CN203038924U

CN203038924U - Pixel structure of color display

Info

Publication number: CN203038924U
Application number: CN 201220741612
Authority: CN
Inventors: 高卓; 申智渊
Original assignee: TCL Corp
Current assignee: TCL Corp
Priority date: 2012-12-28
Filing date: 2012-12-28
Publication date: 2013-07-03
Anticipated expiration: 2022-12-28

Abstract

The utility model relates to a pixel structure of a color display and discloses the pixel structure of the color display. The structure comprises a plurality of pixel groups which are arranged repeatedly. Each pixel group comprises two pixels which are a first pixel and a second pixel. Each pixel comprises a rectangular red sub-pixel, a rectangular green sub-pixel and a rectangular blue sub-pixel. In each pixel, the red sub-pixel and the blue sub-pixel are located on the same side, and the green sub-pixel is located on the other side. Areas of the red sub-pixel, the blue sub-pixel and the green sub-pixel are the same. Positions of the red sub-pixel and the blue sub-pixel of the first pixel are opposite to the positions of the red sub-pixel and the blue sub-pixel of the second pixel. In the pixel structure provided in the utility model, a sawtooth phenomenon is weakened; color distribution is uniform and a resolution ratio is high.

Description

The dot structure of color monitor

Technical field

The utility model relates to colored technique for displaying field, relates in particular to the dot structure of color monitor.

Background technology

See also Fig. 1, Fig. 1 is a kind of dot structure 1 of existing color monitor ".Described dot structure 1 " the red, green, blue sub-pixel 101 that comprises a plurality of repeated arrangement ".Above-mentioned red, green, blue sub-pixel 101 " continuous in the vertical direction; but in the horizontal direction; the sub-pixel 101 of same color " between the sub-pixel 101 of two different colours " at interval; finds by the fourier spectrum analysis; above-mentioned dot structure 1 " can the generation spectral aliasing at the trunnion axis of frequency spectrum, reduce resolution, influence the display effect of color monitor.

See also Fig. 2, Fig. 2 is the dot structure 2 that a kind of existing P enTile arranges ".Described dot structure 2 " comprise two kinds of pixels, a kind of is the red green pixel 202 that is made of red pieces pixel and green sub-pixel ", another kind are the bluish-green pixels 203 that blue sub-pixel and green sub-pixel constitute ".The area of two sub-pixels is different in each pixel.The dot structure 2 of this arrangement architecture " by sharing red pieces pixel or the blue sub-pixel of neighbor, can improve the blue subpixels life-span.But because each pixel only is made of two sub-pixels, therefore an independent pixel can't display white, needs to share the sub-pixel of neighbor.And the area difference of two sub-pixels in each pixel, causing the COLOR COMPOSITION THROUGH DISTRIBUTION inequality, crenellated phenomena is obvious.In addition, above-mentioned dot structure 2 " pixel only comprise two sub-pixels, lacked 1/3rd sub-pixel quantity than general dot structure, resolution is lower.

The utility model content

The purpose of this utility model is to provide the dot structure of color monitor, is intended to solve low, the not enough problem that consequently influences the color monitor display effect of text details performance of dot structure resolution of color monitor of the prior art.

The utility model is to realize like this, a kind of dot structure of color monitor, it comprises the pixel groups of a plurality of repeated arrangement, each described pixel groups comprises two pixels, be respectively first pixel and second pixel, each described pixel comprises a rectangular-shaped red pieces pixel, rectangular-shaped green sub-pixel and a rectangular-shaped blue sub-pixel; In each described pixel, red pieces pixel and blue sub-pixel are positioned at the same side, and green sub-pixel is positioned at opposite side, and the area of red pieces pixel, blue sub-pixel and green sub-pixel all equates; The red pieces pixel of the position of the red pieces pixel of described first pixel, blue sub-pixel and second pixel, the position opposite of blue sub-pixel.

Further, the length of described red pieces pixel, blue sub-pixel and green sub-pixel is than being 1:1:1.5, and width is than being 1.5:1.5:1.

Further, in each described pixel, described red pieces pixel and described blue sub-pixel are placed side by side in same row up and down, and are horizontal positioned respectively, and described green sub-pixel is vertically placed on another row; In described first pixel, described blue sub-pixel is positioned at described red pieces pixel upside, and in described second pixel, described blue sub-pixel is positioned at described red pieces pixel downside.

Further, described dot structure also comprises many group scan lines and multi-group data line, is respectively equipped with thin-film transistor in each described sub-pixel; Each is organized described data wire and comprises that one provides second data wire and of data-signal to provide the 3rd data wire of data-signal to green sub-pixel via the thin-film transistor of green sub-pixel via the thin-film transistor of blue sub-pixel to blue sub-pixel for first data wire that the red pieces pixel provides data-signal, via the thin-film transistor of red pieces pixel; Each is organized described scan line and comprises that one provides second scan line of sweep signal for simultaneously the sub-pixel of each described pixel upside of corresponding row and first scan line and that green sub-pixel provides sweep signal simultaneously to the sub-pixel of each described pixel downside of corresponding row.

Further, described first scan line and second scan line share same road sweep signal.

Perhaps, in each described pixel, described red pieces pixel and the described blue sub-pixel left and right sides are placed side by side in same delegation, and are vertical placement respectively, and described green sub-pixel level is positioned over another row; In described first pixel, described blue sub-pixel is positioned at described red pieces pixel right side, and in described second pixel, described blue sub-pixel is positioned at described red pieces pixel left side.

Further, described dot structure also comprises multi-strip scanning line and multi-group data line, is respectively equipped with thin-film transistor in each described sub-pixel; Described scan line provides sweep signal for simultaneously three sub-pixels of each pixel of corresponding row, and each is organized described data wire and comprises that one provides first data wire of data-signal, a sub-pixel to same row pixel right side that second data wire of data-signal and the 3rd data wire that data-signal is provided to green sub-pixel are provided for the sub-pixel in same row pixel left side.

Compared with prior art, in the dot structure that the utility model provides, each pixel is made of three sub-pixels, and independent pixel just can display white, does not need to share the sub-pixel that closes on, and crenellated phenomena weakens.And the area of three sub-pixels equates that COLOR COMPOSITION THROUGH DISTRIBUTION is even.In addition, sub-pixel quantity does not reduce, and resolution is higher.

Description of drawings

Fig. 1 is the schematic diagram one of the dot structure of color monitor of the prior art;

Fig. 2 is the schematic diagram two of the dot structure of color monitor of the prior art;

Fig. 3 is the schematic diagram of the dot structure of the color monitor that provides of the utility model embodiment one;

Fig. 4 is the schematic diagram after the dot structure wiring of the color monitor that provides of the utility model embodiment one;

Fig. 5 is the schematic diagram of the dot structure of the color monitor that provides of the utility model embodiment two;

Fig. 6 is the schematic diagram after the dot structure wiring of the color monitor that provides of the utility model embodiment two.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.

Below in conjunction with concrete accompanying drawing realization of the present utility model is described in detail.

Embodiment one

Shown in Fig. 3～4, the dot structure 1 of the color monitor that the utility model embodiment one provides, it comprises the pixel groups of a plurality of repeated arrangement, each pixel groups comprises first pixel 11 and second pixel 12, each pixel comprises red pieces pixel 101, blue sub-pixel 102 and green sub-pixel 103, and red pieces pixel 101, blue sub-pixel 102 and green sub-pixel 103 be rectangular shape respectively.

In above-mentioned each pixel, red pieces pixel 101 and blue sub-pixel are placed side by side in same row about in the of 102, and are horizontal positioned respectively, and green sub-pixel 103 is vertically placed on another row, and red pieces pixel 101, blue sub-pixel 102 and green sub-pixel 103 threes' area equates.In described first pixel 11, described blue sub-pixel 102 is positioned at described red pieces pixel 101 upsides, and in described second pixel 12, described blue sub-pixel 102 is positioned at described red pieces pixel 101 downsides.

Compared to prior art, in the above-mentioned dot structure 1, because each pixel is made of three sub-pixels of red, green and blue, like this, independent pixel just can display white, does not need the shared sub-pixel that closes on, and makes crenellated phenomena weaken.And the area of three sub-pixels equates that color shows and be evenly distributed that in addition, sub-pixel quantity does not reduce, and resolution is higher.

In the present embodiment, red pieces pixel 101 and blue sub-pixel 102 are respectively the long 2a that is, width is the rectangular configuration of 1.5a, and 103 of green sub-pixels are the long 3a that is, wide is the rectangular configuration of a, and a is random length.Just, the length of red pieces pixel 101, blue sub-pixel 102 and green sub-pixel 103 is than being 1:1:1.5, and width is than being 1.5:1.5:1.Under this structure, centered by any red pieces pixel 101, the approximate regular hexagon that forms of the line of six the red pieces pixels 101 adjacent with it.Described hexagonal four interior angles are 116.57 °, and two other interior angle is 126.86 °, and four edges is long to be 3.354a, and the two other length of side is 3a.Thisly level off to the dot structure 1 that regular hexagon arranges, make sub-pixel sampling be tending towards isotropic, COLOR COMPOSITION THROUGH DISTRIBUTION is more even.In addition, from the spectrum structure analysis, be tending towards isotropic arrangement architecture like this and be conducive to reduce color information and the aliasing of monochrome information on frequency spectrum, reduced the sample rate of tilted direction, and improved sample rate on level, the vertical direction, because human eye is more responsive in level and vertical direction, therefore further improved resolution to a certain extent.

See also 4, Fig. 4 and be the schematic diagram after dot structure 1 wiring of color monitor of the utility model embodiment one.This dot structure 1 also comprises many group scan lines and multi-group data line.Be respectively equipped with thin-film transistor 15(TFT in each sub-pixel).Every group of data wire comprises one first data wire 141, one second data wire 142 and one the 3rd data wire 143, and wherein, first data wire 141 provides data-signal for red pieces pixel 101 via the thin-film transistor 15 of red pieces pixel 101; Second data wire 142 provides data-signal for blue sub-pixel 102 via the thin-film transistor 15 of blue sub-pixel 102; The 3rd data wire 143 provides data-signal for green sub-pixel 103 via the thin-film transistor 15 of green sub-pixel 103.Every group of scan line comprises one first scan line 131 and one second scan line 132, wherein, first scan line 131 provides sweep signal for simultaneously sub-pixel and the green sub-pixel 103 of each pixel upside of corresponding row, make thin-film transistor 15 conductings of corresponding sub-pixel, the sub-pixel of each pixel upside can be red pieces pixel 101 or blue sub-pixel 102; Second scan line 132 provides sweep signal for the sub-pixel of each pixel downside of corresponding row, makes thin-film transistor 15 conductings of corresponding sub-pixel, and the sub-pixel of each pixel downside can be red pieces pixel 101 or blue sub-pixel 102.First scan line 131 and second scan line 132 share same road sweep signal.

Embodiment two

Shown in Fig. 5～6, the dot structure 2 of the color monitor that provides of the utility model embodiment two, it comprises the pixel groups of a plurality of repeated arrangement, each pixel groups comprises first pixel 21 and second pixel 22, each pixel comprises red pieces pixel 201, blue sub-pixel 202 and green sub-pixel 203, and red pieces pixel 201, blue sub-pixel 202 and green sub-pixel 203 be rectangular shape respectively.

In above-mentioned each pixel, red pieces pixel 201 and blue sub-pixel 202 left and right sides are placed side by side in same delegation, and are vertical placement respectively, and green sub-pixel 203 is placed horizontally at another row, and red pieces pixel 201, blue sub-pixel 202 and green sub-pixel 203 threes' area equates.In described first pixel 21, described blue sub-pixel 202 is positioned at described red pieces pixel 201 right sides, and in described second pixel 22, described blue sub-pixel 202 is positioned at described red pieces pixel 201 left sides.

Compared to prior art, in the above-mentioned dot structure 2, because each pixel is made of red pieces pixel 201,

green sub-pixel

203 and 202 3 sub-pixels of blue sub-pixel, like this, independent pixel just can display white, does not need to share the sub-pixel that closes on, and makes crenellated phenomena weaken.And the area of three sub-pixels equates that color shows and be evenly distributed that in addition, sub-pixel quantity does not reduce, and resolution is higher.

In the present embodiment, red pieces pixel 201 and blue sub-pixel 202 are respectively the long 2a that is, width is the rectangular configuration of 1.5a, and 203 of green sub-pixels are the long 3a that is, wide is the rectangular configuration of a, and a is random length.Just, the length of red pieces pixel 201, blue sub-pixel 202 and green sub-pixel 203 is than being 1:1:1.5, and width is than being 1.5:1.5:1.Under above-mentioned structure, centered by any red pieces pixel 201, the approximate regular hexagon that forms of the line of six the red pieces pixels 201 adjacent with it, these hexagonal four interior angles are 116.57 °, two other interior angle is 126.86 °, and four edges is long to be 3.354a, and the two other length of side is 3a.

Thisly level off to the dot structure 2 that regular hexagon arranges, make sub-pixel sampling be tending towards isotropic, COLOR COMPOSITION THROUGH DISTRIBUTION is more even.In addition, from the spectrum structure analysis, be tending towards isotropic arrangement architecture like this and be conducive to reduce color information and the aliasing of monochrome information on frequency spectrum, reduced the sample rate of tilted direction, and improved sample rate on level, the vertical direction, because human eye is more responsive in level and vertical direction, therefore further improved resolution to a certain extent.

See also Fig. 6, Fig. 6 is the schematic diagram after the dot structure 2 of the color monitor of present embodiment two connects up.The dot structure 2 of present embodiment comprises multi-strip scanning line and multi-group data line.Be respectively equipped with thin-film transistor 25(TFT in each sub-pixel).Scan line 23 provides sweep signal for simultaneously three sub-pixels of each pixel of corresponding row, makes thin-film transistor 25 conductings of corresponding sub-pixel.Every group of data wire comprises that one first data wire 241, one second data wire 242 and one the 3rd data wire, 243, the first data wires 242 provide data-signal to the sub-pixel in same row pixel left side, and the sub-pixel in left side is red pieces pixel 201 or blue sub-pixel 202; Second data wire 242 provides data-signal for the sub-pixel on the right side of same row pixel, and the sub-pixel on right side is red pieces pixel 201 or blue sub-pixel 202; The 3rd data wire 243 provides data-signal for green sub-pixel 203.

Comprehensive above-mentioned two kinds of embodiment, the dot structure of color monitor of the present utility model comprises the pixel groups of a plurality of repeated arrangement, each pixel groups comprises two pixels, be respectively first pixel and second pixel, each pixel comprises a rectangular-shaped red pieces pixel, rectangular-shaped green sub-pixel and a rectangular-shaped blue sub-pixel; In each pixel, red pieces pixel and blue sub-pixel are positioned at the same side, and green sub-pixel is positioned at opposite side, and the area of red pieces pixel, blue sub-pixel and green sub-pixel all equates; The red pieces pixel of the position of the red pieces pixel of described first pixel, blue sub-pixel and second pixel, the position opposite of blue sub-pixel.

The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection range of the present utility model.

Claims

1. the dot structure of a color monitor, it comprises the pixel groups of a plurality of repeated arrangement, it is characterized in that, each described pixel groups comprises two pixels, be respectively first pixel and second pixel, each described pixel comprises a rectangular-shaped red pieces pixel, rectangular-shaped green sub-pixel and a rectangular-shaped blue sub-pixel; In each described pixel, red pieces pixel and blue sub-pixel are positioned at the same side, and green sub-pixel is positioned at opposite side, and the area of red pieces pixel, blue sub-pixel and green sub-pixel all equates; The red pieces pixel of the position of the red pieces pixel of described first pixel, blue sub-pixel and second pixel, the position opposite of blue sub-pixel.

2. the dot structure of color monitor as claimed in claim 1 is characterized in that, the length of described red pieces pixel, blue sub-pixel and green sub-pixel is than being 1:1:1.5, and width is than being 1.5:1.5:1.

3. the dot structure of color monitor as claimed in claim 1 or 2, it is characterized in that in each described pixel, described red pieces pixel and described blue sub-pixel are placed side by side in same row up and down, and be horizontal positioned respectively, described green sub-pixel is vertically placed on another row; In described first pixel, described blue sub-pixel is positioned at described red pieces pixel upside, and in described second pixel, described blue sub-pixel is positioned at described red pieces pixel downside.

4. the dot structure of color monitor as claimed in claim 3 is characterized in that, described dot structure also comprises many group scan lines and multi-group data line, is respectively equipped with thin-film transistor in each described sub-pixel; Each is organized described data wire and comprises that one provides second data wire and of data-signal to provide the 3rd data wire of data-signal to green sub-pixel via the thin-film transistor of green sub-pixel via the thin-film transistor of blue sub-pixel to blue sub-pixel for first data wire that the red pieces pixel provides data-signal, via the thin-film transistor of red pieces pixel; Each is organized described scan line and comprises that one provides second scan line of sweep signal for simultaneously the sub-pixel of each described pixel upside of corresponding row and first scan line and that green sub-pixel provides sweep signal simultaneously to the sub-pixel of each described pixel downside of corresponding row.

5. the dot structure of color monitor as claimed in claim 4 is characterized in that, described first scan line and second scan line share same road sweep signal.

6. the dot structure of color monitor as claimed in claim 1 or 2, it is characterized in that in each described pixel, described red pieces pixel and the described blue sub-pixel left and right sides are placed side by side in same delegation, and be vertical placement respectively, described green sub-pixel level is positioned over another row; In described first pixel, described blue sub-pixel is positioned at described red pieces pixel right side, and in described second pixel, described blue sub-pixel is positioned at described red pieces pixel left side.

7. the dot structure of color monitor as claimed in claim 6 is characterized in that, described dot structure also comprises multi-strip scanning line and multi-group data line, is respectively equipped with thin-film transistor in each described sub-pixel; Described scan line provides sweep signal for simultaneously three sub-pixels of each pixel of corresponding row, and each is organized described data wire and comprises that one provides first data wire of data-signal, a sub-pixel to same row pixel right side that second data wire of data-signal and the 3rd data wire that data-signal is provided to green sub-pixel are provided for the sub-pixel in same row pixel left side.