KR100575168B1 - Preventing apparatus for exceed appearance in horizontal deflection circuit of display system - Google Patents

Abstract

An apparatus for preventing a horizontal deflection circuit transient phenomenon of the disclosed image display device is to prevent a transient phenomenon occurring in the horizontal deflection circuit according to a power on / off operation within a short time by a user.

The present invention includes a voltage sensing circuit unit for converting the secondary AC voltage of the transformer of the horizontal deflection circuit unit into a DC voltage and feeding back the converted DC voltage; A current sensing circuit unit for sensing and feeding back a current output from the horizontal output transistor of the horizontal deflection circuit unit; It outputs to horizontal deflection circuit part by adjusting PWM pulse width according to feedback voltage / feed current inputted to voltage and current feedback end through voltage sensing circuit part and current sensing circuit part and control signal to adjust horizontal size output from microcomputer. A PWM circuit section; It is connected to the compensation output terminal provided in the PWM circuit unit and compensates the voltage output from the PWM circuit unit when the power is applied again by the user when the power of the image display device is not completely turned off, and the compensation voltage is output from the voltage sensing circuit unit. A compensating circuit unit combined with the sensed voltage and fed back to the voltage feedback end of the PWM circuit unit; It is connected between the compensation output stage provided in the PWM circuit section and the horizontal deflection circuit section, and when the power is turned off of the image display device, the voltage fed back to the voltage feedback end of the PWM circuit section decreases and is increased through the compensation output section of the PWM circuit section. When the power is turned on by the user when the voltage is output and the PWM pulse signal with the increased duty ratio is applied from the PWM circuit part, the duty ratio of the applied PWM pulse signal is reduced to prevent the transient phenomenon of outputting to the horizontal deflection circuit part. It consists of a circuit part.

Accordingly, the present invention suppresses the transient voltage generated in the PWM circuit unit when the user repeatedly turns on / off the power supply of the image display device so that the horizontal output transistor of the horizontal deflection circuit unit operates normally, thereby protecting the horizontal output transistor as well as the product. It provides the effect of increasing the reliability.

Image display device, horizontal deflection, horizontal output transistor, transient

Description

Preventing apparatus for exceeding appearance in horizontal deflection circuit of display system

1 is a diagram illustrating a general image display device;

2 is a view for explaining a horizontal deflection circuit of a video display device according to the prior art;

3 is a block diagram schematically showing the configuration of a horizontal deflection circuit transient prevention apparatus of an image display device according to the present invention;

4 is a view showing in detail the configuration of the horizontal deflection circuit transient prevention device of the image display device according to the present invention.

Explanation of symbols on the main parts of the drawings

10: microcomputer 20: H / V processor unit

30: PWM circuit part 40: base drive part

50: horizontal deflection circuit portion 60: horizontal deflection yoke

70: voltage sensing circuit portion 80: current sensing circuit portion

90: compensation circuit section 100: transient prevention circuit section

The present invention relates to a horizontal deflection circuit transient prevention device of an image display device.

More specifically, the present invention relates to a horizontal deflection circuit transient prevention device of an image display device to prevent a transient phenomenon generated in a horizontal deflection circuit according to a power on / off operation by a user in a short time.

In general, an image display device is a device that visually displays information desired by a user, such as a printer or a plotter, and implements an image through a screen.

As such a means for realizing the image through the screen, there are many types such as cathode ray tube, liquid crystal display, plasma (plasma), but the most widely used is the cathode ray tube It is a video display device used.

Such an image display device matches an image signal from a signal source (e.g., a video card of a computer system) with a synchronization signal, and drives horizontal and vertical deflection circuits according to the horizontal frequency and the vertical frequency, thereby providing an image through a cathode ray tube. Will be reproduced.

1 is a view showing a general image display device, Figure 2 is a view for explaining a horizontal deflection circuit of the image display device according to the prior art.

As shown, the microcomputer 1 controls the overall operation for displaying on the screen the video signal input to the image display device in the computer system, and adjusts the horizontal drive bias voltage of the horizontal deflection circuit section 5 to be described later The control signal for outputting is output to the pulse width modulation (PWM) circuit part 3.

The H / V processor unit 2 is supplied with a horizontal deflection yoke 6 which will be described later according to the horizontal frequency of each video mode included in the horizontal synchronization signal output through the microcomputer 1. A high-lock pulse signal for controlling the current is output to the PWM circuit section 3 to be described later.

The PWM circuit section 3 adjusts the PWM pulse width according to the voltage inputted from the voltage sensing circuit section 7 to be described later and the control signal output from the microcomputer 1 to output the horizontal deflection circuit section 5 to be described later. .

In addition, the PWM circuit unit 3 outputs a PWM signal for adjusting the horizontal size according to the high-lock pulse signal output from the H / V processor unit 2 to the horizontal deflection circuit unit 5 described later.

The base drive unit 4 outputs an operating voltage to the base terminal of the horizontal output transistor Q2 of the horizontal deflection circuit unit 5 described later.

The horizontal deflection circuit part 5 switches the horizontal drive bias voltage B + adjusted according to the PWM pulse signal output from the PWM circuit part 3 described above, and generates a horizontal deflection current according to the switched horizontal drive bias voltage. To the horizontal deflection yoke (6).

The above-described horizontal deflection circuit portion 5 is configured to change the on / off period according to the PWM pulse signal output from the PWM circuit portion 3 to adjust the transistor Q1 and the transistor Q1 to adjust the horizontal drive bias voltage B +. The horizontal drive bias voltage B + applied through the transformer T is converted into an operating voltage and a current according to the turns ratio in the transformer and supplied to the horizontal output transistor Q2 and the operating power supplied from the base drive unit 4. A horizontal output transistor Q2 and a horizontal deflection yoke 6 which are switched by an operating voltage and a current supplied from a transformer T and output a horizontal deflection current to a horizontal deflection yoke 6 described later. A damping diode D1, a resonance capacitor C1, and an S-shaped correction capacitor C2 connected between the yoke 6 are constituted.

The horizontal deflection yoke 6 adjusts the horizontal size by deflecting an image signal input from the computer system according to the horizontal deflection current output from the horizontal deflection circuit section 5.

The voltage sensing circuit unit 7 is connected between the secondary side of the transformer T and the PWM circuit unit 3 to convert an AC voltage generated in the transformer T into a DC voltage and feed it back to the PWM circuit unit 3.

The above-described voltage sensing circuit unit 7 includes a rectifier diode D2 connected to one end of the secondary side of the transformer T, a resistor R2 and a condenser that converts an AC voltage into a DC voltage and outputs it to the PWM circuit unit 3. C3).

In the horizontal deflection circuit of the image display device configured as described above, first, the PWM pulse signal is output from the PWM circuit part 3 to the transistor Q1 of the horizontal deflection circuit part 5 according to the PWM control signal output from the microcomputer 1. .

Then, the transistor Q1 supplies the horizontal drive bias voltage B + to the transformer T according to the PWM pulse signal output from the PWM circuit unit 3, and the horizontal drive bias supplied from the transistor Q1 in the transformer T. The voltage B + is converted into an operating voltage and a current according to the turns ratio in itself and output to the horizontal output transistor Q2.

The horizontal deflection current is output to the horizontal deflection yoke 6 according to the switching of the horizontal output transistor Q2 to deflect the image signal input from the computer system to adjust the horizontal deflection.

At this time, the voltage sensing circuit unit 7 connected between the secondary side of the transformer T and the PWM circuit unit 3 converts the AC voltage generated in the transformer T into a DC voltage and feeds it back to the PWM circuit unit 3, The horizontal deflection current is sensed through the resistor R1 and fed back to the PWM circuit section 3.

Accordingly, the PWM circuit unit 3 changes the output of the PWM pulse signal to maintain a constant horizontal size at all times.

Now, when a key signal for adjusting the horizontal size of the image display device is input by the user, the microcomputer 1 outputs the voltage adjustment signal to the voltage feedback end of the PWM circuit section 3.

Then, a PWM pulse signal of varying amplitude is output from the PWM circuit unit 3 to convert the on / off time of the transistor Q1, and accordingly the deflection current output to the horizontal deflection yoke 6 is changed to change the horizontal magnitude. .

On the other hand, the horizontal output transistor Q2 of the horizontal deflection circuit unit 5 which supplies a deflection current to the horizontal deflection yoke 6 when the user turns on / off the power or changes the mode, in addition to the horizontal size adjustment as described above. ) Should not be excessive transient phenomenon.

In order to suppress the transient phenomenon, the horizontal output transistor is conventionally reduced by the soft start of the PWM circuit unit 3 and the high-lock pulse signal output from the H / V processor unit 2 to reduce the horizontal size. ) To protect.

However, in the horizontal deflection circuit of the conventional video display device as described above, when the power is applied again by the user's operation before the power supply of the power supply is completely turned off, the transient voltage is generated in the horizontal deflection circuit due to the characteristic of the PWM circuit and the horizontal output. Malfunction or damage of the transistor caused a problem that the reliability of the product is degraded.

An object of the present invention is to solve the above problems to prevent the transient phenomenon occurring in the horizontal deflection circuit in accordance with the power on / off operation within a short time by the user in the state that the power supply of the power stage is not completely turned off The present invention provides a device for preventing a transient phenomenon of a horizontal deflection circuit of an image display device.

Horizontal deflection circuit transient prevention device of the image display device according to the present invention for achieving the object as described above, is adjusted by a PWM pulse signal generated in accordance with a control signal for adjusting the horizontal size output from the microcomputer Horizontal consisting of a transformer that converts the horizontal drive bias voltage into an operating voltage and current according to the turns ratio in itself and a horizontal output transistor that generates a horizontal deflection current according to the operating voltage and current applied through the transformer and outputs it to the horizontal deflection yoke. An image display device having a deflection circuit section, comprising: a voltage sensing circuit section for converting a secondary AC voltage of a transformer of a horizontal deflection circuit section into a direct current voltage and feeding back the converted direct current voltage; A current sensing circuit unit for sensing and feeding back a current output from the horizontal output transistor of the horizontal deflection circuit unit; It outputs to horizontal deflection circuit part by adjusting PWM pulse width according to feedback voltage / feed current inputted to voltage and current feedback end through voltage sensing circuit part and current sensing circuit part and control signal to adjust horizontal size output from microcomputer. A PWM circuit section; It is connected to the compensation output terminal provided in the PWM circuit unit and compensates the voltage output from the PWM circuit unit when the power is applied again by the user when the power of the image display device is not completely turned off, and the compensation voltage is output from the voltage sensing circuit unit. A compensation circuit unit configured to output a PWM pulse signal synthesized with the sensed voltage and fed back to the voltage feedback end of the PWM circuit unit; It is connected between the compensation output stage provided in the PWM circuit section and the horizontal deflection circuit section, and when the power is turned off of the image display device, the voltage fed back to the voltage feedback end of the PWM circuit section decreases and is increased through the compensation output section of the PWM circuit section. When the power is turned on by the user when the voltage is output and the PWM pulse signal with increased duty ratio is applied from the PWM circuit part, the duty cycle of the applied PWM pulse signal is reduced to prevent the transient phenomenon of outputting to the horizontal deflection circuit part. It is characterized by consisting of a circuit portion.

Hereinafter, an apparatus for preventing a horizontal deflection circuit transient phenomenon of a video display device of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram schematically illustrating a configuration of a horizontal deflection circuit transient prevention apparatus of an image display device according to the present invention, and FIG. 4 is a detailed view of FIG. 3.

As shown, the microcomputer 10 controls the overall operation for displaying on the screen the video signal input to the image display device in the computer system, and for adjusting the horizontal drive bias voltage of the horizontal deflection circuit unit 50 The control signal is output to the PWM circuit unit 30 described later.

The H / V processor unit 20 outputs a high-lock pulse signal to the PWM circuit unit 30 for adjusting the horizontal deflection current supplied to the horizontal deflection yoke 60 which will be described later.

The PWM circuit unit 30 includes a feedback voltage and a feedback current inputted from the voltage sensing circuit unit 70 and the current sensing circuit unit 80 which will be described later through the voltage feedback terminal V _F and the current feedback terminal I _sense . The PWM pulse width is adjusted according to the control signal for adjusting the horizontal size output from 10) and output to the horizontal deflection circuit unit 50.

The base drive unit 40 outputs an operating voltage to the base terminal of the horizontal output transistor Q11 of the horizontal deflection circuit unit 50 described later.

The horizontal deflection circuit unit 50 switches the horizontal drive bias voltage B + adjusted according to the PWM pulse signal output from the PWM circuit unit 30 described above, and generates a horizontal deflection current according to the switched horizontal drive bias voltage. Output to the horizontal deflection yoke (60).

The above-described horizontal deflection circuit unit 50 includes a transistor Q10 and a transistor Q10 that adjust the horizontal drive bias voltage B + by changing an on / off period according to the PWM pulse signal output from the PWM circuit unit 30. The transformer T10 converts the horizontal drive bias voltage B + applied through the transformer into an operating voltage and a current according to the turns ratio in the transformer and supplies the horizontal drive bias voltage B + to the horizontal output transistor Q11 and the operating power supplied from the base drive unit 40. And a horizontal output transistor Q11 and a horizontal output transistor Q11 and a horizontal deflection yoke, which are driven by and switched according to the operating voltage and current supplied from the transformer T10 to output the horizontal deflection current to the horizontal deflection yoke 60. And a damping diode D10, a resonance capacitor C10, and an S-shaped correction capacitor C11 connected between the 60's.

The horizontal deflection yoke 60 adjusts the horizontal size by deflecting an image signal input from the computer system according to the horizontal deflection current output from the horizontal deflection circuit unit 50.

The voltage sensing circuit unit 70 converts the rectifying diode D11 connected to one end of the secondary side of the transformer T10 of the horizontal deflection circuit unit 50 and the AC voltage into a DC voltage to convert the voltage of the PWM circuit unit 3 described above. The resistor R12 and the capacitor C12 are fed back to the stage V _F.

The current sensing circuit unit 80 includes a plurality of resistors R10 (R11) and a capacitor C13, and detects the current output from the horizontal output transistor Q11 of the horizontal deflection circuit unit 50 to describe the PWM circuit unit 30 described above. Feedback to the current feedback stage (I _sense ).

The compensation circuit unit 90 is connected to the compensation output terminal COM of the PWM circuit unit 30 and compensates for the PWM circuit unit 30 when the power is applied again by the user while the power of the image display device is not completely turned off. Compensates the voltage output from the output terminal COM, and combines the compensation voltage with the sensed voltage output from the above-described voltage sensing circuit 70 to feed back to the voltage feedback terminal V _F of the PWM circuit unit 30 to normal horizontal. The PWM pulse signal for adjusting the magnitude is output to the horizontal deflection circuit unit 50.

In the transient prevention circuit unit 100, a damping diode D12 and a resistor R13 are connected in series between the compensation output terminal COM of the PWM circuit unit 30 and the horizontal deflection circuit unit 50. When the power is turned off, the voltage fed back to the voltage feedback terminal V _F of the PWM circuit unit 30 through the voltage sensing circuit unit 70 decreases to output an increased voltage through the compensation output terminal COM of the PWM circuit unit 30. When the power of the image display device is turned on by the user at a moment and the PWM pulse signal having the increased duty ratio is applied from the PWM circuit unit 30, the duty ratio of the applied PWM pulse signal is reduced and output to the horizontal deflection circuit unit 50.

Here, reference numeral 110 in FIG. 3 described above is a preamp section, 120 is an output amplifier section, and 130 is a cathode ray tube.

Next, the operation of the horizontal deflection circuit transient prevention device of the image display device according to the present invention configured as described above will be described in detail.

First, the PWM pulse signal is output from the PWM circuit unit 30 to the transistor Q10 of the horizontal deflection circuit unit 50 according to the PWM control signal output from the microcomputer 10 to adjust the horizontal size.

Accordingly, the transistor Q10 is supplied to the transformer T10 by adjusting the horizontal drive bias voltage B + according to the PWM pulse signal output from the PWM circuit unit 30, and the transistor Q10 is supplied from the transistor Q10. The horizontal drive bias voltage B + is converted into an operating voltage and a current according to the turns ratio in the self and output to the horizontal output transistor Q11.

Then, the horizontal deflection current is output to the horizontal deflection yoke 60 according to the switching of the horizontal output transistor Q11 to deflect the image signal input from the computer system to adjust the horizontal magnitude.

At this time, in the voltage sensing circuit unit 70 connected between the secondary side of the transformer T10 and the PWM circuit unit 30, the AC voltage generated by the transformer T10 is converted into a DC voltage to convert the voltage feedback of the PWM circuit unit 30. (V _F ) and the horizontal deflection current is sensed through the current sensing circuit unit 80 connected to the emitter terminal of the horizontal output transistor Q11 and through the current feedback terminal (I _sense ) of the PWM circuit unit 30. Feedback.

Accordingly, the PWM circuit unit 30 changes the output of the PWM pulse signal according to the feedback voltage and the feedback current so as to maintain a constant horizontal size at all times.

Now, when a key signal for adjusting the horizontal size is input by the user, the microcomputer 10 outputs the voltage adjustment signal to the voltage feedback terminal V _F of the PWM circuit unit 30.

Then, a PWM pulse signal having a changed duty ratio is output from the PWM circuit unit 30 so that the on / off time of the transistor Q10 is converted. Accordingly, the deflection current output to the horizontal deflection yoke 60 is changed to change the horizontal magnitude. .

On the other hand, when the power of the image display device is turned off by the user, the horizontal drive bias voltage B + that requires a large current of the horizontal deflection circuit unit 50 decreases rapidly.

When the output current of the horizontal output transistor Q11 is detected by the current sensing circuit unit 80 and fed back to the current feedback terminal I _{sense of the} PWM circuit unit 30, the PWM circuit unit 30 temporarily compensates. The output voltage of the output terminal COM is increased.

In addition, when the power of the image display device is turned on by the user as the output voltage of the compensation output terminal COM increases, the duty ratio of the PWM pulse signal output from the PWM circuit unit 30 increases.

That is, when the power is applied again by the user before the power of the image display device is completely turned off, the horizontal drive bias voltage B + increased by the PWM pulse signal with the increased duty ratio is applied to the horizontal output transistor Q11 to provide instantaneous power. A surge phenomenon occurs and the horizontal output transistor Q11 malfunctions or is damaged.

Therefore, the duty ratio is reduced by damping the PWM pulse signal having an increased duty ratio applied from the PWM circuit unit 30 through the diode D12 and the resistor R13 of the transient prevention circuit unit 100 so that the above-described transient phenomenon does not occur. The reduced PWM pulse signal is output to the horizontal deflection circuit unit 50.

As described above, according to the apparatus for preventing the horizontal deflection circuit transient phenomenon of the image display device of the present invention, the horizontal output of the horizontal deflection circuit part by suppressing the transient voltage generated in the PWM circuit part when the user repeatedly turns on / off the power of the image display device. By allowing the transistor to operate normally, it not only protects the horizontal output transistor, but also increases the reliability of the product.

Claims (2)

The horizontal drive bias voltage adjusted by the PWM pulse signal generated according to the control signal for adjusting the horizontal size output from the microcomputer is applied through the transformer and the transformer to convert the output voltage and current according to the turns ratio in the output An image display apparatus having a horizontal deflection circuit portion comprising a horizontal output transistor for generating a horizontal deflection current according to an operating voltage and a current and outputting the horizontal deflection current to a horizontal deflection yoke. A voltage sensing circuit unit converting the secondary AC voltage of the transformer of the horizontal deflection circuit unit into a DC voltage and feedback the converted DC voltage; A current sensing circuit unit for sensing and feeding back a current output from the horizontal output transistor of the horizontal deflection circuit unit; By adjusting the PWM pulse width according to the feedback voltage / feedback current input to the voltage and current feedback stage through the voltage sensing circuit and the current sensing circuit and the control signal for adjusting the horizontal size output from the microcomputer to the horizontal deflection circuit portion. PWM circuit unit for outputting; It is connected to the compensation output terminal provided in the PWM circuit unit to compensate the voltage output from the PWM circuit unit when the power is applied again by the user in the state that the power of the image display device is not completely turned off, and the compensation voltage in the voltage sensing circuit unit A compensating circuit unit which combines the sensed voltage to be output and feeds it back to the voltage feedback end of the PWM circuit unit; And It is connected between the compensation output stage provided in the PWM circuit portion and the horizontal deflection circuit portion, the voltage fed back to the voltage feedback terminal of the PWM circuit portion through the voltage sensing circuit portion when the image display device is powered off through the compensation output terminal of the PWM circuit portion When the power is turned on by the user when the increased voltage is output and the PWM pulse signal having the increased duty ratio is applied to the PWM circuit part, the duty ratio of the applied PWM pulse signal is reduced to output to the horizontal deflection circuit part. An apparatus for preventing a horizontal deflection circuit of a video display device, characterized by comprising a phenomenon prevention circuit part. The method of claim 1, wherein the transient prevention circuit portion, An apparatus for preventing transient deflection of a horizontal deflection circuit of a video display device, characterized by comprising a plurality of damping elements.

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