KR100232921B1 - A signal generating circuit for compensating gd in a monitor - Google Patents

Abstract

The present invention relates to a circuit for generating a signal for correcting a geometry distortion (GD) in a monitor, wherein the circuit of the present invention superimposes a horizontal size signal and a pincushion signal through a superpositioner and applies the signal to a horizontal deflection unit. In the screen distortion correction circuit of the monitor that corrects the pincushion of the screen, when the horizontal frequency increases and the scan B + voltage increases, the voltage of the horizontal size signal is increased and then provided to the overlapping device so that the horizontal size becomes smaller. When the size of the size correction unit 210 and the horizontal frequency is increased and the scan B + voltage is increased, the crest value of the pincushion signal is increased by proportional to the scan B + voltage, and then provided to the overlapper to increase the pincushion correction amount. It is configured to include a correction unit 220.

Therefore, the present invention corrects the horizontal size of the screen which increases as the screen mode is changed and the amount of pincushion correction that is decreased, so that the screen having the same size as the screen mode before the change even if the screen mode of the monitor is changed while the monitor is in use. In addition to maintaining the size, the pincushion correction amount can be maintained.

Description

Monitor screen distortion correction circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit for correcting a screen distortion (GD) in a monitor. In particular, the present invention relates to a circuit for correcting a screen distortion by correcting a pincushion correction amount and a horizontal size that change as the screen mode of the monitor changes. It is about.

Generally, GD (geometry distortion) is a general term that the monitor display screen is distorted in the horizontal direction or the vertical direction due to various factors. It is a pincushion for correcting a failure-shaped screen in the vertical direction. (pincushion) correction, trapezoid correction for correcting the trapezoidal screen in the horizontal direction, and tilt correction by the geomagnetic field.

In this case, the pincushion correction means that a pincushion signal of a barrel waveform is sent to the horizontal deflection coil in order to correct a failure-type raster generated by insufficient deflection force because the uniform magnetic field coming out of the horizontal deflection coil becomes thin at both ends. will be.

To this end, most monitors have a circuit for pincushion correction. FIG. 1 is a circuit diagram illustrating a circuit for correcting pincushion by generating a pincushion correction signal in a general monitor and applying the same to a horizontal deflection circuit.

Referring to FIG. 1, the horizontal output transistor Q1 is turned on and off according to the horizontal drive signal H. drive to switch the scan B + voltage applied through the FBT primary winding, and at the same time, the damper diode Dd and the retrace. The sawtooth current flows through the horizontal deflection coil HY by the action of the capacitor Cr, the horizontal deflection coil HY, and the like.

At this time, the S-shaped correction capacitor Cs and the linearity correction coil Ld are connected to the horizontal deflection coil H.Y. in order to correct the horizontal linearity. That is, when the deflection angle is large, the deflection angular velocity is the deflection angular velocity of the center portion when scanning the peripheral portion of the screen so that the sawtooth current is S-shaped to prevent the peripheral portion of the screen from appearing longer than the center portion of the screen. Make it less.

In addition, the horizontal size (H.size ') signal input from the microcomputer 170 and the pincushion correction signal (Pincushion) input from the pincushion correction signal generator 160 are synthesized and then connected to a diode modulator of the horizontal deflection unit. It is possible to adjust the horizontal size of the screen by varying the base current of (Q2) and adjusting the magnitude of the horizontal deflection current.

That is, when the user adjusts the horizontal size (H.size) by the user control (user control), the microcomputer 170 outputs an appropriate PWM signal accordingly, and the PWM signal is a resistor (R _Hs ) and capacitor (C _Hs) After rectified by), the horizontal size (H.size '), which is a DC voltage accompanied by ripple, is output, and the size of the horizontal screen is adjusted by varying the current of the horizontal deflection coil HY, and the microcomputer 170 is generated. According to the pincushion control signal, the pincushion correction signal generator 160 generates a pincushion signal (Pincushion) to adjust the current flowing through the horizontal deflection coil HY so that the size of the screen is constant at the top, bottom, and center.

In this case, the horizontal size (H.size ') and the pincushion signal are applied to the horizontal deflection unit after being overlapped by the overlapper 180, and the AC couple of the horizontal size (H.size') signal and the pincushion signal Capacitor Cc is mounted for the ring.

Here, the higher the voltage of the H.size 'signal, the smaller the horizontal size of the screen, and the lower the voltage of the horizontal size signal, the larger the horizontal size of the screen.

As is well known, the horizontal frequency and the vertical frequency are varied, the horizontal size is also varied according to the screen mode of the monitor, and the frequency of the ripple component included in the horizontal size signal is varied.

In this case, when the frequency of the ripple component included in the horizontal size (H.size ') signal and the frequency of the pincushion signal are not the same, distortion of the pincushion signal occurs by the ripple component, The distortion causes the picture to be skewed to one side.

Capacitor Cc is connected to compensate for the above phenomenon. As the delay time of the pincushion signal varies according to the capacitance of the capacitor Cc, the horizontal size signal and the pincushion signal AC coupling is achieved.

In general, it is mentioned that the horizontal size is changed according to the horizontal frequency. As the horizontal frequency increases, the horizontal size increases, and the variable range of the horizontal size changes. That is, a phenomenon in which the minimum horizontal size of the monitor is displayed larger than the standard specification or the maximum horizontal size is displayed is small.

In addition, when the horizontal size is increased as described above, the range of the pincushion correction amount is relatively decreased. Therefore, there is a problem in that a larger amount of pincushion correction should be performed when the horizontal frequency is a high frequency than that of the curse file.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the screen to adjust the horizontal size and the pincushion correction amount is changed by using the scan B + voltage that varies depending on the screen mode to display a desirable screen The purpose is to provide a distortion correction circuit.

In order to achieve the above object, the circuit of the present invention, in the screen distortion correction circuit of the monitor for correcting the pincushion of the screen by applying the horizontal size signal and the pincushion signal by overlapping the horizontal deflector,

A horizontal size correction unit for increasing the voltage of the horizontal size signal and providing the overlapping unit to reduce the horizontal size when the horizontal frequency increases and the scan B + voltage increases;

And a pincushion correction unit configured to increase the crest value of the pincushion signal in proportion to the scan B + voltage as the horizontal frequency increases and provide the overlapping unit to increase the pincushion correction amount. do.

1 is a circuit diagram showing a screen distortion correction circuit for correcting a pincushion of a screen in a monitor;

2 is a circuit diagram showing a screen distortion correction circuit of the monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

170: Micom 180: Stacker

210: horizontal size correction unit 220: pincushion correction unit

OP21: buffer op amp OP22: differential amplifier

OP23: negative feedback amplifier Q21: npn type transistor

Q23, Q24: Coupling Transistor

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

2 illustrates a screen distortion correction circuit according to an embodiment of the present invention, which includes a micom 170 for outputting a horizontal size signal and a pincushion signal according to a user's input of a user control, and the horizontal size signal. And a superimposition unit 180 that superimposes a pincushion signal and then applies it to a horizontal deflection unit to correct pincushion of the screen, and when the horizontal frequency increases to increase the scan B + voltage, the voltage of the horizontal size signal is increased and then The horizontal size correction unit 210 provided to the overlapper 180 to reduce the horizontal size, and when the scan B + voltage increases due to the increase in the horizontal frequency, the crest value of the pincushion signal is increased as much as the scan B + voltage. Afterwards, the pincushion correction unit 220 is provided to the overlapper 180 to increase the amount of pincushion correction.

Here, the horizontal size correction unit 210 outputs a buffer op amp OP21 and a buffer op amp OP21 for amplifying a horizontal size (H.size) signal that varies according to user's key operation. A differential amplifier OP22 having a signal H.size 'applied to a negative input terminal, a divided scan B + voltage applied to a positive input terminal, and an output terminal connected to an input terminal of the overlapper 180, and the scan B + voltage After the voltage is divided, the first resistor R21 to the third resistor R23 applied to the positive input terminal of the buffer op amp OP21 and the output of the buffer op amp OP21 applied to the differential amplifier OP22. The fourth resistor R24 serves as a passage of the signal H.size '.

In addition, the pincushion correction unit 220 includes a negative feedback amplifier OP23 for inverting and amplifying the pincushion signal, and an npn transistor Q21 whose emitter current varies according to the divided scan B + voltage applied to the base terminal. And an amplifying unit for amplifying the output signal of the negative feedback amplifier OP23 and applying it to the superimposing unit 180 with an amplification degree varying according to the emitter current of the npn type transistor Q21.

The operation and effects of the present invention configured as described above are as follows.

In general, when the screen mode becomes the high resolution mode from the low resolution mode and the horizontal frequency increases, the horizontal size increases and the scan B + voltage increases.

Of course, even if the screen mode is changed as described above, the horizontal size signal according to the user's key input is the same as before the screen mode is changed, so that the microcomputer 170 outputs the horizontal size signal having the same size even if the screen mode is changed.

At this time, a process of correcting the horizontal size by the horizontal size correction unit 210, the horizontal size signal output from the microcomputer 170 is input to the negative input terminal of the differential amplifier (OP22) via the buffer op amp (OP21) do.

On the other hand, if the horizontal frequency is increased as described above, the scan B + voltage increases and the voltage applied to the positive input terminal of the differential amplifier OP22 after being divided by the first resistor R21 to the third resistor R23 increases. Done.

As described above, when the scan H + voltage applied to the positive input terminal increases while the horizontal size H.size 'signal applied to the negative input terminal of the differential amplifier OP22 is not changed, the output of the differential amplifier OP22 is increased. As the signal increases, the horizontal size of the screen becomes smaller.

That is, when the screen mode of the monitor is changed from low resolution to high resolution, and the horizontal frequency is increased to increase the horizontal size of the screen, the horizontal size signal applied to the superpositioner 180 is increased to increase the horizontal size signal. It is possible to maintain the horizontal size.

Meanwhile, as the horizontal frequency increases as described above, the pincushion correction amount decreases. Referring to the process of correcting the pincushion correction amount in the pincushion correction unit 220, the pincushion signal output from the negative feedback amplifier OP23 is The capacitor is applied to the base end of the first coupling transistor Q23 and the base end of the second coupling transistor Q24 via the capacitor C21.

On the other hand, the scan B + voltage is applied to the base terminal of the npn type transistor Q21. When the horizontal frequency increases and the scan B + voltage increases, the base voltage of the npn type transistor Q21 increases, causing a large amount of emitter current. Will flow.

In this case, the large amount of emitter current of the npn type transistor Q21 means that a large amount of emitter current of the first coupling transistor Q23 and the emitter current of the second coupling transistor Q24 flow. A large flow of emitter current of the second coupling transistor Q24 means that the base voltage of the second coupling transistor Q24 is relatively increased.

That is, when the pincushion signal is applied to the base terminal of the second coupling transistor Q24, the pincushion signal is amplified and output to the collector terminal of the second coupling transistor Q24.

The pincushion signal output to the collector terminal of the second coupling transistor Q24 is applied to the overlapper 180 via the coupling capacitor Cc and overlaps the horizontal size signal.

In summary, as the screen mode becomes a high resolution mode, the horizontal frequency, the horizontal size, and the scan B + voltage increase, and the pincushion correction amount is relatively decreased. By correcting, the horizontal size can be reduced and the pincushion correction amount can be increased.

As described above, the present invention corrects the horizontal size of a screen that increases as the screen mode is changed and the amount of pincushion correction that is decreased, so that even if the screen mode of the monitor is changed while using the monitor, In addition to maintaining the screen size of the same size, the pincushion correction amount can be maintained.

Claims (3)

In the screen distortion correction circuit of a monitor that superimposes the pincushion of the screen by applying the horizontal size signal and the pincushion signal through the overlapping device and then applying it to the horizontal deflection unit. A horizontal size correction unit for increasing the voltage of the horizontal size signal and providing the overlapping unit to reduce the horizontal size when the horizontal frequency increases and the scan B + voltage increases; And a pincushion correction unit configured to increase the crest value of the pincushion signal in proportion to the scan B + voltage as the horizontal frequency increases and provide the overlapping unit to increase the pincushion correction amount. The screen distortion correction circuit of the monitor. The apparatus of claim 1, wherein the horizontal size corrector comprises: a buffer op amp for amplifying a horizontal size signal which is varied according to a user's key input; Wherein the output signal of the buffer op amp is applied to the negative input terminal, the divided scan B + voltage is applied to the positive input terminal, and the output terminal is configured to include a differential amplifier connected to the input terminal of the overlapper. Correction circuit. The apparatus of claim 1, wherein the pincushion correction unit comprises: a negative feedback amplifier for inverting and feedback amplifying the pincushion signal; An npn-type transistor whose emitter current varies according to the divided scan B + voltage applied to the base end, And an amplifying unit configured to amplify an output signal of the negative feedback amplifier and apply it to a superimposed circuit with an amplification degree varying according to an emitter current of the npn type transistor.

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