CN105741791B - Display device and its drive module - Google Patents

Abstract

The invention discloses a kind of display device and its drive module, the display device includes multiple sub-pixel groups, wherein each sub-pixel group includes the first sub-pixel in the multiple sub-pixel group, is located at the first row；Second sub-pixel is positioned adjacent to the second row of the first row；Third sub-pixel is positioned adjacent to the third line of the second row；4th sub-pixel is positioned adjacent to the fourth line of the third line；And the 5th sub-pixel, it is located at the third line and fourth line；Wherein the height of the first sub-pixel is equal to the height of the second sub-pixel；Wherein the height of the first sub-pixel is more than the height of third sub-pixel, the 4th sub-pixel and the 5th sub-pixel；The height phase exclusive or of wherein the first sub-pixel be equal to height between third sub-pixel or the 4th sub-pixel and the 5th sub-pixel and；The height phase exclusive or of wherein the 5th sub-pixel is equal to the height of third sub-pixel and the height of the 4th sub-pixel.

Description

Display device and its drive module

Technical field

The present invention relates to a kind of display device and its drive modules, more particularly to one kind to be subtracted by changing pixel arrangements Few power consumption and the display device and its drive module for increasing brightness.

Background technology

Liquid crystal display (Liquid Crystal Display, LCD) has that external form is frivolous, Low emissivity, small and low The advantages that energy consumption, is widely used on the information products such as notebook computer or flat-surface television.Therefore, liquid crystal display by Traditional cathode-ray tube display (Cathode Ray Tube Display) is gradually replaced to become the market mainstream, wherein again with master Dynamic matrix form Thin Film Transistor-LCD (Active Matrix TFT LCD) is most popular.In simple terms, active-matrix The drive system of formula Thin Film Transistor-LCD is by time schedule controller (Timing Controller), source drive Device (Source Driver) and gate drivers (Gate Driver) are constituted.Source electrode driver and gate drivers difference Data line (Data Line) and scan line (Scan Line) are controlled, intersects to form circuit unit matrix on panel, And each circuit unit (Cell) includes liquid crystal molecule and transistor.The displaying principle of liquid crystal display is that gate drivers first will Scanning signal is sent to the grid of transistor, and transistor turns are made, and the data that then source electrode driver sends sequence controller turn After changing output voltage into, output voltage is sent to the source electrode of transistor, the voltage of liquid crystal one end can be equal to transistor drain at this time Voltage, and change according to drain voltage the angle of inclination of liquid crystal molecule, and then change light transmittance and reach display different colours Purpose.

Picture quality shown by liquid crystal display can be by calculating the pixel number on a direction included by liquid crystal display Mesh is learnt.For example, user can be sentenced per English inch number of pixels (pixels per inch, PPI) to obtain by calculating The foundation of the picture quality of disconnected liquid crystal display.Referring to FIG. 1, Fig. 1 is relationship between picture quality and every English inch number of pixels Schematic diagram.As shown in Figure 1, proportional relation is presented between picture quality and every English inch number of pixels.However, the identification capability of human eye has Limit, after every English inch number of pixels of liquid crystal display surmounts a threshold value, human eye can not often be differentiated every on liquid crystal display One pixel.That is, image received by human eye just mesh free shape.

For example, in the case of at a distance from the human eye with liquid crystal display for 12 English inch, when every English of liquid crystal display Inch number of pixels surmounts 286, and human eye is just difficult to recognize the distance on liquid crystal display between pixel.That is, liquid crystal display Every English inch number of pixels only need to reach 286, you can so that human eye is received the image of mesh free shape.In addition, each pixel can The sub-pixel numbers corresponded to can also be reduced therewith, to promote the aperture opening ratio of liquid crystal display and reduce the work(of liquid crystal display Rate consumes.Therefore, the number for sub-pixel how being reduced under the premise of maintaining picture quality becomes the view that discussion is wanted for industry Topic.

Invention content

In order to solve the problem above-mentioned, the present invention provides a kind of by changing sub-pixel arrangement reduction power consumption and increase The display device and its drive module of brightness.

The present invention discloses a kind of display device, including multiple sub-pixel groups, wherein each son in the multiple sub-pixel group Pixel groups include one first sub-pixel, are located at a first row；One second sub-pixel is positioned adjacent to the one second of the first row Row；One third sub-pixel is positioned adjacent to the third line for second row；One the 4th sub-pixel is positioned adjacent to described One fourth line of three rows；And one the 5th sub-pixel, it is located at described the third line and the fourth line；Wherein described first sub-pixel Height be equal to second sub-pixel height；The height of wherein described first sub-pixel is more than the third sub-pixel, institute State the height of the 4th sub-pixel and the 5th sub-pixel；The height of wherein described first sub-pixel is different from or equal to described the Height between three sub-pixels or the 4th sub-pixel and the 5th sub-pixel and；The height phase of wherein described 5th sub-pixel Different from or equal to the height of the third sub-pixel and the height of the 4th sub-pixel.

Invention additionally discloses a kind of drive module, the display devices for including multiple sub-pixel groups for one, for driving It states display device and shows image, wherein each sub-pixel group includes one first sub-pixel in the multiple sub-pixel group, be located at one The first row；One second sub-pixel is positioned adjacent to one second row of the first row；One third sub-pixel, is positioned adjacent to institute State the third line for the second row；One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；And one the 5th sub- picture Element is located at described the third line and the fourth line；The height of wherein described first sub-pixel is equal to the height of second sub-pixel Degree；The height of wherein described first sub-pixel is more than the third sub-pixel, the 4th sub-pixel and the 5th sub-pixel Height；The height of wherein described first sub-pixel is different from or equal to the third sub-pixel or the 4th sub-pixel and institute State height between the 5th sub-pixel and；The height of wherein described 5th sub-pixel be different from or equal to the third sub-pixel height The height of degree and the 4th sub-pixel.

Invention additionally discloses a kind of display devices, including multiple sub-pixel groups, wherein each in the multiple sub-pixel group Sub-pixel group includes one first sub-pixel, is located at a first row；One second sub-pixel is positioned adjacent to the one of the first row Two rows；One third sub-pixel is positioned adjacent to the third line for second row；One the 4th sub-pixel is positioned adjacent to described One fourth line of the third line；One the 5th sub-pixel is located at second row；And one the 6th sub-pixel, it is located at described the third line And the fourth line；Wherein the height of the first sub-pixel is more than the second sub-pixel, third sub-pixel, the 4th sub-pixel, the 5th son The height of pixel and the 6th sub-pixel；The height of wherein described first sub-pixel is different from or is equal to second sub-pixel and institute State the 5th sub-pixel height and；The height of wherein described first sub-pixel is different from or is equal to the third sub-pixel or described Height between 4th sub-pixel and the 6th sub-pixel and；The height of wherein described second sub-pixel is different from or equal to described The height of 5th sub-pixel, and the height of the 6th sub-pixel is different from or equal to the height of the third sub-pixel and described The height of 4th sub-pixel.

Invention additionally discloses a kind of drive module, the display devices for including multiple sub-pixel groups for one, for driving It states display device and shows image, wherein each sub-pixel group includes one first sub-pixel in the multiple sub-pixel group, be located at one The first row；One second sub-pixel is positioned adjacent to one second row of the first row；One third sub-pixel, is positioned adjacent to institute State the third line for the second row；One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；One the 5th sub-pixel, Positioned at second row；And one the 6th sub-pixel, it is located at described the third line and the fourth line；The wherein height of the first sub-pixel Height of the degree more than the second sub-pixel, third sub-pixel, the 4th sub-pixel, the 5th sub-pixel and the 6th sub-pixel；It is wherein described The height of first sub-pixel be different from or equal to second sub-pixel and the 5th sub-pixel height and；Wherein described The height of one sub-pixel is different from or equal between the third sub-pixel or the 4th sub-pixel and the 6th sub-pixel Height and；The height of wherein described second sub-pixel be different from or equal to the 5th sub-pixel height, and it is described 6th son The height of pixel is different from or equal to the height of the third sub-pixel and the height of the 4th sub-pixel.

Description of the drawings

The schematic diagram of Fig. 1 relationships between picture quality and per inch number of pixels.

Fig. 2 is the schematic diagram of one display device of the embodiment of the present invention.

Fig. 3 is the schematic diagram of a sub-pixel group in Fig. 2.

Fig. 4 is the schematic diagram of one display device of the embodiment of the present invention.

Fig. 5 is the schematic diagram of a sub-pixel group in Fig. 4.

Fig. 6 is the schematic diagram of one display device of the embodiment of the present invention.

Fig. 7 is the schematic diagram of one display device of the embodiment of the present invention.

Fig. 8 is the schematic diagram of one sub-pixel group of the embodiment of the present invention.

Fig. 9 is the schematic diagram of circuit layout in display device shown in fig. 6.

Figure 10 is the schematic diagram of one display device of the embodiment of the present invention.

Figure 11 is the schematic diagram of a sub-pixel group in Figure 10.

Figure 12 is the schematic diagram of one display device of the embodiment of the present invention.

Figure 13 is the schematic diagram of a sub-pixel group in Figure 12.

Figure 14 is the schematic diagram of one display device of the embodiment of the present invention.

Figure 15 is the schematic diagram of one display device of the embodiment of the present invention.

Figure 16 is the schematic diagram of one sub-pixel group of the embodiment of the present invention.

Figure 17 is the schematic diagram of circuit layout in display device shown in fig. 6.

Figure 18 is the schematic diagram of another circuit layout of display device shown in fig. 6.

Figure 19 is the schematic diagram of display device shown in fig. 6 and another circuit layout.

Wherein, the reference numerals are as follows：

20,40,60,70,100,120,150 display device

CD row driving units

DL1~DLx, DLn~DLn+17 data lines

DRI drive modules

L1~L6 height

RD row driving units

SL1~SLy, SLm~SLm+4 scan lines

SP1~SP12 sub-pixels

SPG1~SPG10 sub-pixel groups

V1~V4 vertical displacements

W1, W2 horizontal displacement

Specific implementation mode

The present invention by different subpixel arrange in the way of, reduce the sub-pixel numbers arrived corresponding to each pixel.According to This, the aperture opening ratio of liquid crystal display device and brightness can get and promoted, and the power consumption of liquid crystal display device and layout area can Further it is lowered.

Referring to FIG. 2, Fig. 2 is the schematic diagram of one display device 20 of the embodiment of the present invention.Display device 20 can be include one The electronic product of liquid crystal display panel, such as TV, intelligent moving phone, tablet computer, but not limited to this.Fig. 2 is only shown The sub-pixel of part is as representative in display device 20.It is noted that Fig. 2 is used for introducing opposite arrangement position between sub-pixel It sets, and does not limit the actual Aspect Ratio of each sub-pixel.As shown in Fig. 2, display device 20 includes the sub- picture of multiple repeated arrangements Element group SPG1 (Fig. 2 only indicates a sub- pixel groups SPG1 as representative).To ask simple declaration, referring to FIG. 3, Fig. 3 is in Fig. 2 The schematic diagram of sub-pixel group SPG1.In figure 3, sub-pixel group SPG1 includes sub-pixel SP1~SP5.Sub-pixel SP1 is located at jth Row and i-th, i+1 row, sub-pixel SP2 are located at+1 row of jth and i-th, i+1 row, and sub-pixel SP3 is located at+2 row of jth and i+1 row, Sub-pixel SP4 is located at+3 row of jth and i+1 row, and sub-pixel SP5 is then located at jth+2, j+3 rows and the i-th row.Wherein, sub-pixel SP3, SP4 and sub-pixel SP5 have similar and different height.Pass through the arrangement mode of above-mentioned sub-pixel SP1~SP5, son Pixel groups SPG1 can correspond to 2 pixels.That is, the pixel quantity needed for single pixel is reduced, it is aobvious to improve The aperture opening ratio of showing device 20, and reduce the power consumption of display device 20.

Specifically, sub-pixel SP1, SP2 can height L1 having the same, sub-pixel SP3, SP4 can height having the same L2 is spent, and the height of sub-pixel SP5 is height L3.Wherein, height L1 is more than height L2, L3, and height L2 is more than or equal to height L3, And height L1 be different from or equal to height L2 and height L3's and.In other words, the row where sub-pixel SP3~SP5 are overlapped in son Row where pixel SP1, SP2.

In this embodiment, sub-pixel SP1~SP5 corresponds respectively to blue, green, red, green and white.Wherein, There is different area corresponding to the sub-pixel SP2 and SP4 of green.Pass through the newly-increased sub-pixel SP5 corresponding to white, display dress Setting 20 brightness can be elevated, and then reduce the power consumption of display device 20.Further, sub-pixel group SPG1 sub-pixels Color corresponding to SP1~SP5 can be changed according to different applications or design concept, and be not limited to color shown in Fig. 3. For example, sub-pixel SP5 can be changed to correspond to other colors (such as yellow) for being different from red blue, green.In another reality It applies in example, sub-pixel SP1~SP5 can correspond respectively to the color more than four kinds.In other words, sub-pixel group SPG1 sub-pixels SP1~SP5 can correspond at least four colors.

It is illustrated below about the correspondence between sub-pixel SPG1 sub-pixels SP1~SP5 and pixel.Such as Fig. 3 Shown, sub-pixel SP1, SP2 correspond to a pixel, and sub-pixel SP3~SP5 corresponds to another pixel.Wherein, if sub- picture Plain SP1, SP2 or sub-pixel SP3~SP5 occur to lack color problem when showing corresponding pixel, and algorithm (such as sub- picture can be used Element renders (sub-pixel rendering) algorithm) color is borrowed by the sub-pixel of surrounding, corresponding pixel is completely presented Point.In the prior art, according to the sub-pixel corresponding to white, each pixel averagely needs to correspond to 4 sub-pixels.Phase Compared under, in sub-pixel group SPG1,5 sub-pixels can correspond to 2 pixels, the son arrived corresponding to average each pixel Number of pixels drops to 2.5.Accordingly, fixed in resolution, for realizing the number of sub-pixels needed for display device 20 Mesh can be lowered, and the aperture opening ratio of display device 20 increases therewith.

In one embodiment, the displacement of vertical direction may be will produce between 20 sub-pixel of display device shown in Fig. 2.Please With reference to figure 4, Fig. 4 is the schematic diagram of one display device 40 of the embodiment of the present invention.Display device 40 can be include a liquid crystal display panel Electronic product, such as TV, intelligent moving phone, tablet computer, but not limited to this.It is noted that Fig. 4 is only shown The sub-pixel of part is as representative in display device 40.In addition, Fig. 4 is used for illustrating opposite arrangement position between sub-pixel, and not Limit the actual Aspect Ratio of each sub-pixel.As shown in figure 4, display device 40 includes the sub-pixel group SPG2 of multiple repeated arrangements (Fig. 4 only indicates a sub- pixel groups SPG2 as representative).To ask simple declaration, referring to FIG. 5, Fig. 5 is Fig. 4 sub-pixel groups The schematic diagram of SPG2.In Figure 5, sub-pixel group SPG2 includes sub-pixel SP6~SP10.Different from sub-pixel group shown in Fig. 3 SPG1, sub-pixel SP8~SP10 are moved down a vertical displacement V1, therefore sub-pixel SP8 is located at jth+2, j+3 rows and i+1 row, Sub-pixel SP9 is located at+2 row of jth and the i-th+2 row, and sub-pixel SP10 is located at+3 row of jth and the i-th+2 row.Use above-mentioned arrangement Mode, sub-pixel group SPG2 can correspond to 2 pixels, to improve the aperture opening ratio of display device 40.In sub-pixel group SPG2 Color alignment, length and width relationship and the pixel point correspondence of sub-pixel SP6~SP10 can refer to above-mentioned sub-pixel group SPG1 neutrons Pixel SP1~SP5, for the sake of clarity, this will not be repeated here.

In sub-pixel group SPG2 shown in Fig. 5, the row where sub-pixel SP8 are overlapped in where sub-pixel SP6, SP7 Row, the row where sub-pixel SP9, SP10 partially overlap the row where sub-pixel SP6, SP7.According to different application and design reason It reads, Rankine-Hugoniot relations can be suitably changed between sub-pixel group SPG2 sub-pixels SP6~SP10.For example, sub-pixel SP8~ SP10 can be changed to be translated up so that the row only where sub-pixel SP9, SP10 partially overlap sub-pixel SP6, Row where SP7.Similarly, sub-pixel SP7 also can be translated vertically.In other words, same a line is located in sub-pixel group SPG2 At least one of sub-pixel where row be overlapped in the row where sub-pixel SP6.

In one embodiment, water may be will produce between the sub-pixel group of adjacent column in display device 20 shown in Fig. 2 Square to displacement.Referring to FIG. 6, Fig. 6 is the schematic diagram of one display device 60 of the embodiment of the present invention.Display device 60 is similar to Display device 20 shown in Fig. 2, therefore element with the same function and signal continue to use identical symbol.Different from display device 20, the sub-pixel group SPG1 of adjacent column is located in display device 60 (as being located at i-th, i+1 row and positioned at the son of i-th+2, i+3 row Pixel groups SPG1) between have a horizontal displacement W1.In this embodiment, horizontal displacement W1 is 1/2 width of sub-pixel group SPG1. Thus, which the display device 60 with different subpixel arrangement mode can be formed using sub-pixel group SPG1.In addition, real herein It applies in example, sub-pixel group SPG3 shown in fig. 6 can be also considered as to the sub-pixel group of repeated arrangement.In other words, pass through repeated arrangement Display device 60 as shown in FIG. 6 also can be obtained in sub-pixel group SPG3.

In one embodiment, in display device 20 shown in Fig. 2 between sub-pixel SP1~SP5 of each sub-pixel group SPG1 There may be the displacement of vertical direction and the position of horizontal direction may be generated simultaneously between the sub-pixel group SPG1 of adjacent column It moves.Referring to FIG. 7, Fig. 7 is the schematic diagram of one display device 70 of the embodiment of the present invention.Display device 70 is similar to shown in fig. 6 Display device 60, therefore element with the same function and signal continue to use identical symbol.Different from display device 60, display dress It sets the sub-pixel in 70 positioned at j+2, j+3, j+6, j+7, j+10, j+11 row and is translated a vertical displacement V2 downwards.Implement herein In example, sub-pixel group SPG4 shown in Fig. 7 can be also considered as to the sub-pixel group of repeated arrangement.In other words, pass through repeated arrangement Pixel groups SPG4 can also obtain display device 70 as shown in Figure 7.

In one embodiment, the arrangement mode of sub-pixel group SPG1 sub-pixels SP1~SP5 shown in Fig. 3 can be suitable It changes on ground.Referring to FIG. 8, Fig. 8 is the schematic diagram of one sub-pixel group SPG5 of the embodiment of the present invention.Sub-pixel group SPG5 is similar to figure Sub-pixel group SPG1 shown in 3, therefore element with the same function and signal continue to use identical symbol.Shown in Fig. 3 Sub-pixel group SPG1, sub-pixel SP3, SP4 in sub-pixel group SPG5 be changed to be set to the i-th row, and in sub-pixel group SPG5 Sub-pixel SP5 be changed to be set to i+1 row.That is, sub-pixel group SPG5 sub-pixels SP3, SP4 and sub-pixel SP5 Location swap.

It is worth noting that, in the present invention, the position of each sub-pixel in the sub-pixel group of adjacent column is located in display device Arrangement mode is set Ji ╱ or color alignment mode can be difference.For example, the sub-pixel group of adjacent column can divide in display device It Wei not sub-pixel group SPG1 shown in Fig. 3 and sub-pixel group SPG5 shown in Fig. 8.According to different application and design concept, ability Field technique personnel should can implement suitably to change and change.

According to the sub-pixel arrangement of display device in above-described embodiment, drive module (such as driving chip) and sub-pixel Between connection relation need to redesign.For example, collective reference Fig. 6 and Fig. 9 are asked, wherein Fig. 9 is display device shown in fig. 6 The schematic diagram of circuit layout in 60.As shown in figure 9, display device 60 includes separately a drive module DRI and multiple repeated arrangements Sub-pixel group SPG1.Drive module DRI includes an a line driving unit CD and row driving unit RD, is respectively used to driving data line DL1~DLx and scan line SL1~SLy, to drive display device 60 to show image.Facilitate explanation to ask, is only shown in Fig. 9 Data line DLn~DLn+15, scan line SLm~SLm+4 and partial sub-pixel group SPG1.In the sub-pixel group positioned at the upper left corner In SPG1, sub-pixel SP1 is respectively coupled to data line DLn and scan line SLm+1；Sub-pixel SP2 is respectively coupled to data line DLn + 1 and scan line SLm+1；Sub-pixel SP3 is respectively coupled to data line DLn+3 and scan line SLm+1；Sub-pixel SP4 is respectively coupled to In data line DLn+4 and scan line SLm+1；And sub-pixel SP5 is respectively coupled to data line DLn+2 and scan line SLm.It is simple next It says, sub-pixel group SPG1 sub-pixels SP1~SP4 positioned at the upper left corner is coupled to same scan line (such as scan line SLm+1) And sub-pixel SP5 is coupled to adjacent scan line (such as scan line SLm).Sub-pixel group SPG1 sub-pixels SP1~SP5 distinguishes coupling It is connected to nearest data line.

It is noted that having different coupling between the sub-pixel SP5 and data line of the sub-pixel group SPG1 of adjacent column Connect mode.As shown in figure 9, the SP5 in another sub-pixel group SPG1 of the lower lefts sub-pixel group SPG1 in the upper left corner is changed to It is coupled to data line DLn+2, wherein data line DLn+2 is adjacent to the number for being coupled to same sub-pixel group SPG1 sub-pixels SP4 According to line DLn+1.In this situation, the sub-pixel SP5 positioned at the sub-pixel group SPG1 of adjacent column may be coupled to same data line, To lower the data line quantity realized needed for display device 60.Therefore, pass through sub-pixel shown in Fig. 9 and data line and scan line Between connection relation, the data line number needed for display device 60 realized by repeated arrangement sub-pixel group SPG1 can get It reduces, to further increase the arrangement space of display device 60.

Referring to FIG. 10, Figure 10 is the schematic diagram of one display device 100 of the embodiment of the present invention.Display device 100 can be packet The electronic product of a liquid crystal display panel, such as TV, intelligent moving phone, tablet computer are included, but not limited to this.Figure 10 is only painted Show the sub-pixel of part in display device 100 as representative.It is noted that Figure 10 is used for introducing opposite row between sub-pixel Column position, and the actual Aspect Ratio of each sub-pixel is not limited.As shown in Figure 10, display device 100 includes multiple repeated arrangements Sub-pixel group SPG6 (Figure 10 only indicate a sub- pixel groups SPG6 as represent).To ask simple declaration, 1 is please referred to Fig.1, figure 11 be the schematic diagram of Figure 10 sub-pixel groups SPG6.In fig. 11, sub-pixel group SPG6 includes sub-pixel SP11~SP16.Sub- picture Plain SP11 is located at jth row and i-th, i+1 row, and sub-pixel SP12 is located at+1 row of jth and i+1 row, sub-pixel SP13 are located at jth+2 Row and i+1 row, sub-pixel SP14 are located at+3 row of jth and i+1 row, and sub-pixel SP15 is located at+1 row of jth and the i-th row, and son Pixel SP16 is located at jth+2, j+3 rows and the i-th row.Wherein, sub-pixel SP12 has identical or different height with sub-pixel SP15 Degree, and sub-pixel SP16 also has identical or different height with sub-pixel SP13 and SP14 respectively.Pass through above-mentioned sub-pixel The arrangement mode of SP11~SP16, sub-pixel group SPG6 can correspond to 2 pixels.That is, needed for single pixel Pixel quantity is reduced, and to improve the aperture opening ratio of display device 100, and reduces the power consumption of display device 100.

Specifically, the height of sub-pixel SP11 be height L4, sub-pixel SP12~SP14 can height L5 having the same, And sub-pixel SP15, SP16 also height L6 having the same.Wherein, height L5 is greater than or equal to height L6, and height L4 is different In or equal to height L5 and height L6's and.In other words, the row where sub-pixel SP12~SP16 are overlapped in sub-pixel SP11 institutes Row.

In this embodiment, sub-pixel SP11~SP16 corresponds respectively to blue, green, red, green, white and white Color.By newly-increased sub-pixel SP15, SP16 corresponding to white, the brightness of display device 100 can be elevated, and then reduce display The power consumption of device 100.Further, the color corresponding to sub-pixel group SPG6 sub-pixels SP11~SP16 can be according to not Same application or design concept is changed, and is not limited to color shown in Figure 11.For example, sub-pixel SP11~SP16 can It is changed to correspond respectively to green, blue, green, red, white and white.In this embodiment, correspond to the sub-pixel of green SP11 and SP13 has different area.In another embodiment, sub-pixel SP15, SP16 can be changed to red corresponding to being different from Color, blue, other colors (such as yellow) of green.In still another embodiment, sub-pixel SP11~SP16 can be corresponded respectively to Color more than four kinds.In other words, sub-pixel group SPG6 sub-pixels SP11~SP16 can correspond at least four colors.

It is illustrated below about the correspondence between sub-pixel SPG6 sub-pixels SP11~SP16 and pixel.Such as figure Shown in 3, sub-pixel SP11, SP12, SP15 correspond to a pixel, and sub-pixel SP13, SP14, SP16 correspond to another pixel Point.Wherein, if sub-pixel SP11, SP12, SP15 or sub-pixel SP13, SP14, SP16 occur when showing corresponding pixel Color problem is lacked, algorithm (such as sub-pixel rendering algorithm) can be used and borrow color by the sub-pixel of surrounding, it is corresponding completely to present Pixel.In sub-pixel group SPG6,6 sub-pixels can correspond to 2 pixels, be arrived corresponding to average each pixel Sub-pixel numbers drop to 3.Accordingly, fixed in resolution, for realizing the number of sub-pixels needed for display device 100 Mesh can be lowered, and the aperture opening ratio of display device 100 increases therewith.

In one embodiment, the displacement of vertical direction may be will produce between 100 sub-pixel of display device shown in Fig. 10. Please refer to Fig.1 the schematic diagram that 2, Figure 12 is one display device 120 of the embodiment of the present invention.Display device 120 can be include a liquid crystal The electronic product of panel, such as TV, intelligent moving phone, tablet computer, but not limited to this.It is noted that Figure 12 The sub-pixel of part in display device 120 is only shown as representative.In addition, Figure 12 is used for illustrating opposite arrangement between sub-pixel Position, and the actual Aspect Ratio of each sub-pixel is not limited.As shown in figure 12, display device 120 includes multiple repeated arrangements Sub-pixel group SPG7 (Figure 12 only indicates a sub- pixel groups SPG7 as representative).To ask simple declaration, 3, Figure 13 are please referred to Fig.1 For the schematic diagram of Figure 12 sub-pixel groups SP7.In fig. 13, sub-pixel group SPG7 includes sub-pixel SP17~SP22.It is different from Sub-pixel group SPG6 shown in Figure 11, sub-pixel SP19, SP20, SP22 are moved down a vertical displacement V3, therefore sub-pixel SP22 It is arranged positioned at jth+2, j+3 rows and i+1, sub-pixel SP19 is located at+2 row of jth and the i-th+2 row, and sub-pixel SP20 is located at jth+3 Row and the i-th+2 row.Using above-mentioned arrangement mode, sub-pixel group SPG7 can correspond to 2 pixels, to improve display device 40 aperture opening ratio.Color alignment, length and width relationship and the pixel point correspondence of sub-pixel group SPG7 sub-pixels SP17~SP22 Above-mentioned sub-pixel group SPG6 sub-pixel SP11~SP16 are can refer to, for the sake of clarity, this will not be repeated here.

In the sub-pixel group SPG7 shown in Figure 13, the row where sub-pixel SP18, SP21, SP22 are overlapped in sub-pixel Row where SP17, the row where sub-pixel SP19, SP20 partially overlap the row where sub-pixel SP17.According to different application And design concept, Rankine-Hugoniot relations can be suitably changed between sub-pixel group SPG7 sub-pixels SP17~SP22.For example, sub Pixel SP19, SP20, SP22 can be changed to be translated up, so that the row part weight only where sub-pixel SP19, SP20 The row being laminated on where sub-pixel SP17.Similarly, sub-pixel SP18, SP21 also can be translated vertically.In other words, sub-pixel group It is located at the row being overlapped in the row where at least one of sub-pixel of a line where sub-pixel SP17 in SPG7.

In one embodiment, it may will produce between the sub-pixel group of adjacent column in display device 100 shown in Fig. 10 The displacement of horizontal direction.Please refer to Fig.1 the schematic diagram that 4, Figure 14 is one display device 140 of the embodiment of the present invention.Display device 140 Similar to display device 100 shown in Fig. 10, therefore element with the same function and signal continue to use identical symbol.It is different from Display device 100, be located in display device 140 adjacent column sub-pixel group SPG6 (as be located at i-th, i+1 row and positioned at i-th+2, I+3 row sub-pixel group SPG6) between have a horizontal displacement W2.In this embodiment, horizontal displacement W2 is sub-pixel group SPG6 1/2 width.Thus, which the display device 140 with different subpixel arrangement mode can be formed using sub-pixel group SPG6. In addition, in this embodiment, sub-pixel group SPG8 shown in Figure 14 can be also considered as to the sub-pixel group of repeated arrangement.In other words, By repeated arrangement sub-pixel group SPG8, display device 140 as shown in figure 14 can be also obtained.

In one embodiment, in display device 100 shown in Fig. 10 each sub-pixel group SPG6 sub-pixel SP11~ There may be the displacement of vertical direction between SP16 and may generate level side simultaneously between the sub-pixel group SPG6 of adjacent column To displacement.Please refer to Fig.1 the schematic diagram that 5, Figure 15 is one display device 150 of the embodiment of the present invention.Display device 150 is similar to Display device 140 shown in Figure 14, therefore element with the same function and signal continue to use identical symbol.It is filled different from display 140 are set, the sub-pixel that j+2, j+3, j+6, j+7, j+10, j+11 row are located in display device 150 is translated downwards a vertical position Move V4.In this embodiment, sub-pixel group SPG9 shown in figure 15 can be also considered as to the sub-pixel group of repeated arrangement.In other words, By repeated arrangement sub-pixel group SPG9, display device 150 as shown in Figure 7 can be also obtained.

In one embodiment, the arrangement mode of sub-pixel group SPG6 sub-pixels SP11~SP16 shown in Figure 11 can be closed It changes suitablely.Please refer to Fig.1 the schematic diagram that 6, Figure 16 is one sub-pixel group SPG10 of the embodiment of the present invention.Sub-pixel group SPG10 classes It is similar to sub-pixel group SPG6 shown in Figure 11, therefore element with the same function and signal continue to use identical symbol.Compared to Sub-pixel SP12, SP15 in sub-pixel group SPG6 shown in Figure 11, sub-pixel group SPG10 are changed to be set to+3 row of jth, and son Sub-pixel SP13, SP14, SP16 in pixel groups SPG10 are changed to be set to jth+1, j+2 rows.That is, sub-pixel group The location swap of SPG10 sub-pixels SP12, SP15 and sub-pixel SP13, SP14, SP16.

It is worth noting that, in the present invention, the position of each sub-pixel in the sub-pixel group of adjacent column is located in display device Arrangement mode is set Ji ╱ or color alignment mode can be difference.For example, the sub-pixel group of adjacent column can divide in display device It Wei not sub-pixel group SPG10 shown in sub-pixel group SPG6 and Figure 16 shown in Figure 11.According to different application and design concept, originally Field technology personnel should can implement suitably to change and change.

According to the sub-pixel arrangement of display device in above-described embodiment, drive module (such as driving chip) and sub-pixel Between connection relation need to redesign.For example, collective reference Figure 14 and Figure 17 are asked, wherein Figure 17 is to be shown shown in Figure 14 The schematic diagram of circuit layout in device 140.As shown in figure 17, display device 140 includes separately a drive module DRI and multiple repetitions The sub-pixel group SPG1 of arrangement.Drive module DRI includes an a line driving unit CD and row driving unit RD, is respectively used to drive Data line DL1~DLx and scan line SL1~SLy, to drive display device 140 to show image.Facilitate explanation, Tu17Zhong to ask Only show data line DLn~DLn+17, scan line SLm~SLm+4 and partial sub-pixel group SPG6.Positioned at the upper left corner In sub-pixel group SPG6, sub-pixel SP11~SP14 is coupled to same scan line SLm+1, and sub-pixel SP15, SP16 coupling In the scan line SLm adjacent to scan line SLm+1.Sub-pixel group SPG6 sub-pixels SP11~SP16 is respectively coupled to data line DLn、DLn+1、DLn+3、DLn+4、DLn+2、DLn+5.It is worth noting that, being coupled to upper left corner sub-pixel group SPG6 sub-pixels The data line DLn+2 of SP15 is coupled to the sub-pixel SPG16 of the sub-pixel group SPG6 of adjacent column, and is coupled to upper left corner sub-pixel The data line DLn+5 of group SPG6 sub-pixels SP16 is coupled to the sub-pixel SPG15 of the sub-pixel group SPG6 of adjacent column.Pass through Figure 17 Shown in connection relation between sub-pixel and data line and scan line, the display realized by repeated arrangement sub-pixel group SPG6 Data line number needed for device 140 can get and reduce, to further increase the arrangement space of display device 140.

Please collective reference Figure 14 and Figure 18, wherein Figure 18 is showing for 140 another circuit layout of display device shown in Figure 14 It is intended to.As shown in figure 18, display device 140 includes separately a drive module DRI and sub-pixel group SPG1 of multiple repeated arrangements.It drives Dynamic model block DRI includes an a line driving unit CD and row driving unit RD, is respectively used to driving data line DL1~DLx and scanning Line SL1~SLy, to drive display device 140 to show image.Facilitate explanation to ask, only shown in Figure 18 data line DLn~ DLn+17, scan line SLm~SLm+4 and partial sub-pixel group SPG6.It is similar to Figure 17, in the sub-pixel group positioned at the upper left corner In SPG6, sub-pixel SP11~SP14 is coupled to same scan line SLm+1, and sub-pixel SP15, SP16 be coupled to adjacent to The scan line SLm of scan line SLm+1.Sub-pixel group SPG6 sub-pixels SP11~SP16 be then respectively coupled to data line DLn, DLn+1、DLn+3、DLn+5、DLn+1、DLn+5.Also it is being to say, sub-pixel SP12, SP15 are changed to be coupled to same data line DLn + 1, and sub-pixel SP14, SP16 are also changed to be coupled to same data line DLn+5.In addition, data line DLn+2 (is located at and is coupled to Data line between the data line DLn+1 and the data line DLn+3 for being coupled to sub-pixel SP13 of sub-pixel SP12, SP15) coupling In sub-pixel SP14, SP16 of the sub-pixel group SPG6 positioned at adjacent column, and data line DLn+4 (is located at and is coupled to sub-pixel Data line between the data line DLn+3 and the data line DLn+5 for being coupled to sub-pixel SP13, SP16 of SP13) it is coupled to and is located at Sub-pixel SP12, SP15 of the sub-pixel group SPG6 of adjacent column.By between sub-pixel and data line and scan line shown in Figure 18 Connection relation, the data line number needed for display device 140 realized by repeated arrangement sub-pixel group SPG6 can get It reduces, to further increase the arrangement space of display device 140.

Please collective reference Figure 14 and Figure 19, wherein Figure 19 is another circuit layout again of display device 140 shown in Figure 14 Schematic diagram.As shown in figure 19, display device 140 includes separately a drive module DRI and sub-pixel group SPG1 of multiple repeated arrangements. Drive module DRI includes an a line driving unit CD and row driving unit RD, is respectively used to driving data line DL1~DLx and sweeps Line SL1~SLy is retouched, to drive display device 140 to show image.Facilitate explanation to ask, only shown in Figure 19 data line DLn~ DLn+17, scan line SLm~SLm+4 and partial sub-pixel group SPG6.It is similar to Figure 17, in the sub-pixel group positioned at the upper left corner In SPG6, sub-pixel SP11~SP14 is coupled to same scan line SLm+1, and sub-pixel SP15, SP16 be coupled to adjacent to The scan line SLm of scan line SLm+1.Sub-pixel group SPG6 sub-pixels SP11~SP16 be then respectively coupled to data line DLn+1, DLn+2、DLn+3、DLn+4、DLn+2、DLn+3.Also it is being to say, sub-pixel SP12, SP15 are changed to be coupled to same data line DLn + 2, and sub-pixel SP13, SP16 are also changed to be coupled to same data line DLn+3.In addition, data line DLn (is located at and is coupled to son Data line in front of the data line DLn+1 of pixel SP11) be coupled to sub-pixel group SPG6 positioned at adjacent column sub-pixel SP13, SP16, and data line DLn+5 (data line for being located at the rears data line DLn+4 for being coupled to sub-pixel SP14) is coupled to and is located at Sub-pixel SP12, SP15 of the sub-pixel group SPG6 of adjacent column.By between sub-pixel and data line and scan line shown in Figure 19 Connection relation, the data line number needed for display device 140 realized by repeated arrangement sub-pixel group SPG6 can get It reduces, to further increase the arrangement space of display device 140.

In conclusion above-described embodiment reduces by changing display device sub-pixel arrangement mode and realizes display device Required sub-pixel numbers, to promote the aperture opening ratio of display device and reduce the power consumption and layout area of display device. What is more, by the newly-increased sub-pixel corresponding to white, the brightness of display device, which can get, to be increased, and the power of display device disappears Consumption can be further reduced.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (23)

1. a kind of display device, including multiple sub-pixel groups, wherein each sub-pixel group includes in the multiple sub-pixel group：

One first sub-pixel is located at a first row；

One second sub-pixel is positioned adjacent to one second row of the first row；

One third sub-pixel is positioned adjacent to the third line for second row；

One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；And

One the 5th sub-pixel is located at described the third line and the fourth line；

The height of wherein described first sub-pixel is equal to the height of second sub-pixel；

The height of wherein described first sub-pixel is more than the height of the third sub-pixel, the 4th sub-pixel and the 5th sub-pixel Degree；

The height of wherein described first sub-pixel be different from or equal to the third sub-pixel or the 4th sub-pixel with it is described Height between 5th sub-pixel and；

The height of wherein described 5th sub-pixel is different from or the height equal to the third sub-pixel and the 4th sub-pixel Height.

2. display device as described in claim 1, it is characterised in that：Row where second sub-pixel are least partially overlapped Row where first sub-pixel, in the third sub-pixel, the 4th sub-pixel and the 5th sub-pixel at least Row where one are overlapped in the row where first sub-pixel.

3. display device as described in claim 1, it is characterised in that：It is first sub-pixel, second sub-pixel, described The sub-pixel that third sub-pixel, the 4th sub-pixel and the 5th sub-pixel correspond to same color has different face Product.

4. display device as described in claim 1, it is characterised in that：It is first sub-pixel, second sub-pixel, described Third sub-pixel, the 4th sub-pixel and the 5th sub-pixel correspond at least four colors.

5. display device as claimed in claim 4, it is characterised in that：At least four color includes white.

6. display device as claimed in claim 4, it is characterised in that：At least four color includes yellow.

7. display device as described in claim 1, it is characterised in that：It is located at the sub- picture of adjacent column in the multiple sub-pixel group Displacement with horizontal direction between plain group.

8. a kind of drive module, the display device for including multiple sub-pixel groups for one, for driving the display device to show Image is located at a first row wherein each sub-pixel group includes one first sub-pixel in the multiple sub-pixel group；One second son Pixel is positioned adjacent to one second row of the first row；One third sub-pixel is positioned adjacent to a third of second row Row；One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；And one the 5th sub-pixel, it is located at the third The capable and described fourth line；

The height of wherein described first sub-pixel is equal to the height of second sub-pixel；

The height of wherein described first sub-pixel is more than the third sub-pixel, the 4th sub-pixel and the 5th sub-pixel Height；

The height of wherein described first sub-pixel be different from or equal to the third sub-pixel or the 4th sub-pixel with it is described Height between 5th sub-pixel and；

The height of wherein described 5th sub-pixel is different from or the height equal to the third sub-pixel and the 4th sub-pixel Height.

9. drive module as claimed in claim 8, it is characterised in that：Including：

One row driving unit, for driving multi-strip scanning line, wherein in the multiple sub-pixel group one first sub-pixel group institute It states the first sub-pixel, second sub-pixel, the third sub-pixel and the 4th sub-pixel and is coupled to the multi-strip scanning One first scan line in line, and the 5th sub-pixel of the first sub-pixel group be coupled to it is adjacent in the multi-strip scanning line In one second scan line of first scan line；And

A line driving unit, for driving multiple data lines, wherein first sub-pixel coupling of the first sub-pixel group One first data line in the multiple data lines, second sub-pixel of the first sub-pixel group are coupled to described a plurality of Adjacent to one second data line of first data line in data line；5th sub-pixel is coupled to the multiple data lines In adjacent to second data line a third data line；The third sub-pixel is coupled to adjacent in the multiple data lines In one the 4th data line of the third data line；And the 4th sub-pixel is coupled in the multiple data lines adjacent to institute State one the 5th data line of the 4th data line.

10. drive module as claimed in claim 9, it is characterised in that：The multiple sub-pixel group includes being located at described first One second sub-pixel group of sub-pixel group adjacent column and a third sub-pixel group, and the third of the second sub-pixel group Pixel is coupled to a third scan line and first data line in the multi-strip scanning line adjacent to first scan line, The 4th sub-pixel of the second sub-pixel group is coupled to the third scan line and second data line, and described second The 5th sub-pixel of sub-pixel group is coupled to first scan line and the third data line, the third sub-pixel group First sub-pixel be coupled to the third scan line and the 4th data line, described the of the third sub-pixel group Two sub-pixels are coupled to the third scan line and the 5th data line.

11. a kind of display device, including multiple sub-pixel groups, it is characterised in that：Each sub-pixel in the multiple sub-pixel group Group includes：

One first sub-pixel is located at a first row；

One second sub-pixel is positioned adjacent to one second row of the first row；

One third sub-pixel is positioned adjacent to the third line for second row；

One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；

One the 5th sub-pixel is located at second row；And

One the 6th sub-pixel is located at described the third line and the fourth line；

The height of wherein described first sub-pixel is more than the 4th sub-pixel institute described in second sub-pixel, the third sub-pixel State the height of the 5th sub-pixel and the 6th sub-pixel；

The height of wherein described first sub-pixel be different from or equal to second sub-pixel and the 5th sub-pixel height With；

The height of wherein described first sub-pixel be different from or equal to the third sub-pixel or the 4th sub-pixel with it is described Height between 6th sub-pixel and；

The height of wherein described second sub-pixel be different from or equal to the 5th sub-pixel height, and the 6th sub-pixel Height be different from or equal to the height of the third sub-pixel and the height of the 4th sub-pixel.

12. display device as claimed in claim 11, it is characterised in that：First sub-pixel and the third sub-pixel pair It should be in same color.

13. display device as claimed in claim 11, it is characterised in that：In second sub-pixel and the 5th sub-pixel Row where at least one are overlapped in the row where first sub-pixel, and the third sub-pixel, the 4th sub-pixel And the row where at least one of described 6th sub-pixel are overlapped in the row where first sub-pixel.

14. display device as claimed in claim 11, it is characterised in that：First sub-pixel, second sub-pixel, institute State the son that third sub-pixel, the 4th sub-pixel, the 5th sub-pixel and the 6th sub-pixel correspond to same color Pixel has different area.

15. display device as claimed in claim 11, it is characterised in that：First sub-pixel, second sub-pixel, institute It states third sub-pixel, the 4th sub-pixel, the 5th sub-pixel and the 6th sub-pixel and corresponds at least four colors.

16. display device as claimed in claim 15, it is characterised in that：At least four color includes white.

17. display device as claimed in claim 15, it is characterised in that：At least four color includes yellow.

18. display device as claimed in claim 11, it is characterised in that：It is located at the son of adjacent column in the multiple sub-pixel group Displacement with horizontal direction between pixel groups.

19. a kind of drive module, the display device for including multiple sub-pixel groups for one, for driving the display device to show Image is located at a first row wherein each sub-pixel group includes one first sub-pixel in the multiple sub-pixel group；One second son Pixel is positioned adjacent to one second row of the first row；One third sub-pixel is positioned adjacent to a third of second row Row；One the 4th sub-pixel is positioned adjacent to a fourth line of described the third line；One the 5th sub-pixel is located at second row；With And one the 6th sub-pixel, it is located at described the third line and the fourth line；

The height of wherein described first sub-pixel is more than second sub-pixel, the third sub-pixel, the 4th sub-pixel The height of 5th sub-pixel and the 6th sub-pixel；

The height of wherein described first sub-pixel be different from or equal to second sub-pixel and the 5th sub-pixel height With；

The height of wherein described first sub-pixel be different from or equal to the third sub-pixel or the 4th sub-pixel with it is described Height between 6th sub-pixel and；

The height of wherein described second sub-pixel be different from or equal to the 5th sub-pixel height, and the 6th sub-pixel Height be different from or equal to the height of the third sub-pixel and the height of the 4th sub-pixel.

20. drive module as claimed in claim 19, it is characterised in that：Including：

One row driving unit, for driving multi-strip scanning line, wherein first son of one of the multiple sub-pixel group Pixel, second sub-pixel, the third sub-pixel and the 4th sub-pixel are coupled to one in the multi-strip scanning line Scan line, and the 5th sub-pixel of one of the multiple sub-pixel group and the 6th sub-pixel be coupled to it is described Adjacent to one second scan line of first scan line in multi-strip scanning line；And

A line driving unit, for driving multiple data lines, wherein first son of one of the multiple sub-pixel group Pixel is coupled to one first data line in the multiple data lines, and second sub-pixel is coupled to phase in the multiple data lines Adjacent to one second data line of first data line, the third sub-pixel is coupled to a third number in the multiple data lines According to line, the 4th sub-pixel is coupled to one the 4th data line in the multiple data lines, and the 5th sub-pixel is coupled to institute One the 5th data line in multiple data lines is stated, and the 6th sub-pixel is coupled to one the 6th data in the multiple data lines Line.

21. drive module as claimed in claim 20, it is characterised in that：In second data line and the third data line Between have at least one data line, the third data line is adjacent to the 4th data line, and the 5th data line bit is in institute It states between the second data line and the third data line, the 6th data line is adjacent to the 4th data line.

22. drive module as claimed in claim 20, it is characterised in that：In second data line and the third data line Between there is at least one data line, at least one data line, institute among the third data line and the 4th data line It is same data line that the 5th data line, which is stated, with second data line, and the 6th data line is same with the 4th data line Data line.

23. drive module as claimed in claim 20, it is characterised in that：Second data line is adjacent to the third data Line, the third data line are same number with second data line adjacent to the 4th data line, the 5th data line According to line, the 6th data line is same data line with the third data line.