CN203800050U - Display panel and display device - Google Patents

Abstract

The utility model provides a display panel and a display device, which belongs to the technical field of display. The problem that the existing display technology is poor in display effect and large in computational load can be solved. The display panel of the utility model comprises a plurality of pixel units, each pixel unit is composed of nine sub pixels in five columns, the third column includes one central sub pixel running through two rows, and the sub pixels in the other columns are arranged into two rows. The nine sub pixels in each pixel unit include colored sub pixels and compensation sub pixels, the colored sub pixels include red, green and blue sub pixels, and the compensation sub pixels include a brightness compensation and sub pixel(s) and a chrominance compensation sub pixel(s), wherein the central sub pixel is any one of the five colors of sub pixels, the number of each of the other colors of sub pixels is two, and the sub pixels of the same color are not adjacent.

Description

A kind of display floater and display unit

Technical field

The utility model belongs to Display Technique field, is specifically related to a kind of display floater and display unit.

Background technology

In conventional liquid crystal indicator, Organic Light Emitting Diode (OLED) display unit, each point (pixel) carrys out Show Color by a plurality of sub-pixels by mixed light, and for example each pixel forms (RGB pattern) by red sub-pixel, green sub-pixels, each of blue subpixels.

In order to improve visual effect, people have proposed more and more higher requirement for the resolution (pixel count in unit sizes) of display unit; This just requires the size of sub-pixel more and more less, but because process technology limit sub-pixel size can not infinitely be dwindled.

For improve display effect in the situation that sub-pixel size is certain, people have proposed the display unit of Pentile pattern.In the display unit of Pentile pattern, the sub-pixel of part color (as red sub-pixel and blue subpixels) quantity reduces by half; Simultaneously display unit is regarded as in different " layer " the sub-pixel of different colours is virtual, and each layer is divided into a plurality of sample region, and the division of the sample region of each layer do not overlap, and the Area Ratio by sample region calculates each sub-pixel content to display afterwards.In the display unit of Pentile pattern, parton pixel is " sharing ", thereby in visual effect, has realized the resolution higher than true resolution.

But, the display unit display effect of existing Pentile pattern is still undesirable, because the sub-pixel quantity of part color wherein reduces by half, therefore its versicolor sub-pixel is not equally distributed, this causes it easily to occur that zigzag lines, latticed spot, tiny content show the problems such as unclear; Because it takes the computation schema of " layering and zoning ", therefore calculate the content of the required demonstration of each sub-pixel, need complex calculations process, operand is large simultaneously.

Utility model content

Technical problem to be solved in the utility model comprises, for the large problem of poor, the required operand of existing high-resolution Display Technique display effect, provides a kind of resolution is high, display effect good, required operand is little display floater and display unit.

The technical scheme that solution the utility model technical problem adopts is a kind of display floater, comprise a plurality of pixel cells, each pixel cell is comprised of 9 sub-pixels lining up 5 row, and the 3rd classifies 1 central sub-pixel that runs through 2 row as, and the sub-pixel of other row is lined up 2 row;

9 sub-pixels described in each in pixel cell are divided into color sub-pixel and compensation sub-pixel, color sub-pixel is divided into red sub-pixel, green sub-pixels, blue subpixels, compensation sub-pixel is divided into luminance compensation sub-pixel and colourity compensation sub-pixel, wherein, any one in the sub-pixel that described central sub-pixel is 5 kinds of colors, the number of the sub-pixel of other colors is 2, and all non-conterminous with the sub-pixel of color.

Wherein, above-described " OK ", " row " are matrixes for being comprised of a plurality of sub-pixels, wherein each sub-pixel is lined up a plurality of parallel straight lines (" row " in other words) along " line direction ", and line up a plurality of parallel straight lines along " column direction ", and " OK ", " row " are orthogonal; Therefore, " OK ", just two relative directions that " row " represent, the shape (rectangle, circle, abnormity) of itself and sub-pixel is irrelevant, with the modes of emplacement of display floater (vertically placement, horizontal positioned, just put, inversion etc.) irrelevant, also irrelevant with the arrangement mode of grid line and data wire; For example, can think that the every row sub-pixel parallel with grid line is one " OK ", also can think that the every row sub-pixel parallel with data wire is one " OK "; For another example, when display floater is normally placed, can think that the every row's sub-pixel that is parallel to ground direction is one " OK ", also can think that the every row's sub-pixel perpendicular to ground direction is one " OK ".

Preferably, described luminance compensation sub-pixel is white sub-pixels;

Described colourity compensation sub-pixel is yellow sub-pixel or cyan sub-pixel.

Preferably, the arrangement mode of described pixel cell is any one in following 15 kinds:

Wherein, R represents red sub-pixel, and G represents green sub-pixels, and B represents blue subpixels; Mono-of X and Y represent luminance compensation sub-pixel, and another represents colourity compensation sub-pixel.

Preferably, the direction repeated arrangement line by line of a plurality of described pixel cell in described display floater;

A plurality of described pixel cell in described display floater is direction repeated arrangement by column;

A plurality of described pixel cell in described display floater is covered with whole display floater as repetitive.

Preferably, the direction repeated arrangement line by line of a plurality of described pixel cell in described display floater;

In two adjacent lines pixel cells in described display floater, the central sub-pixel position of going up in the row direction hithermost two pixel cells differs a row sub-pixel.

Preferably, described display floater is organic LED display panel, and described sub-pixel comprises luminescence unit, the color of the corresponding described 3 kinds of color sub-pixel of the color of the light of luminescence unit transmitting and 2 kinds of compensation sub-pixels described in each.

Preferably, described display floater is display panels, and described sub-pixel comprises filter unit, through the color described 3 kinds of color sub-pixel of correspondence of light and the colors of 2 kinds of compensation sub-pixels of filter unit described in each.

The technical scheme that solution the utility model technical problem adopts is a kind of display unit, and it comprises above-mentioned display floater.

In display floater of the present utility model, display unit, the sub-pixel quantity of each color equates and evenly arranges, therefore it is bad can not produce zigzag lines, latticed spot etc.; Meanwhile, wherein the sub-pixel of each color is arranged with ad hoc fashion, and it can realize higher resolution in visual effect thus, and in its procedure for displaying, required operand is little, easily realizes; In addition, due to comprising two kinds of different compensation sub-pixels, therefore it can all realize compensation to colourity and brightness, thereby reach better display effect.

Accompanying drawing explanation

Fig. 1 is a kind of schematic diagram of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 2 is the schematic diagram of arrangement of subpixels mode in 15 kinds of preferred pixel unit of display floater of the present utility model;

Fig. 3 is a kind of a kind of schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 4 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 5 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 6 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 7 is a kind of a kind of schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 8 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Fig. 9 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Figure 10 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Figure 11 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Figure 12 is a kind of another kind schematic diagram of sub-pixel distribution mode around of arrangement of subpixels mode of the display floater of embodiment 1 of the present utility model;

Wherein Reference numeral is: 1, pixel cell; R, red sub-pixel; G, green sub-pixels; B, blue subpixels; X, luminance compensation sub-pixel; Y, colourity compensation sub-pixel;

In embodiment of the present utility model and accompanying drawing, for ease of describing, with X, represent luminance compensation sub-pixel and Y represents colourity compensation sub-pixel, but in fact, X, Y be as long as represent respectively different compensation sub-pixels, can be also that Y represents luminance compensation sub-pixel and X represents that colourity compensates sub-pixel.

Embodiment

For making those skilled in the art understand better the technical solution of the utility model, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Embodiment 1:

As shown in Fig. 1 to 12, the present embodiment provides a kind of display floater.

As shown in Figure 1, the display floater of the present embodiment comprises a plurality of pixel cells 1, and each pixel cell is comprised of 9 sub-pixels lining up 5 row, and the 3rd classifies 1 central sub-pixel as, and the sub-pixel of other row is lined up 2 row, and central sub-pixel runs through 2 row; 9 pixels described in each in pixel cell 1 comprise the sub-pixel of 5 kinds of colors, the i.e. compensation sub-pixel of the color sub-pixel of 3 kinds of colors and 2 kinds of colors, the color sub-pixel of 3 kinds of colors is red sub-pixel, green sub-pixels, blue subpixels, the compensation sub-pixel of 2 kinds of colors is luminance compensation sub-pixel and colourity compensation sub-pixel, wherein, any one in the sub-pixel that described central sub-pixel is 5 kinds of colors, the number of the sub-pixel of other colors is 2, and all non-conterminous with the sub-pixel of color.

Specifically, as shown in Figure 2 1～6 in pixel cell, 9 sub-pixels of described pixel cell are 6 color sub-pixel and 3 compensation sub-pixels, and central sub-pixel is compensation sub-pixel, 6 color sub-pixel are 2 red sub-pixel, 2 green sub-pixels, 2 blue subpixels, and 3 compensation sub-pixels are that 1 luminance compensation sub-pixel and 2 colourities compensate sub-pixels or 2 luminance compensation sub-pixels and 1 colourity compensation sub-pixel, or as shown in Figure 2 7～15 in pixel cell, , described in each, 9 of pixel cell 1 sub-pixels are 5 color sub-pixel and 4 compensation sub-pixels, and central sub-pixel is color sub-pixel, 5 color sub-pixel comprise: red sub-pixel, green sub-pixels, blue subpixels, and wherein the number of the color sub-pixel of any two kinds of colors is 2, the number that remains a kind of color sub-pixel of color is 1, 3 compensation sub-pixels are that 1 luminance compensation sub-pixel and 2 colourities compensate sub-pixels or 2 luminance compensation sub-pixels and 1 colourity compensation sub-pixel, and the sub-pixel with color is all non-conterminous.

Visible, the display floater of the present embodiment comprises 5 sub pixels altogether, and 3 kinds of red, green, blues are for showing the color sub-pixel of required color component, and is respectively used to the luminance compensation sub-pixel X and the colourity compensation sub-pixel Y that compensate showing.Different from conventional display floater, the display floater of the present embodiment not forms a pixel cell 1 with 5 sub-pixels, but forms a pixel cell 1 with 9 sub-pixels, then arranges and form matrix with a plurality of pixel cells 1, finally forms display floater.That is to say, regard each pixel cell 1 (comprising 9 sub-pixels) as one " point ", more this " point " lined up to matrix.

Preferably, the direction repeated arrangement line by line of a plurality of described pixel cell in described display floater; A plurality of described pixel cell in described display floater is direction repeated arrangement by column; A plurality of described pixel cell in described display floater is covered with whole display floater as repetitive.

In the display floater of the present embodiment, the sub-pixel quantity of each color equates and evenly arranges, therefore it is bad can not produce zigzag lines, latticed spot etc.; Meanwhile, wherein the sub-pixel of each color is arranged with ad hoc fashion, and it can realize higher resolution in visual effect thus, and the operand in its procedure for displaying is little, easily realizes; In addition, due to comprising two kinds of compensation sub-pixels, therefore it can realize the compensation of luminance compensation and colourity simultaneously, display effect is good.

As shown in Figure 3 preferably, central sub-pixel position in two adjacent lines pixel cells 1 in display floater in the present embodiment differs a row sub-pixel, namely being equivalent to central arrangement of subpixels is inclination Heterogeneous Permutation, but not being vertical strip, its advantage is to make to compensate color to export homogenization more.

Preferably, the arrangement of subpixels mode of pixel cell 1 is any one in as shown in Figure 2 15 kinds.Find after deliberation, 15 kinds of above arrangements can obtain good display effect.

Preferably, luminance compensation sub-pixel X is white sub-pixels; Colourity compensation sub-pixel Y is yellow sub-pixel or cyan sub-pixel.The sub-pixel of above type all can play the effect that shows compensation, and wherein yellow sub-pixel can be by the colour gamut of improving display floater, and cyan sub-pixel can compensate blueness.Certainly, brightness and pigment compensation sub-pixel also can be the color in other any visible-ranges, as long as it can play corresponding compensation effect.

Concrete, each sub-pixel in display floater can independently send the light of required color and brightness; Typically, sub-pixel is controlled by thin film transistor (TFT) array (active driving array), corresponding at least one thin-film transistor of each sub-pixel is (to organic LED display device, the corresponding a plurality of thin-film transistors of each sub-pixel), and each thin-film transistor is lined up array, and be subject to the control of gate line, data wire.As shown in Figure 4, specifically, central sub-pixel in the present embodiment runs through two row, and this central authorities' sub-pixel also only a corresponding thin-film transistor drive, with respect to the central sub-pixel position in traditional display floater design the present embodiment, be equivalent to omit the design of a thin-film transistor.

Preferably, this display floater is organic LED display panel, and sub-pixel wherein comprises luminescence unit, and the color of the corresponding 3 kinds of color sub-pixel of the color of the light of the luminescence unit of each sub-pixel transmitting and 2 kinds of compensation sub-pixels.

That is to say, the display floater of the present embodiment can be organic LED display panel, wherein each sub-pixel place has an Organic Light Emitting Diode (luminescence unit), and each OLED can send different colours light (can by using different organic luminous layers to realize), and the luminous color of each Organic Light Emitting Diode is identical with the color of its place sub-pixel, glows etc. such as the Organic Light Emitting Diode at red sub-pixel R place.

Preferably, as the another kind of mode of the present embodiment, this display floater also can be display panels, and its sub-pixel comprises filter unit, sees through the corresponding 3 kinds of color sub-pixel of color and 2 kinds of colors that compensate sub-pixels of the light of each sub-pixel filter unit.

That is to say, the display floater of the present embodiment also can be display panels, and display panels itself is not luminous, but the light from backlight is filtered to realize demonstration; Wherein, each sub-pixel place has the color filter film (filter unit) of different colours, the light that sees through color filter film can change respective color into, wherein, the color of each sub-pixel place color filter film is identical with the color of this sub-pixel, such as the color filter film at red sub-pixel R place, is redness etc.

Certainly, if adopt the display floater of other types, be also feasible, as long as it can realize the light that sends respective color at each sub-pixel place, because dissimilar display floater all can adopt known structure, therefore be not described in detail at this.

The present embodiment also provides a kind of display unit, and it comprises above-mentioned display floater.

The present embodiment also provides a kind of display packing of above-mentioned display floater, and it comprises:

Make each sub-pixel position show required red, green, blue color component, it comprises: near the color sub-pixel of an a plurality of same colors sub-pixel position is shown, the mean effort by each color sub-pixel makes this sub-pixel position show required color component;

And

Each sub-pixel position is shown to compensation, and it comprises: with near the compensation sub-pixel of a plurality of these colors sub-pixel position, this sub-pixel position is shown to compensation.

Wherein, what above two steps represented is two kinds of operations will carrying out in procedure for displaying, and the two is respectively used to show the component of red, green, blue color and show compensation, so these two steps there is no inevitable precedence relationship in time sequencing.

Visible, in the display packing of the present embodiment, the position at each sub-pixel place (but not each sub-pixel) all can show all required red, green, blue distribution of color (simultaneously showing 3 kinds of color components of red, green, blue), and every kind of color component of each sub-pixel position shows jointly by near the color sub-pixel of a plurality of respective color it, the mean effort by each color sub-pixel makes this sub-pixel position show required color component; Meanwhile, in the present embodiment, also with compensation sub-pixel, each sub-pixel position is shown to compensation (luminance compensation and colourity compensation), to improve display effect, and each sub-pixel position is all to be compensated by near a plurality of compensation sub-pixels it.

The advantage of the display packing of the present embodiment is:

1: each sub-pixel position can show whole color components (as red sub-pixel R place also can demonstrate blue component), be that each sub-pixel position can show complete content, that is to say that each sub-pixel position is equivalent to one " pixel ", the resolution in its visual effect significantly improves like this.

2: each sub-pixel position is carried out luminance compensation and colourity shows compensation, therefore can show that compensation reaches good display effect by two kinds.

3: each sub-pixel position shows that the content of (compensation) is all near average results of a plurality of sub-pixels it, so the color of its demonstration is even, soft, and display effect is good.

4: in the display packing of the present embodiment, take each sub-pixel position shows as benchmark, near and its each sub-pixel content to display of corresponding calculating, therefore it can directly calculate each sub-pixel content to display, and needn't carry out complicated calculations such as " layering and zonings ", operand is little, easily realizes.

Preferably, when a sub-pixel position will show the color component identical with the sub-pixel colors of this position (red component that will show as red sub-pixel R position), near the color sub-pixel of a plurality of same colors it comprises: the color sub-pixel of this sub-pixel position (this red sub-pixel R), and the color sub-pixel (red sub-pixel R) of this sub-pixel position a plurality of these colors around.

And to show that the color component different from the sub-pixel colors of this position is when (as red sub-pixel R position will show green component) when a sub-pixel position, near the color sub-pixel of a plurality of same colors it comprises: the color sub-pixel (green sub-pixels G) of this sub-pixel position a plurality of these colors around.That is to say, now " near the color sub-pixel of this color " do not comprise the sub-pixel (because of its color difference) of this position.

Wherein, difference according to demand, following the example of of above-mentioned " near color sub-pixel " is various.

Preferably, as shown in Figure 5, when a sub-pixel position will show the identical color component of sub-pixel colors with this position, the color sub-pixel of its a plurality of these colors around comprises: be arranged in this sub-pixel position column, and the color sub-pixel of 2 these colors of close this sub-pixel position, and laying respectively in the row of these sub-pixel position column both sides, and the color sub-pixel of 6 these colors of close this sub-pixel position.

That is to say, as shown in Figure 5, when the red sub-pixel R position of (S4, the G3) coordinate of drawing a circle in figure will show red component, except showing with itself, be also that red sub-pixel shows by the color sub-pixel of its a plurality of these colors around; And " color sub-pixel of a plurality of these colors around " comprise and its same column and hithermost 2 red sub-pixel R, and lay respectively in the row of these sub-pixel position column both sides, and 6 this red sub-pixel R of close this sub-pixel position; " color sub-pixel of a plurality of these colors around " preferably include 6 red sub-pixel R of dotted line connected in figure, namely coordinate is (S1, G1), (S1, G3), (S1, G5), (S4, G1), (S4, G5), (S6, G1), (S6, G3), (S6, G5) 6 red sub-pixel R, these " color sub-pixel of a plurality of these colors around " form " a rectangle that surrounds this position.

Preferably, when a sub-pixel position will show the different color component of sub-pixel colors from this position, the color sub-pixel of its a plurality of these colors around comprises: lays respectively in the row of these sub-pixel position column both sides, and the color sub-pixel of 4 these colors of close this sub-pixel position.

That is to say, as shown in Figure 6, when the blue subpixels B position of (S2, the G2) coordinate of drawing a circle in figure will show red component, " color sub-pixel of a plurality of these colors around " comprise in the row that lay respectively at blue subpixels B column both sides, and 4 red sub-pixel R of close this sub-pixel position, i.e. (S1, G1), (S4, G1), (S1, G3), the red sub-pixel R of (S4, G3) coordinate.Visible, when meeting above-mentioned condition, above-mentioned 4 " color sub-pixel of a plurality of these colors around " must form one " rectangle ".

Can certainly be as shown in Figure 7, (the S5 drawing a circle in figure, when G2) the blue subpixels B position of coordinate will show red component, " a plurality of these color color sub-pixel around " comprise the both sides that lay respectively at this sub-pixel position column, and the color sub-pixel of 4 these colors of close this sub-pixel position, i.e. (S4, G1), (S6, G1), the red sub-pixel R of (S4, G3), (S6, G3) coordinate.Visible, when meeting above-mentioned condition, above-mentioned 4 " color sub-pixel of a plurality of these colors around " must form one " rectangle " or " square ".

Certainly can also be as shown in Figure 8, (the S7 drawing a circle in figure, when G4) the blue subpixels B position of coordinate will show red component, " color sub-pixel of a plurality of these colors around " comprise and laying respectively in the column direction of blue subpixels B position, and on column direction, be positioned at 4 of the blue subpixels B column both sides red sub-pixel R of close this sub-pixel position, i.e. (S6, G3), (S6, G5), (S10, G4), the red sub-pixel R of (S10, G6) coordinate.Visible, when meeting above-mentioned condition, above-mentioned 4 " a plurality of these color color sub-pixel around " must form one " parallelogram ".

It should be noted that, above-mentioned 4 " color sub-pixel of a plurality of these colors around " must form sub-pixel in the pixel cell in the display floater of " square " and " rectangle " and arrange and be not identical, 4 " color sub-pixel of a plurality of these colors around " must form that sub-pixel in the pixel cell in the display floater that one " parallelogram " and 4 " color sub-pixel of a plurality of these colors around " must form " square " and " rectangle " arranges is also not identical, be understandable that, figure that 4 " color sub-pixel of a plurality of these colors around " must form is different just arranges relevant to the sub-pixel in pixel cell in its display floater, the principle of its essence display packing is identical.

Can also be preferably, as shown in Figure 9, when a sub-pixel position will show the different color component of sub-pixel colors from this position, the color sub-pixel of its a plurality of these colors around comprises: goes together with this sub-pixel position, and the color sub-pixel of 1 this color being listed as with this sub-pixel position column interval 2 on column direction; Be arranged in two adjacent lines that this sub-pixel position is expert at, and go up in the row direction the color sub-pixel with hithermost 2 these colors of this sub-pixel position.

That is to say, as shown in Figure 9, (the S7 drawing a circle in figure, when G4) the blue subpixels B position of coordinate will show red component, " color sub-pixel of a plurality of these colors around " comprise with blue subpixels B position and going together, and on column direction with 1 red sub-pixel R of blue subpixels B column location interval 2 row; Be arranged in two adjacent lines of being expert in blue subpixels B position, and go up in the row direction and hithermost 2 the red sub-pixel R in blue subpixels B position, i.e. the red sub-pixel R of (S6, G3), (S6, G5), (S10, G4) coordinate.Visible, when meeting above-mentioned condition, above-mentioned 3 " color sub-pixel of a plurality of these colors around " must form one " isosceles triangle ".

According to following the example of of above " color sub-pixel of a plurality of these colors around ", can guarantee that got color sub-pixel is all near this sub-pixel position, and quantity can be not too many, therefore both can reach good display effect, the operand in the time of can avoiding showing is again excessive.

Preferably, when showing compensation to a sub-pixel position, and when the compensation compensation sub-pixel colors of use is identical with the sub-pixel colors of this sub-pixel position, near a plurality of compensation sub-pixels it comprise: the compensation sub-pixel of this sub-pixel position, and the compensation sub-pixel of this sub-pixel position a plurality of these colors around.

And when showing compensation to a sub-pixel position, and when the compensation compensation sub-pixel colors of use is not identical with the sub-pixel colors of this sub-pixel position, near a plurality of compensation sub-pixels it comprise: the compensation sub-pixel of this sub-pixel position a plurality of these colors around.

That is to say, similar during with Show Color component, when showing compensation, difference according to the sub-pixel kind of desired location, near following the example of of the compensation sub-pixel of a plurality of these colors it is also different, its sub-pixel that can comprise this position is (when carrying out luminance compensation to luminance compensation sub-pixel X position, or when colourity compensation is carried out in colourity compensation sub-pixel Y position), also can not comprise that the sub-pixel of this position is (when to color sub-pixel, when luminance compensation is carried out in colourity compensation sub-pixel Y position, or to color sub-pixel, when luminance compensation sub-pixel X carries out position colourity compensation).

Equally, similar during with Show Color component, when showing compensation, following the example of of " the compensation sub-pixels of a plurality of these colors around " is also various.

As shown in figure 10, when showing compensation to a sub-pixel position, and when the compensation compensation sub-pixel colors of use is identical with the sub-pixel colors of this sub-pixel position, the compensation sub-pixel of its a plurality of these colors around comprises: be arranged in this sub-pixel position column, and 2 of both sides up and down that are arranged in this sub-pixel position are in the row direction the compensation sub-pixel of this color of close this sub-pixel position, and lay respectively in the row of a side of this sub-pixel position column 3 compensation sub-pixels of this color of close this sub-pixel position.

That is to say, as shown in figure 10, if in the time of will carrying out the compensation identical with this compensation sub-pixel type to a compensation sub-pixel position, for example, to (the S2 drawing a circle in figure, when G3) colourity compensation is carried out in the luminance compensation sub-pixel Y position of coordinate, its " compensation sub-pixels of a plurality of these colors around " comprise 5 colourity compensation sub-pixel Y of dotted line connected in figure, be coordinate (S2, G1), (S2, G5), (S5, G1), 5 of (S5, G3), (S5, G5) colourity compensation sub-pixel Y.

Certainly, situation when luminance compensation sub-pixel X is carried out to luminance compensation is similar in this, at this, is not described in detail.

As shown in figure 11, when showing compensation to a sub-pixel position, and when the compensation compensation sub-pixel colors of use is different with the sub-pixel colors of this sub-pixel position, the compensation sub-pixel of its a plurality of these colors around comprises: with this sub-pixel position same column and the compensation sub-pixel of 2 these colors of close this sub-pixel position, and lay respectively in this sub-pixel position column direction, and on column direction, be positioned at 2 of this sub-pixel one side color sub-pixel of this color of close this sub-pixel position.

That is to say, as shown in figure 11, if in the time of will carrying out the compensation different from this sub-pixel type to a sub-pixel position, for example, to (the S7 drawing a circle in figure, when G4) luminance compensation is carried out in the blue subpixels B position of coordinate, its " compensation sub-pixels of a plurality of these colors around " preferably include the luminance compensation sub-pixel X of 4 formations of dotted line connected " parallelogram " in figure, be coordinate (S7, G3), (S7, G5), (S9, G4), 4 of (S9, G6) luminance compensation sub-pixel X.

Certainly, when luminance compensation is carried out in the color sub-pixel of other colors, colourity compensation sub-pixel Y position, or situation when colourity compensation is carried out in color sub-pixel, luminance compensation sub-pixel X position is similar in this, at this, is not described in detail.

As shown in figure 12, when showing compensation to a sub-pixel position, and the compensation compensation sub-pixel colors of use is when different with the sub-pixel colors of this sub-pixel position, and the compensation sub-pixel of a plurality of these colors around it comprises: with this sub-pixel position same column and be positioned at the compensation sub-pixel of 2 these colors of close this sub-pixel position of the upper and lower both sides of this sub-pixel position; Be positioned at the side with this sub-pixel position column direction, and with this sub-pixel position compensation sub-pixel of 1 this color of close this sub-pixel position of going together.

That is to say, as shown in figure 12, if in the time of will carrying out the compensation different from this sub-pixel type to a sub-pixel position, for example, while luminance compensation being carried out in the blue subpixels B position of (S7, the G4) coordinate of drawing a circle in figure, its " compensation sub-pixels of a plurality of these colors around " preferably include the luminance compensation sub-pixel X of 3 formations of dotted line connected " isosceles triangle " in figure, be coordinate (S7, G3), 3 of (S7, G5), (S9, G4) luminance compensation sub-pixel X.

Certainly, when luminance compensation is carried out in the color sub-pixel of other colors, colourity compensation sub-pixel Y position, or situation when colourity compensation is carried out in color sub-pixel, luminance compensation sub-pixel X position is similar in this, at this, is not described in detail.

The content that of course it is to be understood that each sub-pixel position in the present embodiment shows (compensation) jointly by a plurality of sub-pixels, therefore corresponding, each sub-pixel is also not only for the demonstration of a position, but simultaneously for the demonstration of a plurality of sub-pixel position; For example, as shown in Figure 6, to (S4, G1) the red sub-pixel R of coordinate, when the sub-pixel position of (S2, G2) coordinate will show red component, it works, and the sub-pixel position of working as (S5, G2) coordinate it works equally will show red component time; Therefore,, to any one sub-pixel, its content that will show also determines according to its corresponding a plurality of sub-pixel position content to display is common.

Of course it is to be understood that following the example of and can changing at any time according to concrete displaying contents of above " colored (compensation) sub-pixel of a plurality of these colors around "; For example, in different frame picture, when same sub-pixel position shows same color, " a plurality of these color color sub-pixel around " used can be different (as in the first frame picture by 3 color sub-pixel, the second frame is used 4); Equally, in a frame picture, to different sub-pixel position, following the example of of its " colour of a plurality of these colors around (compensation) sub-pixel " also can be different.

Of course it is to be understood that when determining " colour of a plurality of these colors around (compensation) sub-pixel ", for the sub-pixel position near display floater edge, its " colour of a plurality of these colors around (compensation) sub-pixel " follows the example of may be different; For example, a line sub-pixel position to display floater top side, because its top does not exist other sub-pixels, thus can be only with the sub-pixel below it as its " colour of a plurality of these colors around (compensation) sub-pixel ".

Be understandable that, above execution mode is only used to principle of the present utility model is described and the illustrative embodiments that adopts, yet the utility model is not limited to this.For those skilled in the art, in the situation that not departing from spirit of the present utility model and essence, can make various modification and improvement, these modification and improvement are also considered as protection range of the present utility model.

Claims (8)

1. a display floater, is characterized in that, comprises a plurality of pixel cells, and each pixel cell is comprised of 9 sub-pixels lining up 5 row, and the 3rd classifies 1 central sub-pixel that runs through 2 row as, and the sub-pixel of other row is lined up 2 row;

9 sub-pixels described in each in pixel cell are divided into color sub-pixel and compensation sub-pixel, color sub-pixel is divided into red sub-pixel, green sub-pixels, blue subpixels, compensation sub-pixel is divided into luminance compensation sub-pixel and colourity compensation sub-pixel, wherein, any one in the sub-pixel that described central sub-pixel is 5 kinds of colors, the number of the sub-pixel of other colors is 2, and all non-conterminous with the sub-pixel of color.

2. display floater according to claim 1, is characterized in that,

Described luminance compensation sub-pixel is white sub-pixels;

Described colourity compensation sub-pixel is yellow sub-pixel or cyan sub-pixel.

3. display floater according to claim 1 and 2, is characterized in that, the arrangement mode of described pixel cell is any one in following 15 kinds:

Wherein, R represents red sub-pixel, and G represents green sub-pixels, and B represents blue subpixels; Mono-of X and Y represent luminance compensation sub-pixel, and another represents colourity compensation sub-pixel.

4. display floater according to claim 1 and 2, is characterized in that,

A plurality of described pixel cell in described display floater is direction repeated arrangement line by line;

A plurality of described pixel cell in described display floater is direction repeated arrangement by column;

A plurality of described pixel cell in described display floater is covered with whole display floater as repetitive.

5. display floater according to claim 1 and 2, is characterized in that,

A plurality of described pixel cell in described display floater is direction repeated arrangement line by line;

In two adjacent lines pixel cells in described display floater, on column direction, the central sub-pixel position of hithermost two pixel cells differs a row sub-pixel.

6. display floater according to claim 1 and 2, is characterized in that,

Described display floater is organic LED display panel, and described sub-pixel comprises luminescence unit, the color of the corresponding described 3 kinds of color sub-pixel of the color of the light of luminescence unit transmitting and 2 kinds of compensation sub-pixels described in each.

7. display floater according to claim 1 and 2, is characterized in that,

Described display floater is display panels, and described sub-pixel comprises filter unit, through the color described 3 kinds of color sub-pixel of correspondence of light and the colors of 2 kinds of compensation sub-pixels of filter unit described in each.

8. a display unit, is characterized in that, comprises the display floater described in any one in claim 1 to 7.