CN105866992A

CN105866992A - Display panel

Info

Publication number: CN105866992A
Application number: CN201510025529.3A
Authority: CN
Inventors: 杨凯闵; 杨学炎; 白凤霆
Original assignee: Novatek Microelectronics Corp
Current assignee: Novatek Microelectronics Corp
Priority date: 2015-01-19
Filing date: 2015-01-19
Publication date: 2016-08-17
Anticipated expiration: 2035-01-19
Also published as: CN105866992B

Abstract

Provided is a display panel, comprising a plurality of sub-pixel groups which are arranged repeatedly to form a pixel array. Each sub-pixel group comprises a plurality of first pixel units, a plurality of second pixel units, and a plurality of third pixel units. Each first pixel unit comprises first color sub-pixels and second color sub-pixels. Each second pixel unit comprises second color sub-pixels and third color sub-pixels. Each third pixel unit comprises first color sub-pixels and third color sub-pixels. The first color sub-pixels, the second color sub-pixels, and the third color sub-pixels are sub-pixels in three different colors. At least a part of the first pixel units are arranged on a first direction, and at least a part of the second pixel units are arranged on the first direction, and the first direction is inclined relative to the column direction of the pixel array.

Description

Display floater

Technical field

The present invention relates to a kind of Display Technique, and particularly to a kind of display floater.

Background technology

Along with the progress of display science and technology, consumer is more and more higher to the requirement of display device, therefore, and display The development of panel is increasingly towards the directions such as frivolous, high image quality, low power consumption and strides forward.Especially for display dress For putting, low power consumption and high brightness emphasis the most of concern.Therefore, it is developed in recent years improve RGBG (RGB the is green) display floater of brightness.RGBG display floater have red, green, blue, green three Planting the sub-pixel of color, it is to promote display floater brightness and by using the small screen by green pixel Realizing high-res, it uses the mankind to be not easy to identify blue and be easier to identify green characteristic, presses Red, green and blue subpixels is arranged according to 1:2:1 (R:G:B) ratio.But, this kind of RGBG shows The size of the sub-pixel in panel is inconsistent, and (such as, red and green sub-pixels size is green sub-pixels The twice of size), thus result in the electrical characteristics of each sub-pixel and can differ and penetrance reduces, and The problems such as more difficult manufacture.

On the other hand, in the display floater with high image quality, when its resolution (that is, picture of each inch Element amount (pixel per inch, ppi)) it is more than maximum pixel density (that is, the view that the naked eyes of the mankind can be differentiated Film resolution, such as, 300ppi) time, the brightness vision center of each two pixel in display floater, will Cannot be judged by human eye.In other words, each adjacent red, green, the basket pixel in display floater it Between spacing too small time, different color light produced by adjacent red, green, basket pixel can produce colour mixture Problem.

Particularly, while improving the resolution of display floater, its penetrance can relatively reduce, and And cause the luminance-reduction of display floater.Accordingly, how to develop and there is high penetration, low power consumption with high The display floater of brightness and maintain its color representation, is the targets endeavoured of those skilled in the art.

Summary of the invention

The present invention provides a kind of display floater, and it has good pixel penetrance, definition and low power consumption.

The present invention proposes a kind of display floater, comprising: multiple sub-pixel group, repeated arrangement is to form one Pel array, each sub-pixel group includes multiple first pixel cell, multiple second pixel cell and multiple 3rd pixel cell, the most each first pixel cell includes the first color sub-pixels and the second color sub-pixels, Each second pixel cell includes the second color sub-pixels and the 3rd color sub-pixels, each 3rd pixel cell bag Include the first color sub-pixels and the 3rd color sub-pixels, and the first color sub-pixels, the second color sub-picture Element and the 3rd color sub-pixels are the sub-pixel of three kinds of different colours, an at least a part of which part the first pixel list Unit arranges in a first direction, and at least some of second pixel cell arranges in a first direction, Yi Ji One direction tilts relative to row (column) direction of pel array.

In one embodiment of this invention, above-mentioned each first pixel cell, each second pixel cell and each the Three pixel cells are at row (row) the direction alternate of pel array.Further, at each row of pel array On direction, two pixel cells adjacent to each first pixel cell are different from the first pixel cell, adjacent Two pixel cells in each second pixel cell are different from the second pixel cell and adjacent to each 3rd picture Two pixel cells of element unit are different from the 3rd pixel cell.

In one embodiment of this invention, above-mentioned at least some of 3rd pixel cell is arranged in a first direction Row.

In one embodiment of this invention, above-mentioned another part the first pixel cell arranges in a second direction, Another part the second pixel cell arranges in a second direction, and another part the 3rd pixel cell is in second party Upwards arrange, and second direction tilts relative to the column direction of pel array.

In one embodiment of this invention, above-mentioned first direction and second direction are not parallel.

In one embodiment of this invention, in above-mentioned multiple first rows on the column direction of pel array, One in the middle of the second pixel cell and the 3rd pixel cell it is provided with between each first pixel cell, and Second pixel cell and the 3rd pixel cell are staggered between the first pixel cell.Wherein in pixel battle array In the described first row of row, four pixel cells adjacent to each second pixel cell are respectively one the 3rd Pixel cell and three the first pixel cells, and one the 3rd pixel cell is positioned at each second pixel First side of unit, and described three the first pixel cells lay respectively at the second of each second pixel cell Side, the 3rd side and the 4th side, wherein adjacent to each second pixel cell the second side with described in the 3rd side Two first pixel cells arrange in a first direction, and adjacent to each second pixel cell the 3rd side with Two the first pixel cells of the 4th side arrange in a second direction.Wherein at described the first of pel array In row, four pixel cells adjacent to each 3rd pixel cell are respectively three the first pixel cells and Individual second pixel cell, and described three the first pixel cells lay respectively at the of each 3rd pixel cell Side, the second side and the 4th side, and one the second pixel cell are positioned at the of the 3rd pixel cell Three sides, wherein adjacent to the first side and said two the first pixel list of the second side of each 3rd pixel cell Identical permutation in a second direction, and described two of the first side and the 4th side adjacent to each 3rd pixel cell Individual first pixel cell arranges in a first direction.Wherein in the described first row of pel array, adjacent The first pixel cell in the 4th side of each second pixel cell is first adjacent to each 3rd pixel cell The first pixel cell in first pixel cell of side, and each described first row can with adjacent to each described First pixel cell of first row presents a zigzag arrangement.Wherein the first side and the 3rd side are in the row direction The upper both sides the most adjacent with each second pixel cell, the second side and the 4th side be in a column direction with each second picture The both sides that element unit is adjacent.

In one embodiment of this invention, in above-mentioned multiple secondary series on the column direction of pel array, One in the middle of the second pixel cell, and the first pixel list it is provided with between each first pixel cell Unit is staggered with the second pixel cell.Wherein in the described secondary series of pel array, adjacent to each Four pixel cells of two pixel cells are respectively the 3rd pixel cell and three the first pixel cells, And one the 3rd pixel cell is positioned at the first side of the second pixel cell, and described three first Pixel cell lays respectively at the second side of the second pixel cell, the 3rd side and the 4th side, wherein adjacent to respectively Second side of the second pixel cell is arranged in a first direction with said two first pixel cell of the 3rd side Row, and exist adjacent to the 3rd side of each second pixel cell and said two first pixel cell of the 4th side Arrange in second direction.Wherein in the described secondary series of pel array, first in each described secondary series Pixel cell can present a zigzag arrangement with the first pixel cell adjacent to each described secondary series, and First side is both sides adjacent with each second pixel cell in the row direction with the 3rd side, the second side and the 4th Side is both sides adjacent with each second pixel cell in a column direction.

In one embodiment of this invention, above-mentioned whole first pixel cell, whole second pixel cell, Whole 3rd pixel cells arrange in a first direction.

In one embodiment of this invention, above-mentioned on the column direction of pel array, the pixel list of every string The first pixel cell, the second pixel cell and the 3rd pixel cell in unit are staggered.Wherein adjacent to Four pixel cells of each first pixel cell are respectively two the second pixel cells and two the 3rd pixel lists Unit, and said two the second pixel cell lays respectively at the first side of each first pixel cell and the second side, And two the 3rd pixel cells lay respectively at the 3rd side and the 4th side, the Qi Zhongxiang of each first pixel cell Said two the second pixel cell and said two the 3rd pixel cell difference adjacent to each first pixel cell Arrange in a first direction.The first pixel cell wherein on the column direction of pel array, in every string Can arrange in a first direction with the first pixel cell arranged adjacent to this, and the first side with the 3rd side is In the row direction with the adjacent both sides of each first pixel cell, the second side and the 4th side be in a column direction with The both sides that each first pixel cell is adjacent.

In one embodiment of this invention, above-mentioned whole 3rd pixel cell is on the column direction of pel array Arrangement.

In one embodiment of this invention, above-mentioned on the line direction of pel array, each the 3rd pixel Be provided with between unit in the middle of the first pixel cell one with the second pixel cell in the middle of one, wherein In multiple 3rd row, the first pixel cell and the second pixel cell are staggered on the column direction of pel array Arrangement, and in multiple 4th row, the 3rd pixel cell arranges on the column direction of pel array.Its In pel array described 3rd row in, each described 3rd row in each first pixel cell can be with adjacent In each tertial first pixel cell presents a zigzag arrangement, and each described 3rd row each the Two pixel cells can present zigzag arrangement with adjacent to each tertial second pixel cell.

In one embodiment of this invention, the above-mentioned odd-numbered line at pel array each first pixel cell, The arrangement of two sub-pixels in each second pixel cell and each 3rd pixel cell respectively with at pel array Each first pixel cell of even number line, two sons in each second pixel cell and each 3rd pixel cell The arrangement of pixel is contrary.

In one embodiment of this invention, above-mentioned the first color sub-pixels in each sub-pixel group, second The number of color sub-pixels and the 3rd color sub-pixels is identical.

In one embodiment of this invention, above-mentioned first color sub-pixels is red sub-pixel, the second color Sub-pixel is green sub-pixels, and the 3rd color sub-pixels is blue subpixels, at described pel array In, the pixel cell adjacent to each 3rd pixel cell all has the second color sub-pixels.

In one embodiment of this invention, above-mentioned first color sub-pixels is red sub-pixel, the second color Sub-pixel is green sub-pixels, and the 3rd color sub-pixels is blue subpixels.At described pel array Line direction on, each second color sub-pixels is the most non-conterminous on this line direction, and adjacent to each The sub-pixel of second colors sub-pixel is respectively the first color sub-pixels and the 3rd color sub-pixels.

In one embodiment of this invention, above-mentioned first color sub-pixels is red sub-pixel, the second color Sub-pixel is green sub-pixels, and the 3rd color sub-pixels is blue subpixels.Every at pel array In the pixel cell of string, each second color sub-pixels is positioned at the centrage of these row on this column direction The same side.

Based on above-mentioned, in the display floater of the present invention, its have based on equal number of red sub-pixel, The sub-pixel group that blue subpixels and green sub-pixels are constituted, thus can promote display floater yield and Easily manufacture.Additionally, the display floater of the present invention is more by the row of the pixel cell with green sub-pixels Row mode, maintains the resolution of display floater and the quality of display image.Particularly, the present invention's is aobvious Show the panel number by minimizing pixel cell sub-pixel, so that picture element density during display image subtracts Little, thus can promote the penetrance of display floater and improve high-res display floater sub-pixel and produced The colour mixture problem that caused of different color light.

For the features described above of the present invention and advantage can be become apparent, special embodiment below, and coordinate Accompanying drawing is described in detail below.

Accompanying drawing explanation

Fig. 1 is that the upper of the pel array of the display floater of some exemplary embodiment according to the present invention regards signal Figure.

Fig. 2 is the upper schematic diagram of the sub-pixel group according to the present invention the first exemplary embodiment.

Fig. 3 A to Fig. 3 C is the upper schematic diagram of the pixel cell of some exemplary embodiment of the present invention.

Fig. 4 A to Fig. 4 F is that the upper of the various pixel cells of some exemplary embodiment of the present invention regards signal Figure.

Fig. 5 A to Fig. 5 E is based on extremely being schemed respectively depicted in the present invention the first exemplary embodiment by Fig. 4 A The upper schematic diagram of the sub-pixel group that the pixel cell in 4F is constituted.

Fig. 6 is based on the sub-pixel group 100 with multiple Fig. 2 depicted in the present invention the first exemplary embodiment The upper schematic diagram of pel array 1200.

Fig. 7 A and Fig. 7 B is based on the arrangement side of the pixel cell depicted in the present invention the first exemplary embodiment The upper schematic diagram of formula.

Fig. 8 is the upper schematic diagram of the sub-pixel group according to the present invention the second exemplary embodiment.

Fig. 9 A and Fig. 9 B is based on extremely being schemed respectively depicted in the present invention the second exemplary embodiment by Fig. 4 A The upper schematic diagram of the sub-pixel group that the pixel cell in 4F is constituted.

Figure 10 is based on the sub-pixel group with multiple Fig. 8 depicted in the present invention the second exemplary embodiment The upper schematic diagram of the pel array 1200 of 200.

Figure 11 A and Figure 11 B is based on the arrangement of the pixel cell depicted in the present invention the second exemplary embodiment The upper schematic diagram of mode.

Figure 12 A and Figure 12 B be based on depicted in the present invention the 3rd exemplary embodiment respectively by Fig. 4 A extremely The upper schematic diagram of the sub-pixel group that the pixel cell in Fig. 4 F is constituted.

Figure 13 is based on the sub-pixel group with multiple Fig. 8 depicted in the present invention the 3rd exemplary embodiment The upper schematic diagram of the pel array 1200 of 200.

Figure 14 A and Figure 14 B is based on the arrangement of the pixel cell depicted in the present invention the 3rd exemplary embodiment The upper schematic diagram of mode.

Figure 15 is the upper schematic diagram of the sub-pixel group according to the present invention the 4th exemplary embodiment.

Figure 16 A and Figure 16 B be based on the sub-pixel group depicted in the present invention the 4th exemplary embodiment on regard Schematic diagram.

Figure 17 is based on the sub-pixel group with multiple Figure 15 depicted in the present invention the 4th exemplary embodiment The upper schematic diagram of the pel array 1200 of 300.

Figure 18 A and Figure 18 B is based on the arrangement of the pixel cell depicted in the present invention the 4th exemplary embodiment The upper schematic diagram of mode.

[symbol description]

100、100a、100b、100c、100d、100e、200、200a、200b、200c、200d、 300,300a, 300b: sub-pixel group

1000: display floater

1200: pel array

DL1～DL6, DL1～DL3: data wire

SL1, SL2, SL3, SL4: scan line

T: drive element

PU1,22,24,60,62,64,66,68,90,92,94,182,184: the first picture Element unit

PU2,40,80,186,188: the second pixel cell

PU3,10,30,50,70,190,192: the three pixel cell

SP1: the first color sub-pixels

SP2: the second color sub-pixels

SP3: the three color sub-pixels

R: red sub-pixel

G: green sub-pixels

B: blue subpixels

602,604,702,704,802,804,902,904: centrage

D_x: line direction

D_y: column direction

D1: first direction

D2: second direction

Detailed description of the invention

In order to promote the penetrance of display floater, definition and yield, the present invention is by based on red sub-picture The arrangement of the sub-pixel of the different colours of element, blue subpixels and green sub-pixels, and reduce display surface The picture element density of plate, thus when showing image, display floater can have good pixel penetrance with clear simultaneously Clear degree.Base this, effectively improve manufacture difficulty and the energy consumption of high-res display floater.

Fig. 1 is that the upper of the pel array of the display floater of some exemplary embodiment according to the present invention regards signal Figure.Fig. 2 is the upper schematic diagram of the sub-pixel group according to the present invention the first exemplary embodiment.

Referring to Fig. 1 and Fig. 2, display floater 1000 includes multiple sub-pixel group 100, and son Pixel group 100 meeting repeated arrangement is to form pel array 1200.For convenience of explanation, Fig. 2 only illustrates one Individual sub-pixel group 100, but, those skilled in the art are it is to be appreciated that pel array 1200 is actually The array (as shown in Figure 1) being made up of multiple sub-pixel groups 100.The sub-pixel group of this exemplary embodiment 100 include 18 sub-pixels (sub-pixel), and each sub-pixel each includes a scan line (scan Line) a, data line (data line) and a driving element T.Pel array 1200 is being applied to In the case of display panels (liquid crystal display, LCD), drive element T for example, thin film Transistor (thin film transistor, TFT), so the invention is not restricted to this.If pel array 1200 is It is applied to organic EL display panel (such as Organic Light Emitting Diode (organic light-emitting Diode, OLED)) in, then drive element T such as to include two TFT and a capacitor, so this Bright it is not limited to this.Element T is driven to be electrically connected with scan line and data wire.As in figure 2 it is shown, this model Each sub-pixel group 100 of example embodiment includes three scan lines SL1, SL2 Yu SL3 and six Data wire DL1～DL6.

Referring to Fig. 3 A to Fig. 3 C, specifically, in this exemplary embodiment, each sub-pixel group 100 include multiple first pixel cell PU1, multiple second pixel cell PU2 and multiple 3rd pixel Unit PU3, each of which pixel cell can include two sub-pixels.Such as, each first pixel cell PU1 Including one first color sub-pixels SP1 and one second color sub-pixels SP2, each second pixel cell PU2 Including one second color sub-pixels SP2 and one the 3rd color sub-pixels SP3, each 3rd pixel cell PU3 Including one first color sub-pixels SP1 and one the 3rd color sub-pixels SP3, and the first color sub-pixels SP1, the second color sub-pixels SP2 and the sub-pixel that the 3rd color sub-pixels SP3 is three kinds of different colours.

Refer to Fig. 4 A to Fig. 4 F, in the pel array 1200 of display floater 1000, each pixel Unit includes two different colors of sub-pixel, and this two different colors of sub-pixel is selected from redness Two therein of sub-pixel R, blue subpixels B and green sub-pixels G three.Such as, at this example In embodiment, above-mentioned first color sub-pixels SP1 is red sub-pixel R, this second color sub-pixels SP2 For green sub-pixels G, and the 3rd color sub-pixels SP3 is blue subpixels B.Therefore, such as Fig. 4 A Shown in, the two different colors of sub-pixel included by the first pixel cell PU1 is sequentially red son respectively Pixel R and green sub-pixels G.In figure 4b, two kinds of differences included by the second pixel cell PU2 The sub-pixel of color is sequentially blue subpixels B and green sub-pixels G respectively.And in figure 4 c, the Two different colors of sub-pixel included by three pixel cell PU3 be sequentially respectively red sub-pixel R with Blue subpixels B.But, the present invention is not any limitation as two different colors of son in each pixel cell The arrangement mode of pixel.Such as, in another exemplary embodiment, the first pixel cell PU1 sub-pixel Arrangement mode can be sequentially green sub-pixels G and red sub-pixel R (as shown in Figure 4 D), the second picture The arrangement mode of element unit PU2 sub-pixel can be sequentially blue subpixels B and red sub-pixel R (as Shown in Fig. 4 E), and the arrangement mode of the 3rd pixel cell PU3 sub-pixel can be sequentially blue son Pixel B and red sub-pixel R (as illustrated in figure 4f).

Specifically, in the display floater of general R-G-B (RGB stripe) type, a pixel data Including three sub-pixels, i.e. red sub-pixel R, green sub-pixels G and blue subpixels B.And In exemplary embodiment of the present invention, the pixel cell of a corresponding pixel data is the row of the sub-pixel by two Row are formed.In more detail, on the premise of the size of display floater is the most identical, this exemplary embodiment In the first pixel cell, the size of sub-pixel of the second pixel cell and the 3rd pixel cell be general pixel 1.5 times of sub-pixel size.Stated differently, since the sub-pixel size in the display floater of the present invention More than general R-G-B type display floater, therefore, the penetrance of display floater 1000 can increase.Especially It is, owing to the picture element density of the display floater 1000 of exemplary embodiment of the present invention is relatively reduced so that display The spacing between each adjacent red, green, basket pixel in panel 1000 will not be too small, thus reduces Difficulty in manufacture.

Fig. 5 A to Fig. 5 E is based on extremely being schemed respectively depicted in the present invention the first exemplary embodiment by Fig. 4 A The upper schematic diagram of the sub-pixel group that the pixel cell in 4F is constituted.For convenience of explanation, Fig. 5 A is extremely Fig. 5 E omits and illustrates scan line SL1, SL2 Yu SL3 data wire DL1～DL6 and drive element T Deng component.Sub-pixel group shown in Fig. 5 A to Fig. 5 E is similar to the sub-pixel group 100 of Fig. 2, therefore phase Same or similar element represents with same or analogous symbol, and explanation is not repeated.Below with reference to graphic It is described separately the sub-pixel arrangement of each sub-pixel group of this exemplary embodiment.

It is 18 sub-pixels that three row six arrange (3 × 6) matrix arrangement please also refer to Fig. 5 A, sub-pixel group 100a, It is respectively six red sub-pixel R, six green sub-pixels G, six blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Specifically, by a left side, the right side is sequentially red son to the first row of sub-pixel group 100a Pixel R, green sub-pixels G, blue subpixels B, green sub-pixels G, red sub-pixel R are with blue Sub-pixels B, by a left side, the right side is sequentially blue subpixels B, green son to second row of sub-pixel group 100a Pixel G, red sub-pixel R, blue subpixels B, red sub-pixel R and green sub-pixels G, with And the third line of sub-pixel group 100a is sequentially red sub-pixel R, blue subpixels B, red by the left and right side Sub-pixels R, green sub-pixels G, blue subpixels B and green sub-pixels G.In other words, son By a left side, the right side is sequentially the first pixel cell PU1, the second pixel cell PU2 to the first row of pixel group 100a With the 3rd pixel cell PU3, by a left side, the right side is sequentially the second pixel cell to second row of sub-pixel group 100a PU2, the 3rd pixel cell PU3 and the first pixel cell PU1, and the third line of sub-pixel group 100a By a left side, the right side is sequentially the 3rd pixel cell PU3, the first pixel cell PU1 and the second pixel cell PU2.

Refer to Fig. 5 B, sub-pixel group 100b is 18 sub-pixels that three row six arrange (3 × 6) matrix arrangement, It is respectively six red sub-pixel R, six green sub-pixels G, six blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially blue sub-picture to the first row of sub-pixel group 100b Element B, green sub-pixels G, red sub-pixel R, green sub-pixels G, blue subpixels B are with red Sub-pixel R, by a left side, the right side is sequentially red sub-pixel R, green sub-picture to second row of sub-pixel group 100b Element G, blue subpixels B, red sub-pixel R, blue subpixels B and green sub-pixels G, and By a left side, the right side is sequentially blue subpixels B, red sub-pixel R, blueness to the third line of sub-pixel group 100b Sub-pixel B, green sub-pixels G, red sub-pixel R and green sub-pixels G.It is to say, sub-picture By a left side, the right side is sequentially the second pixel cell PU2, the first pixel cell PU1 to the first row of element group 100b With the 3rd pixel cell PU3, by a left side, the right side is sequentially the first pixel cell to second row of sub-pixel group 100b PU1, the 3rd pixel cell PU3 and the second pixel cell PU2, and the third line of sub-pixel group 100b By a left side, the right side is sequentially the 3rd pixel cell PU3, the second pixel cell PU2 and the first pixel cell PU1. Particularly, all red sub-pixel R in the sub-pixel of the sub-pixel group 100a of Fig. 5 A are all replaced with Blue subpixels B, and all blue subpixels B all replace with red sub-pixel R and can get Fig. 5 B In sub-pixel group 100b.

Refer to Fig. 5 C, sub-pixel group 100c is 18 sub-pixels that three row six arrange (3 × 6) matrix arrangement, It is respectively six red sub-pixel R, six green sub-pixels G, six blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially green sub-picture to the first row of sub-pixel group 100c Element G, red sub-pixel R, blue subpixels B, green sub-pixels G, red sub-pixel R are with blue Sub-pixel B, by a left side, the right side is sequentially blue subpixels B, green sub-picture to second row of sub-pixel group 100c Element G, red sub-pixel R, blue subpixels B, green sub-pixels G and red sub-pixel R, and By a left side, the right side is sequentially red sub-pixel R, blue subpixels B, green to the third line of sub-pixel group 100c Sub-pixel G, red sub-pixel R, blue subpixels B and green sub-pixels G.It is to say, sub-picture By a left side, the right side is sequentially the first pixel cell PU1, the second pixel cell PU2 to the first row of element group 100c With the 3rd pixel cell PU3, by a left side, the right side is sequentially the second pixel cell to second row of sub-pixel group 100c PU2, the 3rd pixel cell PU3 and the first pixel cell PU1, and the third line of sub-pixel group 100c By a left side, the right side is sequentially the 3rd pixel cell PU3, the first pixel cell PU1 and the second pixel cell PU2. Particularly, red by the first pixel cell PU1 all in the sub-pixel of the sub-pixel group 100a of Fig. 5 A Sub-pixels R can get the sub-pixel group 100c in Fig. 5 C with the location swap of green sub-pixels G.

Refer to Fig. 5 D, sub-pixel group 100d is 18 sub-pixels that three row six arrange (3 × 6) matrix arrangement, It is respectively six red sub-pixel R, six green sub-pixels G, six blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially green sub-picture to the first row of sub-pixel group 100d Element G, blue subpixels B, red sub-pixel R, green sub-pixels G, blue subpixels B are with red Sub-pixel R, by a left side, the right side is sequentially red sub-pixel R, green sub-picture to second row of sub-pixel group 100d Element G, blue subpixels B, red sub-pixel R, green sub-pixels G and blue subpixels B, and By a left side, the right side is sequentially blue subpixels B, red sub-pixel R, green to the third line of sub-pixel group 100d Sub-pixel G, blue subpixels B, red sub-pixel R and green sub-pixels G.It is to say, sub-picture By a left side, the right side is sequentially the second pixel cell PU2, the first pixel cell PU1 to the first row of element group 100d With the 3rd pixel cell PU3, by a left side, the right side is sequentially the first pixel cell to second row of sub-pixel group 100d PU1, the 3rd pixel cell PU3 and the second pixel cell PU2, and the third line of sub-pixel group 100d By a left side, the right side is sequentially the 3rd pixel cell PU3, the second pixel cell PU2 and the first pixel cell PU1. Particularly, by the indigo plant in the second pixel cell PU2 all in the sub-pixel of the sub-pixel group 100b of Fig. 5 B Sub-pixels B can get the sub-pixel group 100d in Fig. 5 D with the location swap of green sub-pixels G.

Refer to Fig. 5 E, sub-pixel group 100e is 18 sub-pixels that three row six arrange (3 × 6) matrix arrangement, It is respectively six red sub-pixel R, six green sub-pixels G, six blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially red sub-picture to the first row of sub-pixel group 100e Element R, blue subpixels B, green sub-pixels G, red sub-pixel R, blue subpixels B are with green Sub-pixel G, by a left side, the right side is sequentially green sub-pixels G, blue sub-picture to second row of sub-pixel group 100e Element B, red sub-pixel R, green sub-pixels G, blue subpixels B and red sub-pixel R, and By a left side, the right side is sequentially red sub-pixel R, green sub-pixels G, redness to the third line of sub-pixel group 100e Sub-pixel R, blue subpixels B and green sub-pixels G blue subpixels B.It is to say, sub-picture By a left side, the right side is sequentially the 3rd pixel cell PU3, the second pixel cell PU2 to the first row of element group 100e With the first pixel cell PU1, by a left side, the right side is sequentially the second pixel cell to second row of sub-pixel group 100e PU2, the first pixel cell PU1 and the 3rd pixel cell PU3, and the third line of sub-pixel group 100e By a left side, the right side is sequentially the first pixel cell PU1, the 3rd pixel cell PU3 and the second pixel cell PU2.

For convenience of explanation, Fig. 6 only illustrates four sub-pixel groups 100, and omit sub-pixel scan line, The components such as data wire and driving element.As shown in Figure 6, pel array 1200 is by sub-pixel group 100 The array that repeated arrangement is formed.It is noted that the present invention does not limit composition pel array 1200 Sub-pixel group, such as, in this exemplary embodiment, pel array 1200 is by the sub-pixel group of Fig. 5 A 100a is formed.But, the present invention is not limited to this, such as, in another exemplary embodiment, and pixel Array 1200 can be by the sub-pixel group 100b of Fig. 5 B to Fig. 5 E, sub-pixel group 100c, sub-pixel group 100d Formed with one of them or other sub-pixels group of sub-pixel group 100e.

Particularly, in the pel array 1200 of Fig. 6, adjacent to each 3rd pixel cell PU3's Pixel cell all has the second color sub-pixels (that is, green sub-pixels G).For example, real at this example Executing in example, the 3rd pixel cell PU3 includes red sub-pixel R and blue subpixels B, therefore, with the As a example by three pixel cells 10, four pixel cells adjacent to this 3rd pixel cell 10 all have green Sub-pixel G.Owing to the brightness of green sub-pixels G is higher, therefore there is the pixel list of green sub-pixels G Unit is able to maintain that the resolution of display floater, and does not have the brightness of the pixel cell of green sub-pixels G relatively Low, it can cause the dim spot in shown image, accordingly, by the pixel with green sub-pixels G Unit surrounds the 3rd pixel cell 10 can maintain the resolution of display floater and the matter of display image effectively Amount.

Referring again to Fig. 6, at the line direction D of pel array 1200_xOn, each green sub-pixels G exists This line direction D_xOn the most non-conterminous, and the sub-pixel adjacent to each green sub-pixels G can be red respectively Sub-pixels R and blue subpixels B.Especially since the display floater 1000 of exemplary embodiment of the present invention In each adjacent redness, green, spacing between basket sub-pixels will not be too small, therefore, by This Rankine-Hugoniot relations can make display floater 1000 have good colour mixture result.On the other hand, at pel array In the pixel cell of every string of 1200, each green sub-pixels G is positioned at these row on column direction Dy The same side of centrage.For example, as shown in Figure 6, the sub-picture of green in the pixel cell of jth row Element G is positioned at the right side of the centrage 602 of jth row.Similarly, jth+1 row pixel cell in green Sub-pixels G is positioned at the right side of centrage 604 of jth+1 row, and by that analogy, real at this example Executing in example, green sub-pixels G in the pixel cell of every string can be positioned at the right side of the centrage of its column Side.Stated differently, since green sub-pixels G in every string pixel cell is along column direction D_yIn one Linear array, can't offset its corresponding centrage (that is, being positioned at the same side of centrage), therefore, Brightness vision center in display floater can be consistent, thus can promote the definition of display floater.

Refer to Fig. 7 A, here, for the arrangement mode clearly showing that pixel cell, represent picture with circle The first pixel cell PU1 in pixel array 1200, with second in triangular representation pel array 1200 Pixel cell PU2, and the 3rd pixel cell PU3 in pel array 1200 is represented with rectangle.At this Whole first pictures in exemplary embodiment, sub-pixel group 100 in the pel array 1200 arranged Element unit PU1 can be at the column direction D relative to pel array 1200_yThe direction D1 tilted is (following Also known as first direction D1) upper arrangement, whole second pixel cell PU2 also can be at described first direction D1 Upper arrangement, and whole 3rd pixel cell PU3 also can arrange on described first direction D1.Particularly, Each first pixel cell PU1, each second pixel cell PU2 and each 3rd pixel cell PU3 are in pixel battle array The line direction D of row 1200_xAlternate, and on each column direction Dy of pel array 1200, Two pixel cells adjacent to each first pixel cell PU1 can be different from the first pixel cell PU1, phase It is different from the second pixel cell PU2 and adjacent adjacent to two pixel cells of each second pixel cell PU2 Two pixel cells in each 3rd pixel cell PU3 are also different from the 3rd pixel cell PU3.

Refer to Fig. 7 B, in more detail, at the column direction D of this pel array 1200_yOn, every string Pixel cell in the first pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 Can be staggered.Wherein four pixel cells adjacent to each first pixel cell PU1 are respectively two Two pixel cell PU2 and two the 3rd pixel cell PU3, and these two the second pixel cell PU2 divide It is not positioned at the first side (that is, right side) and second side (that is, downside) of each first pixel cell PU1, and this Two the 3rd pixel cell PU3 lay respectively at the 3rd side (that is, left side) of each first pixel cell PU1 with 4th side (that is, upside).Here, as a example by the first pixel cell 20, the first side and the 3rd side are for being expert at Direction D_xThe upper adjacent both sides with the first pixel cell 20, the second side and the 4th side are at column direction D_yOn The both sides adjacent with the first pixel cell 20.As shown in Figure 7 B, adjacent to the of the first pixel cell 20 Side and two the second pixel cell PU2 of the second side and the 3rd side adjacent to the first pixel cell 20 Arrange the most in the first direction dl with two the 3rd pixel cell PU3 of the 4th side.Particularly, This first pixel cell 20 also can be with the first pixel cell PU1 (that is, the first pixel list arranged adjacent to this Unit 22 and the first pixel cell 24) arrange in the first direction dl, accordingly, in this exemplary embodiment, The first whole pixel cell PU1 in pel array 1200, the second whole pixel cell PU2 with And the 3rd whole pixel cell PU3 all can arrange the most in the first direction dl Row.

For convenience of explanation, Fig. 8 only illustrates a sub-pixel group 200, and right those skilled in the art should Understanding, multiple sub-pixel groups 200 can form pel array 1200 as shown in Figure 1.This exemplary embodiment Sub-pixel group 200 include 24 sub-pixels, each sub-pixel each include a scan line, One data line and a driving element T.Element T is driven to be electrically connected with scan line and data wire. As shown in Figure 8, one of this exemplary embodiment sub-pixel group 200 include four scan lines SL1, SL2, SL3 Yu SL4 and six data line DL1～DL6.Here, be same as the first exemplary embodiment, In the pel array 1200 of display floater 1000, each sub-pixel group 200 includes multiple first pixel cell PU1, multiple second pixel cell PU2 and multiple 3rd pixel cell PU3, each of which pixel list Unit can include the sub-pixel of two different colours.Such as, in this exemplary embodiment, the first pixel cell The sub-pixel of two different colours in PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 Arrangement mode is the same as the arrangement mode shown in Fig. 4 A to Fig. 4 F, no longer repeats at this.

Fig. 9 A and Fig. 9 B is based on extremely being schemed respectively depicted in the present invention the second exemplary embodiment by Fig. 4 A The upper schematic diagram of the sub-pixel group that the pixel cell in 4F is constituted.For convenience of explanation, Fig. 9 A with Fig. 9 B omits and illustrates scan line SL1, SL2, SL3 and SL4 and data wire DL1～DL6 and drive The components such as dynamic element T.Sub-pixel group shown in Fig. 9 A and Fig. 9 B is similar to the sub-pixel group 200 of Fig. 8, Thus like or similar element represents with same or analogous symbol, and explanation is not repeated.Hereafter join Sub-pixel arrangement according to the graphic each sub-pixel group being described separately this exemplary embodiment.

Refer to Fig. 9 A, sub-pixel group 200a is 24 sub-pixels that four row six arrange (4 × 6) matrix arrangement, It is respectively eight red sub-pixel R, eight green sub-pixels G, eight blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Specifically, by a left side, the right side is sequentially red son to the first row of sub-pixel group 200a Pixel R, green sub-pixels G, blue subpixels B, green sub-pixels G, red sub-pixel R are with blue Sub-pixels B, by a left side, the right side is sequentially blue subpixels B, green son to second row of sub-pixel group 200a Pixel G, red sub-pixel R, blue subpixels B, red sub-pixel R and green sub-pixels G, son By a left side, the right side is sequentially red sub-pixel R, green sub-pixels G, blue son to the third line of pixel group 200a Pixel B, green sub-pixels G, red sub-pixel R and blue subpixels B, and sub-pixel group 200a Fourth line be sequentially red sub-pixel R, blue subpixels B, red sub-pixel R, green by the left and right side Sub-pixels G, blue subpixels B and green sub-pixels G.In other words, the of sub-pixel group 200a By a left side, the right side is sequentially the first pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell to a line PU3, by a left side, the right side is sequentially the second pixel cell PU2, the 3rd pixel to second row of sub-pixel group 200a Unit PU3 and the first pixel cell PU1, the third line of sub-pixel group 200a is sequentially the by the left and right side One pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 and sub-pixel group 200a Fourth line by left and the right side is sequentially the 3rd pixel cell PU3, the first pixel cell PU1 and the second pixel Unit PU2.

Refer to Fig. 9 B, sub-pixel group 200b is 24 sub-pixels that four row six arrange (4 × 6) matrix arrangement, It is respectively eight red sub-pixel R, eight green sub-pixels G, eight blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially blue sub-picture to the first row of sub-pixel group 200b Element B, green sub-pixels G, red sub-pixel R, green sub-pixels G, blue subpixels B are with red Sub-pixel R, by a left side, the right side is sequentially red sub-pixel R, green sub-picture to second row of sub-pixel group 200b Element G, blue subpixels B, red sub-pixel R, blue subpixels B and green sub-pixels G, sub-picture By a left side, the right side is sequentially blue subpixels B, green sub-pixels G, red sub-picture to the third line of element group 200b Element R, green sub-pixels G, blue subpixels B and red sub-pixel R, and sub-pixel group 200b By a left side, the right side is sequentially blue subpixels B, red sub-pixel R, blue subpixels B, green to fourth line Sub-pixel G, red sub-pixel R and green sub-pixels G.In other words, the first of sub-pixel group 200b By a left side, the right side is sequentially the second pixel cell PU2, the first pixel cell PU1 and the 3rd pixel cell to row PU3, by a left side, the right side is sequentially the first pixel cell PU1, the 3rd pixel to second row of sub-pixel group 200b Unit PU3 and the second pixel cell PU2, the third line of sub-pixel group 200b is sequentially the by the left and right side Two pixel cell PU2, the first pixel cell PU1 and the 3rd pixel cell PU3 and sub-pixel group 200b Fourth line by left and the right side is sequentially the 3rd pixel cell PU3, the second pixel cell PU2 and the first pixel Unit PU1.Particularly, by all red sub-pixel in the sub-pixel of the sub-pixel group 200a of Fig. 9 A R all replaces with blue subpixels B, and all blue subpixels B all replace with red sub-pixel R can Obtain the sub-pixel group 200b in Fig. 9 B.

For convenience of explanation, Figure 10 only illustrates four sub-pixel groups 200, and omit sub-pixel scan line, The components such as data wire and driving element.As shown in Figure 10, pel array 1200 is by sub-pixel group 200 The array that repeated arrangement is formed.It is noted that the present invention does not limit composition pel array 1200 Sub-pixel group, such as, in this exemplary embodiment, pel array 1200 is by the sub-pixel group of Fig. 9 A 200a is formed.But, the present invention is also not limited to this, such as, in another exemplary embodiment, and pixel Array 1200 is made up of sub-pixel group 200b or other sub-pixels group of Fig. 9 B.

Refer to Figure 10, in the pel array 1200 of Figure 10, adjacent to each 3rd pixel cell PU3 Pixel cell all there is green sub-pixels G.For example, in this exemplary embodiment, the 3rd pixel Unit PU3 includes red sub-pixel R and blue subpixels B, therefore, with the 3rd pixel cell 30 is Example, four pixel cells adjacent to this 3rd pixel cell 30 all have green sub-pixels G.Due to green The brightness of sub-pixels G is higher, and the pixel cell therefore with green sub-pixels G is able to maintain that display surface The resolution of plate, and the brightness without the pixel cell of green sub-pixels G is relatively low, it can cause and be shown Dim spot in the image shown, accordingly, surrounds the 3rd pixel by the pixel cell with green sub-pixels G Unit 30 can maintain the resolution of display floater and the quality of display image effectively.

Referring again to Figure 10, here, be same as the first exemplary embodiment, at the row of pel array 1200 Direction D_xOn, each green sub-pixels G is at this line direction D_xOn the most non-conterminous, and adjacent to each green The sub-pixel of sub-pixels G can be red sub-pixel R and blue subpixels B respectively.Especially since Each adjacent redness in the display floater 1000 of exemplary embodiment of the present invention, green, basket sub-pixels Between spacing will not be too small, therefore, display floater 1000 can be made to have by this Rankine-Hugoniot relations good Colour mixture result and reduce manufacture difficulty.On the other hand, in the pixel of every string of pel array 1200 In unit, each green sub-pixels G is at column direction D_yOn be positioned at the same sides of centrage of this row.Lift For example, as shown in Figure 10, green sub-pixels G in the pixel cell of jth row is positioned in jth row The right side of heart line 702.Similarly, green sub-pixels G in the pixel cell of jth+1 row is positioned at jth+1 The right side of the centrage 704 of row, and by that analogy, in this exemplary embodiment, the pixel of every string Green sub-pixels G in unit can be positioned at the right side of the centrage of its column.Stated differently, since it is every Green sub-pixels G in string pixel cell is along column direction D_yIn a linear array, can't offset Its corresponding centrage (that is, is positioned at the same side of centrage), therefore, and the brightness vision in display floater Center can be consistent, thus can promote the definition of display floater.

Refer to Figure 11 A, here, for the arrangement mode clearly showing that pixel cell, represent with circle The first pixel cell PU1 in pel array 1200, with in triangular representation pel array 1200 Two pixel cell PU2, and the 3rd pixel cell PU3 in pel array 1200 is represented with rectangle.? In this exemplary embodiment, it is with the first exemplary embodiment difference, sub-pixel group 100 is arranged Pel array 1200 at least some of first pixel cell PU1 be relative to pixel battle array The column direction D of row 1200_yArrange on the first direction D1 tilted, and another part the first pixel cell PU1 is at the column direction D relative to pel array 1200_yAnother direction (hereinafter referred to as second tilted Direction D2) upper arrangement.Additionally, in this exemplary embodiment, at least some of second pixel cell PU2 It is to arrange on described first direction D1, and another part the second pixel cell PU2 is described second Arrange on the D2 of direction.Similarly, at least some of 3rd pixel cell PU3 is at described first direction The upper arrangement of D1, and another part the 3rd pixel cell PU3 is to arrange in described second direction D2.Value Obtain it is noted that described first direction D1 is not parallel with described second direction D2.

Refer to Figure 11 B, in more detail, at the column direction D of pel array 1200_yOn jth row In arranging with jth+3, between each first pixel cell PU1, it is provided with the second pixel cell PU2 and the In the middle of three pixel cell PU3 one, and the second pixel cell PU2 and the 3rd pixel cell PU3 It is staggered between each first pixel cell PU1.Here, the pixel cell in arranging with jth+3 is Example, in jth+3 arranges, four pixel cells adjacent to the second pixel cell 40 are respectively one the 3rd Pixel cell PU3 and three the first pixel cell PU1, and this 3rd pixel cell PU3 is positioned at First side (that is, right side) of the second pixel cell PU2, and these three the first pixel cell PU1 are respectively It is positioned at second side (that is, upside) of this second pixel cell 40, the 3rd side (that is, left side) with the 4th side (i.e., Downside), wherein adjacent to the second side and two first pixel lists of the 3rd side of this second pixel cell 40 Unit PU1 (that is, first pixel cell 62 and the first pixel cell 66) arranges in the first direction dl, and Adjacent to each second pixel cell 40 the 3rd side and the 4th side two the first pixel cell PU1 (i.e., First pixel cell 66 and the first pixel cell 60) arrangement is in a second direction d 2.

Additionally, in this jth+3 arranges, four pixel cells adjacent to the 3rd pixel cell 50 are respectively Three a first pixel cell PU1 and second pixel cell PU2, and these three first pixel cells PU1 lays respectively at first side (that is, right side) of the second pixel cell 50, the second side (that is, upside) and the Four sides (that is, downside), and this second pixel cell PU2 is positioned at the 3rd of the 3rd pixel cell 50 Side (that is, left side), wherein adjacent to the first side and two first pictures of the second side of the 3rd pixel cell 50 Element unit PU1 (that is, first pixel cell 60 and the first pixel cell 68) arranges in a second direction d 2, And adjacent to the 3rd pixel cell 50 the first side and the 4th side two the first pixel cell PU1 (i.e., First pixel cell 68 and the first pixel cell 64) arrangement is in the first direction dl.Particularly, at this In jth+3 row, adjacent to the first pixel cell PU1 (that is, first of the 4th side of the second pixel cell 40 Pixel cell 60) it is the first pixel cell PU1 (that is, of the first side adjacent to the 3rd pixel cell 50 One pixel cell 60).It is to say, the first pixel cell PU1 (that is, the first picture in this jth+3 row Element unit the 60, first pixel cell 62 and the first pixel cell 64) can be with first arranged adjacent to jth+3 Pixel cell PU1 (that is, the first pixel list during the first pixel cell 66 in jth+2 row arranges with jth+4 Unit 68) present zigzag (Zigzag) arrangement.

By that analogy, each 3rd pixel cell PU3 in jth+2 row can be with the arranged adjacent to jth+2 Each second pixel cell PU2 that three pixel cell PU3 present in zigzag arrangement, and jth+4 row can be with The second pixel cell PU2 adjacent to jth+4 row presents zigzag arrangement.In other words, at this example In embodiment, at least some of first pixel cell PU1 in pel array 1200, at least some of Two pixel cell PU2 arrange in the first direction dl with at least some of 3rd pixel cell PU3, and Another part the first pixel cell PU1, another part the second pixel cell PU2 and another part the 3rd picture Element unit PU3 can arrange in a second direction d 2, thus the first pixel cell in pel array 1200 PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 can be as being arranged in the most as illustrated in figure 11A On one direction D1 and second direction D2 and present zigzag arrangement respectively.It should be noted that at this In invention exemplary embodiment, the first side and the 3rd side are D in the row direction_xUpper adjacent with each pixel cell two Side, the second side and the 4th side are at column direction D_yThe upper both sides adjacent with each pixel cell.

Figure 12 A and Figure 12 B be based on depicted in the present invention the 3rd exemplary embodiment respectively by Fig. 4 A extremely The upper schematic diagram of the sub-pixel group that the pixel cell in Fig. 4 F is constituted.In this exemplary embodiment, aobvious Show that the sub-pixel group of panel is the same as the sub-pixel group 200 shown in Fig. 8 in the second exemplary embodiment, change Sentence is talked about, and multiple sub-pixel groups 200 of this exemplary embodiment also can form pel array as shown in Figure 1 1200, its sub-pixel group 200 also includes 24 sub-pixels, and a sub-pixel group 200 wraps Include two scan lines SL1, SL2, SL3 and SL4 and 28 data line DL1～DL6.Figure Sub-pixel group shown in 12A to Figure 12 B is similar to the sub-pixel group 200 of Fig. 8, thus like or similar Element represent with same or analogous symbol, and explanation is not repeated.It is described separately below with reference to graphic The sub-pixel arrangement of each sub-pixel group of this exemplary embodiment.

Refer to Figure 12 A, sub-pixel group 200c is 24 sub-pixels that four row six arrange (4 × 6) matrix arrangement, It is respectively eight red sub-pixel R, eight green sub-pixels G, eight blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Specifically, by a left side, the right side is sequentially red son to the first row of sub-pixel group 200c Pixel R, green sub-pixels G, blue subpixels B, green sub-pixels G, red sub-pixel R are with blue Sub-pixels B, by a left side, the right side is sequentially blue subpixels B, green son to second row of sub-pixel group 200c Pixel G, red sub-pixel R, blue subpixels B, red sub-pixel R and green sub-pixels G, son By a left side, the right side is sequentially red sub-pixel R, green sub-pixels G, blue son to the third line of pixel group 200c Pixel B, green sub-pixels G, red sub-pixel R and blue subpixels B, and sub-pixel group 200c Fourth line by left and the right side is sequentially blue subpixels B, green sub-pixels G, red sub-pixel R, indigo plant Sub-pixels B, red sub-pixel R and green sub-pixels G.In other words, the of sub-pixel group 200c By a left side, the right side is sequentially the first pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell to a line PU3, by a left side, the right side is sequentially the second pixel cell PU2, the 3rd pixel to second row of sub-pixel group 200c Unit PU3 and the first pixel cell PU1, the third line of sub-pixel group 200c is sequentially the by the left and right side One pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 and sub-pixel group 200c Fourth line by left and the right side is sequentially the second pixel cell PU2, the 3rd pixel cell PU3 and the first pixel Unit PU1.

Refer to Figure 12 B, sub-pixel group 200d is 24 sub-pixels that four row six arrange (4 × 6) matrix arrangement, It is respectively eight red sub-pixel R, eight green sub-pixels G, eight blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially blue sub-picture to the first row of sub-pixel group 200d Element B, green sub-pixels G, red sub-pixel R, green sub-pixels G, blue subpixels B are with red Sub-pixel R, by a left side, the right side is sequentially red sub-pixel R, green sub-picture to second row of sub-pixel group 200d Element G, blue subpixels B, red sub-pixel R, blue subpixels B and green sub-pixels G, sub-picture By a left side, the right side is sequentially blue subpixels B, green sub-pixels G, red sub-picture to the third line of element group 200d Element R, green sub-pixels G, blue subpixels B and red sub-pixel R, and sub-pixel group 200d By a left side, the right side is sequentially red sub-pixel R, green sub-pixels G, blue subpixels B, redness to fourth line Sub-pixel R, blue subpixels B and green sub-pixels G.In other words, the first of sub-pixel group 200d By a left side, the right side is sequentially the second pixel cell PU2, the first pixel cell PU1 and the 3rd pixel cell to row PU3, by a left side, the right side is sequentially the first pixel cell PU1, the 3rd pixel to second row of sub-pixel group 200d Unit PU3 and the second pixel cell PU2, the third line of sub-pixel group 200d is sequentially the by the left and right side Two pixel cell PU2, the first pixel cell PU1 and the 3rd pixel cell PU3 and sub-pixel group 200d Fourth line by left and the right side is sequentially the first pixel cell PU1, the 3rd pixel cell PU3 and the second pixel Unit PU2.Particularly, by all red sub-pixel in the sub-pixel of the sub-pixel group 200c of Figure 12 A R all replaces with blue subpixels B, and all blue subpixels B all replace with red sub-pixel R can Obtain the sub-pixel group 200d in Figure 12 B.

For convenience of explanation, Figure 13 only illustrates four sub-pixel groups 200, and omit sub-pixel scan line, The components such as data wire and driving element.As shown in figure 13, pel array 1200 is by sub-pixel group 200 The array that repeated arrangement is formed.It is noted that the present invention does not limit composition pel array 1200 Sub-pixel group, such as, in this exemplary embodiment, pel array 1200 is by the sub-pixel of Figure 12 A Group 200c is formed.But, the present invention is also not limited to this, such as, in another exemplary embodiment, as Pixel array 1200 is made up of sub-pixel group 200d or other sub-pixels group of Figure 12 B.

Refer to Figure 13, in the pel array 1200 of Figure 13, adjacent to each 3rd pixel cell PU3 Pixel cell all there is green sub-pixels G.For example, in this exemplary embodiment, the 3rd pixel Unit PU3 includes red sub-pixel R and blue subpixels B, therefore, with the 3rd pixel cell 70 is Example, four pixel cells adjacent to this 3rd pixel cell 70 all have green sub-pixels G.Due to green The brightness of sub-pixels G is higher, and the pixel cell therefore with green sub-pixels G is able to maintain that display surface The resolution of plate, and the brightness without the pixel cell of green sub-pixels G is relatively low, it can cause and be shown Dim spot in the image shown, accordingly, surrounds display floater by the pixel cell with green sub-pixels G Each 3rd pixel cell 70 in 1000 can maintain resolution and the display image of display floater effectively Quality.

Referring again to Figure 13, here, be same as first and second exemplary embodiment, at pel array 1200 Line direction D_xOn, each green sub-pixels G is at this line direction D_xOn the most non-conterminous, and adjacent to often The sub-pixel of one green sub-pixels G can be red sub-pixel R and blue subpixels B respectively.Particularly, Due to each adjacent redness in the display floater 1000 of exemplary embodiment of the present invention, green, basket dice Spacing between pixel will not be too small, therefore, display floater 1000 can be made to have by this Rankine-Hugoniot relations good Good colour mixture result and reduce manufacture difficulty.On the other hand, at every string of pel array 1200 In pixel cell, each green sub-pixels G is at column direction D_yOn be positioned at the same sides of centrage of this row. For example, as shown in figure 13, green sub-pixels G in the pixel cell of jth row is positioned at jth row The right side of centrage 802.Similarly, green sub-pixels G in the pixel cell of jth+1 row is positioned at the The right side of the centrage 804 of j+1 row, and by that analogy, in this exemplary embodiment, the picture of every string Green sub-pixels G in element unit can be positioned at the right side of the centrage of its column.Stated differently, since Green sub-pixels G in every string pixel cell is along column direction D_yIn a linear array, can't be inclined Moving its corresponding centrage (that is, being positioned at the same side of centrage), therefore, the brightness in display floater regards Feel center can be consistent, thus can maintain the definition of display floater.

Refer to Figure 14 A, here, for the arrangement mode clearly showing that pixel cell, represent with circle The first pixel cell PU1 in pel array 1200, with in triangular representation pel array 1200 Two pixel cell PU2, and the 3rd pixel cell PU3 in pel array 1200 is represented with rectangle.? In this exemplary embodiment, it is same as the second exemplary embodiment, sub-pixel group 100 picture arranged At least some of first pixel cell PU1 in pixel array 1200 is relative to pel array 1200 Column direction D_yThe upper arrangement of first direction D1 tilted, and another part the first pixel cell PU1 be Column direction D relative to pel array 1200_yArrange in second direction D2 tilted.Additionally, at least A part the second pixel cell PU2 is to arrange on described first direction D1, and another part the second picture Element unit PU2 is to arrange in described second direction D2.Similarly, at least some of 3rd pixel list Unit PU3 is to arrange on described first direction D1, and another part the 3rd pixel cell PU3 is in institute State and arrange in second direction D2.And, it is notable that described first direction D1 and described second Direction D2 is not parallel.

Refer to Figure 14 B, in more detail, in this exemplary embodiment, with the second exemplary embodiment Difference is, at the column direction D of pel array 1200_yOn jth row with jth+3 arrange in, often One in the middle of the second pixel cell PU2, and first it is provided with between one the first pixel cell PU1 Pixel cell PU1 and the second pixel cell PU2 is staggered.Here, with this pel array 1200 Jth+3 is classified as example, in jth+3 arranges, adjacent to four pixel cells difference of the second pixel cell 80 It is a 3rd pixel cell PU3 and three the first pixel cell PU1, and this 3rd pixel list Unit PU3 is positioned at first side (that is, right side) of the second pixel cell PU2, and these three the first pixel lists Unit PU1 lay respectively at second side (that is, upside) of the second pixel cell 80, the 3rd side (that is, left side) with 4th side (that is, downside), wherein adjacent to two of the second side and the 3rd side of the second pixel cell 80 the One pixel cell PU1 (that is, first pixel cell 90 and the first pixel cell 94) is in the first direction dl Arrangement, and two the first pixel cells of the 3rd side and the 4th side adjacent to the second pixel cell 80 PU1 (that is, the first pixel cell 94 and the first pixel cell 92) arranges in a second direction d 2.Change sentence Talking about, the first pixel cell in this jth+3 row can PU1 (that is, the first pixel cell 90 and the first pixel Unit 92) with adjacent to this jth+3 row the first pixel cell PU1 (that is, jth+2 row in the first pixel Unit 94) present zigzag arrangement, and similarly, all first pixel cells in this jth+3 arranges All first pixel cell PU1 during PU1 can arrange with jth+2 present zigzag arrangement.

By that analogy, each 3rd pixel cell PU3 in jth+2 row can be with the arranged adjacent to jth+2 Each second pixel cell PU2 that three pixel cell PU3 present in zigzag arrangement, and jth+4 row can be with The second pixel cell PU2 adjacent to jth+4 row presents zigzag arrangement.In other words, at this example In embodiment, at least some of first pixel cell PU1 in pel array 1200, at least some of Two pixel cell PU2 arrange in the first direction dl with at least some of 3rd pixel cell PU3, and Another part the first pixel cell PU1, another part the second pixel cell PU2 and another part the 3rd picture Element unit PU3 can arrange in a second direction d 2, thus the first pixel cell in pel array 1200 PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 can be arranged in first as shown in fig. 14 a On direction D1 and second direction D2 and present zigzag arrangement respectively.It should be noted that at this In bright exemplary embodiment, the first side and the 3rd side are D in the row direction_xUpper adjacent with each pixel cell two Side, the second side and the 4th side are at column direction D_yThe upper both sides adjacent with each pixel cell.

For convenience of explanation, Figure 15 only illustrates a sub-pixel group 300, and right those skilled in the art should Understanding, multiple sub-pixel groups 300 can form pel array 1200 as shown in Figure 1.This exemplary embodiment Sub-pixel group 300 include six sub-pixels, each sub-pixel each include a scan line, one Data wire and a driving element T.Element T is driven to be electrically connected with scan line and data wire.As Shown in Fig. 8, one of this exemplary embodiment sub-pixel group 300 include two scan lines SL1 and SL2 with And three data line DL1～DL3.Here, by the pel array of sub-pixel group 300 repeated arrangement Multiple first pixel cell PU1, multiple second pixel cell PU2 and the multiple 3rd can be included in 1200 Pixel cell PU3, each of which pixel cell can include the sub-pixel of two different colours.Such as, exist In this exemplary embodiment, the first pixel cell PU1, the second pixel cell PU2 and the 3rd pixel cell In PU3, the arrangement mode of the sub-pixel of two different colours is the same as the arrangement shown in Fig. 4 A to Fig. 4 F Mode, no longer repeats at this.

Figure 16 A and Figure 16 B be based on the sub-pixel group depicted in the present invention the 4th exemplary embodiment on regard Schematic diagram.For convenience of explanation, Figure 16 A and Figure 16 B omits and illustrates scan line SL1, SL2 and number According to components such as line DL1～DL3 and driving element T.Figure 16 A and the sub-pixel group shown in Figure 16 B with The sub-pixel group 300 of Figure 15 is similar, and thus like or similar element represents with same or analogous symbol, And explanation is not repeated.Sub-picture below with reference to the graphic each sub-pixel group being described separately this exemplary embodiment Element arrangement mode.

Refer to Figure 16 A, sub-pixel group 300a is 6 sub-pixels that two row three arrange (2 × 3) matrix arrangement, It is respectively two red sub-pixel R, two green sub-pixels G, two blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Specifically, by a left side, the right side is sequentially green son to the first row of sub-pixel group 300a Pixel G, red sub-pixel R and blue subpixels B, and second row of sub-pixel group 300a is by a left side The right side is sequentially green sub-pixels G, blue subpixels B and red sub-pixel R.

Refer to Figure 16 B, sub-pixel group 300b is 6 sub-pixels that two row three arrange (2 × 3) matrix arrangement, It is respectively two red sub-pixel R, two green sub-pixels G, two blue subpixels B.Change sentence Talk about, sub-pixel numbers ratio (that is, red sub-pixel R: green sub-pixels G: blue son of different colours Pixel B) it is 1:1:1.Similarly, by a left side, the right side is sequentially green sub-picture to the first row of sub-pixel group 300b Element G blue subpixels B and red sub-pixel R, second row of sub-pixel group 300b is by the left and right side sequentially For green sub-pixels G, red sub-pixel R and blue subpixels B.Particularly, by the sub-picture of Figure 16 A All red sub-pixel R in the sub-pixel of element group 300a all replace with blue subpixels B, and all Blue subpixels B all replaces with the sub-pixel group 300b that red sub-pixel R can get in Figure 16 B.

For convenience of explanation, Figure 17 only illustrates eight sub-pixel groups 300, and omit sub-pixel scan line, The components such as data wire and driving element.As shown in figure 17, pel array 1200 is by sub-pixel group 300 The array that repeated arrangement is formed.It is noted that the present invention does not limit composition pel array 1200 Sub-pixel group, such as, in this exemplary embodiment, pel array 1200 is by the sub-pixel of Figure 16 A Group 300a is formed.But, the present invention is also not limited to this, such as, in another exemplary embodiment, as Pixel array 1200 can be made up of the sub-pixel group 300b of Figure 16 B or other sub-pixels group.

Refer to Figure 17, at the line direction D of pel array 1200_xOn, each green sub-pixels G is at this Line direction D_xOn the most non-conterminous, and can be red respectively adjacent to the sub-pixel of each green sub-pixels G Sub-pixel R and blue subpixels B.Especially since the display floater 1000 of exemplary embodiment of the present invention In each adjacent redness, green, spacing between basket sub-pixels will not be too small, therefore, by This Rankine-Hugoniot relations can make display floater 1000 have good colour mixture result and reduce manufacture difficulty.Separately On the one hand, in the pixel cell of every string of pel array 1200, each green sub-pixels G is at row Direction D_yOn be positioned at the same sides of centrage of this row.For example, as shown in figure 17, jth arranges Green sub-pixels G in pixel cell is positioned at the left side of the centrage 902 of jth row.Similarly, jth+1 Green sub-pixels G in the pixel cell of row is positioned at the right side of centrage 904 of jth+1 row, and with This analogizes, and in this exemplary embodiment, green sub-pixels G in the pixel cell of every string can be positioned at it The right side of the centrage of column or left side.Stated differently, since the green son in every string pixel cell Pixel G is along column direction D_yIn a linear array, its corresponding centrage (that is, position can't be offset The same side in centrage), therefore, the brightness vision center in display floater can be consistent, thus can maintain The definition of display floater.

Refer to Figure 18 A, here, for the arrangement mode clearly showing that pixel cell, represent with circle The first pixel cell PU1 in pel array 1200, with in triangular representation pel array 1200 Two pixel cell PU2, and the 3rd pixel cell PU3 in pel array 1200 is represented with rectangle.? In this exemplary embodiment, sub-pixel group 100 at least in the pel array 1200 arranged Dividing the first pixel cell PU1 is at the column direction D relative to pel array 1200_yThe first direction tilted The upper arrangement of D1, and another part the first pixel cell PU1 is in the row side relative to pel array 1200 To D_yArrange in second direction D2 tilted.Additionally, in this exemplary embodiment, at least some of Two pixel cell PU2 are to arrange on described first direction D1, and another part the second pixel cell PU2 It is to arrange in described second direction D2.It should be noted that described first direction D1 and described second Direction D2 is not parallel.Here, be, at this model with the difference of the first to the 3rd exemplary embodiment In example embodiment, whole 3rd pixel cell PU3 can be at the column direction D of pel array 1200_yUpper arrangement.

It is to say, in this exemplary embodiment, each first pixel cell PU1, each second pixel cell PU2 and each 3rd pixel cell PU3 can be at the line direction D of pel array 1200_xAlternate, and And at each column direction D of pel array 1200_yOn, only adjacent to two of each first pixel cell PU1 Pixel cell can be different from the first pixel cell PU1, and adjacent to the two of each second pixel cell PU2 Individual pixel cell is different from the second pixel cell PU2, and adjacent to two of each 3rd pixel cell PU3 Pixel cell is all the 3rd pixel cell PU3.

Refer to Figure 18 B, in more detail, in this exemplary embodiment, at the row of pel array 1200 Direction D_xOn, it is provided with in the middle of the first pixel cell PU1 between each the 3rd pixel cell PU3 One with the second pixel cell PU2 in the middle of one.Column direction D at pel array 1200_yOn During j row, jth+1 row, jth+3 row arrange with jth+4, the first pixel cell PU1 and the second pixel cell PU2 can be at the column direction D of pel array 1200_yAlternate, and in jth+2 row and jth+5 In row, the 3rd pixel cell PU3 can be at the column direction D of pel array 1200_yUpper arrangement.It is worth mentioning , in this exemplary embodiment, the first pixel cell PU1 of jth row and the first picture of jth+1 row Element unit PU1 will not be adjacent, and the first picture that the first pixel cell PU1 of jth+3 row arranges with jth+4 Element unit PU1 also will not be adjacent.Such as, the first pixel cell 182 and the first pixel cell 184 will not Adjacent.Therefore, as a example by the first pixel cell PU1 of jth row, it can be with the arranged adjacent to jth One pixel cell PU1 (that is, the first pixel cell PU1 of jth+1 row) presents zigzag arrangement.Similarly, Second pixel cell PU2 of jth row will not be adjacent with the second pixel cell PU2 that jth+1 arranges, and the Second pixel cell PU2 of j+3 row also will not be adjacent with the second pixel cell PU2 that jth+4 arranges.Example As, the second pixel cell 186 will not be adjacent with the second pixel cell 188.Therefore, with jth+1 row As a example by second pixel cell PU2, it can be adjacent to the second pixel cell PU2 (that is, jth of jth+1 row Second pixel cell PU2 of row) present zigzag arrangement.

At least some of first pixel cell accordingly, in this exemplary embodiment, in pel array 1200 PU1 arranges in the first direction dl with at least some of second pixel cell PU2, and another part One pixel cell PU1 can arrange in a second direction d 2 with another part the second pixel cell PU2.And And whole 3rd pixel cell PU3 can be at the column direction D of pel array 1200_yUpper arrangement, thus pixel The first pixel cell PU1 and the second pixel cell PU2 in array 1200 can arrange as shown in figure 18 It is listed in first direction D1, second direction D2, and is arranged in column direction D_yOn, and the first pixel Unit PU1, the second pixel cell PU2 and the 3rd pixel cell PU3 present zigzag arrangement respectively with straight Line arranges.

It is noted that in this exemplary embodiment, in each the first of the odd-numbered line of pel array 1200 Pixel cell PU1, each second pixel cell PU2 and two sub-pixels in each 3rd pixel cell PU3 Arrangement respectively with each first pixel cell PU1 of the even number line at pel array 1200, each second pixel Unit PU2 is contrary with the arrangement of two sub-pixels in each 3rd pixel cell PU3.For example, please Referring concurrently to Figure 17 Yu Figure 18 B, two sub-pixels at the first pixel cell 182 of odd-numbered line are sequentially Green sub-pixels G and red sub-pixel R, and two sub-pictures of the first pixel cell 184 in even number line Element is then sequentially red sub-pixel R and green sub-pixels G.Similarly, at the second pixel list of odd-numbered line Two sub-pixels of unit 186 are sequentially blue subpixels B and green sub-pixels G, and in the of even number line Two sub-pixels of two pixel cells 188 are then sequentially green sub-pixels G and blue subpixels B.Further, Two sub-pixels at the 3rd pixel cell 190 of odd-numbered line are sequentially red sub-pixel R and blueness sub-picture Element B, two sub-pixels at the first pixel cell 184 of even number line are then sequentially blue subpixels B With red sub-pixel R.

In sum, in the display floater of the present invention, its have based on equal number of red sub-pixel, The sub-pixel group that blue subpixels and green sub-pixels are constituted, thus can promote display floater yield and Easily manufacture.Furthermore, the display floater of the present invention can be by the row of the pixel cell with green sub-pixels Row mode, maintains the resolution of display floater and the quality of display image.Additionally, the display of the present invention Panel is by the number of minimizing pixel cell sub-pixel, so that picture element density during display image reduces, Thus can promote the penetrance of display floater and improve manufacture difficulty and the energy consumption of high-res display floater. Consequently, it is possible to the display floater of the present invention can have good pixel penetrance, definition and low power consumption simultaneously.

Claims

1. a display floater, it is characterised in that including:

Multiple sub-pixel groups, repeated arrangement is to form pel array, and respectively this sub-pixel group includes multiple first Pixel cell, multiple second pixel cell and multiple 3rd pixel cell, respectively this first pixel list Unit includes the first color sub-pixels and the second color sub-pixels, and respectively this second pixel cell includes this second face Sub-pixels and the 3rd color sub-pixels, respectively the 3rd pixel cell includes this first color sub-pixels and is somebody's turn to do 3rd color sub-pixels, and this first color sub-pixels, this second color sub-pixels and the 3rd color Sub-pixel is the sub-pixel of three kinds of different colours,

At least a part of which a part these first pixel cells arrange in a first direction, at least partially these Second pixel cell arranges in the first direction, and this first direction is relative to the row of this pel array Direction tilts.

2. display floater as claimed in claim 1, respectively this first pixel cell, respectively this second picture Element unit with each the 3rd pixel cell at the line direction alternate of this pel array,

Wherein on respectively this column direction of this pel array, adjacent to two pictures of respectively this first pixel cell Element unit be different from this first pixel cell, adjacent to respectively this second pixel cell two pixel cells not It is same as this second pixel cell and two pixel cells adjacent to respectively the 3rd pixel cell are different from this 3rd pixel cell.

3. display floater as claimed in claim 1, at least a part of which these the 3rd pixel cells of a part exist Arrange on this first direction.

4. display floater as claimed in claim 3, wherein these first pixel cells of another part are the Arranging on two directions, these second pixel cells of another part arrange in this second direction, another part These the 3rd pixel cells arrange in this second direction, and this second direction is relative to this pel array This column direction tilt.

5. display floater as claimed in claim 4, wherein this first direction and this second direction are not parallel.

6. display floater as claimed in claim 5, wherein many on this column direction of this pel array In individual first row, respectively between this first pixel cell, it is provided with these second pixel cells and these the 3rd pictures In the middle of element unit one, and these second pixel cells and these the 3rd pixel cells respectively this first It is staggered between pixel cell,

Wherein in these first rows of this pel array, adjacent to four pictures of respectively this second pixel cell Element unit is respectively the 3rd pixel cell and three the first pixel cells, and this 3rd pixel Unit is positioned at the first side of respectively this second pixel cell, and these three first pixel cells lay respectively at respectively Second side of this second pixel cell, the 3rd side and the 4th side, wherein adjacent to respectively this second pixel cell These two the first pixel cells of this second side and the 3rd side arrange in the first direction, and adjacent It is arranged in this with these two first pixel cells of the 4th side in the 3rd side of respectively this second pixel cell In second direction,

Wherein in these first rows of this pel array, adjacent to four pictures of respectively the 3rd pixel cell Element unit is respectively three the first pixel cells and second pixel cell, and these three first pixels Unit lays respectively at respectively this first side of the 3rd pixel cell, this second side and the 4th side, and should One the second pixel cell is positioned at the 3rd side of respectively the 3rd pixel cell, wherein adjacent to the respectively the 3rd This first side of pixel cell is arranged in this second direction with these two first pixel cells of this second side On, and these two the first pixel lists of this first side and the 4th side adjacent to respectively the 3rd pixel cell Identical permutation in the first direction,

Wherein in these first rows of this pel array, adjacent to the 4th of respectively this second pixel cell the This first pixel cell of side is this first pixel list of this first side adjacent to respectively the 3rd pixel cell Unit, and respectively the first pixel cell in this first row can with adjacent to this respectively this first row these first Pixel cell presents a zigzag arrangement,

Wherein this first side and the 3rd side are on this line direction adjacent with respectively this second pixel cell two Side, this second side is both sides adjacent with respectively this second pixel cell on this column direction with the 4th side.

7. display floater as claimed in claim 5, wherein many on this column direction of this pel array In individual secondary series, respectively it is provided with in the middle of these second pixel cells between this first pixel cell, And these first pixel cells are staggered with these second pixel cells,

Wherein in these secondary series of this pel array, adjacent to four pictures of respectively this second pixel cell Element unit is respectively the 3rd pixel cell and three the first pixel cells, and this 3rd pixel Unit is positioned at the first side of respectively this second pixel cell, and these three first pixel cells lay respectively at respectively Second side of this second pixel cell, the 3rd side and the 4th side, wherein adjacent to respectively this second pixel cell These two first pixel cells of this second side and the 3rd side arrange in the first direction, and adjacent In the 3rd side of respectively this second pixel cell and these two first pixel cells of the 4th side this second Arrange on direction,

Wherein in these secondary series of this pel array, respectively respectively this first pixel cell in this secondary series A zigzag arrangement can be presented with respectively this first pixel cell adjacent to respectively this secondary series,

8. display floater as claimed in claim 3, wherein all these first pixel cells, all this A little second pixel cells, all these the 3rd pixel cells arrange in the first direction.

9. display floater as claimed in claim 8, wherein on this column direction of this pel array, often These first pixel cells, these second pixel cells and these the 3rd pixels in the pixel cell of string Unit is staggered,

Wherein four pixel cells adjacent to respectively this first pixel cell are respectively two the second pixel cells With two the 3rd pixel cells, and these two second pixel cells lay respectively at respectively this first pixel cell The first side and the second side, and these two the 3rd pixel cell positions are respectively at respectively this first pixel cell 3rd side and the 4th side, wherein adjacent to respectively this first pixel cell these two second pixel cells with should Two the 3rd pixel cells arrange the most in the first direction,

Wherein on this column direction of this pel array, respectively this first pixel cell in every string can be with phase Respectively this first pixel cell adjacent to these row arranges in the first direction,

Wherein this first side and the 3rd side are adjacent two on this line direction with respectively this first pixel cell Side, this second side is both sides adjacent with respectively this first pixel cell on this column direction with the 4th side.

10. display floater as claimed in claim 1, wherein these the 3rd pixel cells whole are in this pixel Arrange on this column direction of array.

11. display floaters as claimed in claim 10, wherein on the line direction of this pel array, respectively One in the middle of these first pixel cells and these the second pixel lists it are provided with between 3rd pixel cell In the middle of unit one,

Wherein in multiple 3rd row, respectively this first pixel cell and respectively this second pixel cell are in this pixel This column direction alternate of array, and in multiple 4th row, respectively the 3rd pixel cell is at this Arrange on this column direction of pel array,

Wherein in these the 3rd row of this pel array, respectively respectively this first pixel cell in the 3rd row Zigzag arrangement, and respectively the 3rd can be presented with adjacent to respectively this tertial respectively this first pixel cell Respectively this second pixel cell in row can present this with adjacent to respectively this tertial respectively this second pixel cell Zigzag arranges.

12. display floaters as claimed in claim 11, wherein this pel array odd-numbered line respectively should The row of two sub-pixels in the first pixel cell, respectively this second pixel cell and respectively the 3rd pixel cell Row respectively with respectively this first pixel cell of the even number line at this pel array, respectively this second pixel cell with Respectively the arrangement of two sub-pixels in the 3rd pixel cell is contrary.

13. display floaters as claimed in claim 1, wherein this first color in respectively this sub-pixel group Sub-pixel, this second color sub-pixels are identical with the number of the 3rd color sub-pixels.

14. display floater as claimed in claim 4, wherein this first color sub-pixels is red sub-pixel, This second color sub-pixels is green sub-pixels, and the 3rd color sub-pixels is blue subpixels,

Wherein in this pel array, the pixel cell adjacent to each 3rd pixel cell all has this Second color sub-pixels.

15. display floaters as claimed in claim 8, wherein this first color sub-pixels is red sub-pixel, This second color sub-pixels is green sub-pixels, and the 3rd color sub-pixels is blue subpixels,

16. display floaters as claimed in claim 1, wherein this first color sub-pixels is red sub-pixel, This second color sub-pixels is green sub-pixels, and the 3rd color sub-pixels is blue subpixels,

Wherein on the line direction of this pel array, this second color sub-pixels each on this line direction all Non-conterminous, and the sub-pixel adjacent to this second color sub-pixels each is respectively this first color sub-pixels With the 3rd color sub-pixels.

17. display floaters as claimed in claim 1, wherein this first color sub-pixels is red sub-pixel, This second color sub-pixels is green sub-pixels, and the 3rd color sub-pixels is blue subpixels,

Wherein in the pixel cell of every string of this pel array, this second color sub-pixels each is at this The same side of the centrage of these row it is positioned on column direction.