KR19980059331A - Display panel structure for implementing dot inversion driving in low voltage driving method - Google Patents

Abstract

The present invention relates to a structure of a liquid crystal display panel, comprising: n gate lines arranged in the horizontal direction of the panel, m data lines arranged in the vertical direction of the panel, and the first to (n-1) th The first pixel portion formed at the intersection of the gate line and the odd-numbered (or even-numbered) data line, and the second to n-th gate line and the even-numbered (or odd-numbered) data line intersect. The structure includes a second pixel portion formed at a point, and relates to a display panel structure for implementing dot inversion driving in a low voltage driving method.

Description

Display panel structure for implementing dot inversion driving in low voltage driving method

The present invention relates to a structure of a liquid crystal display panel, and more particularly, to a display panel structure for implementing dot inversion driving in a low voltage driving method.

BACKGROUND ART A conventional active matrix liquid crystal display displays an image by controlling image data applied to a liquid crystal capacitor using a switching element such as a thin film transistor.

Such a driving method of the liquid crystal display includes a low voltage driving method driven at a low voltage having a gradation voltage of 5 V or less, and a high voltage driving method driven at a high voltage having a gradation voltage of 10 V or more.

In the low voltage driving method, a line inversion driving method in which the polarity of the gray voltage is inverted in a horizontal line period is generally used. In the high voltage driving method, a dot inversion in which the polarity of the gray voltage is inverted in one pixel period is used. (dot inversion) driving method is used.

However, in the line inversion driving method, distortion of the counter electrode voltage Vcom occurs due to a coupling capacitor existing between the data line and the counter electrode during line inversion, and such distortion causes a difference in gray level. It causes. In addition, due to such a gray level difference, crosstalk (interference phenomenon between crosstalk pixel data) occurs, resulting in deterioration of image quality.

Accordingly, an object of the present invention is to provide a display panel structure for implementing dot inversion driving that can reduce crosstalk in a low voltage driving method.

1 is a structural diagram of a display panel according to an exemplary embodiment of the present invention;

2 is a timing diagram of a gray voltage applied to a display panel according to an exemplary embodiment of the present invention.

The present invention for achieving the above object is, n gate lines arranged in the horizontal direction of the panel, m data lines arranged in the vertical direction of the panel and the first to (n-1) -th gate line and The first pixel portion formed at the intersection of the odd (or even) data lines and the second pixel portion formed at the intersection of the second to nth gate lines and the even (or odd) data line. It consists of a containing structure.

In the above panel structure, only the odd pixel of the first horizontal line is driven when a signal is applied to the first gate line, and the odd pixel of the second horizontal line and the first pixel of the second horizontal line is applied when a signal is applied to the second gate line. The even-numbered pixels of the first horizontal line are simultaneously driven, and the polarity of the image data applied in the horizontal line period is inverted, thereby enabling dot inversion driving.

In this dot inversion driving, since a gray voltage of opposite polarity is always applied around one pixel, the crosstalk is fundamentally eliminated since the current flowing into the counter electrode and the current flowing out of the counter electrode cancel each other and hardly cause voltage distortion. can do.

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.

In the structure of the display panel according to the exemplary embodiment of the present invention illustrated in FIG. 1, the first pixel portion is formed from the first to (n-1) th gate lines gate1 to gate (n-1) and the upper data driver. The odd-numbered data lines (so1, so3, so5 ...) are formed at intersections, and the second pixel portion is the second to nth gate lines (gate2 to gaten) and the even-numbered data from the lower data driver. Lines so2, so4 ... are formed at the intersections.

A process of applying image data in the liquid crystal display panel having the above structure will be described below.

First, as shown in FIG. 2, when the gate signal gate_pulse1 is supplied to the first gate line gate1, only the odd pixel is driven in the first horizontal line, and at this time, the image data A applied to the pixel is driven. The polarity becomes positive (+).

Next, when the gate signal is supplied to the second gate line, the odd pixels of the second horizontal line and the even pixels of the first horizontal line are simultaneously driven, and at this time, the polarities of the image data B and C applied to the pixels. Becomes negative (-). As such, even when image data of the same polarity is simultaneously supplied through the data line, since the odd and even pixels of the horizontal lines adjacent to each other are actually driven, image data of different polarities is applied to the adjacent pixels of the same horizontal line as a result. .

Therefore, the effect of the structure of the liquid crystal display panel according to the embodiment of the present invention is that the crosstalk can be reduced by implementing dot inversion driving in the low voltage driving method.

Claims (1)

N gate lines arranged in the horizontal direction of the panel, m data lines arranged in the vertical direction of the panel, and the first to (n-1) th gate lines and the odd (or even) data lines intersect. And a second pixel portion formed at a point where the first pixel portion formed at the point of intersection and the second to nth gate line and the even (or odd) data line intersect.