CN104597652A - Novel pixel structure and liquid crystal display - Google Patents

Abstract

The invention provides a novel pixel structure. The novel pixel structure comprises a plurality of pixel units, wherein the multiple pixel units are diamond-shaped and are in network distribution; each pixel unit comprises a red sub-pixel, a blue sub-pixel, a green sub-pixel and a white sub-pixel; all the red sub-pixel, the blue sub-pixel, the green sub-pixel and the white sub-pixel are diamond-shaped and share one edge in pairs. The invention also provides a liquid crystal display. Each pixel unit of the novel pixel structure is diamond-shaped and comprises the red, blue, green and white four sub-pixels, so the display fineness is high; besides, the white sub-pixel of each pixel unit is only required to be matched with the gray scale of the corresponding pixel unit and is not required to share with the adjacent pixel unit, so an algorithm is simple.

Description

A kind of Novel pixel structure and liquid crystal display

Technical field

The present invention relates to display technique field, particularly relate to a kind of Novel pixel structure and liquid crystal display.

Background technology

Along with the development in display market, consumer increases the demand of high definition product, but with regard to bar shaped pixel arrangements common at present, high definition just means less pixel, less aperture opening ratio and penetrance, the backlight illumination simultaneously needed due to the brightness of display screen of high definition product is than the height of common product, therefore the increase of backlight illumination increases causing the power consumption of high definition product, and then the battery life of high definition product is shortened.

Adopt conventional red, green, blue and white (Red, Green, Blue, White, RGBW) Pixel Design structure to reduce the power consumption of high definition product in prior art.RGBW Pixel Design structure conventional is at present by original RGB (Red, Green, Blue, RGB) pixel space becomes decile RG sub-pixel or decile WB sub-pixel from decile RGB sub-pixel, and the sub-pixel area that RGBW sub-pixel area compares RGB arrangement increases 1.5 times, share WB two sub-pixels by the spacing color mixed neighbor that makes, realize the arrangement of RGBW with this.Conventional RGBW Pixel Design structure, due to decile RG sub-pixel or decile WB sub-pixel, makes the drive wire number of source electrode decrease 1/3rd relative to rgb pixel frame mode, because this reducing the power consumption of high definition product.

But the sub-pixel area of conventional RGBW Pixel Design structure is larger than the sub-pixel of rgb pixel 1.5 times, the sophistication of its display does not have essence to promote than rgb pixel project organization, declines on the contrary; In addition because the RGBW Pixel Design structure of routine needs shared WB two pixels, algorithm is complicated, requires higher to source drive.

Therefore be necessary to provide the technical scheme of improvement to overcome the above-mentioned technical matters existed in prior art.

Summary of the invention

In view of above problem, the invention provides a kind of Novel pixel structure, its display sophistication is high, and algorithm is simple.

The invention provides a kind of Novel pixel structure, it comprises multiple pixel cell, described multiple pixel cell is rhombus, and reticulate distribution, each pixel cell comprises red sub-pixel, blue subpixels, green sub-pixels and white sub-pixels, described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels are rhombus, and described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels share a limit between two.

Preferably, described multiple pixel cell comprises multirow first pixel cell, often row first pixel cell comprises multiple first pixel cell, each first pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, described white sub-pixels and described green sub-pixels all with described red sub-pixel and described blue subpixels adjacent, described red sub-pixel is relative with described blue subpixels, and described red sub-pixel is in the left of described blue subpixels, described green sub-pixels is relative with described white sub-pixels, and described green sub-pixels is above described white sub-pixels, and multirow second pixel cell, often row second pixel cell comprises multiple second pixel cell, each second pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, contrary in the position of described red sub-pixel and described blue subpixels and described multiple first pixel cell, contrary in the position of described green sub-pixels and described white sub-pixels and described multiple first pixel cell, wherein, described multirow first pixel cell and described multirow second pixel cell reticulate and are alternately distributed.

Preferably, described multiple first pixel cell is all identical with described multiple second pixel cell area.

Preferably, the area of described red sub-pixel, described green sub-pixels, described blue subpixels and described white sub-pixels is all identical.

Preferably, first catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the first catercorner length of described pixel cell, and the second catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the second catercorner length of described pixel cell.

The present invention also provides a kind of liquid crystal display, and it comprises insulated substrate, a plurality of data lines, many gate lines, multiple on-off element and multiple pixel cells.Described a plurality of data lines is formed on described insulated substrate; Described many gate lines are formed on described insulated substrate, and intersect with described a plurality of data lines; Described multiple on-off element respectively with the connection of described a plurality of data lines and described many gate lines; Described multiple pixel cell is connected with described on-off element respectively, described multiple pixel cell is rhombus, and reticulate distribution, each pixel cell comprises red sub-pixel, blue subpixels, green sub-pixels and white sub-pixels, described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels are rhombus, and described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels share a limit between two.

Preferably, described multiple pixel cell comprises multirow first pixel cell, often row first pixel cell comprises multiple first pixel cell, each first pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, described white sub-pixels and described green sub-pixels all with described red sub-pixel and described blue subpixels adjacent, described red sub-pixel is relative with described blue subpixels, and described red sub-pixel is in the left of described blue subpixels, described green sub-pixels is relative with described white sub-pixels, and described green sub-pixels is above described white sub-pixels, and multirow second pixel cell, often row second pixel cell comprises multiple second pixel cell, each second pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, contrary in the position of described red sub-pixel and described sub-blue pixel and described multiple first pixel cell, contrary in the position of described green sub-pixels and described white sub-pixels and described multiple first pixel cell, wherein, described multirow first pixel cell and described multirow second pixel cell reticulate and are alternately distributed.

Preferably, described multiple first pixel cell is all identical with described multiple second pixel cell area.

Preferably, the area of described red sub-pixel, described green sub-pixels, described blue subpixels and described white sub-pixels is all identical.

Preferably, first catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the first catercorner length of described pixel cell, and the second catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the second catercorner length of described pixel cell

Each pixel cell of Novel pixel structure of the present invention is rhombus, and includes red, blue, green, white four sub-pixels, and display sophistication is high; In addition, the white sub-pixels of each pixel cell only needs to mate with the GTG of respective pixel unit, and without the need to sharing with adjacent pixel cell, algorithm is simple.

Accompanying drawing explanation

Fig. 1 is the floor map of each pixel cell in Novel pixel structure of the present invention.

Fig. 2 is the floor map of the Novel pixel structure of one embodiment of the invention.

Fig. 3 is the floor map of the liquid crystal display of one embodiment of the invention.

Embodiment

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, are described in detail the specific embodiment of the present invention below in conjunction with accompanying drawing.

Fig. 1 is the floor map of each pixel cell in Novel pixel structure of the present invention.As shown in Figure 1, each pixel cell in Novel pixel structure includes red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W.Wherein, red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W are rhombus, and red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W can form pixel cells different in 24 according to different permutation and combination methods, these 24 kinds different pixel cells are rhombus, and reticulate distribution.In addition, the red sub-pixel R of each pixel cell in these 24 kinds different pixel cells, blue subpixels B, green sub-pixels G and white sub-pixels W shares a limit between two, for the pixel cell 100 shown in Fig. 1, red sub-pixel R shares a limit with blue subpixels B and green sub-pixels G respectively, blue subpixels B shares a limit with red sub-pixel R and white sub-pixels W respectively, green sub-pixels G shares a limit with red sub-pixel R and white sub-pixels W respectively, white sub-pixels W shares a limit with green sub-pixels G and blue subpixels B respectively.

In 24 kinds of different pixel cells 8 kinds are only shown in Fig. 1, and they are pixel cell 100, pixel cell 102, pixel cell 104, pixel cell 106, pixel cell 108, pixel cell 110, pixel cell 112 and pixel cell 114 respectively.

Particularly, the red sub-pixel R of pixel cell 100 is relative with white sub-pixels W, and red sub-pixel R is above white sub-pixels W, and blue subpixels B is relative with green sub-pixels G, and blue subpixels B is in the left of green sub-pixels G.The red sub-pixel R of pixel cell 102 is relative with white sub-pixels W, and red sub-pixel R is above white sub-pixels W, and blue subpixels B is relative with green sub-pixels G, and blue subpixels B is in the right of green sub-pixels G.The blue subpixels B of pixel cell 104 is relative with white sub-pixels W, and blue subpixels B is above white sub-pixels W, and red sub-pixel R is relative with green sub-pixels G, and green sub-pixels G is in the left of red sub-pixel R.The blue subpixels B of pixel cell 106 is relative with white sub-pixels W, and blue subpixels B is above white sub-pixels W, and red sub-pixel R is relative with green sub-pixels G, and green sub-pixels G is in the right of red sub-pixel R.

The green sub-pixels G of pixel cell 108 is relative with white sub-pixels W, and green sub-pixels G is above white sub-pixels W, and red sub-pixel R is relative with blue subpixels B, and red sub-pixel R is in the left of blue subpixels G.The green sub-pixels G of pixel cell 110 is relative with white sub-pixels W, and green sub-pixels G is above white sub-pixels W, and red sub-pixel R is relative with blue subpixels B, and red sub-pixel R is in the right of blue subpixels G.The green sub-pixels G of pixel cell 112 is relative with white sub-pixels W, and white sub-pixels W is above green sub-pixels G, and red sub-pixel R is relative with blue subpixels B, and red sub-pixel R is in the left of blue subpixels G.The green sub-pixels G of pixel cell 114 is relative with white sub-pixels W, and white sub-pixels W is above green sub-pixels G, and red sub-pixel R is relative with blue subpixels B, and red sub-pixel R is in the right of blue subpixels G.

Fig. 2 is the floor map of the Novel pixel structure of one embodiment of the invention.As shown in Figure 2, the multiple pixel cells in the Novel pixel structure of one embodiment of the invention comprise multirow first pixel cell 1 and multirow second pixel cell 2.Often row first pixel cell 1 comprises multiple first pixel cell 108, and often row second pixel cell 2 comprises multiple second pixel cell 112.

Wherein, often row first pixel cell 1 comprises 7 the first pixel cells 108, often row second pixel cell 2 comprises 6 the second pixel cells 112, second pixel cell 112 is inserted between two adjacent the first pixel cells 108 often in row first pixel cell 1, and first the first pixel cell 108 often in row first pixel cell 1 forms rectangle with first the second pixel cell 112 in next line second pixel cell 2, second the first pixel cell 108 often in row first pixel cell 1 forms rectangle with second the second pixel cell 112 in next line second pixel cell 2, the like be alternately arranged multirow first pixel cell 1 and multirow second pixel cell 2.

In an embodiment of the present invention, multiple first pixel cells 108 in multirow first pixel cell 1 shown in Fig. 2 can be made up of one or more in 24 kinds of different pixel cells, multiple second pixel cells 112 in multirow second pixel cell 2 also can be made up of one or more in 24 kinds of different pixel cells, and multiple first pixel cell 108 in multirow first pixel cell 1 and multiple second pixel cells 112 in multirow second pixel cell 2 can be the same pixel cell in 24 kinds of different pixel cells, also can be the pixel cell not of the same race in 24 kinds of different pixel cells.

In an embodiment of the present invention, the area of each first pixel cell 108 in multirow first pixel cell 1 is identical with the area of each second pixel cell 112 in multirow second pixel cell 2.

In an embodiment of the present invention, the area of red sub-pixel R, green sub-pixels G, blue subpixels B and white sub-pixels W is all identical.

In an embodiment of the present invention, special for pixel cell 108, pixel cell 108 has the first diagonal line 1081 and the second diagonal line 1082, and the first diagonal line 1081 be pixel cell 108 two relative big angles between angle separated time, second diagonal line 1082 is the angle separated time between two relative little angles of pixel cell 108, red sub-pixel R, blue subpixels B, first diagonal line of white sub-pixels W and green sub-pixels G is also the angle separated time between its two relative big angles, and its length is the half of the first diagonal line 1081 length of pixel cell 108, red sub-pixel R, blue subpixels B, second diagonal line of white sub-pixels W and green sub-pixels G is also the angle separated time between its two relative little angles, and its length is the half of the second diagonal line 1082 length of pixel cell 108.

Fig. 3 is the floor map of the liquid crystal display of one embodiment of the invention.As shown in Figure 3, liquid crystal display comprises insulated substrate (not shown), a plurality of data lines 40, many gate lines 42, multiple on-off element (not shown) and multiple pixel cells.A plurality of data lines 40 and many gate lines 42 are all formed on insulated substrate, and a plurality of data lines 40 and many gate line 42 cross-distribution.Multiple on-off element is connected with a plurality of data lines 40 and many gate lines 42 respectively.Multiple pixel cell is connected with on-off element respectively, multiple pixel cell is rhombus, and reticulate distribution, each pixel cell comprises red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W, red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W are rhombus, and red sub-pixel R, blue subpixels B, green sub-pixels G and white sub-pixels W share a limit between two.

Wherein, pixel cell in Fig. 3 is special for pixel cell 108 and pixel cell 112 explanation, can find out in figure 3, red sub-pixel R and blue subpixels B is alternately distributed formation a line, white sub-pixels W and green sub-pixels G is in the lastrow of being expert at or next line that red sub-pixel R and blue subpixels B alternately formed respectively, and many gate lines 42 are for driving the pixel of corresponding line.White pixel W and green pixel G is alternately distributed formation one row, the left side one that red pixel R and blue pixel B is in the column that white pixel W and green pixel G is alternately formed respectively arranges or the right one row, and a plurality of data lines 40 is for driving the pixel of respective column.

Each pixel cell of Novel pixel structure of the present invention is rhombus, and includes red son as R element, blue subpixels B, green sub-pixels G and white sub-pixels W, and look even completely thoroughly to make picture, and display sophistication is high; In addition, the white sub-pixels W of each pixel cell only needs to mate with the GTG of respective pixel unit, and without the need to sharing with adjacent pixel cell, algorithm is simple.

Apply specific case herein to adopt Novel pixel structure of the present invention and liquid crystal display and embodiment is set forth, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention; all will change in specific embodiments and applications; to sum up, this description should not be construed as limitation of the present invention, and protection scope of the present invention should be as the criterion with appended claim.

Claims (10)

1. a Novel pixel structure, is characterized in that, described Novel pixel structure comprises:

Multiple pixel cell, described multiple pixel cell is rhombus, and reticulate distribution, each pixel cell comprises red sub-pixel, blue subpixels, green sub-pixels and white sub-pixels, described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels are rhombus, and described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels share a limit between two.

2. Novel pixel structure as claimed in claim 1, it is characterized in that, described multiple pixel cell comprises:

Multirow first pixel cell, often row first pixel cell comprises multiple first pixel cell, each first pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, described white sub-pixels and described green sub-pixels all with described red sub-pixel and described blue subpixels adjacent, described red sub-pixel is relative with described blue subpixels, and described red sub-pixel is in the left of described blue subpixels, described green sub-pixels is relative with described white sub-pixels, and described green sub-pixels is above described white sub-pixels; And

Multirow second pixel cell, often row second pixel cell comprises multiple second pixel cell, each second pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, contrary in the position of described red sub-pixel and described blue subpixels and described multiple first pixel cell, contrary in the position of described green sub-pixels and described white sub-pixels and described multiple first pixel cell;

Wherein, described multirow first pixel cell and described multirow second pixel cell reticulate and are alternately distributed.

3. Novel pixel structure as claimed in claim 2, it is characterized in that, described multiple first pixel cell is all identical with described multiple second pixel cell area.

4. Novel pixel structure as claimed in claim 1, it is characterized in that, the area of described red sub-pixel, described green sub-pixels, described blue subpixels and described white sub-pixels is all identical.

5. Novel pixel structure as claimed in claim 1, it is characterized in that, first catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the first catercorner length of described pixel cell, and the second catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the second catercorner length of described pixel cell.

6. a liquid crystal display, is characterized in that, described liquid crystal display comprises:

Insulated substrate;

A plurality of data lines, described insulated substrate is formed;

Many gate lines, described insulated substrate is formed, and intersects with described a plurality of data lines;

Multiple on-off element, described multiple on-off element respectively with the connection of described a plurality of data lines and described many gate lines;

Multiple pixel cell, be connected with described on-off element respectively, described multiple pixel cell is rhombus, and reticulate distribution, each pixel cell comprises red sub-pixel, blue subpixels, green sub-pixels and white sub-pixels, described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels are rhombus, and described red sub-pixel, described blue subpixels, described green sub-pixels and described white sub-pixels share a limit between two.

7. liquid crystal display as claimed in claim 6, it is characterized in that, described multiple pixel cell comprises:

Multirow first pixel cell, often row first pixel cell comprises multiple first pixel cell, each first pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, described white sub-pixels and described green sub-pixels all with described red sub-pixel and described blue subpixels adjacent, described red sub-pixel is relative with described blue subpixels, and described red sub-pixel is in the left of described blue subpixels, described green sub-pixels is relative with described white sub-pixels, and described green sub-pixels is above described white sub-pixels; And

Multirow second pixel cell, often row second pixel cell comprises multiple second pixel cell, each second pixel cell comprises red sub-pixel, green sub-pixels, blue subpixels and white sub-pixels, contrary in the position of described red sub-pixel and described sub-blue pixel and described multiple first pixel cell, contrary in the position of described green sub-pixels and described white sub-pixels and described multiple first pixel cell;

Wherein, described multirow first pixel cell and described multirow second pixel cell reticulate and are alternately distributed.

8. liquid crystal display as claimed in claim 7, it is characterized in that, described multiple first pixel cell is all identical with described multiple second pixel cell area.

9. liquid crystal display as claimed in claim 6, it is characterized in that, the area of described red sub-pixel, described green sub-pixels, described blue subpixels and described white sub-pixels is all identical.

10. liquid crystal display as claimed in claim 6, it is characterized in that, first catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the first catercorner length of described pixel cell, and the second catercorner length of described red sub-pixel, described blue subpixels, described white sub-pixels and described green sub-pixels is the half of the second catercorner length of described pixel cell.