KR19990019293A - Horizontal width adjustment circuit with geometric distortion compensation - Google Patents

Abstract

The present invention provides a horizontal width adjustment circuit having a geometric distortion compensation function.

In the horizontal width adjustment circuit having the geometric distortion compensation function, the reference voltage Vcc is connected to the ground of the op amp at the positive input terminal, and the horizontal width adjustment signal Vi is input to the negative input terminal, and the horizontal width is adjusted by the output signal Vo. A horizontal width adjustment circuit having an amplifier configured to include an op amp configured to control the magnitude of a deflection current flowing through a deflection coil, wherein the amplification part includes a positive voltage of the op amp to which the reference voltage Vcc is grounded. Means for processing and inputting a vertical deflection periodic waveform applied to the deflection coil to a positive input terminal of the OP amplifier so that a signal having an inverse ripple component capable of canceling the ripple component of the reference voltage Vcc is input to an input terminal. It is characterized by connecting.

According to such a configuration according to an embodiment of the present invention, an 'S'-shaped geometric distortion generated by a ripple component of a reference voltage Vcc of an input power supply of an OP amplifier in a horizontal width adjustment circuit using an OP amplifier is provided. The effect is eliminated.

Description

Horizontal width adjustment circuit with geometric distortion compensation

The present invention relates to a horizontal width adjusting circuit of a cathode ray tube (CRT), and more particularly, to a horizontal width adjusting circuit of a screen which can adjust the horizontal size of the screen by changing the amplitude of the horizontal deflection current of the CRT. A geometric distortion in which the 'S' shaped geometrical distortion caused by the ripple component of the reference voltage (Vcc) in the input power supply of an amplifier using an operational amplifier (OP) among the components is eliminated. The horizontal width adjustment circuit having a compensation function.

In general, in the CRT, adjusting the horizontal width of the screen is achieved by varying the magnitude of the current flowing in the horizontal deflection coil. Conventional configuration of the horizontal size adjustment circuit of such a conventional screen horizontal screen size adjusting device of the image display device adjustable by the keyboard input device filed December 24, 1996 by the applicant of the present invention (Patent Application No. 1996-71049 Is referred to as prior art in the specification.

A typical horizontal width adjustment circuit includes a signal generator for generating a horizontal width adjustment signal, an amplifier for amplifying the horizontal width adjustment signal, and a modulation section for modulating the magnitude of the horizontal deflection current by modulating the signal output from the amplifier. .

1 is a circuit diagram illustrating the configuration of an amplifier part in which an OP amplifier is used among the elements constituting the conventional horizontal width adjustment circuit. As shown, the amplification section of the horizontal width adjustment circuit includes an OP amplifier, and the reference voltage Vcc is connected to ground at its (+) input terminal, and is output from the horizontal width adjustment signal Vi, for example, a deflection IC, at its (-) input terminal. The E / W waveform is rectified and input by the capacitor, and the magnitude of the deflection current flowing in the horizontal deflection coil of the horizontal stage adjusting the horizontal size of the screen is adjusted by the amplified output signal Vo.

2A is a graph illustrating the waveform of the reference voltage Vcc input to the amplifier section of the horizontal width adjustment circuit shown in FIG. The ripple component is present in the reference voltage Vcc under the influence of various circuit elements. On the other hand, although not shown, the horizontal width control signal Vi is input by the capacitor C as a stable, almost ripple-free waveform, and the op amp amplifies and outputs the difference between Vcc and the ripple-free Vi. The ripple component present in the reference voltage is amplified in the waveform of the output Vo.

2B is a schematic diagram showing a normal screen pattern when there is no ripple component of the output voltage Vo of the OP amplifier of the amplifying unit of the horizontal width adjusting circuit and a distorted pattern when there is a ripple component. As described above, when the current of the horizontal deflection coil is controlled by the Vo including the ripple, an 'S'-shaped geometric distortion is generated, which is a normal screen shown on the left side of FIG. 2B. Rather, the jar-shaped crushed screen appears as shown on the right.

As described above, there is a problem in that the amplification part of the conventional horizontal width adjustment circuit cannot prevent the occurrence of the geometric distortion on the monitor screen by amplifying the ripple component present in the reference voltage Vcc as it is.

Accordingly, the present invention is to solve the above problems, in the horizontal width adjustment circuit using the OP amplifier 'S'-shaped geometric generated by the ripple component of the reference voltage (Vcc) of the input power supply of the OP amplifier It is an object of the present invention to provide a horizontal width adjustment circuit having a geometric distortion compensation function that removes and inputs a ripple component present in a reference voltage Vcc input to the OP amplifier so that distortion is eliminated.

1 is a circuit diagram illustrating a configuration of an amplifier part in which an OP amplifier is used among elements constituting a conventional horizontal width adjustment circuit.

2A is a graph illustrating a case in which a ripple component is present in a reference voltage Vcc input to an amplifier in which an OP amplifier is used among elements constituting a conventional horizontal width adjusting circuit;

Fig. 2B is a schematic diagram showing a normal screen pattern when there is no ripple component of the output voltage Vo of the OP amplifier of the amplifying section of the horizontal width adjustment circuit and a distorted pattern when there is a ripple component.

3 is a circuit diagram illustrating a configuration of an amplifier part of a horizontal width adjustment circuit according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

Vcc: Reference voltage Vi: Horizontal width control signal

Vo: Output voltage C: Capacitor

R: resistance

In order to achieve the above object, the present invention provides that the reference voltage Vcc is grounded and connected to the (+) input terminal of the OP amplifier, and the horizontal width control signal Vi is input to the (-) input terminal and flows in the horizontal deflection coil by the output signal Vo A horizontal width adjusting circuit having an amplifier configured to include an OP amplifier for controlling a magnitude of a deflection current, wherein the amplifier is connected to a positive input terminal of an OP amplifier to which the reference voltage Vcc is grounded. And means for processing and inputting a vertical deflection cycle waveform applied to the deflection coil to the (+) input terminal of the op amp so that a signal having a reverse ripple component capable of canceling the ripple component of the voltage Vcc is inputted. It provides a horizontal width adjustment circuit with a geometric distortion compensation function.

In addition, the horizontal width adjustment circuit having a geometric distortion compensation function provided by the present invention, in addition to the above configuration, the means for processing and inputting the waveform of the vertical deflection period is configured by connecting a predetermined capacitor C and the resistor R in series It may be configured to feature.

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

3 is a circuit diagram illustrating a configuration of an amplifier of the horizontal width adjustment circuit according to an embodiment of the present invention.

In the horizontal width adjusting circuit according to the preferred embodiment of the present invention, the reference voltage Vcc is connected to the ground of the OP amplifier at the positive input terminal, and the horizontal width adjusting signal Vi is input to the negative input terminal thereof. The present invention relates to a horizontal width adjustment circuit having an amplifier configured to include an OP amplifier for controlling a magnitude of a deflection current flowing through a deflection coil.

In the present embodiment, the amplifier includes substantially the same components as the conventional amplifier described above with reference to FIG. 1, except that the signal cancels the ripple component of the reference voltage Vcc to the (+) input terminal of the OP amplifier. Entering additional is different.

The circuit means for inputting a signal having an inverse ripple component capable of canceling the ripple component of the reference voltage Vcc into the (+) input terminal of the OP amplifier to which the reference voltage Vcc is grounded is provided. +) Implement by connecting the means for processing and inputting the vertical deflection cycle waveform applied to the deflection coil to the input stage. The means for processing and inputting the waveform of the vertical deflection period is preferably configured by connecting a predetermined capacitor C and a resistor R in series.

With this configuration, the vertical synchronous signal waveform drawn from the deflection yoke is input to the point A of FIG. 3, which is an inverse ripple component capable of offsetting the ripple component of the reference voltage Vcc by the capacitor C and the resistor R selected by the appropriate time constant. A waveform with a can be obtained at point A.

In this way, by additionally inputting a signal canceling the ripple component of the reference voltage Vcc, the ripple component is removed from the Vo signal output from the OP amplifier, and as a result, the geometric distortion that appears on the screen is prevented.

According to the configuration of the horizontal width adjustment circuit having the geometric distortion compensation function according to the embodiment of the present invention described above, the ripple of the reference voltage (Vcc) of the input power of the OP amplifier in the horizontal width adjustment circuit using the OP amplifier It has the effect of removing the 'S' geometric distortion caused by the component.

Although the horizontal width adjustment circuit having a geometric distortion compensation function according to an embodiment of the present invention has been described in detail above with reference to the accompanying drawings, the present invention is not limited thereto and is within the ordinary knowledge of those skilled in the art. Modifications and improvements are possible.

Claims (2)

The reference voltage Vcc is grounded and connected to the (+) input terminal of the op amp, and the horizontal width control signal Vi is input to the (-) input terminal so that the magnitude of the deflection current flowing in the horizontal deflection coil can be adjusted by the output signal Vo. A horizontal width adjusting circuit having an amplifier configured to include an OP amplifier, wherein the amplifier is capable of canceling the ripple component of the reference voltage Vcc to a positive input terminal of the OP amplifier to which the reference voltage Vcc is grounded. A horizontal distortion correction function characterized by connecting a means for processing and inputting a vertical deflection cycle waveform applied to a deflection coil to a (+) input terminal of the OP amplifier so that a signal having an inverse ripple component is inputted. Width adjustment circuit. The circuit according to claim 1, wherein the means for processing and inputting the waveform of the vertical deflection period is formed by connecting a predetermined capacitor C and a resistor R in series.