CN103529572B - A kind of display floater and dot structure thereof - Google Patents

Abstract

The open a kind of display floater of the present invention and dot structure thereof, described display floater is formed by multiple display unit repeatedly stackings, described display unit is combined by multiple arrangement of subpixels, and the arrangement architecture of described sub-pixel is 4 × 4 arrangements: the first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；Described sub-pixel a, sub-pixel b, sub-pixel c and the sub-pixel d mutually different sub-pixel of color respectively.

Description

A kind of display floater and dot structure thereof

Technical field

The present invention relates to pixel arrangement field, particularly relate to a kind of display floater and dot structure thereof.

Background technology

On display panels, each pixel is by corresponding to three kinds of basic colors information (red R, green G and blueness B) three sub-pixel unit are formed, as shown in Figure 1.

By adjusting red, the green and size of blue sub-pixel luminence, it is possible to the shades of colour letter required for display Breath.But owing to the brightness of each pixel is normally only relevant to the meansigma methods of the brightness of each sub-pixel, so its brightness is general The highest.Meanwhile, the arrangement mode of sub-pixel unit is related to the resolution that display panels can be provided by, so sub-pixel The quality that image is shown by the arrangement mode of unit has conclusive impact.

Therefore, in order to improve resolution and the color representation power of display floater, prior art also been proposed several improvement Arrangement mode and structure:

A () as in figure 2 it is shown, do the shape of triangularity by sub-pixel, or as it is shown on figure 3, sub-pixel is made positive six The shape of limit shape, although this type of improvement can make color representation power increased, but adds the difficulty that technique realizes.

B (), sub-pixel one dot structure of composition arranged 2 × 2, comprise: a red son in this dot structure Pixel (R), two green sub-pixels (G) and a blue subpixels B, the paired linea angulata of two of which green sub-pixels G arranges, as Dot structure 01 shown in Fig. 4.Attaching most importance to multiple unit with 2 × 2 sub-pixel structures, repeated arrangement forms display floater 00；Above-mentioned Although improving and improve display effect to a certain extent.But this dot structure, each in display floater will certainly be caused Sub-pixel size in pixel reduces.Such as, the resolution of LCD Panel is the highest, is accommodated under same screen size Pixel quantity will be the most, and correspondingly, the size shared by each pixel will be less, thus cause the light-emitting area of pixel to enter One step ground is restricted, therefore can reduce the service life of product.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art, it is an object of the invention to provide a kind of display floater and dot structure thereof, Aim to solve the problem that existing display resolution and the problem that color representation power is poor, the life-span is low.

Technical scheme is as follows:

A kind of display floater, wherein, described display floater is formed by multiple display unit repeatedly stackings, described display unit Being combined by multiple arrangement of subpixels, the arrangement architecture of described sub-pixel is 4 × 4 arrangements:

The first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；

Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；

The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；

Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Described sub-pixel a, sub-pixel b, sub-pixel c and sub-pixel d are respectively the mutually different sub-pixel of color.

Described display floater, wherein, described sub-pixel a and sub-pixel c is respectively red sub-pixel and blue subpixels In one, described sub-pixel b and sub-pixel d is respectively the one in green sub-pixels and white sub-pixels.

Described display floater, wherein, the arrangement of subpixels structure of described display unit is the one in following combination:

The first row is followed successively by W, G, B, G from left to right；Second row is followed successively by G, R, W, R from left to right；The third line from a left side to The right side is followed successively by B, W, G, W；Fourth line is followed successively by G, R, W, B from left to right；

The first row is followed successively by W, G, R, G from left to right；Second row is followed successively by G, B, W, B from left to right；The third line from a left side to The right side is followed successively by R, W, G, W；Fourth line is followed successively by G, B, W, R from left to right；

The first row is followed successively by G, W, B, W from left to right；Second row is followed successively by W, R, G, R from left to right；The third line from a left side to The right side is followed successively by B, G, W, G；Fourth line is followed successively by W, R, G, B from left to right；

The first row is followed successively by G, W, R, W from left to right；Second row is followed successively by W, B, G, B from left to right；The third line from a left side to The right side is followed successively by R, G, W, G；Fourth line is followed successively by W, B, G, R from left to right；

Wherein, R, G, B, W are respectively red sub-pixel, green sub-pixels, blue subpixels, white sub-pixels.

Described display floater, wherein, described sub-pixel a and sub-pixel c is respectively cyan sub-pixel and pinkish red dice picture One in element, described sub-pixel b and sub-pixel d is respectively the one in yellow sub-pixel and white sub-pixels.

Described display floater, wherein, the arrangement of subpixels structure of described display unit is the one in following combination:

The first row is followed successively by W, Y, M, Y from left to right；Second row is followed successively by Y, C, W, C from left to right；The third line from a left side to The right side is followed successively by M, W, Y, W；Fourth line is followed successively by Y, C, W, M from left to right；

The first row is followed successively by W, Y, C, Y from left to right；Second row is followed successively by Y, M, W, M from left to right；The third line from a left side to The right side is followed successively by C, W, Y, W；Fourth line is followed successively by Y, M, W, C from left to right；

The first row is followed successively by Y, W, M, W from left to right；Second row is followed successively by W, C, Y, C from left to right；The third line from a left side to The right side is followed successively by M, Y, W, Y；Fourth line is followed successively by W, C, Y, M from left to right；

The first row is followed successively by Y, W, C, W from left to right；Second row is followed successively by W, M, Y, M from left to right；The third line from a left side to The right side is followed successively by C, Y, W, Y；Fourth line is followed successively by W, M, Y, C from left to right；

Wherein, C, M, Y, W are respectively cyan sub-pixel, magenta sub-pixel, yellow sub-pixel, white sub-pixels.

Described display floater, wherein, described display floater is that described display unit is by weight after rotating, being inverted or invert Stack formation again.

A kind of dot structure, wherein, described dot structure is that described in claim 1,4 × 4 arrangement display units are formed The array of sub-pixels of 4 × 4 arrangements of the arbitrary continuation in display floater.

Described dot structure, wherein, the sub-pixel arrangement of described dot structure is:

The first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；

Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；

The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；

Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Described sub-pixel a, sub-pixel b, sub-pixel c and the sub-pixel d mutually different sub-pixel of color respectively.

Described dot structure, wherein, described sub-pixel a and sub-pixel c is respectively red sub-pixel and blue subpixels In one, described sub-pixel b and sub-pixel d is respectively the one in green sub-pixels and white sub-pixels.

Described dot structure, wherein, described sub-pixel a and sub-pixel c is respectively cyan sub-pixel and pinkish red dice picture One in element, described sub-pixel b and sub-pixel d is respectively the one in yellow sub-pixel and white sub-pixels.

Beneficial effect: the present invention is by being optimized the arrangement architecture of sub-pixel so that the spatial arrangement of sub-pixel is more Tend to isotropism, enhance resolution and the color representation power of display floater, it is achieved while reducing power consumption, improve display The brightness of panel, improves service life.

Accompanying drawing explanation

Fig. 1 is the structural representation of dot structure in prior art.

Fig. 2 is the structural representation of the dot structure improved in prior art.

Fig. 3 is the structural representation of the dot structure of another improvement in prior art.

Fig. 4 is the structural representation of the display floater of the dot structure formation of another improvement in prior art.

Fig. 5 is the structural representation of the display floater of the present invention.

Fig. 6 be the present invention display floater in the first structure and the structural representation of the second structure.

Fig. 7 is the dot structure signal of the octagon formed centered by the first structure in the display floater of the present invention Figure.

Fig. 8 be the present invention display floater in the arrangement architecture schematic diagram of multiple octagons.

Detailed description of the invention

The present invention provides a kind of display floater and dot structure thereof, for making the purpose of the present invention, technical scheme and effect more Adding clear, clear and definite, the present invention is described in more detail below.Should be appreciated that specific embodiment described herein is only used To explain the present invention, it is not intended to limit the present invention.

The display floater that the present invention provides, is formed by multiple display unit repeatedly stackings, and described display unit is by many height Pixel is arranged in a combination, and the arrangement architecture of described sub-pixel is for arrange according to 4 × 4 modes.

Carry out the display floater to the present invention below in conjunction with the accompanying drawings and dot structure is described in detail.

As it is shown in figure 5, the arrangement of subpixels structure at the display unit 101 of described display floater 100 is:

The first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；

Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；

The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；

Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Described sub-pixel a, sub-pixel b, sub-pixel c and sub-pixel d are respectively the mutually different sub-pixel of color.Above-mentioned Arrangement of subpixels structure has the advantages that diagonal mirror images is symmetrical so that being more evenly distributed of each sub-pixel.

In the present embodiment, described sub-pixel a, sub-pixel b, sub-pixel c, sub-pixel d are red, green, blue, white One in sub-pixel, i.e. adds a white sub-pixels than traditional display floater, it is achieved while reducing power consumption, improves The brightness of display floater.

It is further preferred that described sub-pixel a and sub-pixel c is the one in red sub-pixel and blue subpixels, described Sub-pixel b and sub-pixel d is that the one in green sub-pixels and white sub-pixels, i.e. sub-pixel a and sub-pixel c are respectively redness Sub-pixel and blue subpixels, or sub-pixel a and sub-pixel c is respectively blue subpixels and red sub-pixel；Sub-pixel b and Sub-pixel d is respectively green sub-pixels and white sub-pixels, or sub-pixel b and sub-pixel d is respectively white sub-pixels and green Sub-pixels.

Now, the one during preferably arrangement of subpixels structure is following combination:

The first row is followed successively by W, G, B, G from left to right；Second row is followed successively by G, R, W, R from left to right；The third line from a left side to The right side is followed successively by B, W, G, W；Fourth line is followed successively by G, R, W, B from left to right；

The first row is followed successively by W, G, R, G from left to right；Second row is followed successively by G, B, W, B from left to right；The third line from a left side to The right side is followed successively by R, W, G, W；Fourth line is followed successively by G, B, W, R from left to right；

The first row is followed successively by G, W, B, W from left to right；Second row is followed successively by W, R, G, R from left to right；The third line from a left side to The right side is followed successively by B, G, W, G；Fourth line is followed successively by W, R, G, B from left to right；

The first row is followed successively by G, W, R, W from left to right；Second row is followed successively by W, B, G, B from left to right；The third line from a left side to The right side is followed successively by R, G, W, G；Fourth line is followed successively by W, B, G, R from left to right；

Wherein, R, G, B, W are respectively red sub-pixel, green sub-pixels, blue subpixels, white sub-pixels.

Additionally, described sub-pixel a, sub-pixel b, sub-pixel c, sub-pixel d can also is that cyan, magenta, yellow, white One in sub-pixel, adds a white sub-pixels than traditional display floater equally, it is achieved while reducing power consumption, carry The high brightness of display floater.

It is further preferred that described sub-pixel a and sub-pixel c is the one in cyan sub-pixel and magenta sub-pixel, institute Stating sub-pixel b and sub-pixel d is that the one in yellow sub-pixel and white sub-pixels, i.e. sub-pixel a and sub-pixel c are respectively green grass or young crops Sub-pixels and magenta sub-pixel, or sub-pixel a and sub-pixel c is respectively magenta sub-pixel and cyan sub-pixel；Son Pixel b and sub-pixel d are respectively yellow sub-pixel and white sub-pixels, or sub-pixel b and sub-pixel d is respectively white sub-picture Element and yellow sub-pixel.

Now, the one during preferably arrangement of subpixels structure is following combination:

The first row is followed successively by W, Y, M, Y from left to right；Second row is followed successively by Y, C, W, C from left to right；The third line from a left side to The right side is followed successively by M, W, Y, W；Fourth line is followed successively by Y, C, W, M from left to right；

The first row is followed successively by W, Y, C, Y from left to right；Second row is followed successively by Y, M, W, M from left to right；The third line from a left side to The right side is followed successively by C, W, Y, W；Fourth line is followed successively by Y, M, W, C from left to right；

The first row is followed successively by Y, W, M, W from left to right；Second row is followed successively by W, C, Y, C from left to right；The third line from a left side to The right side is followed successively by M, Y, W, Y；Fourth line is followed successively by W, C, Y, M from left to right；

The first row is followed successively by Y, W, C, W from left to right；Second row is followed successively by W, M, Y, M from left to right；The third line from a left side to The right side is followed successively by C, Y, W, Y；Fourth line is followed successively by W, M, Y, C from left to right；

Wherein, C, M, Y, W are respectively cyan sub-pixel, magenta sub-pixel, yellow sub-pixel, white sub-pixels.

Sub-pixel structure in display floater 100 is set to above-mentioned arrangement architecture by the present invention, and its reason is:

As a example by sub-pixel d, (sub-pixel b and the homotaxis of sub-pixel d, so having and the arrangement mode of sub-pixel d Identical feature), as shown in Figure 6, in display floater 100, include following two structure: the first structure is: one is individually Sub-pixel composition, such as the first structure 104 in figure；Second structure is: four adjacent sub-pixel compositions, such as the second structure in figure 105 compositions.

In above-mentioned display floater, the similar sub-pixel d's close with it for sub-pixel d centered by the first structure 104 Apart from equal, all close similar sub-pixel D-shapeds become octagon, as it is shown in fig. 7, close with the sub-pixel d of center Sub-pixel d line constitute octagon, dotted line circle represents and is in the first structure 104 of center.So, all with first The octagon 106 that similar sub-pixel centered by structure 104 is constituted is paved with whole display floater, as shown in Figure 8, and each the The similar sub-pixel d centered by one structure layout pitch on four direction is equal, and this makes this sub-pixel at four Distribution on direction is more uniform.

This four direction refers to: centered by middle sub-pixel d, and the straight line that symmetrical sub-pixel d is constituted is formed Direction, successively from the horizontal by、、、Angle.

The addition of the second structure 105, is shared by the upper pixel of adjacent lines or row, to a certain extent, compensate for first The problem that 104 times spatial samplings in the horizontal and vertical directions of structure are uneven so that the horizontally and vertically resolution on direction Power will not reduce.

From the above it can be seen that sub-pixel d uses having the beneficial effect that of octagon

(1), octagon in the case of resolution is basically unchanged in the horizontal and vertical directions is used, relative to sub-pixel D uses square or the situation of regular hexagon arrangement, and the present invention can realize the raising of the resolution in more direction；

(2) why the present invention uses octagon not use the reason of other polygonal shapes such as dodecagon to exist In: the sub-pixel that the too much contribution to resolution is less, the most sub-picture can be there is in other polygonal inside such as dodecagon Element a, sub-pixel b and sub-pixel c, so can cause the resolution on every a line or every string inconsistent, have ignored level and Resolution on vertical direction presents ability, so that the marginal information in the performance direction, particularly during Word message, The each row of easy generation, each column split rate are inconsistent, affect display effect.

So the present invention uses octagon that the sub-pixel d that the contribution of resolution is bigger is optimized arrangement design.

In the case of pixel is sufficiently small, human eye is far longer than the sensitivity to color to the sensitivity of brightness, and white Pixel mainly provides monochrome information, is turned brightness calculation formula by red, green, blueness simultaneously:

Y=0.3*R+0.6*G+0.1*B, Y are brightness, and R, G, B are red, green, blue.

From the foregoing, it will be observed that contribution maximum in redness, green, blueness that green sub-pixels G is to brightness, so white and green In spatial resolution, BELAND normal complexion is red the most sensitive for human eye, and the arrangement mode of the present invention can make white and green Isotropism is more tended on pixel spatial arrangement in a plurality of directions, thus the beneficially lifting of resolution in the direction.

It should be noted that, in the embodiment shown in fig. 5, only illustrate as a example by display unit 101, but do not limit to Display floater can be formed, at the sub-picture of the continuous print 4 × 4 arbitrarily chosen from Fig. 5 by repeatedly stacking in only display unit 101 Pixel array all may be constructed described display floater, the display unit 102 such as chosen from Fig. 5 or display unit 103, The most also the more uniform effect of spatial sampling of the present invention can be realized.Additionally, the display floater in the present invention does not the most limit to In the embodiment shown in Fig. 5, it is also possible to be arrangement of subpixels structure in the display floater shown in Fig. 5 by rotations, transposition, instead The display floater that formed of mode such as turn, also can reach the more uniform effect of spatial arrangement.

It addition, the size of each sub-pixel can be depth-width ratio is the proportionate relationship of 1:1, it is also possible to be depth-width ratio be 1:2 or The proportionate relationship of person 2:1, the shape of each sub-pixel can also be the structures such as circle, triangle, hexagon.

Based on above-mentioned display floater, the present invention also provides for a kind of dot structure, and described dot structure is described 4 × 4 arrangements The array of sub-pixels of 4 × 4 arrangements of the arbitrary continuation in the display floater that display unit is formed.It is to say, by above-mentioned The repeatedly stacking of dot structure can form described display floater.

Specifically, described dot structure can be the display unit 101 shown in Fig. 5, the sub-pixel of i.e. 4 × 4 arrangements Array, the first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；Second row is followed successively by from left to right Sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c；The third line be followed successively by from left to right sub-pixel a, sub-pixel b, sub-pixel d, Sub-pixel b；Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Wherein, described sub-pixel a and sub-pixel c is respectively the one in red sub-pixel and blue subpixels, described son Pixel b and sub-pixel d are respectively the one in green sub-pixels and white sub-pixels.Or, described sub-pixel a and sub-pixel c Be respectively the one in cyan sub-pixel and magenta sub-pixel, described sub-pixel b and sub-pixel d be respectively yellow sub-pixel and One in white sub-pixels.The benefit that arranges about above-mentioned dot structure refers to describe above.

In sum, the present invention is by being optimized the arrangement architecture of sub-pixel so that the spatial arrangement of sub-pixel is more Tend to isotropism, enhance resolution and the color representation power of display floater, it is achieved while reducing power consumption, improve display The brightness of panel, improves service life.

It should be appreciated that the application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can To be improved according to the above description or to convert, all these modifications and variations all should belong to the guarantor of claims of the present invention Protect scope.

Claims (9)

1. a display floater, it is characterised in that described display floater is formed by multiple display unit repeatedly stackings, described display Unit is combined by multiple arrangement of subpixels, and the arrangement architecture of described sub-pixel is 4 × 4 arrangements:

The first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；

Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；

The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；

Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Described sub-pixel a, sub-pixel b, sub-pixel c and sub-pixel d are respectively the mutually different sub-pixel of color.

Display floater the most according to claim 1, it is characterised in that described sub-pixel a and sub-pixel c is respectively red son One in pixel and blue subpixels, described sub-pixel b and sub-pixel d is respectively in green sub-pixels and white sub-pixels A kind of.

Display floater the most according to claim 2, it is characterised in that the arrangement of subpixels structure of described display unit be with One in lower combination:

The first row is followed successively by W, G, B, G from left to right；Second row is followed successively by G, R, W, R from left to right；The third line depends on from left to right Secondary for B, W, G, W；Fourth line is followed successively by G, R, W, B from left to right；

The first row is followed successively by W, G, R, G from left to right；Second row is followed successively by G, B, W, B from left to right；The third line depends on from left to right Secondary for R, W, G, W；Fourth line is followed successively by G, B, W, R from left to right；

The first row is followed successively by G, W, B, W from left to right；Second row is followed successively by W, R, G, R from left to right；The third line depends on from left to right Secondary for B, G, W, G；Fourth line is followed successively by W, R, G, B from left to right；

The first row is followed successively by G, W, R, W from left to right；Second row is followed successively by W, B, G, B from left to right；The third line depends on from left to right Secondary for R, G, W, G；Fourth line is followed successively by W, B, G, R from left to right；

Wherein, R, G, B, W are respectively red sub-pixel, green sub-pixels, blue subpixels, white sub-pixels.

Display floater the most according to claim 1, it is characterised in that described sub-pixel a and sub-pixel c is respectively cyan One in pixel and magenta sub-pixel, described sub-pixel b and sub-pixel d is respectively in yellow sub-pixel and white sub-pixels One.

Display floater the most according to claim 4, it is characterised in that the arrangement of subpixels structure of described display unit be with One in lower combination:

The first row is followed successively by W, Y, M, Y from left to right；Second row is followed successively by Y, C, W, C from left to right；The third line depends on from left to right Secondary for M, W, Y, W；Fourth line is followed successively by Y, C, W, M from left to right；

The first row is followed successively by W, Y, C, Y from left to right；Second row is followed successively by Y, M, W, M from left to right；The third line depends on from left to right Secondary for C, W, Y, W；Fourth line is followed successively by Y, M, W, C from left to right；

The first row is followed successively by Y, W, M, W from left to right；Second row is followed successively by W, C, Y, C from left to right；The third line depends on from left to right Secondary for M, Y, W, Y；Fourth line is followed successively by W, C, Y, M from left to right；

The first row is followed successively by Y, W, C, W from left to right；Second row is followed successively by W, M, Y, M from left to right；The third line depends on from left to right Secondary for C, Y, W, Y；Fourth line is followed successively by W, M, Y, C from left to right；

Wherein, C, M, Y, W are respectively cyan sub-pixel, magenta sub-pixel, yellow sub-pixel, white sub-pixels.

Display floater the most according to claim 1, it is characterised in that described display floater is that described display unit is by rotation Turn, be inverted or invert after repeatedly stacking formed.

7. a dot structure, it is characterised in that described dot structure is in the display floater that 4 × 4 arrangement display units are formed Arbitrary continuation 4 × 4 arrangement array of sub-pixels, the arrangement mode of described array of sub-pixels is:

The first row is followed successively by sub-pixel b, sub-pixel d, sub-pixel a, sub-pixel d from left to right；

Second row is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel c from left to right；

The third line is followed successively by sub-pixel a, sub-pixel b, sub-pixel d, sub-pixel b from left to right；

Fourth line is followed successively by sub-pixel d, sub-pixel c, sub-pixel b, sub-pixel a from left to right；

Described sub-pixel a, sub-pixel b, sub-pixel c and the sub-pixel d mutually different sub-pixel of color respectively.

Dot structure the most according to claim 7, it is characterised in that described sub-pixel a and sub-pixel c is respectively red son One in pixel and blue subpixels, described sub-pixel b and sub-pixel d is respectively in green sub-pixels and white sub-pixels A kind of.

Dot structure the most according to claim 7, it is characterised in that described sub-pixel a and sub-pixel c is respectively cyan One in pixel and magenta sub-pixel, described sub-pixel b and sub-pixel d is respectively in yellow sub-pixel and white sub-pixels One.