KR100209605B1 - Lcd device - Google Patents

Abstract

The present invention is to provide a liquid crystal display device that can achieve a high quality image quality for each mode by implementing a stripe type or delta type pixel array with a simple circuit configuration. To this end, a liquid crystal display device having a plurality of data lines and a plurality of gate lines formed in a direction perpendicular to the data lines, comprising: a TFT disposed at each intersection point of the data line and the gate line, and connected to each of the TFTs; R, G, B pixel electrodes formed by dividing one pixel electrode, and a control switch for controlling the position of the data of the divided one pixel electrode is displayed.

Description

Liquid crystal display device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device suitable for realizing high image quality by different pixel arrays.

In general, the pixel is a short term for the pixel element, and may be formed of smaller dots in order to indicate color or gray level.

There are three types of pixel array methods, as follows: Mainly Delta array for A / V, Vertical stripe array for O / A, and Mosaic for applications such as measuring instruments Array lamps are used.

Hereinafter, a conventional liquid crystal display device will be described with reference to the accompanying drawings.

FIG. 1 shows a pixel array in the form of a vertical stripe according to the prior art, and is used in a liquid crystal display device for O / A.

As shown in FIG. 1, in the conventional vertical stripe-type pixel array, only one color of R, G, and B colors is implemented for each pixel.

In this way, R, G, and B colors are arranged one by one over each pixel of a line, and such an arrangement is vertically referred to as a vertical stripe pixel array.

In addition, the arrangement in which the above arrangement is horizontal is called a pixel array in the form of a horizontal stripe.

Images displayed on PCs and notebook PCs have a large number of still images rather than moving images, and a large number of linear data.

In order to express such linear data and still images well, that is, to improve image quality of PCs and notebook computers, stripe-type pixel arrays are suitable.

2 is used in the liquid crystal display device for A / V for displaying a TV video signal lamp.

As shown in FIG. 2, in the delta-type pixel array used for A / V, an R pixel is combined with the G and B pixels of the next line to form a delta-shaped array.

The TV video signal is a moving picture signal, which contains a large number of curved image data.

In order to display such curved image data, a delta-type pixel array capable of representing curves is suitable.

However, the conventional liquid crystal display device has the following problems.

First, when an image signal such as a moving image is displayed on a liquid crystal display device having an O / A pixel array, the image quality deteriorates because a curved image signal cannot be represented well.

Second, when problem data such as text is displayed on a liquid crystal display device having an A / V pixel array, it is difficult to express linear and still images, which causes deterioration of image quality.

The present invention has been made to solve the problems of the conventional liquid crystal display device, and an object of the present invention is to provide a liquid crystal display device that can obtain a high picture quality when displaying it regardless of moving pictures and characters.

1 is a liquid crystal display device showing a pixel array of a conventional stripe type.

2 is a liquid crystal display device showing a pixel array of a conventional delta type.

3 is a stripe and delta type liquid crystal display device according to the present invention.

4 is a liquid crystal display device showing a stripe type pixel array according to the present invention.

5 is a liquid crystal display device showing a delta type pixel array according to the present invention.

* Explanation of symbols for main parts of the drawings

S _O- S _N : Scanning line D _O- D _N : Data line

S _O '∼ S _N ': Auxiliary scanning line SW _O ∼ SW _N : Control switch

31: TFT

The liquid crystal display device of the present invention for achieving the above object is a liquid crystal display device having a plurality of data lines and a plurality of gate lines formed in a direction perpendicular to the data line, each intersection point of the data line and the gate line A TFT disposed in the TFT, R, G, and B pixel electrodes respectively connected to the TFTs, one pixel electrode being divided, and a control switch controlling a position at which data of the divided pixel electrode is displayed. .

Hereinafter, the liquid crystal display of the present invention will be described with reference to the accompanying drawings.

3 shows a pixel array according to the display device of the present invention.

Claim 3 of the liquid crystal display device also has a plurality of data lines formed in one direction (D _O ~D _N), a plurality of scanning that is formed in a direction perpendicular to the data lines line of the present invention, as shown in (S _O ~S _N), the data lines and a plurality of TFT (31 formed at the intersection of the gate line), connected to each of the plurality of TFT pixels to store data, (where store G signal of the pixel G pixel is divided into two)

And a control switch for controlling the display position of the two divided pixels.

Here, G pixels are divided into two, but R pixels or B pixels may be divided.

The scanning line receives a gate signal as a gate line and scans pixels of the corresponding line.

After the application of the scanning line (S _O ~S _N) high (High) signal as shown in Figure 3 and the TFT connected to each scanning line (S _O ~S _N) it is turned on.

Accordingly, each pixel connected to the turned-on TFT stores an image signal applied from the corresponding data line.

Here, the first G pixel group G _O , G ₂ , G ₄ ... Of the G pixels divided into two pixels is connected to the corresponding auxiliary scanning line (eg, S _O to S _N ).

The second G pixel group G ₁ , G ₃ , G ₅ ... Of the divided G pixels are connected to corresponding auxiliary scanning lines (eg, S _O 'to S _N ').

In addition, the auxiliary scanning lines are connected to corresponding control switches SW _{O to} SW _N , respectively.

In this case, when the auxiliary scanning line is implemented in two or more, the number of divided pixels may be two or more.

Operation of the liquid crystal display device of the present invention configured as described above is as follows.

First, as shown in FIG. 3, when a high signal is applied to the scanning lines S _{O to} S _N and the control switches SW _{O to} SW _N are switched to terminal a by the control signal, the scanning line S is applied. the _O ~S _N) and the TFT connected to the sub-scanning line (S _O ~S _N) are turned on.

In this case, the image signal of the data line D _O is charged to the R _O pixel connected to the scanning line S _O , and the image signal of the data line D ₂ is charged to the B _O pixel.

The divided pixel (that is, G _O G ₁ ) is charged with the image signal of the data line D ₁ .

At this time, the image signal of the data line D ₁ is simultaneously stored in the G _O G ₁ pixel, resulting in one pixel.

Similarly, an image signal of the corresponding data line is also charged in the pixels connected to the next scanning line S ₁ (ie, R ₁ , G ₂ , G ₃ , and B ₁ ).

As such, when the control switches SW _O to SW _N are respectively switched to terminals a, the pixel array forms a stripe shape, which is illustrated in FIG.

As in FIG. 4, the stripe type pixel array is suitable for displaying still images, characters, and the like as described above.

On the other hand, in order to display moving images such as moving images, a delta type pixel array is required.

For the delta type pixel array, control switch SW _{O to} SW _N can be switched to b terminal.

In other words, the control switches SW _{O to} SW _N connected to the respective auxiliary scanning lines S _O 'to S _N ' may be switched to the b terminal.

That is, the auxiliary scanning line (S _O ') connected to the scanning line (S ₁₎ and the secondary scanning line (S ₁ the next, a connection) in the scanning line (S _2).

As such, the second G pixel group G ₁ , G ₃ , G ₅ ... Are sequentially connected to the scanning line, thereby obtaining a delta type pixel array.

For example, when a high signal is applied to the scanning line S ₁ , the TFT connected thereto is turned on.

Each pixel connected to the turned-on TFT (ie, R ₁ , G ₁ , G ₂ , B ₁ ) stores an image signal of a corresponding data line.

Here, the video signals of the data lines D are simultaneously stored in the G and G pixels.

Thus, a pixel array of delta type is formed.

The delta type pixel array is shown in FIG.

In this way, the pixel array can be switched to the stripe type or the delta type depending on whether the control switch is switched to the a terminal or the b terminal.

As a result, when the control switch is switched to the upper pixel line, a stripe type pixel array is formed. When the control switch is switched to the lower pixel line, a delta type pixel array is formed.

At this time, the control signal for switching the control switch includes a control signal such as a screen mode (Mode) conversion signal if it can correspond to the detection state of the video signal from the data input to the liquid crystal display device.

As described above, the liquid crystal display device of the present invention has the following effects.

With a simple circuit configuration, stripe-type or delta-type pixel arrays can be implemented, so that high-quality image quality for each mode can be obtained for displaying moving images and still images or characters.

Claims (9)

A liquid crystal display device having a plurality of data lines and a plurality of gate lines formed in a direction perpendicular to the data lines, the liquid crystal display device comprising: a TFT disposed at each intersection point of the data line and the gate line, the pixel being connected to the TFT, and one pixel among them And R, G, B pixel electrodes formed by dividing electrodes, and a control switch controlling a position at which data of the divided one pixel electrode is displayed. The liquid crystal display device according to claim 1, wherein the divided pixel electrode is any one of R, G, and B. 2. The liquid crystal display device according to claim 1, wherein the divided pixel electrodes are identical over all pixel areas. The liquid crystal display of claim 1, wherein the control switch determines whether to include the divided pixels in an upper pixel line or a lower pixel line. The liquid crystal display device according to claim 1, wherein the number of one pixel electrodes is divided into two or more. The liquid crystal display device according to claim 1, wherein the pixel array is formed in a stripe type or a delta type according to the control switch. The liquid crystal display device according to claim 1, wherein the R, G, and B element electrodes are divided into upper and lower parts. 7. The liquid crystal display device according to claim 6, wherein a stripe type pixel array is formed when the divided pixels are included in an upper pixel line by a control switch. 7. The liquid crystal display device according to claim 6, wherein a delta type pixel array is formed when the divided pixels are included in a lower pixel line by a control switch.