KR920004400Y1 - Side pin cushion control circuit - Google Patents

Abstract

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Description

Monitor side pincushion adjustment circuit

1 is a conventional side pincushion adjustment circuit diagram.

2 is a side pincushion adjustment circuit of the present invention.

3A is a state diagram in which side pincushion is generated in the monitor, and (b) is a parabolic current waveform diagram for correcting side pincushion.

* Explanation of symbols for main parts of the drawings

HL: Horizontal deflection coil VL: Vertical deflection coil

1: DC level adjusting unit 2: Amplification circuit

TI: Transformer for side pincushion Q1, Q2: Transistor

R1, R2, R3: Resistance VR2: Variable resistor for side pin cushion position adjustment

VR1: Variable resistor for side pin cushion amplitude adjustment

The present invention relates to a side pincushion adjustment circuit of a monitor that can achieve a better image quality by minimizing distortion of a screen in a monitor.

The deflection yoke, the main member of the monitor, consists of a pair of vertical deflection coils and a pair of horizontal deflection coils to deflect the electron beam scanned from the electron gun.

However, side pincushion phenomena such as the failure of the deflection yoke and the curvature of the cathode ray tube are crushed like the third side.

Therefore, conventionally, the side pincushion adjustment circuit such as the first diagram is used to solve the pincushion generated on the left and right sides of the monitor.

That is, the circuit of FIG. 1 amplifies the current induced in the vertical deflection coil VL by two stages through the transistors Q1 and Q2, and then amplifies the parabola type current through the pincushion transformer TI into the horizontal deflection coil. (HL) to allow the monitor's left and right pincushion to be adjusted.

However, such a control method has a disadvantage in that fine adjustment is difficult because only the amplitude is controlled by the amplitude control variable resistor VR1 connected to the emitter side of the transistor Q1.

That is, the pincushion on the left and right sides of the screen can be corrected by the variable resistor VR1, but it is difficult to make fine adjustments at the middle point of the screen, which prevents the distortion of the screen from occurring.

The present invention is to solve such a problem, it is an object of the present invention to provide a side pincushion adjustment circuit of the monitor that can correct the distortion of the fine screen difficult to correct in the general side pincushion correction circuit.

In order to achieve the above object, the side pincushion position adjusting means is provided in the DC level adjusting section, and the side pincushion amplitude adjusting means is provided in the amplifying circuit so as to correct it.

A feature of the present invention is an amplification circuit comprising a DC level adjusting unit for integrating the sawtooth current of a vertical deflection coil to maintain a constant level, and a transistor and a variable resistor for side pincushion amplitude adjustment to amplify the output of the DC level adjusting unit; A side pincushion correction circuit comprising a horizontal deflection coil connected to the amplification circuit and connected through a side pincushion transformer, wherein the DC level adjusting unit further includes a side pincushion position adjusting variable resistor. will be.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2.

2 is a side pincushion adjusting circuit diagram of the present invention, and the DC deflection adjusting unit 1 is connected to the horizontal deflection coil VL through a resistor R1 and a capacitor C1.

The DC level adjusting unit 1 includes an integral part composed of a variable resistor VR2, a capacitor C2, and resistors R2 and R3. The variable resistor VR2 is used for side pincushion position adjustment.

On the output side of the DC level adjusting unit 1, an amplifying circuit 2 consisting of distribution resistors R4-R7 and amplifying transistors Q1 and Q2 is connected, and the amplifying circuit 2 is a transistor Q1. The side pin cushion amplitude adjustment variable resistor VR1 is formed on the emitter side of the circuit via a resistor R5.

The side pincushion transformer (TI) is connected to the output side of the PNP transistor (Q2) of the amplifying circuit (2), and the S-shaped correction capacitor is connected to the secondary side of the side pincushion transformer (TI) and the horizontal size adjustment coil is on the other side. It has a structure connected with the horizontal deflection coil HL via L1 and the horizontal linear coil L2.

When the sawtooth wave waveform applied to the horizontal deflection coil VL is applied in the present invention configured as described above, it is input to the DC level adjusting unit 1 through the resistor R1 and the capacitor C1.

The sawtooth current input to the DC level adjusting section 1 inputs the parabolic current integrated by the capacitor C2 and the resistor R3 to the amplifier circuit 2.

At this time, the parabolic type current waveform can be controlled by the side pin cushion position variable resistor (VR2), allowing fine adjustment of the middle point of the screen.

The parabolic current is amplified by transistor Q1 and the amplified output is amplified second by transistor Q2. In this case, the side pincushion amplitude adjustment variable resistor VR1 connected to the emitter side of transistor Q1. ) To adjust the amplitude of parabolic current.

The current amplified by the amplifying circuit 2 corrects the pincushion generated on the left and right sides of the monitor by applying a parabolic current to the horizontal deflection coil HL through the secondary side of the side pincushion transformer TI.

The relationship in which the pincushion is corrected as described above will be described with reference to FIG.

3A shows a state diagram in which side pin cushions are generated in the monitor.

When the side pincushion position variable variable resistor VR2 of the DC level adjuster 1 is adjusted in the state in which the side pincushion is generated, the integral waveform of the DC level adjuster 1 is adjusted, so that the position (A) of the parabolic current is shown in FIG. , The intermediate waveform is changed at (C) to change the points (A) and (C) which are pincushioned at a degree.

In addition, since the amplitude of the parabolic current is adjusted at the position B of FIG. 2B with the variable pin VR1 for adjusting the side pincushion amplitude, the site of the point B of FIG.

Therefore, the variable resistor can adjust the position and amplitude of parabolic current as desired, and the side pincushion can be corrected to the minute part of the screen, and the distortion of the screen can be eliminated.

As described above, the present invention is to correct the pincushion caused by the horizontal deflection coil by changing the current of the vertical deflection circuit to the parabolic current, and to change the position of the parabola current by integrating the sawtooth current of the vertical deflection circuit. It is possible to adjust the amplitude of parabolic current in the amplification circuit, and to correct even the distortion part of the fine screen, which is difficult to correct the side pincushion in the general monitor circuit, and to provide a monitor that can display a good image. will be.

Claims (1)

DC level adjusting unit 1 which integrates the sawtooth wave current of the vertical deflection coil VL to maintain a constant level, and transistors Q1, Q2 and side pincushion to amplify the output of the DC level adjusting unit 1; In the side pincushion correction circuit comprising an amplification circuit (2) composed of an amplitude adjustment variable resistor (VR1) and a horizontal deflection coil (HL) connected to the amplification circuit (2) and connected through a side pincushion transformer (TI). The side pincushion adjustment circuit of the monitor configured to further include a side pincushion position adjusting variable resistor (VR2) in the DC level adjusting unit (1).