KR100324111B1 - Liquid Crystal Display Panel - Google Patents

Abstract

Disclosed is a pixel array structure of a liquid crystal display device in which a degree of freedom of design for a liquid crystal display panel is improved by changing a new pixel arrangement structure in a liquid crystal display panel. In the present invention, assuming that the number of data bus lines is M and the number of gate bus lines is N, the pixel arrangement at the same resolution is changed from {M × (3)} × N to M × {N × (3)}. By changing and arranging the positions of the scan driving circuit and the data driving circuit, the degree of freedom of the array design can be improved, and the TCP (Tape Carrier Package) size and the wiring connection can be sufficiently secured. have.

Description

Liquid Crystal Display Panel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display (LCD), and more particularly, to a pixel array structure of a liquid crystal display device capable of improving the degree of freedom of design for a liquid crystal display panel by changing a new pixel arrangement structure. It is about.

Currently, CRT CRTs, which are most commonly used as display elements, have been in the spotlight as display devices including TVs and computer monitors because of easy color implementation and fast operation speed. However, the CRT CRT has a disadvantage that not only the thickness is thick but also the power consumption is large and the portability is poor due to the structural characteristic of securing the distance between the electron gun and the screen to some extent.

Various display devices have been developed to overcome the disadvantages of the CRT CRT described above, and among them, a liquid crystal display device is a device that has been put to practical use.

Liquid crystal displays have been spotlighted as ultra-thin display devices such as thin wall-mounted TVs because they can operate each pixel according to a signal scanned on a plane without an electron gun like a CRT CRT. In addition, the contract display device has been put to practical use as a portable display device such as a display of a battery operated notebook computer because of its light weight and low power consumption.

1 is a view for explaining a pixel array structure of a color liquid crystal display panel according to the related art.

Referring to FIG. 1, a structure of a conventional liquid crystal display panel includes N gate lines G1, G2..., GN formed in a row direction in succession, and M columns in a column direction. Continuously formed data lines D1, D2 ....., DM are arranged in a matrix form. In addition, a scan driving circuit 30 generating the gate signal is formed in the vicinity of the gate lines G1, G2..., GN, and the data lines D1, D2... In the vicinity of the DM), a data driving circuit 20 for generating a data signal is formed.

The pixel 10 is formed at the intersection of the data lines D ₁ , D _{2 ...} , D _M and the gate lines G ₁ , G ₂ .., G _N. The data signal of the data driving circuit 20 is switched according to the gate signal of the scan driving circuit 30 to display an image.

In the liquid crystal display panel having the configuration as shown in FIG. 1, the number of the gate lines G ₁ , G _2... , G _N is referred to as 'N' and the data lines D ₁ , D ₂ . If the number of D _{M × 3} ) is 'M', their resolution is represented by {M × (3)} × N, and one pixel 10 is three dots of RGB arranged in the horizontal direction. (dots).

For example, when the resolution is 640 x 480 pixels, the number of data lines is M = 640, the number of gate lines is N = 480, and the total is 1920 (= M x 3) x 480 dots.

In this case, in order to secure a sufficient viewing angle according to a human body structure, the number M of data lines should be designed to be larger than the number N of gate lines.

Therefore, the conventional pixel arrangement as shown in FIG. 1 has the following problems.

First, the number of crosses between the gate lines G ₁ , G ₂ ....., G _N and the data lines D ₁ , D ₂ ....., D _{M × 3} is M × 3. Since there are many, the margin for designing the data driving circuit 20 is small.

Second, due to the first problem described above, the freedom of designing the storage area is very low due to the influence of the gate line delay, and the size of the Tape Carrier Package (TCP) and the margin of wiring connection are reduced.

Third, the occurrence frequency of stitching unevenness due to the shot boundary of the data lines arranged in the column direction is high.

Accordingly, the present invention has been made to solve the above problems, the object of which is to increase the degree of freedom of design through a simple array arrangement change and to suppress the occurrence of stitching unevenness pixels of the liquid crystal display panel To provide an array structure.

1 is a schematic diagram illustrating a pixel array structure of a liquid crystal display panel according to the prior art;

2 is a schematic diagram illustrating a pixel array structure of a liquid crystal display panel according to the present invention.

* Description of the symbols for the main parts of the drawings *

D; Data busline G; Gate busline

M; Number of data lines

N; Number of gate lines

10, 100; Pixel

20, 200; Data driving circuit

30, 300; Scan drive circuit

The liquid crystal display panel according to the present invention for achieving the above object,

A pixel pattern comprising three patterns of R, G, and B, and the pixel pattern in which the pixels are arranged in N row directions and M column direction arrays (where M > N). And M gate lines for supplying current in the column direction, N x 3 data lines for supplying current in the R, G, and B patterns in the row direction, and connected to the gate lines And a scan driver for generating a signal, and a data driver for connecting with the data line and generating a data signal.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic diagram illustrating a pixel array structure of a liquid crystal display panel according to the present invention.

Referring to FIG. 2, a pixel array structure of a liquid crystal display panel according to an exemplary embodiment of the present invention includes M gate lines G1, G2..., GM formed continuously in a column direction, and a row. The data lines D1, D2 ....., DNx3 formed in the number of Nx3 consecutively in the direction are arranged in a matrix form, and the gate lines G1, G2 ..... And a scan driving circuit 300 for generating this gate signal is formed in the vicinity of GM, and a data driving circuit for generating a data signal in the vicinity of the data lines D1, D2, ..., DN. 200 is formed.

On the other hand, the pixel 100 is formed at the intersection of the data lines D1, D2 ....., DNx3 and the gate lines G1, G2 ..... GM, An image is displayed by switching the data signal of the data driving circuit 200 according to the gate signal of the scan driving circuit 300. The pixel 100 includes three dots in which R, G, and B patterns are vertically arranged, and the pixels 100 are arranged in N row directions and M column directions.

The pixel array structure of the present invention described above has the following arrangement changing structure, as compared with FIG. 1 illustrating the conventional arrangement structure.

First, unlike the conventional structure in which the gate lines in the row direction and the data lines in the column direction are arranged in a matrix form, the M gate lines G1, G2 ....., GM are arranged in columns. ), And N x 3 data lines D1, D2, ..., DN x 3 are formed continuously in the row direction.

As a result, a cross between the gate lines G ₁ , G ₂ ....., G _M and the data lines D ₁ , D ₂ .., D _{N × 3} in the entire display panel The number of times can be drastically reduced from (M x 3) pieces to (N x 3) pieces. For example, if the resolution is 640x480 pixels, the number of conventional (640x3) crosses can be reduced to (480x3) in the present invention.

Furthermore, as the data line in the column direction, which causes the conventional stitching spots, is changed to the gate line, the number of boundaries thereof is also reduced, thereby preventing stitching spots. The reason is that the difference between shots in the gate line does not significantly affect the charging.

Also, unlike the prior art, the positions of the driving circuits are interchanged with each other. That is, as shown in FIG. 2, the data driving circuit 200 is disposed by changing the position of the data driving circuit 200 to the position of the scan driving circuit 300.

As a result, in the conventional case, the data drive circuit requires (M × 3) wires, whereas in the present invention, the data drive circuit requires only (N × 3) wires, so that TCP (Tape Carrier Package) design is required. It is possible to greatly improve the degree of freedom, such as / layout / wiring.

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. Therefore, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the Claims, and is not restrict | limited by the specification body. Moreover, all the deformation | transformation and a change which belong to the equal range of a claim are within the scope of this invention.

As described above, according to the present invention, the pixel arrangement at the same resolution is changed from conventional {M × (3)} × N to M × {N × (3)}, and the positions of the scan driver and the data driver are changed. By arranging each other, the following effects are exhibited.

First, the cross between the gate lines G ₁ , G ₂ ....., G _M and the data lines D ₁ , D ₂ .., D _{N × 3} in the entire display panel. The number of times can be drastically reduced from (M x 3) pieces to (N x 3) pieces.

Second, in the conventional case, since the data driving circuit requires (M × 3) wirings, in the present invention, since the data driving circuit requires only (N × 3) wirings, TCP (Tape Carrier Package) design / The degree of freedom of arrangement and wiring can be greatly improved.

Third, as the data line in the column direction causing the stitching unevenness is changed to the gate line, the number of boundaries thereof is also reduced, thereby preventing the stitching unevenness.

Claims (2)

A pixel including three patterns of R, G, and B; A pixel pattern in which the pixels are arranged in N row directions and M column direction arrays (where M >N); M gate lines for supplying current in the column direction; N x 3 data lines for supplying current to the R, G and B patterns in the row direction; A scan driver connected to the gate line and configured to generate a gate signal; And A data driver connected to the data line and configured to generate a data signal, The pixel is a liquid crystal display panel, characterized in that the R, G, B pattern is arranged in a vertical direction. delete