormal output voltage. A low output voltage protection circuit of a power supply.

In the conventional power supply, an overvoltage protection circuit is provided to prevent damage to various components in the device due to the overvoltage applied to the device, but the low voltage protection circuit is not provided at all.

Therefore, even though the voltage output from the power supply is lowered below the predetermined voltage due to some cause, the device continues to be abnormally driven by the low output voltage, which eventually leads to malfunction of the device, thereby lowering the reliability of the product. Occurred.

An object of the present invention is to provide a low output voltage protection circuit of a power supply that can immediately prevent the operation of the device when the output voltage of the power supply drops below a predetermined voltage, thereby preventing the device from malfunctioning due to abnormal output voltage. have.

Another object of the present invention is to provide a power supply that can improve the reliability of the product by allowing the device to be re-run only when the low voltage is output from the power supply and the normal voltage is output again. To provide a low output voltage protection circuit.

In order to achieve the above object, the low output voltage protection circuit of the power supply according to the present invention, the detection unit for detecting the output voltage of the power supply; A reference voltage generator for providing a predetermined voltage as a reference voltage; A comparator for detecting a low power state by comparing an output voltage and a reference voltage of the voltage detector; An optical coupler driving on / off by an output signal of the comparator; A field effect transistor driven on / off by the output signal of the optical coupler; In addition, it is commonly connected to the non-inverting input terminal of the detector and the comparator to delay the inverted output signal of the comparator for a predetermined time when the output voltage of the power supply recovers from an abnormal state. Characterized in that configured to include a drive time delay to prevent.

Hereinafter, the low output voltage protection circuit of the power supply according to the present invention will be described in detail with reference to the accompanying drawings.

The low output voltage protection circuit of the present invention, as shown in FIG. 1, includes a voltage detector (2) configured of two series resistors (R1, R2) for detecting the output voltage of the power supply (1); A reference voltage generator (3) for providing a predetermined voltage as a reference voltage (Vref); A comparator (4) for comparing the output voltage of the voltage detector (2) with a reference voltage (Vref) to detect a low power state; An optical coupler (5) for selectively driving a device control field effect transistor (FET) according to the output state of the comparator (4); A field effect transistor (FET) for directly controlling the driving of the device (7) in accordance with the output state of the optocoupler (5); It is composed of a capacitor (C1) by interconnecting the drive time delay unit (6) to prevent the device 7 is immediately driven when the output voltage of the power supply 1 is normally returned.

Here, reference numeral ZD denotes a zener diode for restricting supply of a constant voltage to the gate of the field effect transistor (FET), and R3 denotes a resistor for protecting the optocoupler 5.

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

First, when the voltage output from the power supply 1 is a voltage sufficient for the device 7 to operate normally, the detected voltage of the voltage detector 2 composed of two series resistors R1 and R2 is the reference voltage generator. Since the predetermined voltage output from (3) is higher than the reference voltage Vref, the output of the comparator 4 is in a high state.

Accordingly, since the light emitting and receiving elements of the optical coupler 5 whose driving is controlled by the output signal of the comparator 4 are not driven, the driving pulse of the square wave is normally applied to the gate of the field effect transistor FET. Since the on state is maintained, the device 7 maintains a normal driving state.

However, when the voltage output from the power supply 1 drops below a predetermined voltage due to a decrease in input voltage, the predetermined output output from the reference voltage generator 3 is detected by the voltage detector 2. The voltage, that is, lower than the reference voltage Vref, causes the output of the comparator 4 to be low.

Therefore, the light emitting and receiving element of the optical coupler 5 whose drive is controlled by the output signal of the comparator 4 is driven, so that the gate of the field effect transistor FET is used to receive the light receiving element of the optical coupler 5. The ground effect of the field effect transistor (FET) is cut off.

That is, when the output voltage of the power supply 1 falls below a certain voltage, the driving of the field effect transistor (FET) for driving the device is automatically cut off, so that the supply voltage of the device 7 is cut off and the Malfunctions can be prevented beforehand.

As such, when the voltage output from the power supply 1 returns to the normal state while the driving of the device is stopped due to the low voltage output of the power supply 10, the output of the comparator 4 becomes high again and the optical coupler 5 The drive of is cut off again and the field effect transistor (FET) is driven so that the device 7 returns to the normal driving state, wherein the device is not driven immediately when the voltage of the power supply 1 is normally returned. The delay is performed after the time constant C1 x R1 of the time delay unit 6.

That is, although the output voltage of the power supply 1 changes every time a change in the surrounding conditions occurs, the device is driven immediately because it is returned to the normal voltage after shutting off the operation of the device due to the abnormal voltage output. In case of returning to this abnormal state (low voltage), there is an unreasonable need to shut down the operation of the device again. To prevent this, the drive time delay is determined whether the time is maintained when the output voltage of the power supply 1 returns to the normal state. The detection is made through the unit 06.

In other words, the detection voltage of the voltage detector 2 does not reach the point when the time when the output voltage of the power supply 1 returns to the normal state is maintained for a predetermined time and the capacitor C1 in the driving time delay unit 6 is fully charged. Since the output of the comparator 4 becomes higher than the reference voltage Vref, the field effect transistor FET is driven, and the device 7 is in a normal driving state.

Of course, if the output voltage of the power supply 1 is lowered again within the time constant of the driving time delay unit 6, the output of the comparator 4 is kept low, so that the field effect transistor (FET) and the device The driving of (7) remains blocked.

On the other hand, in the above description, an embodiment in which the driving of the device is cut off when the output voltage of the power supply 1 falls below a predetermined voltage has been described. However, the numerical values of the components other than the voltage detector and the reference voltage value are changed and the output terminals thereof are changed. Connecting the input terminal of the comparator oppositely protects the device against overvoltage.

As described above, according to the present invention, when the output voltage of the power supply drops below a predetermined voltage, the device is immediately shut off, thereby preventing the device from malfunctioning due to an abnormal output voltage (ie, low voltage). It is a very useful design that can greatly improve the reliability of the product.

Claims (1)

A voltage detector (2) for detecting an output voltage of the power supply (1); A reference voltage generator (3) for providing a predetermined voltage as a reference voltage (Vref); A comparator (4) for comparing the output voltage of the voltage detector (2) with a reference voltage (Vref) to detect a low power state; An optical coupler (5) driven on / off by the output signal of the comparator (4); A field effect transistor (FET) driven on and off by an output signal of the optical coupler; In addition, the non-inverting input terminal (+) of the detector 2 and the comparator 4 is connected in common and the comparator 4 is inverted when the output voltage of the power supply 1 recovers from an abnormal state to a normal state. And a drive time delay unit (6) for delaying the output signal for a predetermined time to prevent the device (7) from being driven immediately.