KR0126841Y1 - Stability circuit of input voltage - Google Patents

Abstract

The present invention relates to an input voltage stabilization circuit for obtaining a rated output voltage by a trigger circuit when power is applied. The power input unit 10 rectifies and smoothes an input AC power and applies it to a primary coil of a transformer T. ), A first voltage output section 20A for half-wave rectifying and smoothing the excitation voltage of the secondary side first coil L1 of the transformer T, and outputting a predetermined voltage, and the secondary coil of the secondary side of the transformer T. A second voltage output unit 20B for half-wave rectifying and smoothing the excitation voltage of L2 to output a predetermined voltage, and a constant voltage IC 30 for outputting the output voltage of the second voltage output unit 20B to a predetermined voltage. And a third voltage output unit 20C for half-wave rectifying and smoothing the excitation voltage of the secondary coil 3 of the transformer T and outputting a predetermined voltage, and is controlled by a control signal of the controller 40. Switch for controlling the amount of current flowing in the primary coil of the transformer (T) In the input voltage stabilization circuit composed of the calling unit 50, the constant voltage IC 30 can be driven when power is applied between the output terminal of the second voltage output unit 20B and the output terminal of the third voltage output unit 20C. Auxiliary driving circuit 60 for outputting a voltage for a predetermined time to output the trigger power supply (VCC3) from the constant voltage IC (30) is made.

Description

Input voltage stabilization circuit

1 is a conventional input voltage stabilization circuit diagram.

2 is an input voltage stabilization circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power input unit 20A: first voltage output unit

20B: second voltage output unit 20C: third voltage output unit

30: constant voltage IC 40: control unit

50: switching unit 60: auxiliary drive circuit

The present invention relates to an input voltage stabilization circuit, and more particularly, to a bite to obtain a rated output voltage by rapidly applying a predetermined power supply to a trigger IC when a power supply is applied.

As shown in FIG. 1, a general power supply device includes a bridge diode BD and a condenser Cin to rectify and smooth the input AC power to be applied to the primary coil of the transformer T. A first voltage comprising a power supply input unit 1, a diode D21, and a capacitor C21 and outputting a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the secondary coil 1 of the transformer T. A second voltage composed of an output portion 2A, a diode D22, and a capacitor C22, and outputting a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the second coil L2 on the secondary side of the transformer T; A third voltage composed of an output unit 2B, a diode D23, and a capacitor C23, and outputting a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the secondary coil 3 of the transformer T; Switched by the output part 2C and the control signal of the control part 4, and flowing to the primary coil of the transformer T It consists of the switching part 5 which controls a flow amount.

In the general power supply configured as described above, first, the AC power input is applied to the bridge diode BD of the power input unit 1, is rectified, smoothed by the capacitor Cin, and then the transformer T Applied to the primary coil.

The excitation voltage of the first coil L1 of the secondary side of the transformer T is half-wave rectified and smoothed by the diode D21 and the capacitor C21 of the first voltage output unit 2A, and thus, the predetermined voltage VCC1. Outputs

In addition, the excitation voltage of the second coil L2 of the secondary side of the transformer T is half-wave rectified and smoothed by the diode D22 and the capacitor C22 of the second voltage output unit 2B to obtain a predetermined voltage VCC2. The predetermined voltage VCC2 outputs the predetermined voltage VCC3 to the trigger IC 5 again through the constant voltage IC 3.

The excitation voltage of the third coil L3 of the secondary side of the transformer T is half-wave rectified and smoothed by the diode D23 and the capacitor C23 of the third voltage output unit 2C to obtain a predetermined voltage VCC4. Output it.

Here, the predetermined voltages VCC1, VCC2, and VCC4 are used as an operation voltage of a later stage configuration not shown.

On the other hand, the control signal output from the control unit 4 is applied to the switching unit 5, the transistor is switched, the amount of current flowing through the primary coil of the transformer (T) is controlled by the switching state of the switching unit (5) The excitation voltages of the first coil L1 to the third coil L3 of the transformer T vary according to the amount of current flowing through the primary coil of the transformer T.

However, in the conventional input power supply circuit as described above, an output voltage VCC3 (e.g., 12 V) of the constant voltage IC 3 usually triggers the predetermined operating voltages VCC1, VCC2 and VCC4. If the input voltage of the trigger IC 5 is not applied quickly, the predetermined operating voltages VCC1, VCC2, VCC4 are not triggered, and thus the rear end circuit configuration does not operate normally. There was.

That is, when the control unit 4 operates, the output voltage is output in the order of increasing order (VCC4VCC2VCC3), but conventionally, there is a problem in that the timer IC is not triggered until the desired rated voltage is applied, so that the rated voltage cannot be obtained.

The present invention has been made to solve such a conventional problem, and by connecting the auxiliary drive circuit to the secondary coil of the transformer to generate a trigger voltage more quickly when the power is applied to stabilize the input voltage to obtain a rated output voltage The purpose is to provide a circuit.

The present invention for achieving the above object is to rectify and smooth the input high-frequency power supply to the primary coil of the transformer, and half-wave rectified and smoothed the excitation voltage of the secondary coil of the transformer to a predetermined voltage A first voltage output unit configured to output an output, a third voltage output unit configured to output a predetermined voltage by half-wave rectifying and smoothing the excitation voltage by half-wave rectifying and smoothing the excitation voltage of the secondary coil of the transformer, and a control signal of the controller In the input voltage stabilization circuit consisting of a switching unit for controlling the amount of current flowing through the primary coil of the transformer by switching by the power supply, it is possible to quickly drive the constant voltage IC when the power is applied between the second voltage output unit and the third voltage output unit It is characterized by further comprising an auxiliary drive circuit.

According to the present invention, the rated output voltage can be obtained by generating the trigger voltage more quickly when the power is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention, comprising a bridge diode (BD) and a capacitor (Cin), the power input unit 10 for rectifying and smoothing the AC power input to the primary coil of the transformer (T), The first voltage output unit 20A comprising a diode D21 and a capacitor C21 for half-wave rectifying and smoothing the excitation voltage of the secondary coil first coil L1 of the transformer T and outputting a predetermined voltage, and a transformer ( A second voltage output unit 20B comprising a diode D22 and a capacitor C22 for outputting a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the secondary-side second coil L2 of T), and the second voltage output. A diode D23 for outputting a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the constant voltage IC 30 that outputs the output voltage of the unit 20B to a predetermined voltage and the third coil L3 of the secondary side of the transformer T. ), The third voltage output unit 20C including the capacitor C23 and the control signal of the control unit 40 are switched to In the input voltage stabilization circuit composed of a switching unit 50 for controlling the amount of current flowing through the primary coil of the battery (T), the output terminal of the second voltage output unit 20B and the output terminal of the third voltage output unit 20C. Further provided with an auxiliary drive circuit 60 consisting of a transistor (Q10), a resistor (R10), a zener diode (ZD), a capacitor (C10) that can quickly drive the constant voltage IC (30) when power is applied between the In the drawing, reference numeral 70 in the figure denotes a trigger IC.

The present invention configured as described above is rectified and smoothed through the bridge diode BD and the condenser Cin of the power input unit 10 when AC power is applied. In this case, the switching unit 50 is controlled by a control signal output from the controller 40. Is driven to induce a voltage through the transformer (T).

That is, when the control signal is output from the control unit 40, the output voltage is applied in the order of increasing output voltage (for example, VCC4 VCC2 VCC3) through the secondary side of the transformer T.

At this time, since the voltage rectified and smoothed through the third voltage output unit 20C turns on the zener diode ZD of the auxiliary driving circuit 60, the transistor Q10 is switched on.

Accordingly, the voltage VCC2 is output through the second voltage output unit 20B while the transistor Q10 remains switched on until the rated voltage of the zener diode ZD is greater than the collector voltage of the transistor Q10. The constant voltage IC 30 is operated by the voltage supplied from the auxiliary driving circuit 60 to output the power supply VCC3.

That is, when the rated voltage of the Zener diode ZD is set to 15 V, the transistor Q (`10) is switched off and assisted when the collector voltage of the transistor Q10 exceeds 15 V which is the rated voltage of the Zener diode ZD. The auxiliary voltage is not applied from the driving circuit 60 to the constant voltage IC 30. Accordingly, the power supply VCC2 from the second voltage output unit 20B is applied to the constant voltage IC 30, thereby triggering the trigger IC 70. This will output a constant power supply (VCC3).

As described above, the present invention applies the auxiliary power to the constant voltage IC 30 through the auxiliary driving circuit 60 for a predetermined time when the power is applied, thereby supplying the power supply VCC3 from the constant voltage IC 30 to the timer IC 70. Since the timer IC 70 can be triggered quickly, the desired rated voltage can be applied to the load, and thus the circuit can be operated normally.

Claims (2)

The power input unit 10 for rectifying and smoothing the AC power input to be applied to the primary coil of the transformer T and the excitation voltage of the secondary coil 1 of the transformer T are half-wave rectified and smoothed. A first voltage output unit 20A for outputting a voltage, a second voltage output unit 20B for half-wave rectifying and smoothing the excitation voltage of the second coil L2 of the secondary side of the transformer T and outputting a predetermined voltage; And a predetermined voltage by half-wave rectifying and smoothing the excitation voltage of the constant voltage IC 30 for outputting the output voltage of the second voltage output unit 20B to a predetermined voltage and the excitation voltage of the secondary coil 3 of the transformer T. Input voltage stabilization circuit comprising a third voltage output unit (20C) for outputting the control unit and a switching unit (50) which is switched by a control signal of the control unit (40) to control the amount of current flowing in the primary coil of the transformer (T). The output terminal of the second voltage output unit 20B and the output terminal of the third voltage output unit 20C In addition, the auxiliary drive circuit 60 is configured to output a voltage capable of driving the constant voltage IC 30 when the power is applied for a predetermined time to output the trigger power supply VCC3 from the constant voltage IC 30. Input voltage stabilization circuit. The method of claim 1, wherein the auxiliary driving circuit 60 includes a zener diode ZD turned on when a constant power is applied, a transistor Q10 switched by the zener diode ZD, and the transistor ( And a capacitor (C10) connected to the resistor (R10) to remove the ripple, and a resistor (R10) for biasing the Q10).