KR101266076B1 - IPS mode display panel and apparatus thereof - Google Patents

Abstract

The present invention relates to a display device, and more particularly, to a transverse electric field type liquid crystal display device having a structure capable of reducing data drive ICs and gate drive ICs.

According to the present invention, a plurality of liquid crystal pixels repeatedly formed in the order of red, green, blue in the first direction; A plurality of data lines formed in parallel with the first direction and to which data to be input to the plurality of liquid crystal pixels is applied; A horizontal line type liquid crystal display panel including a plurality of gate lines formed in a second direction crossing the plurality of data lines and configured to receive a scan signal for inputting the data into the liquid crystal pixels. It reduces the manufacturing cost by reducing the data driver IC due to the reduction and the gate driver IC due to the board mounting of the gate driving circuit.

Description

Transverse electric field type liquid crystal display panel and its liquid crystal display device

1 is a view showing a conventional transverse electric field type liquid crystal display device

2 is a view of a first embodiment of a transverse electric field type liquid crystal display device according to the present invention;

3 is a view of a second embodiment of a transverse electric field type liquid crystal display device according to the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

100: substrate 110: TCP

120: data driver 130, 140: gate driver

A / A: Active Area

The present invention relates to a display device, and more particularly, to a transverse electric field type liquid crystal display device having a structure capable of reducing a data drive IC and a gate drive IC.

In general, a TN (Twist Nematic) mode liquid crystal display has a structure in which a common electrode and a pixel electrode are separated, whereas an IPS (In-Plane Switching) mode liquid crystal display has a narrow viewing angle, which is a disadvantage of the TN mode liquid crystal display. It is a liquid crystal display device having a wide viewing angle developed to solve the problem. In the IPS mode liquid crystal display device, the common electrode and the pixel electrode are formed together on the same substrate, and the liquid crystals are driven by the horizontal electric field generated between the electrodes, thereby having a larger viewing angle than that of the TN mode liquid crystal display device. .

FIG. 1 is a diagram illustrating a conventional transverse electric field type liquid crystal display device, wherein a plurality of liquid crystal pixels are formed in a predetermined area on a substrate 10 to show an active area (hereinafter referred to as A / A). And a plurality of data drivers 30 for outputting image data to the active area A / A and a plurality of gates for outputting scan signals for controlling data input to the plurality of liquid crystal pixels. The driver 40 is mounted in a tape carrier package (TCP) 20 in the form of an integrated circuit (IC) chip and connected to the substrate 10. A plurality of conductive lines are formed in the TCP 20 to enable an electrical circuit connection between each of the drivers 30 and 40 and the active area A / A.

In this case, the data driver 30 is typically positioned above the substrate 10, and the gate driver 40 is configured to be positioned at the side end of the substrate 10, as shown in an enlarged view. In the drawing, data lines Dm-1, Dm, and Dm + 1 are formed in the vertical direction, and gate lines Gn are formed in the horizontal direction so as to intersect the data lines.

In addition, the liquid crystal pixels for displaying the color corresponding to the data are horizontally arranged in order of red (R), green (G), and blue (B) in parallel with the gate line (Gn).

As the liquid crystal pixels are arranged horizontally with the gate line Gn forming direction as described above, the pixel electrode P and the common electrode C, which are formed in each liquid crystal pixel to form a transverse electric field, are connected to the data line Dm. -1, Dm, Dm + 1) are formed in a direction parallel to or within 45 degrees, and the pixel electrode P and the common electrode are formed by the pixel electrode P and the common electrode C. FIG. Perform rubbing in the direction of data line formation, as shown by the arrow (if necessary, in the opposite direction of the arrow) to indicate a normally black mode that is black when no electric field is applied to C). To align the liquid crystal.

Compared with the transverse electric field type liquid crystal display device according to the related art described above, the present invention has a main object to provide a transverse electric field type liquid crystal display device which can reduce the manufacturing cost while deriving the same effect. It is an object of the present invention to provide a transverse electric field type liquid crystal display device which can reduce manufacturing cost by reducing the number of drive ICs.

In order to achieve the above object, the present invention, a plurality of liquid crystal pixels formed by repeating in the order of red, green, blue color in the first direction; A plurality of data lines formed in parallel with the first direction and to which data to be input to the plurality of liquid crystal pixels is applied; A plurality of gate lines formed in a second direction crossing the plurality of data lines and to which scan signals for inputting the data to the liquid crystal pixels are applied; A transverse electric field type liquid crystal display provided in the liquid crystal pixel and having an angle within 45 degrees to the gate line and spaced apart from each other, each of which includes a pixel electrode and a common electrode that are bent with respect to a central portion of each liquid crystal pixel. Provide a panel.

Each liquid crystal pixel is characterized in that the liquid crystal is aligned in a direction parallel to the plurality of gate line directions.

The present invention also provides a plurality of liquid crystal pixels repeatedly formed in the order of red, green, and blue colors in a first direction, and a plurality of data to which data to be input to the plurality of liquid crystal pixels is formed in parallel with the first direction. Lines and a plurality of gate lines formed in a second direction crossing the plurality of data lines and to which scan signals for inputting the data to the liquid crystal pixels are applied; A liquid crystal display panel including a pixel electrode and a common electrode each having an angle within degrees and spaced apart from each other, each of which is bent with respect to a central portion of each liquid crystal pixel; One or more data drivers to output data to the plurality of data lines; Provided is a transverse electric field type liquid crystal display including at least one gate driver to output a scan signal to the plurality of gate lines.

The at least one data driver and the at least one gate driver are each mounted on a tape carrier package (TCP) in the form of an IC chip and connected to the liquid crystal display panel.

The at least one gate driver is configured on the liquid crystal display panel.

Each liquid crystal pixel is characterized in that the liquid crystal is aligned in a direction parallel to the plurality of gate line directions.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a diagram showing a first embodiment of a transverse electric field type liquid crystal display device according to the present invention, in which part of an active area A / A, which is an image display area, is enlarged.

The concept of the present invention deviates from the conventional method of arranging a plurality of red, green, and blue pixels sequentially in parallel with the gate line, and sequentially arranges a plurality of red, green, and blue pixels in a direction parallel to the data line. According to the characteristics of the driver IC, the reduction effect is derived.

To this end, in the present invention, a plurality of liquid crystal pixels are formed in a predetermined area on a substrate 100 such as glass to form an active area A / A, which is an area in which an image is displayed, and the active area A / A. A plurality of data drivers 120 for outputting image data and applying data to the plurality of liquid crystal pixels, and a plurality of gate drivers for outputting scan signals for controlling data input to the plurality of liquid crystal pixels 130 is mounted on the TCP (110) in the form of an IC chip and is connected to the substrate (100). Of course, a plurality of conductive lines are formed in the TCP 110 to enable an electrical circuit connection between each of the drivers 120 and 130 and the active area A / A.

In this case, the data driver 120 is positioned above the substrate 100, and the gate driver 130 is configured to be positioned at the side end of the substrate 100. As shown in an enlarged pixel structure, the data driver 120 is vertical. The data line Dm is formed in the direction, and the gate lines Gn-1, Gn, and Gn + 1 are formed in the horizontal direction so as to intersect the data line.

In this case, the liquid crystal pixels for displaying the color corresponding to the data are repeated in the order of red, green, and blue colors and are arranged vertically along the data line Dm.

As described above, when the red, green, and blue liquid crystal arrays are arranged in the vertical direction, the number of data lines is reduced to about one third as compared to the existing ones, thereby reducing the data driver 120. It can be effective.

Also, when the liquid crystal pixels are repeatedly arranged horizontally with the data line Gn formation direction in the order of red, green, and blue colors as described above, the pixel electrodes P formed in the respective liquid crystal pixels to form a transverse electric field; The common electrode C is formed in a direction parallel to or within 45 degrees of the gate lines Gn-1, Gn, and Gn + 1, and formed in the pixel electrode P and the common electrode C. In order to display the normally black mode, which is displayed in black when no electric field is applied to the pixel electrode P and the common electrode C, as shown by the arrow (as necessary) Rubbing is performed in the direction of forming the gate line to align the liquid crystal.

FIG. 3 is a view showing a second embodiment of a transverse electric field type liquid crystal display device according to the present invention, in which a portion of the active area A / A, which is an image display area, is enlarged, and is described with reference to FIG. The description overlapping with the first embodiment of the invention is omitted.

Briefly describing the features of the second embodiment of the present invention, a gate driving circuit for outputting a scan signal for inputting data into a pixel, that is, a gate driver 140, is placed inside the substrate 100.

As described above, the method for configuring the panel driving driver circuit in the display panel, in particular, the gate in panel (GIP) method of the gate driver 140 is effective in miniaturizing the device and reducing the manufacturing cost.

Therefore, according to the second embodiment of the present invention described above, since the number of data lines is 1/3, compared with the related art, the number of data drivers 120 for driving the same can be reduced, and the gate driver 140 is a substrate ( Since the number of gate drivers 130 may be reduced, the number of gate drivers 130 may be reduced.

In the transverse electric field type liquid crystal display device according to the present invention as described above, the red, green, and blue pixels are changed from a conventional horizontal sequential array to a vertical sequential array, and the gate driving circuit is mounted on a substrate to form data. The manufacturing cost can be reduced by reducing the number of driver ICs and gate driver ICs.

Claims (6)

A plurality of liquid crystal pixels repeatedly formed in the order of red, green, and blue in the first direction; A plurality of data lines formed in parallel with the first direction and to which data to be input to the plurality of liquid crystal pixels is applied; A plurality of gate lines formed in a second direction crossing the plurality of data lines and to which scan signals for inputting the data to the liquid crystal pixels are applied; A pixel electrode and a common electrode provided in the liquid crystal pixel and having an angle within 45 degrees to the gate line and spaced apart from each other, each of which is bent with respect to a central portion of each liquid crystal pixel. Transverse electric field type liquid crystal display panel comprising a. The method according to claim 1, Each liquid crystal pixel is a liquid crystal display panel characterized in that the liquid crystal is aligned in a direction parallel to the plurality of gate line direction A plurality of liquid crystal pixels repeatedly formed in red, green, and blue colors in a first direction, a plurality of data lines formed in parallel with the first direction and to which data to be input to the plurality of liquid crystal pixels is applied; A plurality of gate lines formed in a second direction intersecting the data lines of the plurality of gate lines and receiving scan signals for inputting the data into the liquid crystal pixels; A liquid crystal display panel including a pixel electrode and a common electrode each of which is formed to be spaced apart from each other, each of which is bent with respect to a central portion of each of the liquid crystal pixels; One or more data drivers to output data to the plurality of data lines; At least one gate driver to output a scan signal to the plurality of gate lines Transverse electric field type liquid crystal display device comprising a. The method according to claim 3, The at least one data driver and the at least one gate driver are each mounted in a tape carrier package (TCP) in the form of an IC chip and connected to the liquid crystal display panel. The method according to claim 3, The at least one gate driver is configured on the liquid crystal display panel, the transverse electric field type liquid crystal display device The method according to claim 3, Each liquid crystal pixel is a liquid crystal display device characterized in that the liquid crystal is aligned in a direction parallel to the plurality of gate line direction

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