KR19980059991A - Driving method of liquid crystal panel to realize uniformity of image quality - Google Patents

Abstract

The present invention relates to a method of driving a liquid crystal panel to realize uniformity of image quality, the method comprising: supplying a normal counter electrode voltage to an uppermost portion of a liquid crystal panel, and compensating for the amount of distortion of the data voltage; And supplying an opposite electrode voltage of an AC waveform having a polarity opposite to that of the data voltage applied based on the electrode voltage, and compensating for the uniformity of image quality by compensating for the difference in pixel charge amount due to data voltage distortion. It relates to a method of driving a liquid crystal panel for implementation.

Description

Driving method of liquid crystal panel to realize uniformity of image quality

The present invention relates to a method of driving a liquid crystal panel for implementing uniformity of image quality in a liquid crystal display.

In general, as illustrated in FIG. 1, a TFT LCD panel includes a plurality of gate lines Gn for transmitting the gate driving signal gate_pulse and data for transmitting the data voltage Data. Lines Dn are formed in the horizontal and vertical directions, and the lines cross each other in the pixel area.

The same counter electrode voltage Vcom is applied to the entire panel. The potential difference of the data voltage Data applied based on the counter electrode voltage Vcom is charged in each pixel to drive the pixel.

However, each of the gate lines Gn and the data lines Dn has line self-resistances Req and R _T , and capacitance Ceq and C _T components such as coupling capacitances formed between the lines and the lines also exist. .

In addition, such resistance and capacitance cause distortion of the waveform of the data voltage applied to the pixel, and when the data voltage Data is applied from the upper side of the panel, the difference in the amount of charge of the pixel voltage in the upper half and the lower half of the panel is caused. Come.

Fig. 2 shows this point, since the data voltage Data (B) actually applied to the pixel at point B of the panel shown in Fig. 1 is distorted due to the above-described resistance Req and capacitance Ceq. Even though the same data voltage is applied to one data line, the pixel at the point B of the panel is eventually charged with a data voltage shorter by ΔV than the pixel at the point A of the panel. In addition, such a difference in charge amount affects the brightness of the image, thereby degrading the uniformity of the image quality.

Accordingly, an object of the present invention is to provide a method of driving a liquid crystal panel for realizing image quality uniformity by compensating for the difference in pixel charge amount due to data voltage distortion.

FIG. 1 is a view showing a conventional driving method for applying the same counter electrode voltage across a panel, and FIG. 2 is a waveform showing the difference between data voltages actually applied to pixels at points A and B of the panel. FIG. 3 is a basic conceptual view of the present invention, and illustrates a method of applying a first counter electrode voltage and a second counter electrode voltage having different potentials at points A and B of the panel, respectively. FIG. FIG. 5 is a waveform diagram of a first counter electrode voltage and a data voltage applied at point A of a panel when driving a high voltage / line inversion, and FIG. 5 is point B of a panel according to an embodiment of the present invention. Is a waveform diagram of a second counter electrode voltage and a data voltage applied).

Explanation of symbols for the main parts of the drawings

n: integer (0, 1, 2 ...)

Req: total resistance of the data line Ceq: total capacitance of the data line

R _T : total resistance of the gate line C _T : total capacitance of the gate line

The present invention for achieving the above object comprises the steps of supplying a normal counter electrode voltage to the uppermost portion of the liquid crystal panel; Supplying a counter electrode voltage of an AC waveform having a polarity opposite to that of the data voltage applied based on the counter electrode voltage to compensate for the amount of distortion of the data voltage generated while descending toward the lower side of the liquid crystal panel. It consists of

Since the driving method of the liquid crystal panel according to the present invention mainly aims to equalize the amount of charge of each pixel of the panel, it is basic to apply a counter electrode voltage capable of compensating for the distorted data voltage to a heavily distorted panel portion. I am doing it.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention in detail.

As shown in FIG. 3, a first counter electrode voltage Vcom1 and a second counter electrode voltage Vcom2 having different potentials are applied at points A and B of the panel, respectively. Here, the first counter electrode voltage Vcom1 is a normal counter electrode voltage, and the second counter electrode voltage Vcom2 is a compensated counter electrode voltage.

FIG. 4 is a waveform diagram of a first counter electrode voltage Vcom1 and a data voltage Data (A) applied at point A of the panel shown in FIG. 3 during high voltage / line inversion driving, and FIG. 5 is point B of the panel. A waveform diagram of the second counter electrode voltage Vcom2 and the data voltage Data (B) applied at.

As shown in Fig. 5, at the point B of the panel where the distortion of the data voltage occurs, the counter electrode voltage Vcom2 compensated by ΔV 'is applied to compensate for the distorted data voltage ΔV, so The charging amount of the pixel data voltage at point B is equal, and the counter electrode voltage Vcom2 applied at this point is the polarity opposite to that of the data voltage Data (B) applied, and is the first counter electrode voltage Vcom1. AC voltage having a period of the amplitude and the gate driving time calculated to compensate for the distortion amount of the data voltage Data (B) based on the reference.

The data voltage compensation method for realizing the uniformity of the image quality can be applied to a large liquid crystal display panel. In the case of a large panel in which the data voltage is applied from the upper side and the lower side of the panel, the distortion of the data voltage at the center portion of the panel This is the most severe, so a method of supplying the compensating counter electrode voltage at the center of the panel should be used.

Therefore, the effect of the driving method of the liquid crystal panel according to the embodiment of the present invention is that the uniformity of the image quality can be realized by preventing the luminance difference of the image from occurring by equalizing the data voltage charge amount of the pixels.

Claims (1)

Supplying a normal counter electrode voltage to an uppermost side of the liquid crystal panel; Supplying a counter electrode voltage of an AC waveform having a polarity opposite to that of the data voltage applied based on the counter electrode voltage to compensate for the amount of distortion of the data voltage generated while descending toward the lower side of the liquid crystal panel. Method of driving a liquid crystal panel made of.