KR0113208Y1 - Arc prevention circuit of power source - Google Patents

Abstract

The present invention relates to an arc protection circuit of a power supply circuit. In the conventional power supply circuit, since the power is applied to the power supply circuit at the moment when the power plug is connected to the outlet, the arc in the contact point of the power plug and the outlet where the initial inrush current occurs immediately There was a problem that occurred. In order to solve the conventional problems, the present invention delays the input AC power for a predetermined time and then delivers the power to the power supply circuit, thereby preventing the inrush current from being generated immediately, thereby reducing the arc generated when the power plug is inserted into the outlet. The arc protection circuit of the circuit is devised.

Description

Arc prevention circuit of power circuit

1 is a conventional power supply circuit diagram

2 is an embodiment of the present invention

* Explanation of symbols for main parts of the drawings

100: power plug 200: arc protection

200-1: delay unit 300: first rectification and smoothing unit,

400: switching unit 500: second rectification and smoothing unit

600: Regulator 700: Error amplifier, SMP

S T1: Power Supply Trans PC1: Photo Coupler

Q1: transistor

The present invention relates to an arc protection circuit, and more particularly, to an arc protection circuit of a power supply circuit for preventing an arc generated when the power plug is coupled to an outlet in an electronic product using the power supply circuit.

FIG. 1 is a circuit diagram of a conventional power supply circuit, which includes a first diode and a smoothing unit 2 formed of a bridge diode BD and a capacitor C1 to rectify and smooth the AC power when AC is applied; A power supply transformer (SMPS T1) and a diode (D1) in which the voltage of the rectifying and smoothing unit 2 is supplied to the primary coil by the switching action of the switching unit 3 to generate an induced voltage to the secondary coil. A second rectifying and smoothing part 4 comprising a) and a condenser C2 to rectify and smooth the induced voltage generated at the secondary side of the power supply transformer SMPS T1; A regulator 5 which is driven by the voltage of the second rectifying and smoothing part 4 and supplies a constant voltage to the microcomputer: detecting the voltage B ⁺ through the second rectifying and smoothing part 4 Accordingly, an error amplifier 6 is configured so that a stable voltage is generated on the secondary side of the power supply transformer SMPS T1 by feeding back to the primary side through the photo coupler PC1.

Referring to the operation of the conventional circuit configured as described above is as follows.

When the power plug 1 is coupled to an outlet, an AC voltage is applied to rectify and smooth through the bridge diode BD and the capacitor C1, and then switch through the primary coil of the power supply transformer SMPS T1. Is applied to (3).

At this time, an induced voltage is generated on the secondary side of the power supply transformer SMPS T1 by the switching action of the switching unit 3, which is rectified and smoothed through the diode D5 and the capacitor C2.

The regulator 5 applied with the voltage through the capacitor C2 is applied to the microcomputer with a constant voltage (5V), and the error amplifier 6 detects the voltage B ⁺ through the capacitor C2. According to the detection result, the photo coupler PC1 is driven and fed back to the switching unit 3 on the primary side. As a result, a stable induced voltage is generated on the secondary side of the power transformer SMPS T1.

On the other hand, when the power plug 1 is in contact with the power outlet, the resistance increases because the cross-sectional area is quite small. As the current increases rapidly and the resistance increases, the voltage also increases.

As a result, an arc (spark) occurs because the power consumed momentarily by the increasing voltage and current is very large.

As described above, in the conventional power supply circuit, an initial inrush current occurs in the process of configuring the closed circuit at the moment when the power plug is coupled to the outlet, thereby causing an arc at the contact point of the power plug and the outlet.

The purpose of the present invention is to solve the conventional problems, the power supply through the power plug is delayed by a predetermined time is applied to the first rectification and smoothing part to reduce the arc generated when the power plug is coupled to the outlet To provide an arc protection circuit.

Arc protection circuit of the power supply circuit for achieving the object of the present invention includes a delay means for setting the delay time required for the user to completely insert the power plug into the outlet; It comprises a switching means for switching only when the set delay time passes so that the AC power through the power plug is transferred to the power circuit.

Hereinafter, an embodiment will be described with reference to the operation and effects of the present invention.

2 is an exemplary view of the present invention, which is composed of diodes D2 and D3, a capacitor C3, a resistor R1, and a zener diode ZD1 and is input through a power plug 100. A delay unit 200-1 for delaying and outputting AC power AC by a predetermined time, and a transistor Q1 that is switched by an output of the delay unit 200-1 to transfer AC power through the power plug 100; An arc prevention unit 200 configured to transfer the AC power by delaying a predetermined time; A first rectifying and smoothing unit 300 receiving rectified AC power through the arc preventing unit 200 and rectifying and smoothing it; A power supply transformer (SMPS T1) generating a sustain voltage according to the secondary coil when the voltage of the first rectifying and smoothing unit 300 is supplied / discontinued by the switching action of the switching unit 400; A second rectifying and smoothing unit 500 comprising a diode D1 and a condenser C2 to rectify and smooth the induced voltage generated on the secondary side of the power supply transformer SMPS T1; A regulator 600 which is driven by a voltage of a) and supplies a constant voltage to the microcomputer; and the output voltage B ⁺ of the second rectifying and smoothing unit 500 is detected and the photo coupler PC1 is determined accordingly Through the feedback to the primary side through a stable voltage is configured as an error amplifier 700 to be generated on the secondary side of the power supply transformer (SMPS T1).

Referring to the operation of one embodiment of the present invention configured as described above are as follows.

First, one terminal of the power plug 100 is connected to the anode of the diode D2 and the collector of the transistor Q1, and the other terminal is connected to the other input terminal of the bridge diode BD. To the anode of D3). The cathode of the diodes D2 and D3 is connected to the base of the transistor Q1 through a resistor R1, and the capacitor C3 is connected between the cathode of the diodes D2 and D3 and ground, and the transistor Connect zener diode AD1 between the base of Q1 and ground. The emitter of the transistor Q1 is connected to one input terminal of the bridge diode BD.

When the power plug is connected to the condenser in this state, the power input through the power plug is rectified through the diodes D2 and D3 for a time corresponding to the time constant of the capacitor C3 and the resistor R1. A delay is applied to the base of the transistor Q1 to turn on the transistor Q1.

At this time, the zener diode ZD1 is for limiting the current applied to the base of the transistor Q1.

When the transistor Q1 is turned on as described above, the input power is applied to the bridge diode BD to be rectified and smoothed by the capacitor C1 and output.

The output voltage of the capacitor C1 is applied to the switching unit 400 through the primary coil of the power supply transformer SMPS T1.

At this time, when the current through the condenser C1 is supplied / blocked to the primary coil of the power supply transformer SMPS T1 by the switching action of the switching unit 400, an induced voltage is generated on the secondary side. Rectification and smoothing by the capacitor C2).

The regulator 600 applied with the voltage smoothed through the capacitor C2 applies a predetermined predetermined voltage (5V) to the microcomputer.

The error amplifier 700 detects the output voltage B ⁺ of the capacitor C2 and drives the photo coupler PC1 according to the detection result so that a stable induced voltage is generated on the secondary side of the power transformer SMPS T1. The feedback to the switching unit 400 of the primary side.

As described in detail above, the present invention has an effect of reducing the arc generated when the power plug is inserted into the outlet by delaying the input AC power for a predetermined time and then transmitting the power to the power circuit.

Claims (3)

Delay means for setting a delay time required for the user to completely insert the power plug into the outlet; Arc switching circuit of a power circuit, characterized in that it comprises a switching means for switching only when the set delay time passes so that the AC power through the power plug is transferred to the power circuit. The arc protection circuit of a power supply circuit according to claim 1, wherein the delay time is determined by a resistance and a time constant of a diode. 2. The arc prevention circuit of claim 1, wherein the arc generated at the inserted contact is suppressed at the moment when the power plug is inserted into the power outlet.