CN207817361U - Pixel arrangement structure, display base plate and display device - Google Patents
Pixel arrangement structure, display base plate and display device Download PDFInfo
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- CN207817361U CN207817361U CN201820235756.8U CN201820235756U CN207817361U CN 207817361 U CN207817361 U CN 207817361U CN 201820235756 U CN201820235756 U CN 201820235756U CN 207817361 U CN207817361 U CN 207817361U
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Abstract
A kind of pixel arrangement structure, display base plate and display device.The pixel arrangement structure includes:First repetitive unit and the second repetitive unit, first repetitive unit includes first sub-pixel, one the second sub-pixel and two third sub-pixels, second repetitive unit includes two the 4th sub-pixels, one the 5th sub-pixel and the 6th sub-pixel, in a first direction, described two third sub-pixels are between first sub-pixel and second sub-pixel, described two 4th sub-pixels are between the 5th sub-pixel and the 6th sub-pixel, described two 4th sub-pixels are arranged along the first direction, described two third sub-pixels arrange in a second direction, the first direction and the second direction are not parallel.
Description
Technical field
The embodiments of the present invention are related to a kind of pixel arrangement structure, display base plate and display device.
Background technology
With the development of display technology, requirement of the people to the resolution ratio of display device is higher and higher.For high-resolution
The product of (such as 4K resolution ratio) needs the PPI (pixel per inch, the pixel number of per inch) for increasing display panel, from
And increase prepares the technology difficulty and cost of display panel.Virtual pixel technology can by way of shared part sub-pixel with
Physical subpixels quantity is reduced, to which the physical resolution in display panel is identical, reduces the close of physical subpixels
Degree, increases the PPI of display panel.
Utility model content
The utility model at least embodiment provides a kind of pixel arrangement structure, including:First repetitive unit and the second weight
Multiple unit.First repetitive unit includes first sub-pixel, second sub-pixel and two third sub-pixels, described
Second repetitive unit includes two the 4th sub-pixels, the 5th sub-pixel and the 6th sub-pixel, in a first direction, institute
Two third sub-pixels are stated between first sub-pixel and second sub-pixel, described two 4th sub-pixels are located at
Between 5th sub-pixel and the 6th sub-pixel, described two 4th sub-pixels are arranged along the first direction, described
Two third sub-pixels arrange in a second direction, and the first direction and the second direction are not parallel.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first repetitive unit and described
Second repetitive unit is arranged along the first direction.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in said first direction, described the
Two sub-pixels and the 5th sub-pixel are disposed adjacent, and second sub-pixel and the 5th sub-pixel are configured as showing
Different colors.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, the first direction and described second
Direction is mutually perpendicular to.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first repetitive unit and described
Second repetitive unit is alternately arranged along the first direction to form repetitive unit row, and multiple repetitive unit rows are along the second party
To arrangement.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in this second direction, even number line
First repetitive unit two third sub-pixels center line extended line and odd-numbered line it is described first repeat
The extended line of the line at the center of two third sub-pixels of unit is misaligned.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, described the first of odd-numbered line repeats list
The extended line of the line at the center of two third sub-pixels of member passes through adjacent first repetitive unit and institute of even number line
State the center at the interval between the second repetitive unit.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in described two third sub-pixels
The distance of the heart is more than the half of length of first sub-pixel along the second direction, the center of described two 4th sub-pixels
Distance be more than length of the 5th sub-pixel along the second direction half, adjacent odd row positioned at the two of same row
The boundary of third sub-pixel in a first repetitive unit is more than first sub-pixel along the minimum range of the second direction
1.5 times of length in this second direction.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in first repetitive unit, institute
The boundary for stating two third sub-pixels is more than along the minimum range of the second direction in adjacent first repetitive unit
The most narrow spacing of the boundary of second sub-pixel and the boundary of the 5th sub-pixel in second repetitive unit along the first direction
From, and/or, the boundary of described two third sub-pixels is more than adjacent first weight along the minimum range of the second direction
The boundary of the first sub-pixel in multiple unit and the boundary of the 6th sub-pixel in second repetitive unit are along the first party
To minimum range;In second repetitive unit, the boundaries of described two 4th sub-pixels along the first direction most
Small distance is more than the in the boundary and second repetitive unit of the second sub-pixel in adjacent first repetitive unit
The boundary of five sub-pixels along the first direction minimum range, and/or, the boundary of described two 4th sub-pixels is along described
The minimum range in one direction is more than the boundary of the first sub-pixel in adjacent first repetitive unit and described second and repeats
Minimum range of the boundary of the 6th sub-pixel in unit along the first direction.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in first repetitive unit, institute
State one that the boundaries of two third sub-pixels is more than along the minimum range of the second direction in described two third sub-pixels
Along the half of the length of the second direction, and less than first sub-pixel along the length of the second direction, described the
In two-repeating unit, the boundary of described two 4th sub-pixels is more than described two four along the minimum range of the first direction
The half of the length along the first direction in sub-pixel, and less than the 5th sub-pixel along the second direction
Length.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, two the first repetitive unit groups
At the first repetitive unit group, two second repetitive units form the second repetitive unit group, in said first direction, described
First repetitive unit group and the second repetitive unit group are alternately arranged.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in the first repetitive unit group,
Two first repetitive units are arranged along the first direction, in the second repetitive unit group, two second weights
Multiple unit is arranged along the first direction.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in first repetitive unit, institute
The line for stating the center of the first sub-pixel and the center of second sub-pixel is the first center line, described two third sub-pixels
The line at center be the second center line, described two third sub-pixels are about first center line symmetrical setting, described the
One sub-pixel and second sub-pixel are about second center line symmetrical setting.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first center line and described the
Two center lines are mutually perpendicular to.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in second repetitive unit, institute
The line for stating the center of the 5th sub-pixel and the center of the 6th sub-pixel is third centerline, described two 4th sub-pixels
Perpendicular bisector about the third centerline is symmetrical arranged, and the 5th sub-pixel and the 6th sub-pixel are also about described the
The perpendicular bisector of three center lines is symmetrical arranged.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, in second repetitive unit, institute
The center for stating two the 4th sub-pixels is located in the third centerline.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first sub-pixel and described the
The area of two sub-pixels is all higher than the area of each third sub-pixel, the area of the 5th sub-pixel and the 6th sub-pixel
It is all higher than the area of each 4th sub-pixel.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first sub-pixel is described the
Length on two directions is more than the length of first sub-pixel in said first direction, and second sub-pixel is described the
Length on two directions is more than the length of second sub-pixel in said first direction;5th sub-pixel is described
Length on two directions is more than the length of the 5th sub-pixel in said first direction, and the 6th sub-pixel is described the
Length on two directions is more than the length of the 6th sub-pixel in said first direction.
For example, in the pixel arrangement structure that one embodiment of the utility model provides, first sub-pixel and described the
Five sub-pixels are red sub-pixel, and second sub-pixel and the 6th sub-pixel are blue subpixels, the third picture
Plain and described 4th sub-pixel is green sub-pixels.
The utility model at least embodiment also provides a kind of display base plate, including underlay substrate;And it is arranged described
Multiple sub-pixels on underlay substrate.The multiple sub-pixel is used according to pixel arrangement structure described in any one of the above embodiments.
The utility model at least embodiment also provides a kind of display device, including according to display described in any one of the above embodiments
Substrate.
The utility model at least embodiment also provides a kind of mask plate, is used to form pixel row described in any one of the above embodiments
Array structure, including:First trepanning and the second trepanning, first trepanning are configured to form described two third sub-pixels;Institute
It states the second trepanning and is configured to form described two 4th sub-pixels, first trepanning is more than along the length of the second direction
First trepanning along the first direction length, second trepanning along the second direction length be less than described second
Length of the trepanning along the first direction.
Description of the drawings
In order to illustrate more clearly of the technical solution of the utility model embodiment, the attached drawing of embodiment will be made below simple
Ground introduction, it should be apparent that, the accompanying drawings in the following description merely relates to some embodiments of the utility model, rather than to this practicality
Novel limitation.
Fig. 1 is a kind of schematic diagram for pixel arrangement structure that one embodiment of the utility model provides;
Fig. 2 is the first repetitive unit and the second weight in a kind of pixel arrangement structure that one embodiment of the utility model provides
The partial structural diagram of multiple unit;
Fig. 3 is the schematic diagram for another pixel arrangement structure that one embodiment of the utility model provides;
Fig. 4 is the schematic diagram of the first repetitive unit group in pixel arrangement structure shown in Fig. 3;
Fig. 5 is the grouping schematic diagram of the pixel unit of pixel arrangement structure shown in FIG. 1;
Fig. 6 is the schematic diagram of the corresponding algorithm of the first pixel unit in Fig. 5;
Fig. 7 is a kind of schematic diagram for display base plate that one embodiment of the utility model provides;
Fig. 8 is a kind of schematic block diagram for display device that one embodiment of the utility model provides;
Fig. 9 is a kind of mask plate that one embodiment of the utility model provides.
Specific implementation mode
In order to enable the purpose, technical scheme and advantage of the embodiment of the present disclosure are clearer, below in conjunction with disclosure reality
The technical solution of the embodiment of the present disclosure is clearly and completely described in the attached drawing for applying example.Obviously, described embodiment is
A part of this disclosure embodiment, instead of all the embodiments.Based on described embodiment of the disclosure, this field is common
The every other embodiment that technical staff is obtained under the premise of without creative work belongs to the model of disclosure protection
It encloses.
Unless otherwise defined, the technical term or scientific terminology that the disclosure uses should be tool in disclosure fields
There is the ordinary meaning that the personage of general technical ability is understood." first ", " second " and the similar word used in the disclosure is simultaneously
It does not indicate that any sequence, quantity or importance, and is used only to distinguish different component parts." comprising " or "comprising" etc.
Similar word means to occur the element before the word, and either object covers the element or object for appearing in the word presented hereinafter
And its it is equivalent, and it is not excluded for other elements or object.The similar word such as " connection " or " connected " is not limited to physics
Or mechanical connection, but may include electrical connection, either directly or indirectly."upper", "lower",
"left", "right" etc. is only used for indicating relative position relation, and after the absolute position for being described object changes, then the relative position is closed
System may also correspondingly change.
In order to keep the following explanation of the embodiment of the present disclosure to understand and concise, known function and known portion is omitted in the disclosure
The detailed description of part.
Currently, in display panel, mainly pass through adjacent three sub-pixels (red sub-pixel, blue subpixels and green
Sub-pixel) or adjacent four sub-pixels (red sub-pixel, blue subpixels, green sub-pixels and white sub-pixels) composition one
Practical (real) pixel is to be shown.At this point, the display resolution of display panel is identical with vision addressability, display panel is difficult
To realize high PPI;On the other hand, due to 3 times that the quantity of sub-pixel is pixel quantity, i.e. the quantity of sub-pixel is more, to
The difficulty of the preparation process of display panel is larger.It, can when the display resolution of display panel and resolution of eye are on close level
With the difference using human eye to the resolution ratio of different colours sub-pixel, change three sub-pixels (i.e. red sub-pixel, the sub- picture of blue
Element and green sub-pixels) composition one pixel pattern.By sharing sub-pixel between different pixels, virtual pixel skill is realized
Art, thus it is identical in display resolution, increase the vision addressability of display panel, while manufacture display can be reduced
The technology difficulty and cost of panel, the yield for promoting display panel.Shared sub-pixel is the lower sub-pixel of position resolution.
For example, human eye to the position resolutions of blue subpixels and red sub-pixel less than it to green sub-pixels position resolution, from
And shared sub-pixel can be red sub-pixel and/or blue subpixels.
The utility model at least embodiment provides a kind of pixel arrangement structure, display base plate and display device, pass through by
Two neighboring third sub-pixel unidirectionally arranges in pairs along different directions, in high-precision metal mask plate (Fine Metal
Mask, FMM) throw the net making when, reduce unidirectional tension, reduce the technology difficulty and cost of FMM.
In the description below the utility model, " adjacent " expression two sub-pixels, two repetitive units or two repetitions
Any sub-pixel is not present between unit group.
The embodiments of the present invention are described in detail below in conjunction with the accompanying drawings, but the utility model is not limited to this
A little specific embodiments.
Fig. 1 is a kind of schematic diagram for pixel arrangement structure that one embodiment of the utility model provides, and Fig. 2 is the utility model
The partial structural diagram of the first repetitive unit and the second repetitive unit in a kind of pixel arrangement structure that one embodiment provides.
For example, as shown in Figure 1, the pixel arrangement structure that the utility model embodiment provides may include the first repetitive unit
10 and second repetitive unit 20, the first repetitive unit 10 include a first sub-pixel R1, a second sub-pixel B1 and two
Third sub-pixel G1, the second repetitive unit 20 include two the 4th sub-pixel G2, a 5th sub-pixel R2 and one the 6th son
Pixel B 2.In a first direction on X, in the first repetitive unit 10, two third sub-pixel G1 are located at the first sub-pixel R1 and
Between two sub-pixel B1, in the second repetitive unit 20, two the 4th sub-pixel G2 are located at the 5th sub-pixel R2 and the 6th sub- picture
Between plain B2.Y is arranged two third sub-pixel G1 in a second direction, and two the 4th sub-pixel G2 are arranged along first direction X, and first
Direction X and second direction Y are not parallel.
For example, first direction X and second direction Y can be mutually perpendicular to.
For example, the first repetitive unit 10 and the second repetitive unit 20 are arranged along first direction X, such as it is arranged in order.
For example, as shown in Fig. 2, in the first repetitive unit 10, the center of the first sub-pixel R1 and the second sub-pixel B1's
The line at center is the first center line 101, and the line at the center of two third sub-pixel G1 is the second center line 102.In first
The length of heart line 101 is longer than the length of the second center line 102.
For example, the first center line 101 and the second center line 102 are mutually perpendicular to, and the first center line 101 and first direction X
Parallel, the second center line 102 is parallel with second direction Y.
For example, the first sub-pixel R1 and the second sub-pixel B1 is symmetrical arranged about the second center line 102, two third sub- pictures
The center of plain G1 is symmetrical arranged about the first center line 101.That is, the center of the first sub-pixel R1, the second sub-pixel B1
Center and the center of two third sub-pixel G1 can be respectively with the first center line 101 and the second center line 102 be diagonal
Four vertex of the diamond shape of line.
For example, as shown in Fig. 2, in the second repetitive unit 20, the center of the 5th sub-pixel R2 and the 6th sub-pixel B2's
The line at center is third centerline 103.Two the 4th sub-pixel G2 are symmetrically set about the perpendicular bisector 104 of third centerline 103
It sets, the 5th sub-pixel R2 and the 6th sub-pixel B2 are also symmetrical arranged about the perpendicular bisector 104 of third centerline 103.Two the 4th
The center of sub-pixel G2 is located in third centerline 103.
For example, the center of two the 4th sub-pixel G2 can be symmetrical arranged about the perpendicular bisector 104 of third centerline 103.
For example, third centerline 103 can be parallel with first direction X.In a first direction on X, the first center line 101 prolongs
Long line is overlapped with third centerline 103, that is to say, that the center of the first sub-pixel R1, the center of the second sub-pixel B1, two
Center, the center of the 5th sub-pixel R2 and the center of the 6th sub-pixel B2 of four sub-pixel G2 is respectively positioned on straight line.
For example, the area of the first sub-pixel R1 and the second sub-pixel B1 are all higher than the area of each third sub-pixel G1, the
The area of five sub-pixel R2 and the 6th sub-pixel B2 is all higher than the area of each 4th sub-pixel G2.For example, two third sub- pictures
The sum of area of plain G1 is identical as the area of the first sub-pixel R1 or the second sub-pixel B1, the area of two the 4th sub-pixel G2 it
It is identical with the 5th sub-pixel R2 or the area of the 6th sub-pixel B2.But the utility model is not restricted this.
It should be noted that the area of each sub-pixel can be specifically arranged according to the luminous efficiency of luminescent material, such as send out
The luminous efficiency of luminescent material is higher, then the area of sub-pixel can be smaller;And the luminous efficiency of luminescent material is relatively low, then sub-pixel
Area can be larger.
For example, the shape and area of the first sub-pixel R1 and the second sub-pixel B1 can be identical, the 5th sub-pixel R2 and
The shape and area of six sub-pixel B2 can be identical.In another example the shape and area of the first sub-pixel R1 and the 5th sub-pixel R2
Can also be identical, that is to say, that the first sub-pixel R1, the second sub-pixel B1, the 5th sub-pixel R2 and the 6th sub-pixel B2 shape
Shape and area all same.
For example, the shape of the first sub-pixel R1 may include rectangle, hexagon or oblong etc..Hexagon can be etc.
Side hexagon etc..
For example, as shown in Figure 1, length of the first sub-pixel R1 on second direction Y is more than the first sub-pixel R1 first
Length on the X of direction, length of the second sub-pixel B1 on second direction Y is more than on the second sub-pixel B1 in a first direction X
Length;Length of the 5th sub-pixel R2 on second direction Y is more than length of the 5th sub-pixel R2 in a first direction on X, and the 6th
Length of the sub-pixel B2 on second direction Y is more than the length on the 6th sub-pixel B2 in a first direction X.That is, for example,
If the shape of the first sub-pixel R1 is rectangle, the first sub-pixel R1 is less than its Y in a second direction along the length of side of first direction X
The length of side.If the shape of the first sub-pixel R1 is oblong, the line and second direction Y of two focuses of the oblong are big
It causes parallel.
It should be noted that the length on X or second direction Y indicates each sub-pixel first to each sub-pixel in a first direction
Maximum distance on direction X or second direction Y.If by taking the first sub-pixel R1 as an example, when the shape of the first sub-pixel R1 is rectangle
When, the first sub-pixel R1 is the length of side on rectangle in a first direction X, the first edges sub-pixel R1 along the maximum distance of first direction X
The maximum distance of second direction X is the length of side of the rectangle on second direction Y.When the first sub-pixel R1 shape be oblong,
And the line and second direction Y of two focuses of oblong are substantially parallel, then the maximum of the first sub-pixel R1 Y in a second direction
Distance is the distance between two intersection points of the line and long elliptical circumference of two focuses, then the first sub-pixel R1 is along first party
To the distance between two intersection points of the perpendicular bisector and long elliptical circumference of the line that the maximum distance of X is two focuses.
For example, the first sub-pixel R1 can be symmetrical about the straight line where the first center line 101.
For example, the shape and area all same of two third sub-pixel G1, the shape and area of two the 4th sub-pixel G2
Also all same.In another example the shape and area of third sub-pixel G1 and the 4th sub-pixel G2 can also be identical.
For example, the shape of third sub-pixel G1 and the 4th sub-pixel G2 include rectangle (for example, square), pentagon or
Diamond shape etc..
For example, the shape of two third sub-pixel G1 can be symmetrical about the first center line 101.Two the 4th sub-pixel G2
Shape can about third centerline 103 perpendicular bisector 104 it is symmetrical.
For example, the spacing of two third sub-pixel G1 and two the 4th sub-pixel G2 can be according to visual effect and FMM
Net preparation process is specifically arranged.Spacing is closer, then the preparation process that throws the net of FMM is simpler;Spacing is remoter, then visual effect is got over
It is good.
For example, as shown in Fig. 2, the distance (i.e. the length of the second center line 102) at the center of two third sub-pixel G1 is big
It is more than the 5th son in the distance of the half of the first sub-pixel R1 length of Y in a second direction, the center of two the 4th sub-pixel G2
The half of the pixel R2 length of Y in a second direction.
For example, as shown in Figure 1, third sub- picture in two the first repetitive units 10 positioned at same row of adjacent odd row
The minimum range t3 of the boundary of plain G1 Y in a second direction is more than 1.5 times of the first sub-pixel R1 length of Y in a second direction.
For example, as shown in Figure 1, in the first repetitive unit 10, the boundary of two third sub-pixel G1 Y in a second direction
Minimum range t1 is more than in the boundary and the second repetitive unit 20 of the second sub-pixel B1 in the first adjacent repetitive unit 10
The boundary of 5th sub-pixel R2 along first direction X minimum range t4, and/or, the boundary of two third sub-pixel G1 is along second
The minimum range t1 of direction Y is more than boundary and the second repetitive unit of the first sub-pixel R1 in the first adjacent repetitive unit 10
Minimum range t5 of the boundary of the 6th sub-pixel B2 in 20 along first direction X.
For example, as shown in Figure 1, in the second repetitive unit 20, the boundary of two the 4th sub-pixel G2 is along first direction X's
Minimum range t2 is more than in the boundary and the second repetitive unit 20 of the second sub-pixel B1 in the first adjacent repetitive unit 10
The boundary of 5th sub-pixel R2 along first direction X minimum range t4, and/or, the boundary of two the 4th sub-pixel G2 is along first
The minimum range t2 of direction X is more than boundary and the second repetitive unit of the first sub-pixel R1 in the first adjacent repetitive unit 10
Minimum range t5 of the boundary of the 6th sub-pixel B2 in 20 along first direction X.
For example, as shown in Figure 1, in the first pixel unit 10, the boundary of two third sub-pixel G1 Y in a second direction
Minimum range t1 is more than the half of one in the two third sub-pixel G1 length of Y in a second direction, and is less than the first sub- picture
The length h of plain R1 Y in a second direction.In the second repetitive unit 20, the boundary of two the 4th sub-pixel G2 is along first direction X's
Minimum range t2 is more than the half of the length along first direction X in the 4th sub-pixel G2, and is less than the 5th sub-pixel edge
The length (for example, h) of second direction Y.To which third sub-pixel G1 and the 4th sub-pixel G2 can uniformly arrange, and reduce work
The smoothly and continuously property for ensureing transverse and longitudinal line while skill difficulty, reduces sawtooth sense.
For example, two third sub-pixel G1 and two the 4th sub-pixel G2 can be formed by a trepanning, to effectively
Reduce the technology difficulty of FMM.Two third sub-pixel G1 and two the 4th sub-pixel G2 can be formed by a trepanning can be with
It indicates, when the luminescent layer of two neighboring 4th sub-pixel G2 of third sub-pixel G1 or two neighboring is deposited, one can be shared
The aperture area of FMM.In the aperture area, only third sub-pixel G1 is formed on luminescent material vapor deposition to the part on pixel electrode
Or the 4th sub-pixel G2, so as to shine, remaining vapor deposition cannot then shine to the luminescent material on insulating cement.On the other hand,
Since Y is arranged two third sub-pixel G1 in a second direction, two the 4th sub-pixel G2 are arranged along first direction X, in FMM
Throw the net making when, reduce one direction (such as second direction Y) tension, reduce the technology difficulty and cost of FMM.
For example, in a first direction on X, the second sub-pixel B1 and the 5th sub-pixel R2 are disposed adjacent, and the second sub-pixel B1
It is configured as showing different colors with the 5th sub-pixel R2.For example, if the second sub-pixel B1 is displayed in red, the 5th sub-pixel
R2 can be displayed in blue.
For example, third sub-pixel G1 and the 4th sub-pixel G2 is green sub-pixels.First sub-pixel R1 and the 5th sub-pixel
R2 is red sub-pixel, and the second sub-pixel B1 and the 6th sub-pixel B2 are blue subpixels.But not limited to this, the first sub-pixel R1
May be blue subpixels with the 5th sub-pixel R2, correspondingly, the second sub-pixel B1 and the 6th sub-pixel B2 are red sub- picture
Element.
It should be noted that in the present invention, the description as described in the first sub-pixel R1 is equal in the case of no contradiction
It is applicable in the second sub-pixel B1, the 5th sub-pixel R2 and the 6th sub-pixel B2.
For example, in one example, as shown in Figure 1, the first repetitive unit 10 and the second repetitive unit 20 are along first direction X
For arrangement to form repetitive unit row.Y is arranged multiple repetitive unit rows in a second direction.
For example, on second direction Y, the line at the center of two third sub-pixels of the first repetitive unit of even number line
The extended line of the line at the center of two third sub-pixels of extended line and the first repetitive unit of odd-numbered line is misaligned.Namely
It says, the center of the center of the first repetitive unit of odd-numbered line and the first repetitive unit of even number line misses one another.For example, even number line
The first repetitive unit two third sub-pixels and odd-numbered line the first repetitive unit two third sub-pixels in second party
Dislocation completely each other, i.e. orthographic projection of the two third sub-pixels of the first repetitive unit of even number line on second direction Y on Y
It is not overlapped with the orthographic projection of two third sub-pixels of the first repetitive unit of odd-numbered line on second direction Y.
For example, the line (i.e. in Fig. 2 at the center of two third sub-pixel G1 of the first repetitive unit 10 of odd-numbered line
Two center lines 102) extended line across adjacent the first repetitive unit 10 and the second repetitive unit 20 of even number line between
Every center.It is adjusted as a result, by the position to repetitive unit of not going together, to realize third sub-pixel G1 and the 4th sub- picture
Plain G2 is uniformly distributed, and improves display effect, reduces sawtooth sense.
For example, as shown in Figure 1, the first repetitive unit 10 and the second repetitive unit 20 can form a repetitive unit group
30, and in repetitive unit group 30, the first repetitive unit 10 and the second repetitive unit 20 are arranged in order along first direction X, also
It is to say, in a first direction on X, the first repetitive unit 10 is located at the left side of the second repetitive unit 20, and the second repetitive unit 20 is located at
The right side of first repetitive unit 10.
For example, as shown in Figure 1, the line at the center of two third sub-pixel G1 of the first repetitive unit 10 in the first row
Two neighboring repetitive unit group 30 of the extended line in the second row interval center, that is to say, that in first party
To on X, the left side of the extended line of the line at the center of two third sub-pixel G1 of the first repetitive unit 10 in the first row is
Second repetitive unit 20, right side are the first repetitive unit 10.Two third sub-pixels of the first repetitive unit 10 in the second row
The extended line of the line at the center of G1 passes through the first repetitive unit 10 and second in the repetitive unit group 30 in the first row to repeat
The center at the interval of unit 20, that is to say, that in a first direction on X, two thirds of the first repetitive unit 10 in the second row
The left side of the extended line of the line at the center of sub-pixel G1 is the first repetitive unit 10, and right side is the second repetitive unit 20.
For example, the first row can be odd-numbered line, correspondingly, the second behavior even number line.But not limited to this, the first row can also
For even number line, and the second behavior odd-numbered line.
Fig. 3 is the schematic diagram for another pixel arrangement structure that one embodiment of the utility model provides, and Fig. 4 is shown in Fig. 3
Pixel arrangement structure in the first repetitive unit group schematic diagram.
For example, in another example, as shown in figure 3, two the first repetitive units can form the first repetitive unit group
15, two the second repetitive units can form the second repetitive unit group 25, in a first direction on X, 15 He of the first repetitive unit group
Second repetitive unit group 25 is alternately arranged.
For example, in the first repetitive unit group 15, two the first repetitive units are arranged along first direction X, are repeated second
In unit group 25, two the second repetitive units are arranged along first direction X.
For example, as shown in figure 4, the first repetitive unit group 15 include the first repetitive unit 10 and the first repetitive unit 10', and
First repetitive unit 10 and the first repetitive unit 10' are arranged in order along first direction X, that is to say, that in a first direction on X, the
One repetitive unit 10 is located at the left side of the first repetitive unit 10', and the first repetitive unit 10' is located at the right side of the first repetitive unit 10
Side.
For example, as shown in Figure 3 and Figure 4, the first repetitive unit of one of first repetitive unit group 15 in the first row,
Such as first repetitive unit 10, two third sub-pixel G1 center line extended line pass through it is adjacent in the second row
The center at the interval of the first repetitive unit group 15 and the second repetitive unit group 25, that is to say, that in a first direction on X, the first row
In the first repetitive unit group 15 the first repetitive unit 10 two third sub-pixel G1 center line extended line
Left side is the second repetitive unit 20, and right side is the first repetitive unit 10.The first repetitive unit group 15 in the first row another
First repetitive unit, such as the first repetitive unit 10', the extended line of line at center of two third sub-pixel G1 pass through the
The center at the interval of two the first repetitive units in the first repetitive unit group 15 in two rows.
For example, as shown in Figure 3 and Figure 4, first repeats list one of in the first repetitive unit group 15 in the second row
Member, such as the first repetitive unit 10, two third sub-pixel G1 center line extended line pass through in the first row the
The center at the interval of two the first repetitive units in one repetitive unit group 15.In the first repetitive unit group 15 in second row
Another first repetitive unit, such as the first repetitive unit 10', two third sub-pixel G1 center line extended line
The center at the interval of adjacent the first repetitive unit group 15 and the second repetitive unit group 25 in the first row.That is,
In a first direction on X, two third sub-pixel G1's of the first repetitive unit 10' of the first repetitive unit group 15 in the second row
The left side of the extended line of the line at center is the first repetitive unit 10, and right side is the second repetitive unit 20.
For example, the first row can be odd-numbered line, correspondingly, the second behavior even number line.But not limited to this, the first row can also
For even number line, and the second behavior odd-numbered line.
It should be noted that Fig. 1 and the arrangement mode of the first repetitive unit shown in Fig. 3 and the second repetitive unit only show
Meaning property, and not restrictive.The specific arrangement mode of first repetitive unit and the second repetitive unit can be set according to actual demand
Meter.For example, multiple first repetitive units (for example, 3 etc.) can form the first repetitive unit group, multiple second repetitive units
(for example, 3 etc.) can form the second repetitive unit group, in a first direction X, the first repetitive unit group and the second repetitive unit group
It is alternately arranged.In another example two the first repetitive units and second repetitive unit can form a repetitive unit group, it is multiple
Repetitive unit group is arranged in array along first direction and second direction.In repetitive unit group, two the first repetitive units and one
A second repetitive unit is arranged along first direction, and the second repetitive unit is located between two the first repetitive units;Or one
First repetitive unit and two the second repetitive units can form a repetitive unit group, and multiple repetitive unit groups are along first direction
It is arranged in array with second direction.In repetitive unit group, first repetitive unit and two the second repetitive units are along first
Direction arranges, and the first repetitive unit is located between two the second repetitive units.
Fig. 5 is the grouping schematic diagram of the pixel unit of pixel arrangement structure shown in FIG. 1, and Fig. 6 is the first pixel list in Fig. 5
The schematic diagram of the corresponding algorithm of member.For clear signal, Fig. 5 illustrates only three row repetitive units.
For example, as shown in figure 5, in the first row, pixel arrangement structure may include the first pixel unit 51 and the second picture
Plain unit 52, in a second row, pixel arrangement structure may include third pixel unit 53 and the 4th pixel unit 54.
For example, the first pixel unit 51 may include a first sub-pixel R1, third sub-pixel G1, a 4th sub- picture
Plain G2 and the 6th sub-pixel B2.The first sub-pixel R1 and third sub-pixel G1 in first pixel unit 51 belong to one
One repetitive unit, the 6th sub-pixel B2 and the 4th sub-pixel G2 in the first pixel unit 51 be belonging respectively to two second repeat it is single
Member.The first sub-pixel R1, third sub-pixel G1 and the 6th sub-pixel B2 in first pixel unit 51 are located at the first row, the first picture
The 4th sub-pixel G2 in plain unit 51 is located at the second row.In the first pixel unit 51, the first sub-pixel R1, third sub-pixel
G1, the 4th sub-pixel G2 and the 6th sub-pixel B2 form two virtual pixels.For example, the first sub-pixel R1 and third sub-pixel G1
A virtual pixel is formed, the 4th sub-pixel G2 and the 6th sub-pixel B2 form another virtual pixel.First sub-pixel R1 and
6th sub-pixel B2 is shared by two virtual pixels.
For example, the second pixel unit 52 includes a second sub-pixel B1, a third sub-pixel G1, a 4th sub- picture
Plain G2 and the 5th sub-pixel R2.The 4th sub-pixel G2 and the 5th sub-pixel R2 in second pixel unit 52 belong to one
Two-repeating unit, the second sub-pixel B1 and third sub-pixel G1 in the second pixel unit 52 be belonging respectively to two first repeat it is single
Member.The second sub-pixel B1, the 4th sub-pixel G2 and the 5th sub-pixel R2 in second pixel unit 52 are located at the first row, the second picture
Third sub-pixel G1 in plain unit 52 is located at the second row.In the second pixel unit 52, the second sub-pixel B1, third sub-pixel
G1, the 4th sub-pixel G2 and the 5th sub-pixel R2 form two virtual pixels.For example, the second sub-pixel B1 and third sub-pixel G1
A virtual pixel is formed, the 4th sub-pixel G2 and the 5th sub-pixel R2 form another virtual pixel.Second sub-pixel B1 and
5th sub-pixel R2 is shared by two virtual pixels.
For example, third pixel unit 53 includes a third sub-pixel G1, a 4th sub-pixel G2, a 5th sub- picture
Plain R2 and the 6th sub-pixel B2.The 4th sub-pixel G2, the 5th sub-pixel R2 and the 6th sub- picture in third pixel unit 53
Plain B2 belongs to second repetitive unit, and is located at the second row;Third sub-pixel G1 in third pixel unit 53 is located at third
Row.In third pixel unit 53, third sub-pixel G1, the 4th sub-pixel G2, the 5th sub-pixel R2 and the 6th sub-pixel B2 shapes
At two virtual pixels.For example, the 4th sub-pixel G2 and the 5th sub-pixel R2 form a virtual pixel, third sub-pixel G1 and
6th sub-pixel B2 forms another virtual pixel.5th sub-pixel R2 and the 6th sub-pixel B2 are total to by two virtual pixels
With.
For example, the 4th pixel unit 54 includes a first sub-pixel R1, a second sub-pixel B1, a third sub- picture
Plain G1 and one the second sub-pixel G2.The first sub-pixel R1, the second sub-pixel B1 in 4th pixel unit 54 and third sub- picture
Plain G1 belongs to first repetitive unit, and is located at the second row;The second sub-pixel G2 in 4th pixel unit 54 is located at third
Row.In the 4th pixel unit 54, the first sub-pixel R1, the second sub-pixel B1, third sub-pixel G1 and the 4th sub-pixel G2 shapes
At two virtual pixels.For example, the first sub-pixel R1 and third sub-pixel G1 forms a virtual pixel, the second sub-pixel B1 and
4th sub-pixel G2 forms another virtual pixel.First sub-pixel R1 and the second sub-pixel B1 are total to by two virtual pixels
With.
If for example, the first behavior odd-numbered line, the second behavior even number line, when the pixel arrangement structure is applied to display panel
When, the sub-pixel of all odd-numbered lines on display panel is according to the combination side of the first pixel unit 51 and the second pixel unit 52
Formula is divided to form multiple virtual pixels, and the sub-pixel of all even number lines on display panel is according to 53 He of third pixel unit
The combination of 4th pixel unit 54 is divided to form multiple virtual pixels.But not limited to this, the first row may be even number
Row, the second behavior odd-numbered line, at this point, the dividing mode of the pixel unit of all odd-numbered lines and all even number lines on display panel
It is contrary to the above.
For example, in each pixel unit, the third sub-pixel in the quantity and pixel unit of virtual pixel and the 4th son
The sum of quantity of pixel is identical.That is, such as the first pixel unit 51 includes a third pixel G1 and one the 4th son
Pixel G2, then the first pixel unit 51 formed two virtual pixels.
The brightness value for specifically describing two virtual pixels in each pixel unit by taking the first pixel unit as an example below is counted
Calculation process.In the following description, third sub-pixel G1 and the 4th sub-pixel G2 is green sub-pixels, the first sub-pixel R1 and the
Five sub-pixel R2 are red sub-pixel, and the second sub-pixel B1 and the 6th sub-pixel B2 are blue subpixels.
For example, as shown in fig. 6, in the first pixel unit 51, the 4th sub-pixel G2 and the 6th sub-pixel B2 form first
Virtual pixel 511, the first sub-pixel R1 and third sub-pixel G1 form the second virtual pixel 512.First virtual pixel 511 includes
First virtual sub-pixel R1', the second virtual sub-pixel B1' and third virtual sub-pixel G1', the second virtual pixel 512 include the
Four virtual sub-pixel G2', the 5th virtual sub-pixel R2' and the 6th virtual sub-pixel B2'.First virtual sub-pixel R1' and the 5th
Virtual sub-pixel R2' is red sub-pixel, and the second virtual sub-pixel B1' and the 6th virtual sub-pixel B2' are blue subpixels, the
Three virtual sub-pixel G1' and the 4th virtual sub-pixel G2' are green sub-pixels.
If the first virtual sub-pixel R1', the second virtual sub-pixel B1', third virtual sub-pixel G1', the 4th virtual subnet picture
The brightness value of plain G2', the 5th virtual sub-pixel R2' and the 6th virtual sub-pixel B2' be respectively r1', g1', b1', g2', r2' and
b2'.Then in the first pixel unit 51, the brightness value r1 of the first sub-pixel R1 can be expressed as:
The brightness value b2 of 6th sub-pixel B2 can be expressed as:
The brightness value g1 of third sub-pixel G1 can be expressed as:G1=g2'.
The brightness value g2 of 4th sub-pixel G2 can be expressed as:G2=g1'.
It should be noted that the dividing mode of pixel unit shown in fig. 5 is only illustrative, the division side of pixel unit
Formula can drive Demand Design according to practical.
Fig. 7 is a kind of schematic diagram for display base plate that one embodiment of the utility model provides.
For example, as shown in fig. 7, the display base plate that the utility model embodiment provides may include underlay substrate 100 and set
Set multiple sub-pixels on underlay substrate.Multiple sub-pixels may be used according to pixel arrangement knot described in any one of the above embodiments
Structure.For example, showing pixel arrangement structure shown in FIG. 1 in Fig. 7.
For example, display base plate can be applied to liquid crystal display panel, organic light-emitting diode display face can also be applied to
Plate.
For example, display base plate can be array substrate.In the first repetitive unit 10, the first sub-pixel R1 includes the first face
Color pixel electrode and the first colour light emitting layer being arranged on the first colored pixels electrode, the second sub-pixel B1 include the second face
Color pixel electrode and the second colour light emitting layer being arranged on the second colored pixels electrode, third sub-pixel G1 include third face
Color pixel electrode and the third colour light emitting layer being arranged on third colored pixels electrode.In the second repetitive unit 20, the
Four sub-pixel G2 include the 4th colored pixels electrode and the 4th colour light emitting layer that is arranged on the 4th colored pixels electrode, and
Five sub-pixel R2 include the 5th colored pixels electrode and the 5th colour light emitting layer that is arranged on the 5th colored pixels electrode, and
Six sub-pixel B2 include the 6th colored pixels electrode and the 6th colour light emitting layer that is arranged on the 6th colored pixels electrode.
For example, the shape of the first colored pixels electrode is identical as the shape of the first sub-pixel R1, and it is configured as driving
One colour light emitting layer shines;The shape of second colored pixels electrode is identical as the shape of the second sub-pixel B1, and is configured as driving
Dynamic second colour light emitting layer shines;The shape of third colored pixels electrode is identical as the shape of third sub-pixel G1, and is configured
It shines for driving third colour light emitting layer.The shape of 4th colored pixels electrode is identical as the shape of the 4th sub-pixel G2, and by
The 4th colour light emitting layer of driving is configured to shine;The shape of 5th colored pixels electrode is identical as the shape of the 5th sub-pixel R2,
And it is configured as the 5th colour light emitting layer of driving and shines;The shape phase of the shape and the 6th sub-pixel B2 of 6th colored pixels electrode
Together, it and is configured as that the 6th colour light emitting layer is driven to shine.
For example, the first colour light emitting layer and the 5th colour light emitting layer are configured as sending out same color (for example, red)
Light, the second colour light emitting layer and the 6th colour light emitting layer are configured as sending out the light of same color (for example, blue), third color
Luminescent layer and the 4th colour light emitting layer are configured as sending out the light of same color (for example, green).
For example, when display base plate is applied to liquid crystal display panel, display base plate may be color membrane substrates.In the first weight
In multiple unit 10, the first sub-pixel R1 includes the first color filter, and the second sub-pixel B1 includes the second color filter, third
Sub-pixel G1 includes third color filter.In the second repetitive unit 20, the 4th sub-pixel G2 includes the 4th color filter,
5th sub-pixel R2 includes the 5th color filter, and the 6th sub-pixel B2 includes the 6th color filter.
For example, the first color filter and the optical filter that the 5th color filter is same color, the second color filter
With the optical filter that the 6th color filter is same color, third color filter and the 4th color filter are same color
Optical filter.For example, the first color filter and the 5th color filter can be Red lightscreening plate, the second color filter and the
Six color filters can be blue color filter, and third color filter and the 4th color filter can be green filter
Piece.
Fig. 8 is a kind of schematic block diagram for display device that one embodiment of the utility model provides.
For example, as shown in figure 8, the display device 200 that the utility model embodiment provides includes display panel 201, display
Panel 201 includes any of the above-described display base plate 202.
For example, display panel 201 can be liquid crystal display panel or Organic Light Emitting Diode (OLED) display panel etc..When
When display panel 201 is liquid crystal display panel, display base plate 202 can be array substrate, or color membrane substrates.Work as display
When panel 201 is organic LED display panel, display base plate 202 can be array substrate.
For example, display device 200 can be mobile phone, tablet computer, television set, display, laptop, digital phase
Any product or component with display function such as frame, navigator.
It should be noted that for the display device 200 other component parts (such as control device, image data compile
Code/decoding apparatus, row scanner driver, column scan driver, clock circuit etc.) it is that those skilled in the art should
What understanding had, this will not be repeated here, also should not be taken as limiting the invention.
Fig. 9 is a kind of mask plate that one embodiment of the utility model provides.The mask plate is used to form any of the above-described example
Third sub-pixel in the pixel arrangement structure of offer and the 4th sub-pixel.
For example, as shown in figure 9, the mask plate 300 includes the first trepanning 310 and the second trepanning 320.First trepanning 310 is used
In forming two third sub-pixels in the first repetitive unit;Second trepanning 320 is used to form two in the second repetitive unit
4th sub-pixel.
For example, the length of the first trepanning 310 Y in a second direction is more than length of first trepanning 310 along first direction X, the
Two trepannings 320 in a second direction Y length be less than the second trepanning 320 along first direction X length.
For the disclosure, the also following needs to illustrate:
(1) embodiment of the present disclosure attached drawing relates only to the structure being related to the embodiment of the present disclosure, and other structures can refer to
It is commonly designed.
(2) in the absence of conflict, the feature in embodiment of the disclosure and embodiment can be combined with each other to obtain
New embodiment.
The foregoing is merely the protection domains of the specific implementation mode of the disclosure, but the disclosure to be not limited thereto, this public affairs
The protection domain opened should be based on the protection scope of the described claims.
Claims (22)
1. a kind of pixel arrangement structure, which is characterized in that including:First repetitive unit and the second repetitive unit,
Wherein, first repetitive unit includes first sub-pixel, second sub-pixel and two third sub-pixels, institute
It states the second repetitive unit and includes two the 4th sub-pixels, the 5th sub-pixel and the 6th sub-pixel,
In a first direction, described two third sub-pixels are between first sub-pixel and second sub-pixel, institute
Two the 4th sub-pixels are stated between the 5th sub-pixel and the 6th sub-pixel,
Described two 4th sub-pixels are arranged along the first direction, and described two third sub-pixels arrange in a second direction, institute
It states first direction and the second direction is not parallel.
2. pixel arrangement structure according to claim 1, which is characterized in that first repetitive unit and second weight
Multiple unit is arranged along the first direction.
3. pixel arrangement structure according to claim 2, which is characterized in that in said first direction, second son
Pixel and the 5th sub-pixel are disposed adjacent, and second sub-pixel and the 5th sub-pixel are configured as display difference
Color.
4. pixel arrangement structure according to claim 1, which is characterized in that the first direction and the second direction phase
It is mutually vertical.
5. pixel arrangement structure according to claim 1, which is characterized in that first repetitive unit and second weight
Multiple unit is alternately arranged along the first direction to form repetitive unit row, and multiple repetitive unit rows are arranged along the second direction
Row.
6. pixel arrangement structure according to claim 5, which is characterized in that in this second direction, the institute of even number line
State the extended line of the line at the center of two third sub-pixels of the first repetitive unit and first repetitive unit of odd-numbered line
Two third sub-pixels center line extended line it is misaligned.
7. pixel arrangement structure according to claim 6, which is characterized in that the two of first repetitive unit of odd-numbered line
The extended line of the line at the center of a third sub-pixel passes through adjacent first repetitive unit and described second of even number line
The center at the interval between repetitive unit.
8. pixel arrangement structure according to claim 5, which is characterized in that the center of described two third sub-pixels away from
Half from the length more than first sub-pixel along the second direction, the distance at the center of described two 4th sub-pixels
The half of length more than the 5th sub-pixel along the second direction, two first positioned at same row of adjacent odd row
The boundary of third sub-pixel in repetitive unit is more than first sub-pixel described in along the minimum range of the second direction
1.5 times of the length of second direction.
9. pixel arrangement structure according to claim 8, which is characterized in that in first repetitive unit, described two
The boundary of a third sub-pixel is more than second in adjacent first repetitive unit along the minimum range of the second direction
The boundary of sub-pixel and the boundary of the 5th sub-pixel in second repetitive unit along the first direction minimum range,
And/or the boundary of described two third sub-pixels is more than adjacent described first along the minimum range of the second direction and repeats
The boundary of the first sub-pixel in unit and the boundary of the 6th sub-pixel in second repetitive unit are along the first direction
Minimum range;
In second repetitive unit, the boundary of described two 4th sub-pixels is more than along the minimum range of the first direction
The boundary of the second sub-pixel in adjacent first repetitive unit and the 5th sub-pixel in second repetitive unit
Boundary along the first direction minimum range, and/or, the boundaries of described two 4th sub-pixels along the first direction most
Small distance is more than the in the boundary and second repetitive unit of the first sub-pixel in adjacent first repetitive unit
Minimum range of the boundary of six sub-pixels along the first direction.
10. pixel arrangement structure according to claim 1, which is characterized in that in first repetitive unit, described two
The boundary of a third sub-pixel along the second direction minimum range be more than described two third sub-pixels in one along institute
The half of the length of second direction is stated, and less than first sub-pixel along the length of the second direction, in second weight
In multiple unit, the boundary of described two 4th sub-pixels is more than described two 4th sub- pictures along the minimum range of the first direction
The half of the length along the first direction in element, and less than the 5th sub-pixel along the length of the second direction
Degree.
11. pixel arrangement structure according to claim 1, which is characterized in that two first repetitive units compositions the
One repetitive unit group, two second repetitive units form the second repetitive unit group, in said first direction, described first
Repetitive unit group and the second repetitive unit group are alternately arranged.
12. pixel arrangement structure according to claim 11, which is characterized in that in the first repetitive unit group, two
A first repetitive unit is arranged along the first direction;In the second repetitive unit group, two described second repeat
Unit is arranged along the first direction.
13. pixel arrangement structure according to claim 1, which is characterized in that in first repetitive unit, described
The line at the center of one sub-pixel and the center of second sub-pixel is the first center line, in described two third sub-pixels
The line of the heart is the second center line, and described two third sub-pixels are about first center line symmetrical setting, first son
Pixel and second sub-pixel are about second center line symmetrical setting.
14. pixel arrangement structure according to claim 13, which is characterized in that in first center line and described second
Heart line is mutually perpendicular to.
15. pixel arrangement structure according to claim 1, which is characterized in that in second repetitive unit, described
The line at the center of five sub-pixels and the center of the 6th sub-pixel be third centerline, described two 4th sub-pixels about
The perpendicular bisector of the third centerline is symmetrical arranged, and the 5th sub-pixel and the 6th sub-pixel are also about in the third
The perpendicular bisector of heart line is symmetrical arranged.
16. pixel arrangement structure according to claim 15, which is characterized in that described in second repetitive unit
The center of two the 4th sub-pixels is located in the third centerline.
17. pixel arrangement structure according to claim 1, which is characterized in that first sub-pixel and second son
The area of pixel is all higher than the area of each third sub-pixel, and the area of the 5th sub-pixel and the 6th sub-pixel is big
In the area of each 4th sub-pixel.
18. pixel arrangement structure according to claim 1, which is characterized in that first sub-pixel is in the second party
Upward length is more than the length of first sub-pixel in said first direction, and second sub-pixel is in the second party
Upward length is more than the length of second sub-pixel in said first direction;5th sub-pixel is in the second party
Upward length is more than the length of the 5th sub-pixel in said first direction, and the 6th sub-pixel is in the second party
Upward length is more than the length of the 6th sub-pixel in said first direction.
19. pixel arrangement structure according to claim 1, which is characterized in that first sub-pixel and the 5th son
Pixel is red sub-pixel, and second sub-pixel and the 6th sub-pixel are blue subpixels, the third sub-pixel and
4th sub-pixel is green sub-pixels.
20. a kind of display base plate, which is characterized in that including:
Underlay substrate;And
The multiple sub-pixels being arranged on the underlay substrate,
Wherein, the multiple sub-pixel is used according to claim 1-19 any one of them pixel arrangement structures.
21. a kind of display device, which is characterized in that including display base plate according to claim 20.
22. a kind of mask plate, is used to form the pixel arrangement structure as described in any one of claim 1-19, feature exists
In, including:
First trepanning is configured to form described two third sub-pixels;
Second trepanning is configured to form described two 4th sub-pixels,
Wherein, first trepanning is more than length of first trepanning along the first direction along the length of the second direction
Degree, second trepanning are less than length of second trepanning along the first direction along the length of the second direction.
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CN110133885A (en) * | 2018-02-09 | 2019-08-16 | 京东方科技集团股份有限公司 | Pixel arrangement structure, display base plate and display device |
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