KR20000014581U - Synchronization signal stabilization device of switching power supply circuit - Google Patents

Abstract

The present invention relates to an apparatus for stabilizing a synchronous signal of a switching power supply circuit, in which the switching device (3) repeats switching on / off by a PWM control signal supplied from a control IC (4) (SMPS) for outputting a necessary power supply voltage via a secondary side of a video signal input from a video card (not shown) H _sync A horizontal driving signal of a square wave ( H _out A horizontal IC 10 for generating a plurality of signal lines; And a horizontal driving signal of a square wave inputted from the horizontal IC 10 H _out ) Of the control IC 4 and outputs the synchronizing signal ( V _sync The amplifying unit 20 further amplifies the horizontal synchronizing signal H _sync ) Of the square wave generated from the horizontal IC 10 by the horizontal driving signal H _out ) Of the control IC 4, V _sync So that the waveform distortion of the synchronous signal is prevented from being caused by the frequency change and the load change.

Description

An apparatus for stabilizing a synchronization signal in a switching power supply circuit (SMPS)

The present invention relates to a synchronous signal stabilizing apparatus for a switching power supply circuit, and more particularly, to a synchronous signal stabilization apparatus for a switching power supply circuit which supplies a horizontal driving signal of a square wave generated from a horizontal IC to a synchronous signal of a control IC, And more particularly, to a synchronizing signal stabilization apparatus for a switching power supply circuit which prevents waveform distortion.

Generally, the power supply circuit properly supplies the necessary voltage in each part of the monitor. It is related to the SMPS (Switched Mode Power Supply), which is smaller, lighter and more efficient than the linear power supply circuit Technology is in the trend of rapid development in recent years.

1, a conventional switching power supply circuit includes a DC power supply 1, a transformer 2, a power transistor 3, a control IC 4, an output unit 5, A feedback section 6, and a synchronization signal input section 7.

Referring to FIG. 1, the operation of a general switching power supply (SMPS) will be described. First, when a commercial AC voltage of 100 V or 220 V is applied through a fuse, the line filters L1 and L2 and the capacitors C1, It removes the noise flowing through the commercial AC voltage by the L · C resonance action.

The commercial AC voltage that has passed through the line filters L1 and L2 and the capacitors C1, C2 and C3 is rectified by the bridge diode D1 and is rectified by the inrush current prevention resistor R1 to the smoothing capacitor C4 The smoothed DC voltage ( V _i And is then applied to the primary winding of the transformer 2. [

At the same time, the rectified voltage rectified in the bridge diode (D1) V _cc And the control IC 4 is operated and the power transistor 3 is turned on / off (ON / OFF) by the PWM control signal output from the control IC 4 .

That is, the DC voltage ( V _i ) Is applied to the capacitor C5, a DC voltage ( V _i ) Is charged, the driving power source (not shown) of the control IC 4 V _cc Reaches the starting voltage, the control IC 4 is activated to generate the PWM control signal, and the power transistor 3 is turned on / off by the PWM control signal.

When the power transistor 3 is turned on and maintained in the ON state by the PWM control signal output from the control IC 4, an induced electromotive force induced in the primary winding of the transformer 2 is generated .

Therefore, the transformer 2 outputs the alternating-current voltage (" V _s, V _sm, V _sn .

This operation is repeated so that the alternating-current voltage (?) Output from the secondary winding of the transformer V _s, V _sm, V _sn Is again supplied with the DC voltage ( V _o, V _om, V _on ).

That is, the AC voltage (? V _s, V _sm, V _sn Are rectified by rectifier diodes D2 and D3 and smoothing capacitors C7 and C8 V _o, V _om, V _on ), And supplied to each circuit of the monitor to operate the circuit.

However, the power supply voltage (" V _o, V _om, V _on Is higher than the reference voltage, breakage of the circuit element due to overvoltage occurs, shortening the service life of the power supply circuit. Therefore, in order to maintain the output voltage of the output unit 5 at a constant voltage, (SMPS) is generally provided with a voltage feedback section 6.

More specifically, the power supply voltage supplied to each circuit of the monitor V _o Is sensed by a voltage feedback unit 6 composed of an error amplifier EA and photocouplers PC1 and PC2 and the sensing signal is inputted to the feedback terminal of the control IC 4. [

For example, the power supply voltage (" V _o Is larger than that during normal operation, the error amplifier EA senses the overvoltage and lowers the output voltage of the error amplifier EA. At this time, the output side of the error amplifier EA is connected to the cathode end of the light emitting unit PC1 of the photocoupler, and the other end of the light emitting unit PC1 is connected to the output V _om So that a larger current flows instantaneously to the light emitting unit PC1 during normal operation, thereby emitting as much light as possible.

Accordingly, the light receiving part PC2 of the photocoupler receives the light, converts the optical signal into an electrical signal, and outputs the electrical signal to the feedback terminal of the control IC 4, The input current increases more than in the normal operation, so that the control IC 4 generates a PWM control signal having a short on-time, and the on-time of the power transistor 3 is shortened by the PWM control signal.

As the ON time of the power transistor 3 becomes shorter, the induced electromotive force (referred to as " induced electromotive force ") induced in the primary winding of the transformer 2 V _s, V _sm, V _sn ) Is lowered, and the power supply voltage (" V _o, V _om, V _on ) Is maintained at a constant voltage and supplied to each circuit of the monitor.

At this time, the control IC 4 receives the feedback signal (?) From the voltage feedback unit 6 V _fb And receives a synchronizing signal from the synchronizing signal inputting section 7 V _sync ) From the overcurrent detecting resistor Rs for detecting the current flowing through the power transistor 3, V _sen And generates a PWM control signal based on the input signals and supplies the PWM control signal to the power transistor 3. A process of generating the PWM control signal of the control IC 4 will be described below.

The control IC 4 receives the synchronizing signal ( V _sync ), The overcurrent detection voltage ( V _sen ) This feedback voltage ( V _fb ), A high level PWM control signal is generated and output to turn on the power transistor 3, and the overcurrent detection voltage ( V _sen ), The overcurrent detection voltage V _sen ) This feedback voltage ( V _fb ), The low-level PWM control signal is generated and outputted to turn off the power transistor 3, so that the operation is repeated and the power transistor 3 is repeatedly switched on / off.

As described above, in the conventional control IC 4, V _sync ) And the feedback signal V _fb ) And an overcurrent detection signal ( V _sen The flyback transformer FBT is controlled by a change in load or a change in frequency occurring at the time of initial drive or mode switching. The synchronizing signal ( V _sync ) Is distorted, screen jitter and jitter noise occur.

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for controlling a synchronous signal by supplying a horizontal driving signal of a square wave generated from a horizontal IC by a horizontal synchronizing signal, And it is an object of the present invention to provide an apparatus for stabilizing a synchronous signal of a switching power supply circuit which is configured to prevent waveform distortion.

According to an aspect of the present invention, there is provided an apparatus for stabilizing a synchronous signal of a switching power supply circuit,

A switching power supply circuit for switching a switching element on and off according to a PWM control signal supplied from a control IC to output a necessary power supply voltage through a secondary side of the transformer,

A horizontal IC for generating a horizontal driving signal of a square wave by a horizontal synchronizing signal input from a video card;

And an amplifying part for appropriately amplifying the horizontal driving signal of the square wave input from the horizontal IC and supplying the amplified horizontal synchronizing signal as a synchronizing signal of the control IC.

1 is a circuit diagram showing a switching power supply circuit of a general monitor,

2 is a circuit diagram showing an apparatus for stabilizing a synchronous signal of a switching power supply circuit according to the present invention;

3 is a waveform diagram of each part of the synchronous signal stabilization apparatus according to the present invention.

* Name of designator according to main part of the drawing

4: Control IC 10: Horizontal IC

20: Amplification units Q1 and Q2: Push-pull amplifier

T1: Transformer C 9,10,11,12: Capacitor

D 4,5,11: Diode R 6,11,12,13: Resistance

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

2 is a circuit diagram showing an apparatus for stabilizing a synchronous signal of a switching power supply circuit according to the present invention.

As shown in Fig. 2, the device of the present invention is a device in which the switching element 3 is repeatedly turned on / off by the PWM control signal supplied from the control IC 4, 1. A switching power supply circuit (SMPS) for outputting a voltage, comprising: a horizontal synchronizing signal input from a video card (not shown) H _sync A horizontal driving signal of a square wave ( H _out A horizontal IC 10 for generating a plurality of signal lines; And a horizontal driving signal of a square wave inputted from the horizontal IC 10 H _out ) Of the control IC 4 and outputs the synchronizing signal ( V _sync (Not shown).

The operation and effect of the apparatus according to the present invention will be described with reference to FIG.

The horizontal IC 10 receives a horizontal synchronizing signal (not shown) from a video card H _sync ), And receives a horizontal driving signal ( H _out And supplies it to the horizontal deflection circuit.

A horizontal driving signal of a square wave from the horizontal IC 10 H _out (Not shown) receives a sawtooth current and applies it to the horizontal deflection coil to change the course of electrons emitted from the electron gun.

On the other hand, a horizontal driving signal ( H _out The amplifying unit 20 receives the horizontal driving signal of the rectangular wave H _out ) Of the control IC 4 and outputs the synchronizing signal ( V _sync ).

The horizontal driving signal ( H _out ), The horizontal driving signal outputted from the horizontal IC 10 H _out Is a square wave swinging from 0 to 0.7 V as shown in Fig. 3 (a).

The horizontal synchronizing signal outputted from the horizontal IC 10 H _out Is amplified through push-pull amplifiers Q11 and Q12 and becomes a square wave that swings 0 to 12 V as shown in Fig. 3 (b).

The horizontal synchronizing signal amplified from the push-pull amplifiers Q11 and Q12 H _out Is again amplified through the transformer T1 and becomes a square wave swinging 0 to 3 V as shown in Fig. 3 (c) V _sync ).

Wherein the capacitor C9 is for voltage attenuation and the resistor R6 provides the discharge route of the capacitor C9 and the diode D4 is a synchronous signal V _sync ) Falls to 0 V or less.

The capacitor C10 also receives the synchronizing signal ( V _sync And the resistor R7 provides the discharging route of the capacitor C10 and the zener diode D5 is used for blocking the abnormal high voltage synchronization signal V _sync The control IC 4 is protected.

As described above, the apparatus of the present invention includes a horizontal synchronizing signal H _sync ) Of the square wave generated from the horizontal IC 10 by the horizontal driving signal H _out ) Of the control IC 4 and then outputs the synchronizing signal ( V _sync So that the waveform distortion of the synchronous signal is prevented from being caused by the frequency change and the load change.

Claims (1)

In a switching power supply circuit (SMPS) in which a switching element (3) repeats switching on / off by a PWM control signal supplied from a control IC (4) and outputs a necessary power supply voltage through a secondary side of the transformer (2) A horizontal synchronizing signal input from a video card (not shown) H _sync A horizontal driving signal of a square wave ( H _out A horizontal IC 10 for generating a plurality of signal lines; And a horizontal driving signal of a square wave inputted from the horizontal IC 10 H _out ) Of the control IC 4 and outputs the synchronizing signal ( V _sync And an amplifier (20) for supplying the amplified signal to the amplifier (20).