KR19990074451A - Voltage driver of liquid crystal display with dual bank structure - Google Patents

Abstract

A plurality of source lines for forming pixels are formed on a predetermined surface in parallel, and a plurality of source drive integrated circuits are disposed on the upper and lower portions of the liquid crystal panel, respectively, and the source lines are paired. Connected to the source drive integrated circuits disposed at upper and lower sides thereof, and having a dual bank structure in which voltages of positive and negative polarities are repeatedly inverted for a specific row by the output of the source drive integrated circuits. A voltage driver of a liquid crystal display device is disclosed.

Therefore, according to the present invention, the dot reversal in the liquid crystal display device having the dual bank structure is realized to solve the difficulty of crosstalk and flicker characteristics.

Description

Voltage driver of liquid crystal display having dual bank structure

The present invention relates to a voltage driver of a liquid crystal display device having a dual bank structure. More particularly, the present invention relates to a dot driver by changing a voltage application method to a source line by improving a connection state between a source line and a source drive integrated circuit. The present invention relates to a voltage driver of a liquid crystal display having a dual bank structure in which inversion is implemented.

Recently, as a flat panel display device, a liquid crystal display device has been variously applied to a laptop computer, a wall-mounted television, an aviation field, etc. Among them, a liquid crystal display device using a thin film transistor technology is generally manufactured and spread.

Liquid crystal display devices fabricated using thin film transistor technology have unusual display characteristics compared to other display apparatuses, and include crosstalk, flicker, and contrast as unusual display characteristics.

The display characteristics described above are closely related to the driving method, and in the conventional frame inversion and line inversion, satisfactory levels cannot be secured by the display characteristics described above.

In particular, in the crosstalk and flicker characteristics, the above-described difficulty in frame inversion and line inversion is remarkable, and a representative solution to this is a dot inversion driving method using high voltage technology.

The dot inversion driving method contrasts the common electrode voltage supplied in the form of direct voltage by the output of a source or column drive integrated circuit, and repeats the polarity and the negative polarity in pixel units in the horizontal and vertical directions. To drive.

However, current drive ICs driven at high voltages are designed exclusively for single banks. Therefore, it is difficult to have the advantage of dot inversion when driving the liquid crystal panel in the conventional dual bank method.

Specifically, in a liquid crystal display device using a thin-film transistor technology having a dual bank structure, source drive integrated circuits are disposed on upper and lower portions of the liquid crystal panel, and source lines formed on the liquid crystal panel connected to the source drive integrated circuit are connected to the upper portion. What is connected to and connected to the bottom is configured to intersect each line.

When driving the liquid crystal panel using a high voltage drive integrated circuit in which the positive and negative polarities are toggled to drive the dual bank structure in the above-described configuration, the source lines on the liquid crystal panel overlap the positive and negative polarities. Is formed. Specifically, the pixel formed on the liquid crystal panel has a pattern such as R +, G +, B-, R-, G +, and B + for a specific row.

Therefore, as described above, when the liquid crystal panel is driven by the conventional dual bank method, there is a problem that it is difficult to realize the inversion of the negative polarity and the positive polarity of each pixel, that is, the dot inversion.

Accordingly, an object of the present invention is to solve the above problem, and in driving a liquid crystal panel in a dual bank method, a dual bank for realizing dot inversion by cross-connecting a source line to a vertical source driving integrated circuit in pairs. A voltage driver of a liquid crystal display device having a structure is provided.

1 is a view showing a preferred embodiment of the voltage driver of a liquid crystal display device having a dual bank structure according to the present invention.

<Explanation of symbols for main parts of the drawings>

10 liquid crystal panel 12 source line

14: source drive integrated circuit

In order to achieve the above object, the voltage driver of a liquid crystal display having a dual bank structure according to an embodiment of the present invention includes a liquid crystal panel and a top and a bottom of the liquid crystal panel formed in parallel with a plurality of source lines for pixel formation on a predetermined surface. A source drive integrated circuit having a predetermined number of source drive integrated circuits, the source lines intersecting in pairs and connected to the source drive integrated circuits disposed above and below the source drive integrated circuits; In the line, the positive and negative voltages are repeatedly inverted for a specific row.

Hereinafter, the features and advantages of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an embodiment according to the present invention is formed of a predetermined number of columns of source lines 12 so as to form pixels having predetermined rows and columns on a liquid crystal panel 10. On the upper and lower sides, a predetermined number of source drive integrated circuits 14 for applying an inversion voltage to the source line 12 are disposed to face each other.

The source lines 12 of the liquid crystal panel 10 configured as described above are connected to each other by a pair of upper and lower source drives, as shown in detail enlarged portion A, and the pixels in the liquid crystal panel 10 as shown in detail enlarged portion B. Is formed.

The dot inversion causes a voltage to be formed by applying a voltage whose polarity is inverted with respect to a specific color in the order of R +, G-, B +, R-, G +, and B- in the row direction, and R + and R- in the column direction. Pixels are formed by applying voltages whose polarities are inverted with respect to a specific color such as R + and R-.

The driving of the liquid crystal panel 10 by the dot inversion technique described above is possible by the method of connecting the source drive integrated circuit 14 of the source line 12 as in the embodiment of the present invention.

Specifically, the dot inversion by the source drive integrated circuit 14 will be described with respect to a specific row. The specific row is formed by a pair of source lines 12 formed adjacent to each other in a pair to the same source drive integrated circuit 14 on the upper side. When R + and G- are driven in the direction, B + and R- are driven in a specific row direction by a pair of adjacent source lines 12 connected to the source drive integrated circuit 14 below.

As a result, a sequence pattern such as R +, G-, B +, R-, G +, and B- described above is formed to perform dot inversion. In the lower row, patterns in the order of R-, G +, B-, R +, G-, and B + are formed and dots are inverted in the row direction.

The above-described configuration of the embodiment according to the present invention is preferably applied only when the output of the source drive integrated circuit is toggled for high voltage driving.

As described in detail above, the present invention has been described in detail with respect to preferred embodiments, but those skilled in the art to which the present invention pertains, various embodiments of the present invention without departing from the spirit and scope of the present invention It will be appreciated that the present invention may be modified or modified as described above.

Therefore, according to the present invention, the dot reversal in the liquid crystal display device having the dual bank structure is realized to solve the difficulty of crosstalk and flicker characteristics.

Claims (1)

A liquid crystal panel in which a plurality of source lines for forming pixels are formed in parallel on a predetermined surface; And And a predetermined number of source drive integrated circuits respectively disposed above and below the liquid crystal panel. The source line is connected to the source drive integrated circuit disposed at the top and the bottom by crossing a pair of units, and the output of the source drive integrated circuit repeatedly the positive and negative voltages for a specific row in the source line A voltage driver of a liquid crystal display device having a dual bank structure, characterized in that inversion is applied.