KR900007127Y1 - Automatic comeback circuit for break station - Google Patents

Abstract

No content.

Description

Power supply auto on circuit during momentary power failure

1 is a power supply automatic on circuit diagram of a momentary power failure according to the present invention.

* Explanation of symbols for main parts of the drawings

1: flyback transformer power supply 2: standby power supply

3: micom 4: main power circuit

D1-D3: Diode R1-R6: Resistance

C1-C2: Capacitor Q1-Q4: Transistor

SW1: sub power switch RL1: relay

The present invention relates to a power supply circuit of a TV receiver and an electronic device, and more particularly, to a power supply automatic on-circuit in case of a momentary power failure by automatically turning on a subopower switch when the power is restored after a momentary power failure. .

In a power supply circuit of a conventional electronic device, there is a problem in operation in that a user must manually turn on a relay power switch or a sub power switch during a momentary power failure.

The present invention is devised to improve the above problems, and when the power is restored after a momentary power failure, the secondary power switch is automatically turned on so that the circuit can be stably operated. The description is as follows.

1 shows an automatic power-on circuit for power failure in case of instantaneous power failure according to the present invention. Looking at the connection configuration thereof, the flyback transformer power supply unit 1 is connected to a capacitor C1 having one end connected to a grounded ground via a diode D1 and a resistance at the same time. The emitter is connected to the base of the transistor Q1 connected to the ground via R1, and the collector of the transistor Q1 is connected to the standby power supply unit 2 via the resistor R2 and at the same time through the resistor R3. Is connected to the base of the transistor Q2 connected to the ground, the collector of the transistor Q2 is connected to the standby power supply unit 2 via the resistor R4, and the collector and the emitter are connected to the sub-power switch via the capacitor C2. Contact the base of transistor Q2 connected to SW1 and the microcomputer 3, and at the same time, the collector of transistor Q2 is connected to the collector of transistor Q4 having an emitter connected to ground via diode D2, Via (RL1) The resistor R5 is connected to the resistor R5 and is connected to the standby power supply unit 2 and the microcomputer 3, and the microcomputer 3 connected to the standby power supply circuit 2 is connected to the standby power supply circuit 2 via the resistor R6. The switch of the relay RL1, which is connected to the base of the control circuit, controls the AC power applied to the main power supply circuit 4. The operation state and effect of the circuit configuration will be described as follows.

In FIG. 1, when the initial AC power source AC is input, an output Out of the standby power supply unit 2 is applied to the base of the transistor Q2 through the resistors R2 and R3 to drive the transistor Q2. The operating power supply Vcc is applied to the microcomputer 2.

When the sub power switch SW1 is turned on in the state where the initial AC power AC is input, the microcomputer 3 detects this through the input terminal IN, and outputs a relay driving voltage to the outside. The relay driving voltage is applied to the base of the transistor Q4 via the resistor R6 to configure the transistor Q4 so that the relay RL1 is operated so that the AC power AC is supplied to the main power circuit 4.

Accordingly, a voltage is generated in the flyback transformer power supply 1, and the voltage is charged to the capacitor C1 through the diode D1 to drive the transistor Q1 through the resistor R1.

As the transistor Q1 is driven, the transistor Q2 is turned off. Therefore, the collector potential of the transistor Q2 is set to the ground state across the diode D2 and the transistor Q4, thereby maintaining a low state, and the transistor Q3 is in an off state.

In this state, when there is no AC input voltage during the instantaneous power failure, the standby power supply unit 2 output Out becomes low, the relay RL1 is also turned off, and the output voltage of the flyback transformer power supply unit 1 also falls low. (D1) is reversed, and the voltage charged in the capacitor C1 gradually discharges during the time constant period of the capacitor C1 and the resistor R1.

However, when the power is restored after the momentary power failure, that is, when the discharge of the capacitor C1 is in progress, the AC power is applied again, so that the output voltage is generated in the standby power supply unit 2, and the capacitor C1 is completely discharged. Since the transistor Q1 is in an on state and the transistor Q2 is also in an off state since the state is not, the charging current flows instantaneously through the resistor R4 to generate a pulse, thereby generating a pulse. Is momentarily driven to act as if the sub power switch SW1 is turned on.

Accordingly, the transistor Q4 and the relay RL1 are sequentially operated by the output Out of the microcomputer 3 so that the AC power source AC is supplied to the main power supply circuit 4 and the output is generated in the flyback transformer power supply unit 1. Thus, the capacitor C1 is recharged through the diode D1, and the transistor Q1 is kept on.

If the power is returned after the time constant time (for a long time power failure), it operates as if the initial AC power was input, and the power is automatically supplied to the product during a momentary power failure that occurs within the set time constant (R1 × C1) period. By turning it on, the user can eliminate the inconvenience of having to "on" the switch manually.

Therefore, the automatic power-on circuit for instantaneous power failure according to the present invention has the effect of eliminating the operational inconvenience of turning on the secondary power switch by automatically applying a sub-power during instantaneous power failure and stably operating the circuit. Will have

Claims (1)

In the power supply circuit of an electronic device including a flyback transformer power supply unit 1, a standby power supply unit 2, a micom 3, a relay RL1, and a sub power switch SW1, the flyback transformer power supply unit 1 is a diode. The emitter is connected to the base of the transistor Q1 with the emitter grounded through the D1, the capacitor C1, and the resistor R1, and the transistor Q1 is connected to the standby power supply 2 so that the base of the transistor Q2 is connected. Connected to the standby power supply unit 2 and the base of the transistor Q3 by the resistor R4 and the capacitor C2, respectively, and at the same time through the diode D2 to the transistor Q4. Connected to the collector, the collector and emitter of the transistor Q3 are connected in parallel with the sub-power switch 9SW1 and connected to the microcomputer 3, and one end of the microcomputer 3 is connected to the base of the transistor Q4. Automatic power on in case of power failure Auto-on-circuit power supply during momentary power failure, characterized in that.