CN104853174A - 3D/2D multi-primary-color image device and control method therefor - Google Patents

Abstract

The invention provides a 3D/2D multi-primary-color image device, which comprises an optical unit for leading a first image to a first viewer group, and leading a second image to a second viewer group. Each color point of the multi-primary-color image device comprises at least two independently controlled color segments. The first viewer group and the second viewer group can simultaneously or individually view the first image and the second image. The present invention also provides a control method for the above image device.

Description

3D/2D many primary colors device for image and control method thereof

Technical field

The present invention relates to a kind of device for image, particularly can show 3D/2D many primary colors device for image of three-dimensional (3D) image, two dimension (2D) image and a mixing 2D/3D image about one, and control method.

Background technology

Develop the display device that can show 3D image at present.The 3D video display system worked out so far can be categorized into and use the type of glasses and the type of glasses-free.Wearing spectacles may be watched 3D content to user and comprise negative effect.The 3D display device of the glasses-free of user Geng Yi use comprises an optical unit (such as, parallax grating, biconvex lens or the 2nd LCD), it is in order to guide two slightly different images, by an image-guided to left eye and by another image-guided to right eye for formation 3D image.

Recently, carried out making 3D display device show the active research of 2D image.In prior art, method is be used in left eye and mutually mate for the existing image mentioned of right eye and show same image.Refer to Fig. 1, it shows the pixel array structural representation of a typical 3D display device in a prior art.Typical 3D display device 10 comprises the multiple rgb pixel group 11 for left eye and the multiple rgb pixel groups 12 for right eye.For example, rgb pixel group 11 comprises for the red point of one of left eye (R1) 111, green point (G1) 112 and a Bluepoint (B1) 113, and rgb pixel group 12 comprises for the red point of one of right eye (R2) 121, green point (G2) 122 and a Bluepoint (B2) 123.In this condition, identical information should be shown in two pixels, therefore resolution is reduced to half.

No. 7705844th, United States Patent (USP) discloses a kind of method, and it is by square but not a RGB band image usually arranges two rgb pixels makes to obtain double density in the horizontal direction, therefore compensates the loss of the resolution because dividing left image and right image.Disadvantage is that gate line number adds three, therefore dot frequency is significantly reduced, and the pixel of thin film transistor (TFT) array type liquid crystal display (TFT LCD) does not have enough time to charge completely, all the more so for amorphous LCD display especially.

No. 7050020th, United States Patent (USP) discloses a kind of method, and it uses 2 biconvex lens, and with a wherein biconvex lens for another biconvex lens to be moved the lenticular spacing of half by object of reference, thus maintain the full resolution of display under 2D display mode.Adopt in this way, except there is the higher and easy wearing and tearing of cost and the problem of tearing, also there is the problem of the complicated structure of the display such as reaching mobile biconvex lens.

No. 8466954th, United States Patent (USP) discloses a kind of display, it discloses the image for alternately showing from least two video inputs, adopts a synchronous and screening filtering device that only permission is watched from one of them image in video input.This display have employed the arrangement of timesharing, watches images different in a same display to allow multiple beholder.But shortcoming is that frame updating speed reduces, so the visual texture of display reduces.

Summary of the invention

Given this, be necessary to provide a kind of device for image.This device for image comprises multiple pixel group.Each pixel group comprises the multiple points by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot, at least one second color dot, at least one 3rd color dot and at least one 4th color dot.This first color dot comprises at least two independent the first color sections controlled, this second color dot comprises at least two independent the second color sections controlled, 3rd color dot comprises at least two independent third color sections controlled, and the 4th color dot comprises at least two independent the 4th color sections controlled.Wherein at a column direction or a line direction, relative to beholder, according to the orientation of video display, a system in each pixel group at least two the first color sections be located immediately at least two the first color sections another and between one at least two third color sections; To first group of beholder, the data being input at least two kinds of color sections of each color dot are many primary signals, and to second group of beholder, another the data being input at least two kinds of color sections of each color dot are many primary signals.

There is a need to provide a kind of for controlling the method for above device for image.The method comprises the following steps: (a) first sub-pixel to manifest and the 3D for one first image of color space conversion in one first color space inputs data, and export in the second color space for primary colors segment signals more than this first image; And (b) second sub-pixel to manifest and this 3D for one second image in this first color space of color space conversion inputs data, and export in this second color space for primary colors segment signals more than this second image.

There is a need to provide a kind of device for image.This device for image comprises multiple pixel group.Each pixel group comprises the multiple points by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot, at least one second color dot, at least one 3rd color dot and at least one 4th color dot.Wherein this first color dot comprises at least two independent the first color sections controlled, and this second color dot comprises at least two independent the second color sections controlled, 3rd color dot comprises at least two independent third color sections controlled, and the 4th color dot comprises at least two independent the 4th color sections controlled.Wherein relative to beholder, according to the orientation of video display, a system in each pixel group at least two the first color sections be located immediately at least two the first color sections another and between one at least two third color sections; This first color dot in the first pixel group and this second color dot, and this first color dot in the second pixel group and this second color dot are alternately arranged at a column direction or a line direction.

One of the present invention object is to provide one thin, simple and the 3D of low cost image/2D display device, and it guarantees the display of the 3D image under full resolution and high brightness, the display of 2D image and the seamless switching between the display mixing 2D/3D image.

Another object of the present invention is to provide a kind of and uses the virtual pixel of a single color to manifest by means of sub-pixel and color space conversion represents primary colors device for image (such as, RGBW) more than full rgb color pixel.

Another object of the present invention is to show multiple image to the spectators of many groups simultaneously.

Accompanying drawing explanation

Fig. 1 is the pixel array arrangement of the typical 3D display device of prior art one.

Fig. 2 is the pixel array arrangement of the device for image of the first embodiment according to the present invention.

Fig. 3 A and Fig. 3 B illustrates device for image one of one color dot section when display one first image of first embodiment of the present invention, and when display one second image another section of same color dot.

Fig. 4 is the pixel array arrangement of the device for image of the second embodiment according to the present invention.

The device for image that Fig. 5 A and Fig. 5 B illustrates second embodiment of the present invention shows one of color dot section when display one first image, and when display one second image another section of same color dot.

Fig. 6 is the pixel array arrangement of the device for image of the 3rd embodiment according to the present invention.

Fig. 7 A and Fig. 7 B shows one of color dot section according to the device for image of the 3rd embodiment of the present invention when display one first image, and when display one second image another section of same color dot.

Fig. 8 is the block functional diagram of the control method for controlling device for image of the present invention.

Fig. 9 is the pixel array arrangement of the RGBW device for image of the first embodiment according to the present invention.

Figure 10 A and Figure 10 B shows one of color dot section according to the RGBW device for image of first embodiment of the present invention when display one first image, and when display one second image another section of same color dot.

Figure 11 is the pixel array arrangement of the RGBW device for image of the second embodiment according to the present invention.

Figure 12 A and Figure 12 B shows one of color dot section according to the RGBW device for image of second embodiment of the present invention when display one first image, and when display one second image another section of same color dot.

Figure 13 is the pixel array arrangement of the RGB device for image of the 3rd embodiment according to the present invention.

Figure 14 A and Figure 14 B shows one of color dot section according to the RGB device for image of the 3rd embodiment of the present invention when display one first image, and when display one second image another section of same color dot.

Figure 15 is the pixel array arrangement of the device for image of the 4th embodiment according to the present invention.

Main element symbol description

10 known 3D display devices

11 rgb pixel groups

12 rgb pixel groups

20 device for image

21 first color dots

22 second color dots

23 the 3rd color dots

24 the 4th color dots

30 device for image

31 first color dots

32 second color dots

33 the 3rd color dots

34 the 4th color dots

40 device for image

41 first color dots

42 second color dots

43 the 3rd color dots

44 the 4th color dots

60 device for image

61 first color dots

62 second color dots

63 the 3rd color dots

64 the 4th color dots

65 first color dots

66 second color dots

67 the 3rd color dots

68 the 4th color dots

111 red points (R1)

112 green points (G1)

113 Bluepoints (B1)

121 red points (R2)

122 green points (G2)

123 Bluepoints (B2)

211 first color sections

212 first color sections

221 second color sections

222 second color sections

231 third color sections

232 third color sections

241 the 4th color sections

242 the 4th color sections

311 first color sections

312 first color sections

321 second color sections

322 second color sections

331 third color sections

332 third color sections

341 the 4th color sections

342 the 4th color sections

411 first color sections

412 first color sections

421 second color sections

422 second color sections

431 third color sections

432 third color sections

441 the 4th color sections

442 the 4th color sections

611 first color sections

612 first color sections

621 second color sections

622 second color sections

631 third color sections

632 third color sections

641 the 4th color sections

642 the 4th color sections

651 first color sections

652 first color sections

661 second color sections

662 second color sections

671 third color sections

672 third color sections

681 the 4th color sections

682 the 4th color sections

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 2, its display is arranged according to the pixel array of the device for image of first embodiment of the present invention.This device for image 20 comprises multiple pixel group.Each pixel group comprises the multiple points (dot) 21,22,23,24 by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot 21, at least one second color dot 22, at least one 3rd color dot 23 and at least one 4th color dot 24.This first color dot 21 comprises at least two independent the first color section 211 (A1), 212 (A2) controlled, this second color dot 22 comprises at least two independent the second color section 221 (B1), 222 (B2) controlled, 3rd color dot 23 comprises at least two independent third color section 231 (C1), 232 (C2) controlled, and the 4th color dot 24 comprises at least two independent the 4th color section 241 (D1), 242 (D2) controlled.

Device for image 20 can show 3D image, 2D image and mixing 2D/3D image.Device for image 20 can comprise an optical unit (not shown) further, and this optical unit is placed in the side of this device for image 20 and comprises the visual angle resolution element being arranged in multiple rows and columns in a first direction.The optical unit of use in the present invention can be (but being not limited to) liquid crystal shutter, biconvex lens or parallax grating.

Fig. 3 A and Fig. 3 B illustrates device for image 20 one of one color dot section when display one first image of first embodiment of the present invention, and when display one second image another section of same color dot.In figure 3 a, one of color dot 21,22,23,24 section 211 (A1), 221 (B1), 231 (C1), 241 (D1) are for showing the first image.In figure 3b, another section 212 (A2) of same color dot 21,22,23,24,222 (B2), 232 (C2), 242 (D2) are for showing the second image.In the present embodiment, input to one of color dot 21,22,23,24 section 211 (A1), 221 (B1), 231 (C1), 241 (D1) data for being supplied to primary colors segment signals more than one group of beholder, and input to another section 212 (A2) of color dot 21,22,23,24,222 (B2), 232 (C2), 242 (D2) data for being supplied to primary colors segment signals more than another group beholder.

Please again consult Fig. 3 A and Fig. 3 B, this first image and the second image can be from any video content, media stream, computer export, game output, electronic installation, or anyly known come from video image device.Moreover the first image and the second image can be bidimensional image and/or 3-dimensional image.

Fig. 8 is the block functional diagram of the control method for controlling device for image 20 of the present invention.See also Fig. 2, Fig. 3 A, Fig. 3 B and Fig. 8, device for image 20 comprises one first sub-pixel further and manifests and color space conversion apparatus, it is for being received in the first color space for showing the input data of one first image, and export for showing primary colors segment signals (Fig. 3 A) more than this first image in the second color space, and comprise one second sub-pixel further and manifest and color space conversion apparatus, its for be received in the first color space for showing the input data of one second image and exporting in the second color space for showing primary colors segment signals (Fig. 3 B) more than this second image.For example, the first color space is rgb color space, and the second color space is ABCD color space (Fig. 2).

In the present embodiment, each color dot characterizes a brightness and colourity, this brightness and colourity for this color dot by with neighboring color points group with formed multiple overlapping panchromatic dynamic pixel group the brightness of a corresponding panchromatic pixels data and colourity.That is, use many primary colors device for image (such as, RGBW) of virtual pixel of single color to represent to utilize sub-pixel to manifest and the full rgb color pixel of color space conversion.Fig. 1 and Fig. 2 compares, and such as the resolution of existing RGB 3D display device is 1920 × 3 × 1080, and the resolution of the device for image 20 of first embodiment of the invention is 1920 × 2 × 1080.For 3D image, the resolution for the existing RGB 3D display device of this first image is 960 × 3 × 1080, and is 960 × 3 × 1080 for the resolution of the existing RGB 3D display device of this second image; Resolution for the device for image 20 of the first embodiment of the invention of this first image is 1920 × 1 × 1080, and is 1920 × 1 × 1080 for the resolution of the device for image 20 of the first embodiment of the invention of this second image.For 2D image, the resolution of conventional RGB 3D display device is 1920 × 3 × 1080, and the resolution of the device for image 20 of first embodiment of the invention is 1920 × 2 × 1080.Therefore, the device for image 20 of first embodiment of the invention comprises the 2D image of an extra color depth by using 2 of same color dot section displays.The device for image 20 of the present invention can provide thin, the simple and 3D of low cost image/2D display device, and it guarantees the display of the 3D image under full resolution and high brightness, the display of 2D image and the seamless switching between the display mixing 2D/3D image.

Refer to Fig. 2, at least two the first color sections 211,212 of this device for image 20 arrange along first direction, at least two the second color sections 221,222 arrange along on first direction, at least two third color sections 231,232 arrange along on first direction, and at least two the 4th color sections 241,242 arrange in a first direction.As shown in Figure 2, first direction is horizontal direction (line direction), and a color section 212 in the row direction at least two the first color sections is located immediately between another color section 211 at least two the first color sections and a color section 231 at least two third color sections.On the other hand, if device for image 20 with one perpendicular to device for image 20 display surface for axle, have rotated 90 degree from first direction (Fig. 2 shown in), this device for image 20 is by the second direction that is in relative to observer.So, at least two the first color sections 211,212 of this device for image 20 arrange along this second direction, at least two the second color sections 221,222 arrange along this second direction, at least two third color sections 231 and 232 arrange along this second direction, and at least two the 4th color sections 241,242 are also arrange along this second direction.Second direction is vertical direction (column direction), and in a column direction, a color section 212 at least two the first color sections is located immediately between another color section 211 at least two the first color sections and a color section 231 at least two third color sections.

Please again consult Fig. 2, under white balance state, the second color dot 22 and the 3rd color dot 23 have than the first color dot 21 and the low luminous intensity of the 4th color dot 24, and the first color dot 21 and the 4th color dot 24 are placed in the diagonal positions of predetermined same matrix of pixel group.Refer to Fig. 9, Figure 10 A and Figure 10 B, in the present embodiment, the first color dot 21 is green point, and the second color dot 22 is Bluepoint, and the 3rd color dot 23 is red point, and the 4th color dot 24 is white point.And the first color dot 21, second color dot 22, the 3rd color dot 23 and the 4th color dot 24 are square configuration.

Refer to Fig. 4, its display is arranged according to the pixel array of the device for image of second embodiment of the present invention.This device for image 30 comprises multiple pixel group.Each pixel group comprises the multiple points (dot) 31,32,33,34 by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot 31, at least one second color dot 32, at least one 3rd color dot 33 and at least one 4th color dot 34.This first color dot 31 comprises at least two independent the first color section 311 (A1), 312 (A2) controlled, this second color dot 32 comprises at least two independent the second color section 321 (B1), 322 (B2) controlled, 3rd color dot 33 comprises at least two independent third color section 331 (C1), 332 (C2) controlled, and the 4th color dot 34 comprises at least two independent the 4th color section 341 (D1), 342 (D2) controlled.

Fig. 5 A and Fig. 5 B shows the device for image 30 of second embodiment of the present invention one of one color dot section when display one first image, and when display one second image another section of same color dot.In fig. 5, one of color dot 31,32,33,34 section 311 (A1), 321 (B1), 331 (C1), 341 (D1) are for showing the first image.In figure 5b, another section 312 (A2) of same color dot 31,32,33,34,322 (B2), 332 (C2), 342 (D2) are for showing the second image.

Please again consult Fig. 5 A and 5B, this first image and the second image can be from any video content, media stream, computer export, game output, electronic installation, or anyly known come from video image device.Moreover the first image and the second image can be bidimensional image and/or 3-dimensional image.

Fig. 1 and Fig. 4 compares, such as the resolution of existing RGB 3D display device is 1920 × 3 × 1080, the resolution of the device for image 30 of second embodiment of the invention is 2880 × 2 × 1080, therefore in order to adopt many primary colors structure, only change colored filter, and do not revise other assemblies (for cost reason) of conventional RGB display.For 3D image, the resolution for the existing RGB 3D display device of this first image is 960 × 3 × 1080, and is 960 × 3 × 1080 for the resolution of the existing RGB 3D display device of this second image; Resolution for the device for image 30 of the second embodiment of the invention of this first image is 2880 × 1 × 1080, and is 2880 × 1 × 1080 for the resolution of the device for image of the second embodiment of the invention of this second image.For 2D image, the resolution of existing RGB 3D display device is 1920 × 3 × 1080, and the resolution of the second embodiment device for image 30 of the present invention is 2880 × 2 × 1080.Therefore, the device for image 30 of second embodiment of the invention comprises the 2D image of an extra color depth by using 2 of same color dot section displays.The device for image 30 of second embodiment of the invention can provide thin, the simple and 3D of low cost image/2D display device, and it guarantees the display of the 3D image under full resolution and high brightness, the display of 2D image and the seamless switching between the display mixing 2D/3D image.

Please again consult Fig. 4, the first color dot 31, second color dot 32, the 3rd color dot 33 and the 4th color dot 34 are rectangular shape.Refer to Figure 11, Figure 12 A and Figure 12 B, in the present embodiment, the first color dot 31 is green point, and the second color dot 32 is Bluepoint, and the 3rd color dot 33 is red point, and the 4th color dot 34 is white point.

Refer to Fig. 6, its display is arranged according to the pixel array of the device for image of the 3rd embodiment of the present invention.This device for image 40 comprises multiple pixel group.Each pixel group comprises the multiple points (dot) 41,42,43,44 by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot 41, at least one second color dot 42, at least one 3rd color dot 43 and at least one 4th color dot 44.This first color dot 41 comprises at least two independent the first color section 411 (A1), 412 (A2) controlled, this second color dot 42 comprises at least two independent the second color section 421 (B1), 422 (B2) controlled, 3rd color dot 43 comprises at least two independent third color section 431 (C1), 432 (C2) controlled, and the 4th color dot 44 comprises at least two independent the 4th color section 441 (D1), 442 (D2) controlled.

Fig. 7 A and Fig. 7 B according to the device for image 40 of the 3rd embodiment of the present invention one of one color dot section when display one first image, and when display one second image another section of same color dot.In fig. 7, one of color dot 41,42,43,44 section 411 (A1), 421 (B1), 431 (C1), 441 (D1) are for showing one first image.In figure 7b, another section 412 (A2) of same color dot 41,42,43,44,422 (B2), 432 (C2), 442 (D2) are for showing one second image.

Please again consult Fig. 7 A and 7B, this first image and the second image can be from any video content, media stream, computer export, game output, electronic installation, or anyly known come from video image device.Moreover the first image and the second image can be bidimensional image and/or 3-dimensional image.

Fig. 1 and Fig. 6 compares, and such as the resolution of existing RGB 3D display device is 1920 × 3 × 1080, and the resolution of the device for image 40 of third embodiment of the invention is 1920 × 2 × 1080.For 3D image, the resolution for the existing RGB 3D display device of this first image is 960 × 3 × 1080, and is 960 × 3 × 1080 for the resolution of the known RGB 3D display device of this second image; Resolution for the device for image 40 of the third embodiment of the invention of this first image is 1920 × 1 × 1080, and is 1920 × 1 × 1080 for the resolution of the device for image of the third embodiment of the invention of this second image.For 2D image, the resolution of existing RGB 3D display device is 1920 × 3 × 1080, and the resolution of the device for image 40 of third embodiment of the invention is 1920 × 2 × 1080.Therefore, the device for image 40 of third embodiment of the invention comprises the 2D image of an extra color depth by using 2 of same color dot section displays.The device for image 40 of third embodiment of the invention can provide thin, the simple and 3D of low cost image/2D display device, and it guarantees the display of the 3D image under full resolution and high brightness, the display of 2D image and the seamless switching between the display mixing 2D/3D image.

Please again consulting Fig. 6, is little color dot 41,44 both in color dot, and be large color dot 42,43 both in color dot, the area of little color dot is less than the area of large color dot.In the present embodiment, the area of the first color dot 41 equals the area of the 4th color dot 44, and the area of the 3rd color dot 43 equals the area of the second color dot 42, and the area of the first color dot 41 is less than the area of the 3rd color dot 43.In the present embodiment, the summation of the area of two less color dots equals the area of the one in larger color dot.The device for image 40 of the present invention can be used in OLED.But, be difficult to form white point in OLED.Refer to Figure 13, Figure 14 A and Figure 14 B, in the present embodiment, the first color dot 41 is green point, and the second color dot 42 is Bluepoint, and the 3rd color dot 43 is red point, and the 4th color dot 44 is green point.

Figure 15 shows the pixel array arrangement of the device for image of the 4th embodiment according to the present invention.This device for image 60 comprises multiple pixel group, each first pixel group comprises the multiple points (dot) 361,62,63,64 by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot 61, at least one second color dot 62, at least one 3rd color dot 63 and at least one 4th color dot 64.This first color dot 61 comprises at least two independent the first color section 611 (A1), 612 (A2) controlled, this second color dot 62 comprises at least two independent the second color section 621 (B1), 622 (B2) controlled, 3rd color dot 63 comprises at least two independent third color section 631 (C1), 632 (C2) controlled, and the 4th color dot 64 comprises at least two independent the 4th color section 641 (D1), 642 (D2) controlled.Each second pixel group comprises the multiple color dots 65,66,67,68 by a predetermined same matrix form arrangement, and each pixel group comprises at least one first color dot 65, at least one second color dot 66, at least one 3rd color dot 67 and at least one 4th color dot 68.This first color dot 65 comprises at least two independent the first color section 651 (A1), 652 (A2) controlled, this second color dot 66 comprises at least two independent the second color section 661 (B1), 662 (B2) controlled, 3rd color dot 67 comprises at least two independent third color section 671 (C1), 672 (C2) controlled, and the 4th color dot 68 comprises at least two independent the 4th color section 681 (D1), 682 (D2) controlled.

This first color dot 61 in the first pixel group and this second color dot 62, and this first color dot 65 in the second pixel group and this second color dot 66 are alternately arranged at a column direction or a line direction.The 3rd color dot 63 in the first pixel group and the 4th color dot 64, and the 3rd color dot 67 in the second pixel group and the 4th color dot 68 are alternately arranged at a column direction or a line direction.

Above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not depart from the spirit and scope of technical solution of the present invention.

Claims (21)

1. a device for image, it comprises:

Multiple pixel group, each pixel group comprises the multiple points by a predetermined same matrix form arrangement, each pixel group comprises at least one first color dot, at least one second color dot, at least one 3rd color dot and at least one 4th color dot, this first color dot comprises at least two independent the first color sections controlled, this second color dot comprises at least two independent the second color sections controlled, 3rd color dot comprises at least two independent third color sections controlled, and the 4th color dot comprises at least two independent the 4th color sections controlled;

Wherein at a column direction or a line direction, relative to beholder, according to the orientation of video display, one in each pixel group at least two the first color sections be located immediately in these at least two the first color sections another and between one at least two third color sections; To first group of beholder, the data being input at least two kinds of color sections of each color dot are many primary signals, and to second group of beholder, another the data being input at least two kinds of color sections of each color dot are many primary signals.

2. device for image as claimed in claim 1, it is characterized in that, described device for image comprises an optical unit further, and this optical unit is placed in the side place of this device for image and comprises the visual angle resolution element being arranged in multiple row and row in a first direction.

3. device for image as claimed in claim 2, it is characterized in that, this optical unit is a liquid crystal shutter.

4. device for image as claimed in claim 2, it is characterized in that, this optical unit is a biconvex lens.

5. device for image as claimed in claim 2, it is characterized in that, this optical unit is a parallax grating.

6. device for image as claimed in claim 1, it is characterized in that, described device for image comprises one first sub-pixel further and manifests and color space conversion apparatus, this first sub-pixel manifest and color space conversion apparatus for being received in input data for one first image in one first color space and exporting many primary colors segment signals of this first image in one second color space.

7. device for image as claimed in claim 6, it is characterized in that, described device for image comprises one second sub-pixel further and manifests and color space conversion apparatus, this second sub-pixel manifest and color space conversion apparatus for being received in input data for one second image in this first color space and exporting many primary colors segment signals of this second image in this second color space.

8. device for image as claimed in claim 1, it is characterized in that, two the first color sections are arranged on a first direction, two the second color sections are arranged on this first direction, in the first direction, two the 4th color sections are arranged on this first direction in two third color section arrangements.

9. device for image as claimed in claim 1, it is characterized in that, two the first color sections are arranged in a second direction, two the second color sections are arranged in this second direction, two third color sections are arranged in this second direction, and two the 4th color sections are arranged in this second direction.

10. device for image as claimed in claim 1, is characterized in that, each color dot is by representing one of a corresponding panchromatic pixels data brightness and a colourity to form the panchromatic dynamic pixel group of multiple overlap in groups with consecutive points.

11. device for image as claimed in claim 1, it is characterized in that, under a white balance state, this second color dot and the 3rd color dot comprise than this first color dot and the low luminous intensity of the 4th color dot, and this first color dot and the 4th color dot system are placed in the diagonal positions of this predetermined same matrix of this pixel group.

12. device for image as claimed in claim 11, is characterized in that, this first color dot, this second color dot, the 3rd color dot and the 4th color dot are square configuration.

13. device for image as claimed in claim 11, is characterized in that, this first color dot, this second color dot, the 3rd color dot and the 4th color dot are rectangular shape.

14. device for image as claimed in claim 11, it is characterized in that, this first color dot is a green point, and this second color dot is a Bluepoint, the 3rd color dot is a red point, and the 4th color dot is a white point.

15. device for image as claimed in claim 11, is characterized in that, both in this sosbestic point be point, and both in this sosbestic point are a little louder, and the area of this two point is less than this two a little bigger area.

16. device for image as claimed in claim 15, it is characterized in that, this area of this first color dot equals this area of the 4th color dot, and this area of the 3rd color dot equals this area of this second color dot, and this area of this first color dot is less than this area of the 3rd color dot.

17. device for image as claimed in claim 16, is characterized in that, the summation of these two areas of these two less color dots equals this area of the one in this larger color dot.

18. device for image as claimed in claim 17, is characterized in that, this first color dot is a green point, and this second color dot is a Bluepoint, and the 3rd color dot is a red point, and the 4th color dot is a green point.

19. 1 kinds for controlling as the method for the device for image of claim 1, it comprises the following steps:

(a) first sub-pixel manifest and the input data for one first image of color space conversion in one first color space, and output in the second color space for primary colors segment signals more than this first image; And

(b) second sub-pixel manifest and the input data for one second image of color space conversion in this first color space, and output in this second color space for primary colors segment signals more than this second image.

20. 1 kinds of device for image, it comprises:

Multiple pixel group, each pixel group comprises the multiple points by a predetermined same matrix form arrangement, each pixel group comprises at least one first color dot, at least one second color dot, at least one 3rd color dot and at least one 4th color dot, wherein this first color dot comprises at least two independent the first color sections controlled, and this second color dot comprises at least two independent the second color sections controlled, 3rd color dot comprises at least two independent third color sections controlled, and the 4th color dot comprises at least two independent the 4th color sections controlled;

Wherein relative to beholder, according to the orientation of video display, a system in each pixel group at least two the first color sections be located immediately at least two the first color sections another and between one at least two third color sections; This first color dot in the first pixel group and this second color dot, and this first color dot in the second pixel group and this second color dot are alternately arranged at a column direction or a line direction.

21. device for image as claimed in claim 20, it is characterized in that, relative to beholder, according to the orientation of video display, the 3rd color dot in the first pixel group and the 4th color dot, and the 3rd color dot in the second pixel group and this second color dot are alternately arranged at a column direction or a line direction.