CN101893792A

CN101893792A - Liquid crystal display panel and display device

Info

Publication number: CN101893792A
Application number: CN2009102038411A
Authority: CN
Inventors: 谢秉勋
Original assignee: Novatek Microelectronics Corp
Current assignee: Novatek Microelectronics Corp
Priority date: 2009-05-20
Filing date: 2009-05-20
Publication date: 2010-11-24
Anticipated expiration: 2029-05-20
Also published as: CN101893792B

Abstract

The invention discloses a liquid crystal display (LCD) panel and a display device. The LCD panel comprises a substrate and multiple display units. Each display unit comprises a first sub-display unit and a second sub-display unit, wherein the first sub-display unit comprises a first sub-pixel unit corresponding to a first color, a second sub-pixel unit corresponding to a second color, a third sub-pixel unit corresponding to a third color, and a fourth sub-pixel unit corresponding to a fourth color; and the second sub-display unit is adjacent to the first sub-display unit and comprises a fifth sub-pixel unit corresponding to the third color, a sixth sub-pixel unit corresponding to the fourth color, a seventh sub-pixel unit corresponding to the first color, and eighth sub-pixel unit corresponding to the second color.

Description

Display panels and display device

Technical field

The present invention is a kind of display panels and related display apparatus thereof, be meant especially a kind of by the sub-pixel on the display panels that is staggered, to increase the display panels and the related display apparatus thereof of screen resolution and brightness.

Background technology

LCD (Liquid Crystal Display, LCD) have low radiation, volume is little and advantage such as low power consuming, replace traditional cathode-ray tube (CRT) (Cathode Ray Tube gradually, CRT) display, and be widely used in mobile computer, personal digital assistant (Personal Digital Assistant, PDA), flat-surface television, or on the information products such as mobile phone.

On display panels, each pixel is by being formed corresponding to three sub-pixel unit of three primary colors (red, green and blue).In the time will showing particular color, prior art is adjusted the gray-scale value of redness, green and blue subpixels unit, and to be combined into this color, the arrangement mode of sub-pixel unit then is related to the resolution that display panels can provide.For instance, the present modal sub-pixel unit arrangement mode design that is vertical bar shape (stripe).Please refer to Figure 1A, Figure 1A is the synoptic diagram of the subregion of existing display panels 10.Display panels 10 is made up of a plurality of pixel cell, and each pixel cell is boundary with the dotted line in Figure 1A, includes red sub-pixel unit R, green sub-pixels unit and blue subpixels unit B respectively.Shown in Figure 1A, red sub-pixel unit R, green sub-pixels unit G and blue subpixels unit B are the vertical bar shape respectively and arrange, in other words, each row of display panels 10 is made of the sub-pixel unit of same color, and capable regularly arranged with red, green, blue respectively of adjacent each.Please refer to Figure 1B and Fig. 1 C, Figure 1B and Fig. 1 C are respectively the synoptic diagram of the horizontal direction resolution and the vertical direction resolution of display panels 10.In Figure 1B and Fig. 1 C, the sub-pixel unit of oblique line is represented concealed wire, and therefore, display panels 10 can present two vertical light and shade boundary with three of horizontal light and shade boundary.

Except the design of vertical bar shape, sub-pixel unit also can be triangular shape (delta) and arrange.Please refer to Fig. 2 A, Fig. 2 A is the subregion synoptic diagram of existing display panels 20.Shown in Fig. 2 A, each pixel cell of display panels 20 also is boundary with the dotted line, and red sub-pixel unit R wherein, green sub-pixels unit G and blue subpixels unit B are the triangular shape arrangement.With on the whole, the difference of display panels 20 and display panels 10 is that adjacent two sub-pixel unit that list arrange in the mode of dislocation (mismatch).Please refer to Fig. 2 B and Fig. 2 C, Fig. 2 B and Fig. 2 C are respectively the synoptic diagram of the horizontal direction resolution and the vertical direction resolution of display panels 20.In this example, display panels 20 can present four vertical light and shade boundary with three of horizontal light and shade boundary.In other words, arrange adjacent two sub-pixel unit that list by dislocation type ground, display panels 20 can be reached higher horizontal resolution.

Yet, no matter using display panels 10 or display panels 20, the white light that the backlight liquid crystal display module is sent all need pass through chromatic filter (color filter), and the light of filtering part wavelength is to show different colors on LCD.From another point of view, a large amount of luminous energy causes the waste of the energy being consumed when the chromatic filter, and it is unfavorable especially to need in the application of low-power consumption, high brightness performance at some.Therefore,, under the performance that takes into account resolution, reach the purpose that reduces luminous energy consumption, improves the brightness performance, become the target that industry is made great efforts how by rearranging the arrangement of display panels sub-pixel.

Summary of the invention

Therefore, fundamental purpose of the present invention is to provide display panels and display device.

The invention discloses display panels, include substrate; And a plurality of display units, being arranged on this substrate with matrix-style, each display unit of these a plurality of display units is corresponding to the entry of a matrix element, and includes the first sub-display unit, includes first sub-pixel unit, corresponding to first color; Second sub-pixel unit, corresponding to second color, being arranged in this matrix is first pair of angular direction of this first sub-pixel unit of benchmark; The 3rd sub-pixel unit, corresponding to the 3rd color, being arranged in this matrix is second pair of angular direction of this second sub-pixel unit of benchmark; And the 4th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 3rd sub-pixel unit; And the second sub-display unit, adjacent to this first sub-display unit, it includes the 5th sub-pixel unit, corresponding to the 3rd color; The 6th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 5th sub-pixel unit; The 7th sub-pixel unit, corresponding to this first color, being arranged in this matrix is this second pair of angular direction of benchmark the 6th sub-pixel unit; And the 8th sub-pixel unit, corresponding to this second color, being arranged in this matrix is this first pair of angular direction of benchmark the 7th sub-pixel unit.

The present invention discloses display device in addition, includes display panels, includes substrate; And a plurality of display units, being arranged on this substrate with matrix-style, each display unit of these a plurality of display units is corresponding to the entry of a matrix element, and includes the first sub-display unit, includes first sub-pixel unit, corresponding to first color; Second sub-pixel unit, corresponding to second color, being arranged in this matrix is first pair of angular direction of this first sub-pixel unit of benchmark; The 3rd sub-pixel unit, corresponding to the 3rd color, being arranged in this matrix is second pair of angular direction of this second sub-pixel unit of benchmark; And the 4th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 3rd sub-pixel unit; The second sub-display unit, adjacent to this first sub-display unit, it includes the 5th sub-pixel unit, corresponding to the 3rd color; The 6th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 5th sub-pixel unit; The 7th sub-pixel unit, corresponding to this first color, being arranged in this matrix is this second pair of angular direction of benchmark the 6th sub-pixel unit; And the 8th sub-pixel unit, corresponding to this second color, being arranged in this matrix is this first pair of angular direction of benchmark the 7th sub-pixel unit; And drive unit, being used for driving this display panels, it includes source electrode driver, is used for producing a plurality of source electrode drive signals; Gate drivers is used for producing a plurality of sweep signals; A plurality of first kind source drive circuits, each first kind source drive circuit is coupled to this source electrode driver and this first sub-pixel unit arrives the 4th sub-pixel unit, is used for exporting corresponding source drive signal to this first sub-pixel unit to the 4th sub-pixel unit; A plurality of second class source drive circuits, each second class source drive circuit is coupled to this source electrode driver and the 5th sub-pixel unit arrives the 8th sub-pixel unit, is used for exporting corresponding source drive signal to the 5th sub-pixel unit to the 8th sub-pixel unit; A plurality of first kind gate driving circuits, each first kind gate driving circuit is coupled to this gate drivers and this first sub-pixel unit and the 5th sub-pixel unit, is used for exporting corresponding sweep signal to this first sub-pixel unit and the 5th sub-pixel unit; A plurality of second class gate driving circuits, each second class gate driving circuit is coupled to this gate drivers and this second sub-pixel unit and the 6th sub-pixel unit, is used for exporting corresponding sweep signal to this second sub-pixel unit and the 6th sub-pixel unit; A plurality of the 3rd class gate driving circuits, each the 3rd class gate driving circuit is coupled to this gate drivers and the 3rd sub-pixel unit and the 7th sub-pixel unit, is used for exporting corresponding sweep signal to the 3rd sub-pixel unit and the 7th sub-pixel unit; And a plurality of the 4th class gate driving circuits, each the 4th class gate driving circuit is coupled to this gate drivers and the 4th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding sweep signal to the 4th sub-pixel unit and the 8th sub-pixel unit.

The present invention discloses display device in addition, includes display panels, includes substrate; And a plurality of display units, being arranged on this substrate with matrix-style, each display unit of these a plurality of display units is corresponding to the entry of a matrix element, and includes the first sub-display unit, includes first sub-pixel unit, corresponding to first color; Second sub-pixel unit, corresponding to second color, being arranged in this matrix is first pair of angular direction of this first sub-pixel unit of benchmark; The 3rd sub-pixel unit, corresponding to the 3rd color, being arranged in this matrix is second pair of angular direction of this second sub-pixel unit of benchmark; And the 4th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 3rd sub-pixel unit; The second sub-display unit, adjacent to this first sub-display unit, it includes the 5th sub-pixel unit, corresponding to the 3rd color; The 6th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 5th sub-pixel unit; The 7th sub-pixel unit, corresponding to this first color, being arranged in this matrix is this second pair of angular direction of benchmark the 6th sub-pixel unit; And the 8th sub-pixel unit, corresponding to this second color, being arranged in this matrix is this first pair of angular direction of benchmark the 7th sub-pixel unit; And drive unit, being used for driving this display panels, it includes source electrode driver, is used for producing a plurality of source electrode drive signals; Gate drivers is used for producing a plurality of sweep signals; A plurality of first kind source drive circuits, each first kind source drive circuit is coupled to this source electrode driver and this first sub-pixel unit and the 3rd sub-pixel unit, is used for exporting corresponding source drive signal to this first sub-pixel unit and the 3rd sub-pixel unit; A plurality of second class source drive circuits, each second class source drive circuit is coupled to this source electrode driver and this second sub-pixel unit and the 4th sub-pixel unit, is used for exporting corresponding source drive signal to this second sub-pixel unit and the 4th sub-pixel unit; A plurality of the 3rd class source drive circuits, each the 3rd class source drive circuit is coupled to this source electrode driver and the 5th sub-pixel unit and the 7th sub-pixel unit, is used for exporting corresponding source drive signal to the 5th sub-pixel unit and the 7th sub-pixel unit; A plurality of the 4th class source drive circuits, each the 4th class source drive circuit is coupled to this source electrode driver and the 6th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding source drive signal to the 6th sub-pixel unit and the 8th sub-pixel unit; A plurality of first kind gate driving circuits, each first kind gate driving circuit is coupled to this gate drivers and this first sub-pixel unit, second sub-pixel unit, the 5th sub-pixel unit and the 6th sub-pixel unit, is used for exporting corresponding sweep signal to this first sub-pixel unit, second sub-pixel unit, the 5th sub-pixel unit and the 6th sub-pixel unit; And a plurality of second class gate driving circuits, each second class gate driving circuit is coupled to this gate drivers and the 3rd sub-pixel unit, the 4th sub-pixel unit, the 7th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding sweep signal to the 3rd sub-pixel unit, the 4th sub-pixel unit, the 7th sub-pixel unit and the 8th sub-pixel unit.

Description of drawings

Figure 1A is the synoptic diagram of existing display panels.

Figure 1B is the synoptic diagram of horizontal direction resolution of the display panels of Figure 1A.

Fig. 1 C is the synoptic diagram of vertical direction resolution of the display panels of Figure 1A.

Fig. 2 A is the synoptic diagram of existing display panels.

Fig. 2 B is the synoptic diagram of horizontal direction resolution of the display panels of Fig. 2 A.

Fig. 2 C is the synoptic diagram of vertical direction resolution of the display panels of Fig. 2 A.

Fig. 3 A is the synoptic diagram of the display panels of the embodiment of the invention.

Fig. 3 B is the synoptic diagram of horizontal direction resolution of the display panels of Fig. 3 A.

Fig. 3 C is the synoptic diagram of vertical direction resolution of the display panels of Fig. 3 A.

Fig. 3 D is the synoptic diagram of variation example of the display panels of Fig. 3 A.

Fig. 4 is the synoptic diagram of the display device of the embodiment of the invention.

Fig. 5 is the synoptic diagram of the display device of the embodiment of the invention.

[primary clustering symbol description]

R red sub-pixel unit

G green sub-pixels unit

B blue subpixels unit

W white sub-pixels unit

10,20,30,32 display panels

40,50 display device

300 substrates

310 display units

320 first sub-display units

330 second sub-display units

322 first sub-pixel unit

324 second sub-pixel unit

326 the 3rd sub-pixel unit

328 the 4th sub-pixel unit

332 the 5th sub-pixel unit

334 the 6th sub-pixel unit

336 the 7th sub-pixel unit

338 the 8th sub-pixel unit

400,500 drive units

402,502 source electrode drivers

404,504 gate drivers

406,506 first kind source drive circuits

408,508 second class source drive circuits

510 the 3rd class source drive circuits

512 the 4th class source drive circuits

410,514 first kind gate driving circuits

412,516 second class gate driving circuits

414 the 3rd class gate driving circuits

416 the 4th class gate driving circuits

Embodiment

Please refer to Fig. 3 A, Fig. 3 A is the synoptic diagram of the display panels 30 of the embodiment of the invention.Display panels 30 includes substrate 300 and a plurality of display unit 310, and each display unit 310 is arranged on the substrate 300 with matrix-style.Just, for display panels 300, each display unit 310 similarly is an element in the matrix.Each display unit 310 includes the first sub-display unit 320 and the second sub-display unit 330.The first sub-display unit 320 includes first sub-pixel unit 322, second sub-pixel unit 324, the 3rd sub-pixel unit 326 and the 4th sub-pixel unit 328, and the second sub-display unit 330 includes the 5th sub-pixel unit 332, the 6th sub-pixel unit 334, the 7th sub-pixel unit 336 and the 8th sub-pixel unit 338.In the present embodiment, first sub-pixel unit 322 and the 7th sub-pixel unit 336 are used for showing red, are denoted as R; Second sub-pixel unit 324 and the 8th sub-pixel unit 338 are used for showing green, are denoted as G; The 3rd sub-pixel unit 326 and the 5th sub-pixel unit 332 are used for showing blue, are denoted as B; The

4th sub-pixel unit

328 and 334 of the 6th sub-pixel unit are used for display white, are denoted as W.With regard to arrangement position, the second sub-display unit 330 is adjacent to the first sub-display unit 320.If the arrangement position with element in the matrix is a benchmark, it is bottom-right to the angular direction that second sub-pixel unit 324 is arranged in first sub-pixel unit 322; The 3rd sub-pixel unit 326 be arranged in second sub-pixel unit, 324 lower lefts to the angular direction; It is bottom-right to the angular direction that the 4th sub-pixel unit 328 is arranged in the 3rd sub-pixel unit 326; It is bottom-right to the angular direction that the 6th sub-pixel unit 334 is arranged in the 5th sub-pixel unit 332; The 7th sub-pixel unit 336 be arranged in the 6th sub-pixel unit 334 lower lefts to the angular direction; And that the 8th sub-pixel unit 338 is arranged in the 7th sub-pixel unit 336 is bottom-right to the angular direction.

In display panels 30, the function of the first sub-display unit 320 and the second sub-display unit 330 is used for showing various colors corresponding to the pixel cell of prior art.What pay special attention to is, except Red, the first sub-display unit 320 and the second sub-display unit 330 have increased the 4th sub-pixel unit 328 and the 6th sub-pixel unit 334 of white newly, be beneficial to the color of exhibit high brilliance, and reduce the ratio that luminous energy is consumed through display panels 30 time, to reach less electricity consumption.In simple terms, with the arrangement mode of matrix, the display unit 310 that to all the winds extends is to show the image that will present on substrate 300 for display panels 30.With regard to screen resolution, as if being example with the viewing area identical with Figure 1A, display panels 30 can present three vertical light and shades boundary with three of horizontal light and shades boundary, shown in Fig. 3 B and Fig. 3 C.Therefore, compare with modal display panels 10 in the prior art, display panels 30 can promote 1.5 times horizontal resolution.

In Fig. 3 A, first sub-pixel unit, 322 to the 8th sub-pixel unit, 338 pairing colors are red, green, blue, white, blue, white, red, green in regular turn.Significantly, persons skilled in the art can be rearranged the order that various colors occur in an identical manner, and are for example white, blue, green, red, green, red, white, blue, shown in the display panels 32 of Fig. 3 D, and are not limited thereto.The difference of Fig. 3 D and Fig. 3 A only is to exchange green, blueness and redness, white putting in order, so do not influence Presentation Function.

Type of drive about display panels 30 please refer to Fig. 4, and Fig. 4 is the synoptic diagram of the display device 40 of the embodiment of the invention.Be noted that for the sake of clarity, Fig. 4 has omitted the part symbol of display panels 30, symbol can be with reference to figure 3A in detail.Except display panels 30, display device 40 includes drive unit 400 in addition, is used for driving display panels 30.Drive unit 400 includes source electrode driver 402, gate drivers 404, a plurality of first kind source drive circuit 406, a plurality of second class source drive circuit 408, a plurality of first kind gate driving circuit 410, a plurality of second class gate driving circuit 412, a plurality of the 3rd class gate driving circuit 414 and a plurality of the 4th class gate driving circuit 416.Source electrode driver 402 is used for producing the source drive signal, and gate drivers 404 is used for producing sweep signal.Each first kind source drive circuit 406 is coupled to the source electrode driver 402 and first to the 4th sub-pixel unit 322,324,326,328, is used for exporting corresponding source drive signal to the first to the 4th sub-pixel unit 322,324,326,328.Similarly, each second class source drive circuit 408 is coupled to source electrode driver 402 and the 5th to the 8th sub-pixel unit 332,334,336,338, is used for exporting corresponding source drive signal to the five to the 8th sub-pixel unit 332,334,336,338.Each first kind gate driving circuit 410 is coupled to gate drivers 404, first sub-pixel unit 322 and the 5th sub-pixel unit 332, is used for exporting corresponding sweep signal to the first sub-pixel unit 322 and the 5th sub-pixel unit 332.Each second class gate driving circuit 412 is coupled to gate drivers 404, second sub-pixel unit 324 and the 6th sub-pixel unit 334, is used for exporting corresponding sweep signal to the second sub-pixel unit 324 and the 6th sub-pixel unit 334.Each the 3rd class gate driving circuit 414 is coupled to gate drivers 404, the 3rd sub-pixel unit 326 and the 7th sub-pixel unit 336, is used for exporting corresponding sweep signal to the three sub-pixel unit 326 and the 7th sub-pixel unit 336.Each the 4th class gate driving circuit 416 is coupled to gate drivers 404, the 4th sub-pixel unit 328 and the 8th sub-pixel unit 338, is used for exporting corresponding sweep signal to the four sub-pixel unit 328 and the 8th sub-pixel unit 338.

In simple terms, for a sub-pixel unit, source electrode driver 402 is respectively it with gate drivers 404 and produces corresponding source drive signal and sweep signal, and by corresponding source electrode, gate driving circuit, be sent to this sub-pixel unit, to upgrade the color content of this sub-pixel unit.For each display unit 310, source drive circuit 406,408 is used for respectively driving first sub-display unit 320 of this display unit 310 and the sub-pixel unit on the second sub-display unit 330, and gate driving circuit 410,412,414,416 is used for driving two sub-pixel unit that respectively list of this display unit 310 respectively.

Except display device 40, the present invention provides display device 50 in addition, as shown in Figure 5.Display device 50 is similar with display device 40, also by the source electrode driver 502 and the gate drivers 504 output source electrode drive signal and the sweep signals of drive unit 500, difference only is that the driver circuit 406-416 of display device 40 is substituted by a plurality of first kind source drive circuits 506, a plurality of second class source drive circuit 508, a plurality of the 3rd class source drive circuit 510, a plurality of the 4th class source drive circuit 512, a plurality of first kind gate driving circuit 514 and a plurality of the 4th class gate driving circuits 516 in display device 50.The function of driver circuit 506-516 and connected mode are similar with driver circuit 406-416, do not give unnecessary details at this, and difference only is redistributing of driven object.Specifically, as shown in Figure 5, for each display unit 310, source drive circuit 506,508,510,512 is used for driving each two sub-pixel unit of going of this display unit 310 respectively, and gate driving circuit 514,516 is used for driving first two row and end two four sub-pixel unit that list of this display unit 310 respectively.

In the prior art, the display panels 20 that display panels 10 that the vertical bar shape is arranged and triangular shape are arranged uses red, green, blue sub-pixels unit R, G, B, under the situation that includes 72 sub-pixel unit (shown in Figure 1A), can present two horizontal light and shade boundary and three vertical light and shade boundary respectively, and four horizontal light and shade boundary and three vertical light and shade boundary.Under comparing, under the situation that includes 72 sub-pixel unit equally (as shown in Figure 3A), the embodiment of the invention is used red, green, blue, white sub-pixels unit R, G, B, W, can present three horizontal light and shade boundary and three vertical light and shade boundary.In other words, the present invention, reduces luminous energy consumption and also improves the brightness performance taking into account or even promote under the resolution situation of (comparing with display panels 10) by rearranging sub-pixel unit and using white sub-pixels W.

In sum, for display panels, the luminous energy that the present invention is consumed in the time of can reducing display color improves the brightness performance and takes into account screen resolution; Simultaneously, the present invention also provides corresponding drive unit, makes display device can correctly drive display panels.

The above only is the preferred embodiments of the present invention, and all equivalences that the claim scope is done according to the present invention change and improve, and all should belong to the scope that the present invention is contained.

Claims

1. display panels includes:

Substrate; And

A plurality of display units are arranged on this substrate with matrix-style, and each display unit of these a plurality of display units is corresponding to the entry of a matrix element, and include:

The first sub-display unit includes:

First sub-pixel unit is corresponding to first color;

Second sub-pixel unit, corresponding to second color, being arranged in this matrix is first pair of angular direction of this first sub-pixel unit of benchmark;

The 3rd sub-pixel unit, corresponding to the 3rd color, being arranged in this matrix is second pair of angular direction of this second sub-pixel unit of benchmark; And

The 4th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 3rd sub-pixel unit; And

The second sub-display unit, adjacent to this first sub-display unit, it includes:

The 5th sub-pixel unit is corresponding to the 3rd color;

The 6th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 5th sub-pixel unit;

The 7th sub-pixel unit, corresponding to this first color, being arranged in this matrix is this second pair of angular direction of benchmark the 6th sub-pixel unit; And

The 8th sub-pixel unit, corresponding to this second color, being arranged in this matrix is this first pair of angular direction of benchmark the 7th sub-pixel unit.

2. display panels as claimed in claim 1, wherein, this first color is red, and this second color is green, and the 3rd color is blue, and the 4th color is a white.

3. display panels as claimed in claim 1, wherein, this first pair of angular direction is the lower right.

4. display panels as claimed in claim 1, wherein, this second pair of angular direction is the lower left.

5. display device includes:

Display panels includes:

Substrate; And

The first sub-display unit includes:

First sub-pixel unit is corresponding to first color;

The 4th sub-pixel unit, corresponding to the 4th color, being arranged in this matrix is this first pair of angular direction of benchmark the 3rd sub-pixel unit;

The 5th sub-pixel unit is corresponding to the 3rd color;

The 8th sub-pixel unit, corresponding to this second color, being arranged in this matrix is this first pair of angular direction of benchmark the 7th sub-pixel unit; And

Drive unit is used for driving this display panels, and it includes:

Source electrode driver is used for producing a plurality of source electrode drive signals;

Gate drivers is used for producing a plurality of sweep signals;

A plurality of first kind source drive circuits, each first kind source drive circuit is coupled to this source electrode driver and this first sub-pixel unit arrives the 4th sub-pixel unit, is used for exporting corresponding source drive signal to this first sub-pixel unit to the 4th sub-pixel unit;

A plurality of second class source drive circuits, each second class source drive circuit is coupled to this source electrode driver and the 5th sub-pixel unit arrives the 8th sub-pixel unit, is used for exporting corresponding source drive signal to the 5th sub-pixel unit to the 8th sub-pixel unit;

A plurality of first kind gate driving circuits, each first kind gate driving circuit is coupled to this gate drivers and this first sub-pixel unit and the 5th sub-pixel unit, is used for exporting corresponding sweep signal to this first sub-pixel unit and the 5th sub-pixel unit;

A plurality of second class gate driving circuits, each second class gate driving circuit is coupled to this gate drivers and this second sub-pixel unit and the 6th sub-pixel unit, is used for exporting corresponding sweep signal to this second sub-pixel unit and the 6th sub-pixel unit;

A plurality of the 3rd class gate driving circuits, each the 3rd class gate driving circuit is coupled to this gate drivers and the 3rd sub-pixel unit and the 7th sub-pixel unit, is used for exporting corresponding sweep signal to the 3rd sub-pixel unit and the 7th sub-pixel unit; And

A plurality of the 4th class gate driving circuits, each the 4th class gate driving circuit is coupled to this gate drivers and the 4th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding sweep signal to the 4th sub-pixel unit and the 8th sub-pixel unit.

6. display device as claimed in claim 5, wherein, this first color is red, and this second color is green, and the 3rd color is blue, and the 4th color is a white.

7. display device as claimed in claim 5, wherein, this first pair of angular direction is the lower right.

8. display device as claimed in claim 5, wherein, this second pair of angular direction is the lower left.

9. display device includes:

Display panels includes:

Substrate; And

The first sub-display unit includes:

First sub-pixel unit is corresponding to first color;

The 5th sub-pixel unit is corresponding to the 3rd color;

Drive unit is used for driving this display panels, and it includes:

Gate drivers is used for producing a plurality of sweep signals;

A plurality of first kind source drive circuits, each first kind source drive circuit is coupled to this source electrode driver and this first sub-pixel unit and the 3rd sub-pixel unit, is used for exporting corresponding source drive signal to this first sub-pixel unit and the 3rd sub-pixel unit;

A plurality of second class source drive circuits, each second class source drive circuit is coupled to this source electrode driver and this second sub-pixel unit and the 4th sub-pixel unit, is used for exporting corresponding source drive signal to this second sub-pixel unit and the 4th sub-pixel unit;

A plurality of the 3rd class source drive circuits, each the 3rd class source drive circuit is coupled to this source electrode driver and the 5th sub-pixel unit and the 7th sub-pixel unit, is used for exporting corresponding source drive signal to the 5th sub-pixel unit and the 7th sub-pixel unit;

A plurality of the 4th class source drive circuits, each the 4th class source drive circuit is coupled to this source electrode driver and the 6th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding source drive signal to the 6th sub-pixel unit and the 8th sub-pixel unit;

A plurality of first kind gate driving circuits, each first kind gate driving circuit is coupled to this gate drivers and this first sub-pixel unit, second sub-pixel unit, the 5th sub-pixel unit and the 6th sub-pixel unit, is used for exporting corresponding sweep signal to this first sub-pixel unit, second sub-pixel unit, the 5th sub-pixel unit and the 6th sub-pixel unit; And

A plurality of second class gate driving circuits, each second class gate driving circuit is coupled to this gate drivers and the 3rd sub-pixel unit, the 4th sub-pixel unit, the 7th sub-pixel unit and the 8th sub-pixel unit, is used for exporting corresponding sweep signal to the 3rd sub-pixel unit, the 4th sub-pixel unit, the 7th sub-pixel unit and the 8th sub-pixel unit.

10. display device as claimed in claim 9, wherein, this first color is red, and this second color is green, and the 3rd color is blue, and the 4th color is a white.

11. display device as claimed in claim 9, wherein, this first pair of angular direction is the lower right.

12. display device as claimed in claim 9, wherein, this second pair of angular direction is the lower left.