KR0158274B1 - Screen distortion correcting circuit - Google Patents

Abstract

The present invention is a device for displaying an image using an image display tube (Brown tube) such as a television receiver, a computer monitor, and the like to compensate for the distortion of the screen in the form of a parallelogram in accordance with the deviation of the CRT in a high quality, high quality The present invention relates to a parallelogram distortion correction circuit of a screen to realize image quality.

In the conventional screen distortion correction circuit, when the horizontal synchronizing pulse is input to the monostable multivibrator, the phase of the horizontal synchronizing signal is directly controlled by the resistance, so that the screen can be moved in parallel to the left and right sides. Accordingly, there is a problem that the parallelogram distortion of the screen tilting to the right or the parallelogram distortion of tilting to the left cannot be corrected.

In the present invention, as shown in FIGS. 4 and 5, the distortion correction signal generating means 5 generates a triangular wave synchronized with the vertical period, and adjusts the triangular wave to the horizontal position adjusting means of the horizontal position adjusting means 4. By applying the signal to the horizontal drive means 3, the horizontal drive waveform is gradually controlled to change in phase within one vertical period, and the position of the horizontal scan line is changed to correct both left and right tilt of the screen. It is to help you.

Description

Parallelogram distortion correction circuit of screen

1 is a circuit diagram of a conventional screen distortion correction circuit.

2A is a video signal waveform diagram.

(b) is a horizontal synchronization signal waveform diagram.

(c) shows the horizontal movement state of the screen.

(A) and (b) of FIG. 3 show parallelogram distortion of a screen.

4 is a block diagram of a parallelogram distortion correction circuit of the screen of the present invention.

5 is an exemplary circuit diagram of a parallelogram distortion correction circuit of a screen according to the present invention.

(A) to (f) of FIG. 6 correspond to each synchronization signal and driving waveform.

A diagram showing the horizontal scanning lines and the appearance of the screen.

7A to 7H are first waveform diagrams of respective circuit portions at the time of distortion correction according to the present invention.

(A)-(h) of FIG. 8 are the 2nd waveform diagram of each part of the circuit at the time of distortion correction by this invention.

* Explanation of symbols for main parts of the drawings

2: phase comparator 3: horizontal driving means

4: horizontal position adjusting means 5: distortion correction signal generating means

VR1: Horizontal position adjustable variable resistor VR2: Correction amount adjustable variable resistor

OP1: differential amplifier C1: DC blocking capacitor

The present invention is a device for displaying an image using an image display tube (Brown tube) such as a television receiver, a computer monitor, and the like to compensate for the distortion of the screen in the form of a parallelogram in accordance with the deviation of the CRT in a high quality, high quality The present invention relates to a parallelogram distortion correction circuit of a screen to realize image quality.

The conventional screen distortion correction circuit cannot correct parallelogram distortion, and as shown in FIG. 1, the monostable multivibrator 1, the resistor R1, and the capacitor C1 that are triggered by the horizontal sync pulse are The horizontal position can be adjusted to adjust the screen position in the horizontal direction.

When the horizontal synchronizing pulse is input to the monostable multivibrator 1, the circuit depends on the time constants of the resistor R1 connected to the input terminal Rx and the capacitor C1 connected to the input terminal Cx. By controlling the phase of the horizontal synchronizing signal with respect to the video signal as shown in (a) of FIG. 2 as shown in (b) of FIG. 2, the screen is moved horizontally by an appropriate amount to the left or right as shown in (c) of FIG. The screen is in the correct position.

However, in the conventional screen distortion correction circuit, when the horizontal synchronizing pulse is input to the monostable multivibrator 1, the phase of the horizontal synchronizing signal is controlled by direct current (power supply B +) by the resistor R1 so that the screen is displayed. Although it can be moved in parallel to left and right, as shown in (a) and (b) of FIG. 3, parallelogram distortion (a) in which the screen is inclined to the right due to the deviation of the CRT itself, or inclined to the left. Parallelogram distortion (b) has a problem that can not be corrected.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, to improve the image quality by correcting the parallelogram distortion of the screen, and to provide a high quality image display device.

In order to achieve the above object, in the present invention, by generating a triangular wave synchronized with the vertical period and loading the triangular wave into the horizontal position control signal of the horizontal position control circuit, the phase of the horizontal drive waveform is gradually changed within one vertical period. By controlling the position of the horizontal scanning line, the left and right tilt of the screen can be corrected.

A circuit configuration of the present invention which achieves the above object is shown in FIG.

As shown in FIG. 4, the parallelogram distortion correction circuit of the screen of the present invention is

A horizontal drive circuit for generating a horizontal drive pulse by inputting a horizontal synchronization signal, having a phase comparator (2) for adjusting the horizontal position of a screen, and inputting a position adjustment signal from the horizontal position adjusting means as a horizontal position adjusting circuit. Horizontal drive means (3) for receiving the horizontal position of the screen is moved;

A horizontal position adjusting circuit for inputting an adjustment signal for moving the horizontal position of the screen to the left or right to the horizontal driving means, the adjuster appropriately adjusts the DC bias applied to the phase comparator of the horizontal driving means, the horizontal position Horizontal position adjusting means (4) applied to the control signal;

A circuit for generating a triangular wave signal synchronized with the vertical synchronizing signal by receiving a vertical synchronizing signal, wherein an adjuster can adjust the shape and shape of the triangular wave, and the adjusted triangular wave is added to the control signal of the horizontal position adjusting means to add If the generated triangular wave is a waveform that rises gradually in one vertical period, the horizontal scan line is gradually delayed in the vertical one period to correct parallelogram distortion that is inclined to the right. A distortion correction signal generating means (5) for correcting the parallelogram distortion inclined to the left by gradually advancing the position of the horizontal scanning line within one vertical period when the waveform is gradually descending;

Characterized in that the configuration.

Hereinafter, the distortion correction operation by the parallelogram distortion correction circuit of the screen of the present invention will be described with reference to the accompanying drawings.

5 is a circuit diagram of an embodiment of a parallelogram distortion correction circuit according to an embodiment of the present invention.

The horizontal position adjusting means 4 divides the DC power supply VCC and the variable resistor VR1 and the resistor R1 and R2 for adjusting the partial pressure level so that the adjuster can adjust the horizontal position of the screen. And a resistor (R3) (R4) and R5 for supplying the DC voltage set by the variable resistor (VR1) to the phase comparator 2 in addition to the triangular wave signal of the distortion correction signal generating means (5),

The distortion correction signal generating means 5 is a transistor Q1 which is switched on and off by receiving a vertical synchronizing signal, and both ends thereof are shorted or opened by the transistor Q1, and an output terminal of the differential amplifier OP1 is provided. And a differential amplifier OP1 connected between an inverting input terminal and a triangular wave generating a triangular wave, and outputting a triangular wave at an output terminal according to charging and discharging by the capacitor C2, and non-inverting of the differential amplifier OP1. A resistor (R7) (R8) for applying a DC reference voltage to the input terminal and a DC bias amount applied to the non-inverting input terminal of the differential amplifier (OP1) are adjusted to change the shape of the magnitude of the triangular wave, and the regulator adjusts the parallelogram distortion. The DC component of the triangular wave signal output from the variable resistor VR2 and the resistor R9 and R10 and the output terminal of the differential amplifier OP1 that are variable so as to control the correction amount of the signal. To give in addition to the output of the horizontal position adjustment means 4 is configured to include a capacitor (C2).

In the drawings, reference numerals R3, R11 and R12 denote resistors and D1 denotes diodes.

In the parallelogram distortion correction circuit of the screen of the present invention configured as described above, the horizontal driving means 3 is a horizontal synchronizing signal shown in Fig. 6B in a period of the vertical synchronizing signal as shown in Fig. 6A. The horizontal drive waveform (pulse) shown in FIG.

The horizontal drive waveform shown in FIG. 6C is shown in a continuous form, and FIG. 6D is a waveform diagram shown for each horizontal scan.

Here, the phase Td of the horizontal drive waveform is the same from T1 to Tn when there is no parallelogram distortion correction circuit.

At this time, by adjusting the variable resistor VR1 of the horizontal position adjusting means 4 to adjust the DC level divided by the variable resistor VR1 and the resistors R1 and R2, the adjusted DC voltage is the resistance R3. Since it is input to the phase comparator 2 of the horizontal driving means 3 through R4, the screen can be moved to the left or right of the screen as a whole by controlling the phase of the horizontal synchronizing signal as in the prior art.

However, depending on the deviation of the CRT, the position of the horizontal scan may be delayed or advanced as shown in (e) of FIG. 6, in which case the screen may be as shown in (f) of FIG. Parallel quadrangle distortion (b) inclined to the left or parallelogram distortion (a) inclined to the right occurs.

This parallelogram distortion is corrected as follows by generating a triangular wave in the distortion correction signal generating means 5 and controlling the start position of the horizontal scanning.

First, the case where the distortion of the screen tilting to the left is corrected will be described.

The vertical synchronizing signal inputted to the distortion correction signal generating means 5 is the waveform of Fig. 7 (a) same as that of Fig. 6 (a), and the horizontal synchronizing signal inputted to the horizontal driving means 3 is the sixth synchronizing signal. It is the waveform of FIG. 7 (b) same as FIG. (B).

The waveform shown in (c) of FIG. 7 is a waveform diagram continuously showing a horizontal drive pulse whose phase is changed by the present invention, and the waveform diagram of FIG. 7 (d) is a horizontal drive pulse whose phase is changed by the present invention. Is a waveform diagram showing T1 to Tn.

As can be seen from the waveform diagram shown in FIG. 7 (d), as the horizontal driving waveform progresses from T1 to Tn, a phase change of Δt is caused. Accordingly, the position of the horizontal scanning line gradually increases within one vertical period. The image which has been advanced and distorted as shown in Fig. 6F is corrected as shown in Fig. 7H.

This phase change of T1 to Tn depends on the triangular wave signal generated by the distortion correction signal generating means 5.

That is, when the vertical synchronizing signal is applied to the base of the transistor Q1 through the resistor R12 and the diode D1, the transistor Q1 is switched on and off in synchronization with the vertical synchronizing signal.

When the transistor Q1 is switched on and off, the capacitor C1 repeats integration (charging) and discharging at a period of the vertical synchronizing signal. Accordingly, the triangular wave as shown in FIG. Signal appears.

The magnitude and shape of the triangular wave signal is adjusted by adjusting the resistance value of the variable resistor VR2 connected to the inverting input terminal of the differential amplifier OP1. The voltage divided by the resistor R9 and R10 is adjusted according to the adjustment of the variable resistor VR2. Since the level of the DC power supply VCC being changed and this adjusted DC level is applied to the inverting input terminal of the differential amplifier OP1, the resistor R7 (R8) applied to the non-inverting input terminal of the differential amplifier OP1. The magnitude and shape of the triangular wave is changed as shown in (f) of FIG. 7 or (f) of FIG. 8 according to whether the DC level applied to the inverting input terminal is higher or lower than the DC voltage set by.

If a triangular wave of the type as shown in (f) of FIG. 7 is output from the output terminal of the differential amplifier OP1 by adjusting the variable resistor VR2, the triangular wave signal is removed by the capacitor C1, and then As an (AC) component, it is added to the connection point of the resistors R4 and R5 of the horizontal position adjusting means 4.

Therefore, as described above, the triangular wave signal is added to the horizontal position control signal (direct current (DC) voltage set by the variable resistor VR1; see (e) of FIG. 7) as shown in (g) of FIG. It is applied to the phase comparator 2 of (3).

Therefore, the signal applied to the phase comparator 2 becomes a level which gradually decreases in one vertical period as shown in (g) of FIG. 7, and accordingly, as the phase of the horizontal driving pulse proceeds from T1 to Tn, Δt The position of the horizontal scanning line is changed so as to change as much as possible, and the left tilt distortion of the screen is corrected as shown in Fig. 7 (h) (corrected B screen).

In the case of the distortion correction in which the screen is tilted to the right, the waveform diagram of each part of the circuit of the present invention is shown in FIG. 8 ((a) to (h) of FIG. 8 are (a) to (h) of FIG. Here, since the waveform of the triangular wave is adjusted by the variable resistor VR2 in such a way that its slope gradually increases in one vertical period as shown in (f) of FIG. It is corrected as shown in Fig. 8 (h) (corrected A screen).

As described above, in the present invention, since the parallelogram distortion of the screen is corrected, high quality and high quality images can be expressed, the quality of the image display device can be improved, and distortion correction can be easily performed using a variable resistor. There is an effect that can be performed.

Claims (2)

A horizontal drive circuit for generating a horizontal drive pulse by inputting a horizontal synchronization signal, having a phase comparator (2) for adjusting the horizontal position of a screen, and inputting a position adjustment signal from the horizontal position adjusting means as a horizontal position adjusting circuit. Horizontal drive means (3) for receiving the horizontal position of the screen is moved; A horizontal position adjusting circuit for inputting an adjustment signal for moving the horizontal position of the screen to the left or right to the horizontal driving means, the adjuster appropriately adjusts the DC bias applied to the phase comparator of the horizontal driving means, the horizontal position Horizontal position adjusting means (4) applied to the control signal; A circuit for generating a triangular wave signal synchronized with the vertical synchronizing signal by receiving a vertical synchronizing signal, wherein an adjuster can adjust the shape and shape of the triangular wave, and the adjusted triangular wave is added to the control signal of the horizontal position adjusting means to add the If the generated triangular wave is a waveform that rises gradually in one vertical period, the horizontal scan line is gradually delayed in the vertical one period to correct parallelogram distortion that is inclined to the right. A distortion correction signal generating means (5) for correcting parallelogram distortion inclined to the left by gradually advancing the position of the horizontal scanning line within one vertical period if the waveform is gradually descending from the right; Parallelogram distortion correction circuit of the screen, characterized in that consisting of. The variable resistance (VR1) and the resistor (R1) according to claim 1, wherein the horizontal position adjusting means (4) divides the DC power supply (VCC) and adjusts the divided voltage level so that the adjuster can adjust the horizontal position of the screen. (R2) and resistors R3 (R4) and R5 which supply the DC voltage set by the variable resistor VR1 to the phase comparator 2 in addition to the triangular wave signal of the distortion correction signal generating means 5; The distortion correction signal generating means 5 includes a transistor Q1 that is switched on and off by receiving a vertical synchronizing signal, and both ends thereof are short-circuited or opened by the transistor Q1, and a differential amplifier OP1. A capacitor C2 connected between an output terminal and an inverting input terminal of the capacitor C2 to generate a triangle wave; To apply a DC reference voltage to the non-inverting input By adjusting the amount of DC bias applied to the terms R7 and R8 and the non-inverting input terminal of the differential amplifier OP1, the shape of the magnitude of the triangular wave is changed, and the adjuster can control the amount of correction for the parallelogram distortion. The variable resistor VR2 and resistor R9 and R10 and the DC component of the triangular wave signal output from the output terminal of the differential amplifier OP1 are blocked, and only the AC component is added to the output of the horizontal position adjusting means 4. Parallelogram distortion correction circuit of the screen, characterized in that it comprises a condenser (C2) to give.