CN106449723A - Pixel arrangement structure capable of improving resolution ratio of display device and manufacturing method - Google Patents

Pixel arrangement structure capable of improving resolution ratio of display device and manufacturing method Download PDF

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Publication number
CN106449723A
CN106449723A CN201611052550.3A CN201611052550A CN106449723A CN 106449723 A CN106449723 A CN 106449723A CN 201611052550 A CN201611052550 A CN 201611052550A CN 106449723 A CN106449723 A CN 106449723A
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China
Prior art keywords
pixel
sub
pixels
filling
group unit
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田朝勇
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Sichuan Changhong Electric Co Ltd
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Sichuan Changhong Electric Co Ltd
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    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/30Devices specially adapted for multicolour light emission
    • H10K59/35Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L27/00Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate
    • H01L27/02Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers
    • H01L27/12Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being other than a semiconductor body, e.g. an insulating body
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/10OLED displays

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Condensed Matter Physics & Semiconductors (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

The invention discloses a pixel arrangement structure capable of improving the resolution ratio of a display device and a manufacturing method. The pixel arrangement structure comprises a luminous panel arranged on the display device, wherein a plurality of pixel group units which are arranged in a matrix manner are arranged in the horizontal and longitudinal directions on the luminous panel; each pixel group unit comprises a first pixel, a second pixel, a third pixel and a fourth pixel; each of the four pixels comprises a first sub-pixel, a second sub-pixel and a third sub-pixel; the first sub-pixel, the second sub-pixel and the third sub-pixel are all one of red sub-pixels, green sub-pixels and blue sub-pixel; the first sub-pixel, the second sub-pixel and the third sub-pixel in each pixel form a complete RGB pixel structure. In the conditions of manufacture equipment and manufacture technology with the same sub-pixel opening size, the pixel arrangement structure can produce VR display devices with the resolution ratio being quadruple the original resolution ratio; in the condition of the same resolution ratio, the requirements on the sub-pixel opening size of the manufacture equipment and technology can be reduced.

Description

A kind of pixel arrangement structure improving display device resolution ratio and manufacture method
Technical field
The present invention relates to lcd technology or organic light-emitting diode display technology or virtual display technology field, especially It is related to a kind of pixel arrangement structure improving display device resolution ratio and manufacture method.
Background technology
Brand-new, the more intuitive man-machine interaction mode of virtual reality (Virtual Reality, VR) technology creation, quilt Think in the industry and very likely become popular interactive mode of future generation and the calculating platform of future generation after mobile Internet.So And VR, to the peculiar requirement of visual immersion with by the feature to the virtual amplification of display image for the optical system, makes VR to display screen Resolution ratio propose very high requirement, more than 500PPI (per inch pixel count).Life is difficult to using conventional pixel permutation technology Produce so high-resolution VR display device, especially think in the industry that performance is best suitable for the organic light-emitting diode display skill that VR shows Art is more difficult to produce the display device of more than 500PPI.In the colorization pattern of pixels of display device, generally pass through two kinds of pictures Plain arrangement architecture is realizing;
The first traditional pixel arrangements is as shown in figure 1, red sub-pixels (R sub-pixel) 20, green sub-pixel (the sub- picture of G Element) 30, blue sub-pixel (B sub-pixel) 40 be in stripe-arrangement;As shown in figure 1, adjacent three red sub-pixels 20 of first row, green son Pixel 30, blue sub-pixel 40 constitute a pixel, are similar to first row successively and constitute several pixels, some arrangement offices are in luminous plaque On, so on a luminous plaque, the sub-pixel all same of each vertical setting of types, or being red sub-pixels 20, or be green sub-pixel 30, or being blue sub-pixel 40;, this arrangement mode, when filling sub-pixel in manufacturing process, is a sub- pixel filling The corresponding sub-pixel of opening is filled with, and when resolution of screen is in more than 400ppi, the sub-pixel of this arrangement mode is filled out Fill that opening size is all very little, lead to the production equipment to display screen and making technology to propose very high requirement, and extremely difficult Reach higher production yield.
The traditional pixel arrangements of second are as shown in Fig. 2 the first row of luminous plaque is according to red sub-pixels (R Pixel) 20, green 20, blue sub-pixel (B sub-pixel) of 30, red sub-pixels (R sub-pixel) of sub-pixel (G sub-pixel) 40 arrangement mode is arranged in order;The second row of luminous plaque is according to 20, blue sub-pixel (B of red sub-pixels (R sub-pixel) Sub-pixel) arrangement mode of 40, green sub-pixel (G sub-pixel) 30 of red sub-pixels (R sub-pixel) 20, is arranged in order; Luminous plaque with first row and second row for repetitive successively from top to bottom vertical direction arrange some rows.One of first row red The blue sub-pixel 40 of the green sub-pixel of sub-pixel 20,30, is collectively forming a pixel, is so the formation of on luminous plaque Some pixels.So on a luminous plaque, the sub-pixel all same in each oblique direction, or be oblique row's red sub-pixels 20, or being the green sub-pixel 30 of an oblique row, or being oblique row's indigo plant sub-pixel 40, such luminous plaque is on each oblique row Easily form the oblique sawtooth showing a kind of color, have impact on image display precision and the effect of luminous plaque.In addition making Cheng Zhong, when resolution of screen is in more than 400ppi, this arrangement mode, when filling sub-pixel, is that a sub- pixel filling is opened The corresponding sub-pixel of mouth is filled with, and the sub-pixel filling opening size of this arrangement mode is all very little, leads to display The production equipment of screen and making technology propose very high requirement, and extremely difficult reach higher production yield.
Therefore, the colorization pattern of pixels preparing fine is that the bottleneck producing high-res VR display device is located.
Content of the invention
Part in view of the shortcomings of the prior art, it is an object of the invention to provide one kind can improve display device differentiate The pixel arrangement structure of rate and manufacture method, the present invention has good using value, in addition to virtual reality industry, can also be wide General be applied to smart mobile phone etc. individual mobile product in, improve the resolution ratio of display screen.
The purpose of the present invention is achieved through the following technical solutions:
A kind of pixel arrangement structure improving display device resolution ratio, including the luminous plaque being arranged on display device, On described luminous plaque, transverse and longitudinal direction is arranged with several pixel group unit in matrix-style, and described pixel group unit is by the first picture Element, four pixels composition of the second pixel, the 3rd pixel, the 4th pixel, described first pixel, the second pixel, the 3rd pixel and Four pixels of the 4th pixel are in that sphere of movements for the elephants shape arranges, and described first pixel is located at pixel group unit upper left side, described second picture Element is located at pixel group unit upper right side, and described 3rd pixel is located at pixel group unit lower left, and described 4th pixel is located at pixel Group unit lower right;Described first pixel includes the first sub-pixel, the second sub-pixel and the 3rd sub-pixel, described first sub-pixel Be arranged in the upper position of the first pixel, described second sub-pixel arrangements in the lower position of the first pixel left, the described 3rd Sub-pixel arrangements are in the lower position of the first pixel right;Described second pixel includes the first sub-pixel, the second sub-pixel and Three sub-pixels, in the upper position of the second pixel, described second sub-pixel arrangements are in the second pixel for described first sub-pixel arrangements The lower position of right, described 3rd sub-pixel arrangements are in the lower position of the second pixel left;Described 3rd pixel includes One sub-pixel, the second sub-pixel and the 3rd sub-pixel, described first sub-pixel arrangements in the lower position of the 3rd pixel, described , in the upper position of the 3rd pixel left, described 3rd sub-pixel arrangements are in the upper bit of the 3rd pixel right for two sub-pixel arrangements Put;Described 4th pixel includes the first sub-pixel, the second sub-pixel and the 3rd sub-pixel, and described first sub-pixel arrangements are in the 4th The lower position of pixel, described second sub-pixel arrangements are in the upper position of the 4th pixel right, described 3rd sub-pixel arrangements Upper position in the 4th pixel left;Described first sub-pixel, the second sub-pixel, three sub-pixels of the 3rd sub-pixel are Red sub-pixels, green sub-pixel, one kind of blue sub-pixel, the first sub-pixel in each pixel, the second sub-pixel, the 3rd sub-pixel Collectively form one and there is red sub-pixels, green sub-pixel, the dot structure of blue sub-pixel three sub-pixel.
In order to the present invention is better achieved, described first sub-pixel, the second sub-pixel, the 3rd sub-pixel are rectangle; First sub-pixel lateral arrangement of described first pixel is in the upper position of the first pixel, the second sub-pixel of described first pixel It is vertically arranged in the lower position of the first pixel left, the 3rd sub-pixel of described first pixel is vertically arranged in the first pixel right side The lower position of side;First sub-pixel lateral arrangement of described second pixel is in the upper position of the second pixel, described second picture Second sub-pixel of element is vertically arranged in the lower position of the second pixel right, the vertical cloth of the 3rd sub-pixel of described second pixel It is placed in the lower position of the second pixel left;First sub-pixel lateral arrangement of described 3rd pixel is in the lower portion of the 3rd pixel Put, the second sub-pixel of described 3rd pixel is vertically arranged in the upper position of the 3rd pixel left, the of described 3rd pixel Three sub-pixels are vertically arranged in the upper position of the 3rd pixel right;First sub-pixel lateral arrangement of described 4th pixel is in The lower position of four pixels, described second sub-pixel is vertically arranged in the upper position of the 4th pixel right, described 3rd sub- picture Element is vertically arranged in the upper position of the 4th pixel left.
Preferably, described first pixel, the second pixel, the 3rd pixel, the 4th pixel are all overall square or rectangular Shape, described pixel group unit is integrally square or rectangle.
A kind of pixel arrangement structure manufacture method improving display device resolution ratio, its manufacture method is as follows:
A, determine sub-pixel fill assembly:
A1, determine the 3rd sub-pixel fill assembly:Four the 3rd sub-pixels at described pixel group unit center constitute one 3rd pixel filling assembly;
A2, determine the second sub-pixel fill assembly:Four the second sub-pixels between the two neighboring pixel group unit in left and right Constitute a second pixel filling assembly;
A3, determine the first sub-pixel fill assembly, the first sub-pixel fill assembly is made up of one of following three kinds of methods:
A31, two neighboring first sub-pixel of each pixel group unit constitute a first pixel filling assembly;
Transversely arranged all first sub-pixels of A32, each row of described luminous plaque constitute a first pixel filling assembly;
Four the first sub-pixels between A33, neighbouring two pixel group unit constitute a first pixel filling group Part;
B, on luminous plaque fill respective pixel:Using the institute to the first sub-pixel fill assembly for the first pixel filling equipment The first sub-pixel is had to carry out pixel filling;Using all second sons to the second sub-pixel fill assembly for the second pixel filling equipment Pixel carries out pixel filling;Using the 3rd pixel filling equipment, all 3rd sub-pixels of the 3rd sub-pixel fill assembly are carried out Pixel filling;
C, complete according to the pixel filling method of step B all sub-pixels on luminous plaque pixel filling work.
The present invention compared with the prior art, has advantages below and beneficial effect:
The present invention has the pixel arrangement structure of novelty, in Preparation equipment and the preparation work of same sub-pixel opening size Under the conditions of skill, the present invention can produce the VR display device higher than four times of original resolution ratio;Or, in resolution ratio identical feelings Under condition, the sub-pixel opening size to Preparation equipment and technique can be reduced and require, be conducive to improving product display quality and show Show precision.
Brief description
Fig. 1 is the pixel arrangement structure chart of the first prior art;
Fig. 2 is the pixel arrangement structure chart of second prior art;
Fig. 3 is the pixel arrangement structure chart of the present invention;
Fig. 4 is the arrangement figure of a pixel group unit in Fig. 3;
Fig. 5 is three kinds of pixel filling component clustering schematic diagrames of the present invention.
Wherein, entitled corresponding to the reference in accompanying drawing:
1- pixel group unit, 2- first pixel, 3- second pixel, 4- the 3rd pixel, 5- the 4th pixel, 6- first Sub-pixel, 7- second sub-pixel, 8- the 3rd sub-pixel, 9- the 3rd pixel filling assembly, 10- the second pixel filling assembly, 11- the first pixel filling assembly, 20- red sub-pixels, the green sub-pixel of 30-, 40- indigo plant sub-pixel.
Specific embodiment
With reference to embodiment, the present invention is described in further detail:
Embodiment
As shown in Fig. 3~Fig. 5, a kind of pixel arrangement structure improving display device resolution ratio, including being arranged at display Luminous plaque on device, on luminous plaque, transverse and longitudinal direction is arranged with several pixel group unit 1, pixel group unit 1 in matrix-style Be made up of four pixels of the first pixel 2, the second pixel 3, the 3rd pixel 4, the 4th pixel 5, the first pixel 2, the second pixel 3, Four pixels of the 3rd pixel 4 and the 4th pixel 5 are in that sphere of movements for the elephants shape arranges, and the first pixel 2 is located at pixel group unit 1 upper left side, Second pixel 3 is located at pixel group unit 1 upper right side, and the 3rd pixel 4 is located at pixel group unit 1 lower left, and the 4th pixel 5 is located at picture Element group unit 1 lower right;First pixel 2 includes the first sub-pixel 6, the second sub-pixel 7 and the 3rd sub-pixel 8, the first sub-pixel 6 It is arranged in the upper position of the first pixel 2, the second sub-pixel 7 is arranged in the lower position of the first pixel 2 left, the 3rd sub-pixel 8 lower positions being arranged in the first pixel 2 right;Second pixel 3 includes the first sub-pixel 6, the second sub-pixel 7 and the 3rd sub- picture Element 8, the first sub-pixel 6 is arranged in the upper position of the second pixel 3, and the second sub-pixel 7 is arranged in the bottom of the second pixel 3 right Position, the 3rd sub-pixel 8 is arranged in the lower position of the second pixel 3 left;3rd pixel 4 includes first sub-pixel the 6, second son Pixel 7 and the 3rd sub-pixel 8, the first sub-pixel 6 is arranged in the lower position of the 3rd pixel 4, and the second sub-pixel 7 is arranged in the 3rd The upper position of pixel 4 left, the 3rd sub-pixel 8 is arranged in the upper position of the 3rd pixel 4 right;4th pixel 5 includes One sub-pixel 6, the second sub-pixel 7 and the 3rd sub-pixel 8, the first sub-pixel 6 is arranged in the lower position of the 4th pixel 5, and second Sub-pixel 7 is arranged in the upper position of the 4th pixel 5 right, and the 3rd sub-pixel 8 is arranged in the upper bit of the 4th pixel 5 left Put.
As shown in figure 4, the first sub-pixel 6, the second sub-pixel 7, three sub-pixels of the 3rd sub-pixel 8 are red pieces picture Plain, green sub-pixel, one kind of blue sub-pixel, the first sub-pixel 6 in each pixel, the second sub-pixel 7, the 3rd sub-pixel 8 are common With one dot structure with red sub-pixels, green sub-pixel, blue sub-pixel three sub-pixel of composition.The pixel of the present invention just like Lower six kinds of versions:
The first, the first sub-pixel 6 is red sub-pixels, and the second sub-pixel 7 is green sub-pixel, and the 3rd sub-pixel 8 is blue son Pixel;
Second, the first sub-pixel 6 is red sub-pixels, and the second sub-pixel 7 is blue sub-pixel, and the 3rd sub-pixel 8 is green son Pixel;
The third, the first sub-pixel 6 is blue sub-pixel, and the second sub-pixel 7 is red sub-pixels, and the 3rd sub-pixel 8 is green son Pixel;
4th kind, the first sub-pixel 6 is blue sub-pixel, and the second sub-pixel 7 is green sub-pixel, and the 3rd sub-pixel 8 is red pieces Pixel;
5th kind, the first sub-pixel 6 is green sub-pixel, and the second sub-pixel 7 is blue sub-pixel, and the 3rd sub-pixel 8 is red pieces Pixel;
6th kind, the first sub-pixel 6 is green sub-pixel, and the second sub-pixel 7 is red sub-pixels, and the 3rd sub-pixel 8 is blue son Pixel.
First sub-pixel 6, the second sub-pixel 7, the 3rd sub-pixel 8 are rectangle;First sub-pixel 6 of the first pixel 2 Lateral arrangement is vertically arranged in the first pixel 2 left in the upper position of the first pixel 2, the second sub-pixel 7 of the first pixel 2 Lower position, the 3rd sub-pixel 8 of the first pixel 2 is vertically arranged in the lower position of the first pixel 2 right;Second pixel 3 First sub-pixel 6 lateral arrangement is vertically arranged in second in the upper position of the second pixel 3, the second sub-pixel 7 of the second pixel 3 The lower position of pixel 3 right, the 3rd sub-pixel 8 of the second pixel 3 is vertically arranged in the lower position of the second pixel 3 left; First sub-pixel 6 lateral arrangement of the 3rd pixel 4 is erected in the lower position of the 3rd pixel 4, the second sub-pixel 7 of the 3rd pixel 4 To the upper position being arranged in the 3rd pixel 4 left, the 3rd sub-pixel 8 of the 3rd pixel 4 is vertically arranged in the 3rd pixel 4 right Upper position;In the lower position of the 4th pixel 5, the second sub-pixel 7 erects first sub-pixel 6 lateral arrangement of the 4th pixel 5 To the upper position being arranged in the 4th pixel 5 right, the 3rd sub-pixel 8 is vertically arranged in the upper position of the 4th pixel 5 left.
The all overall square or rectangle of first pixel 2, the second pixel 3, the 3rd pixel 4, the 4th pixel 5, pixel groups The overall square or rectangle of unit 1.
A kind of pixel arrangement structure manufacture method improving display device resolution ratio, its manufacture method is as follows:
A, determine sub-pixel fill assembly:
A1, determine the 3rd sub-pixel fill assembly:Four the 3rd sub-pixels 8 at pixel group unit 1 center constitute one the Three pixel filling assemblies 9;
A2, determine the second sub-pixel fill assembly:Four the second sub-pixels between the two neighboring pixel group unit in left and right 1 7 one the second pixel filling assembly 10 of composition;
A3, determine the first sub-pixel fill assembly, the first sub-pixel fill assembly is made up of one of following three kinds of methods:
A31, two neighboring first sub-pixel 6 of each pixel group unit 1 constitute a first pixel filling assembly 11;
Transversely arranged all first sub-pixels 6 of each row of A32, luminous plaque constitute a first pixel filling assembly 11;
Four the first sub-pixels 6 between A33, neighbouring two pixel group unit 1 constitute first pixel filling Assembly 11;
B, on luminous plaque fill respective pixel:Using the institute to the first sub-pixel fill assembly for the first pixel filling equipment The first sub-pixel 6 is had to carry out pixel filling;Using the second pixel filling equipment to the second sub-pixel fill assembly all second Sub-pixel 7 carries out pixel filling;Using all 3rd sub-pixels 8 to the 3rd sub-pixel fill assembly for the 3rd pixel filling equipment Carry out pixel filling;
The first pixel filling equipment that step B of the present invention is adopted
C, complete according to the pixel filling method of step B all sub-pixels on luminous plaque pixel filling work.
Embodiment one
As a example the VR display device of (500 light emitting pixels of per inch) as 500ppi with resolution ratio, its pixel is according to such as Fig. 3 Mode arranges, and is arranged in matrix array mode with the pixel group unit 1 of such as Fig. 4 for repetitive, pixel group unit 1 by First pixel 2, the second pixel 3, the 3rd pixel 4, four pixels composition of the 4th pixel 5, the first pixel 2, the second pixel 3, the Four pixels of three pixels 4 and the 4th pixel 5 are in that sphere of movements for the elephants shape arranges, and the first pixel 2 is located at pixel group unit 1 upper left side, the Two pixels 3 are located at pixel group unit 1 upper right side, and the 3rd pixel 4 is located at pixel group unit 1 lower left, and the 4th pixel 5 is located at pixel Group unit 1 lower right.First pixel 2 includes the first sub-pixel 6 (the present embodiment is chosen as red sub-pixels), the second sub-pixel 7 (this Embodiment is chosen as green sub-pixel) and the 3rd sub-pixel 8 (the present embodiment is chosen as blue sub-pixel), the first sub-pixel 6 is arranged in The upper position of the first pixel 2, the second sub-pixel 7 is arranged in the lower position of the first pixel 2 left, and the 3rd sub-pixel 8 is arranged In the lower position of the first pixel 2 right, the first sub-pixel 6 (the present embodiment is chosen as red sub-pixels) of the first pixel 2, second Sub-pixel 7 (the present embodiment is chosen as green sub-pixel), the 3rd sub-pixel 8 the present embodiment are chosen as blue sub-pixel) three is in integrally Triangle disposition.Second pixel 3 includes the first sub-pixel 6, the second sub-pixel 7 and the 3rd sub-pixel 8, and the first sub-pixel 6 is arranged in The upper position of the second pixel 3, the second sub-pixel 7 is arranged in the lower position of the second pixel 3 right, and the 3rd sub-pixel 8 is arranged In the lower position of the second pixel 3 left, the first sub-pixel 6 of the second pixel 3, the second sub-pixel 7, the 3rd sub-pixel 8 three Overall is in triangle disposition.3rd pixel 4 includes the first sub-pixel 6, the second sub-pixel 7 and the 3rd sub-pixel 8, the first sub-pixel 6 It is arranged in the lower position of the 3rd pixel 4, the second sub-pixel 7 is arranged in the upper position of the 3rd pixel 4 left, the 3rd sub-pixel 8 upper positions being arranged in the 3rd pixel 4 right, (the present embodiment is chosen as red pieces picture to the first sub-pixel 6 of the 3rd pixel 4 Element), the second sub-pixel 7 (the present embodiment is chosen as green sub-pixel), the 3rd sub-pixel 8 the present embodiment be chosen as blue sub-pixel) three Person is in integrally triangle disposition.4th pixel 5 includes the first sub-pixel 6, the second sub-pixel 7 and the 3rd sub-pixel 8, the first sub-pixel 6 lower positions being arranged in the 4th pixel 5, the second sub-pixel 7 is arranged in the upper position of the 4th pixel 5 right, the 3rd sub- picture Element 8 is arranged in the upper position of the 4th pixel 5 left, and (the present embodiment is chosen as red pieces picture to the first sub-pixel 6 of the 4th pixel 5 Element), the second sub-pixel 7 (the present embodiment is chosen as green sub-pixel), the 3rd sub-pixel 8 the present embodiment be chosen as blue sub-pixel) three Person is in integrally triangle disposition.The area ratio of three sub-pixels can be determined according to the luminous efficiency of each self-luminescent material and drive condition Fixed, set three sub-pixel homalographics in embodiment.
A kind of pixel arrangement structure manufacture method improving display device resolution ratio, its manufacture method is as follows:
A, determine sub-pixel fill assembly:
A1, determine the 3rd sub-pixel fill assembly:Four the 3rd sub-pixels 8 at pixel group unit 1 center constitute one the Three pixel filling assemblies 9;
A2, determine the second sub-pixel fill assembly:Four the second sub-pixels between the two neighboring pixel group unit in left and right 1 7 one the second pixel filling assembly 10 of composition;
A3, determine the first sub-pixel fill assembly, the first sub-pixel fill assembly is made up of one of following three kinds of methods:
A31, two neighboring first sub-pixel 6 of each pixel group unit 1 constitute a first pixel filling assembly 11;
Transversely arranged all first sub-pixels 6 of each row of A32, luminous plaque constitute a first pixel filling assembly 11;
Four the first sub-pixels 6 between A33, neighbouring two pixel group unit 1 constitute first pixel filling Assembly 11;
B, on luminous plaque fill respective pixel:Using the institute to the first sub-pixel fill assembly for the first pixel filling equipment The first sub-pixel 6 is had to carry out pixel filling, the sub-pixel opening of the wherein first pixel filling equipment is the network structure of the quartering, The sub-pixel opening of the first pixel filling equipment can have two sub-pixel separator bars with transverse and longitudinal arranged crosswise, and two sub-pixels separate Sub-pixel opening is separated into the quartering by line, and the sub-pixel opening of such first pixel filling equipment can disposably realize four First sub-pixel 6 carries out pixel filling, and in the sub-pixel opening filling of the first pixel filling equipment, precision is identical, cost identical In the case of, disposably it has been filled with four the first sub-pixels 6, then make the overall display precision of luminous plaque improve at least four Times.Using the second pixel filling equipment, pixel filling is carried out to all second sub-pixels 7 of the second sub-pixel fill assembly, wherein The sub-pixel opening of the second pixel filling equipment is the network structure of the quartering, and the sub-pixel opening of the second pixel filling equipment can Two sub-pixel separator bars are had with transverse and longitudinal arranged crosswise, sub-pixel opening is separated into the quartering by two sub-pixel separator bars, this The sub-pixel opening of sample the second pixel filling equipment can disposably be realized four the second sub-pixels 7 and carry out pixel filling, Precision is identical for the sub-pixel opening filling of two pixel filling equipment, in the case of cost identical, be disposably filled with four the Two sub-pixels 7, then make the overall display precision of luminous plaque improve at least four times.Using the 3rd pixel filling equipment to All 3rd sub-pixels 8 of three sub-pixel fill assemblies carry out pixel filling;The sub-pixel of the wherein the 3rd pixel filling equipment is opened Mouth is the network structure corresponding with step A3, and the sub-pixel opening of such second pixel filling equipment can disposably realize one Individual or two or one ranked second sub-pixel 7 and carry out pixel filling, the second pixel filling equipment sub-pixel opening fill precision In the case of identical, cost identical, disposably it has been filled with one or two or one ranked second sub-pixel 7, then so that luminous The overall display precision of plate improves.Therefore, using above-mentioned pixel arrangements, can be based on ripe production 500ppi system Standby equipment and preparation technology can produce the even more high-resolution display device of 500*4ppi.
The sub-pixel opening of the present invention the first pixel filling equipment can not form network structure and (or be separated by pixel linear Shape network structure), the sub-pixel opening of the present invention the second pixel filling equipment can not form network structure and (or be separated by pixel Wire shaped network structure), the sub-pixel opening of the present invention the 3rd pixel filling equipment can not form network structure (or by pixel Separate wire shaped network structure).The sub-pixel opening of the first pixel filling equipment directly disposably fills four the first sub-pixels 6, four the first sub-pixels 6 separately constitute four pixels of formation respectively with the second neighbouring sub-pixel 7, the 3rd sub-pixel 8.Second The sub-pixel opening of pixel filling equipment directly disposably fills four the second sub-pixels 7, four the second sub-pixels 7 respectively with neighbour The first near sub-pixel 6, the 3rd sub-pixel 8 separately constitute four pixels of formation.The sub-pixel opening of the 3rd pixel filling equipment According to step A3 using by the way of directly disposably fill multiple 3rd sub-pixels 8, each the 3rd sub-pixel 8 respectively with neighbouring The first sub-pixel 6, the second sub-pixel 7 separately constitute formation multiple pixels.
C, complete according to the pixel filling method of step B all sub-pixels on luminous plaque pixel filling work.
It will be apparent to an ordinarily skilled person in the art that in pixel arrangements of the present invention, red, green, blue sub-pixel Put in order and be not limited to embodiment, such as can also be using will be transversely arranged for blue sub-pixel, and green, red sub-pixels longitudinal arrangement Mode etc., and pixel arrangements of the present invention are also not necessarily limited to for VR display device it can also be used to other application field Display device, or even include the kinds of displays part using LCD, OLED technology.
As shown in figure 3, the present invention pixel group unit 1 by the first pixel 2, the second pixel 3, the 3rd pixel 4, Four pixels of four pixels 5 form, that is, a pixel group unit 1 includes four pixels, with pixel groups on luminous plaque Unit 1 is that transverse and longitudinal direction is in matrix array mode alignment placement successively for recurring unit.Just it is not easily formed certain in a longitudinal direction One vertical setting of types all has identical sub-pixel to constitute, and will not form straight line same color sawtooth, also just improve display precision and display Effect.As shown in figure 5, four the 3rd sub-pixels 8 at same pixel group unit 1 center easily pool a 3rd big picture Plain fill assembly 9, four the second sub-pixels 7 between the two neighboring pixel group unit in left and right 1 easily accumulate the second pixel and fill out Fill assembly 10, but because the 3rd pixel filling assembly 9, the second pixel filling assembly 10 and the first pixel filling assembly 11 are at a distance of relatively Closely a big pixel display unit can be formed, so not allowing to be also easy to produce local indentation again.
The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all essences in the present invention Any modification, equivalent and improvement made within god and principle etc., should be included within the scope of the present invention.

Claims (4)

1. a kind of pixel arrangement structure improving display device resolution ratio, including the luminous plaque being arranged on display device, its It is characterised by:On described luminous plaque, transverse and longitudinal direction is arranged with several pixel group unit (1), described pixel groups list in matrix-style First (1) is made up of four pixels of the first pixel (2), the second pixel (3), the 3rd pixel (4), the 4th pixel (5), and described first Pixel (2), four pixels of the second pixel (3), the 3rd pixel (4) and the 4th pixel (5) they are in that sphere of movements for the elephants shape arranges, and described first Pixel (2) is located at pixel group unit (1) upper left side, and described second pixel (3) is located at pixel group unit (1) upper right side, and described the Three pixels (4) are located at pixel group unit (1) lower left, and described 4th pixel (5) is located at pixel group unit (1) lower right;Described First pixel (2) includes the first sub-pixel (6), the second sub-pixel (7) and the 3rd sub-pixel (8), described first sub-pixel (6) cloth It is placed in the upper position of the first pixel (2), described second sub-pixel (7) is arranged in the lower position of the first pixel (2) left, institute State the lower position that the 3rd sub-pixel (8) is arranged in the first pixel (2) right;Described second pixel (3) includes the first sub-pixel (6), the second sub-pixel (7) and the 3rd sub-pixel (8), described first sub-pixel (6) is arranged in the upper bit of the second pixel (3) Put, described second sub-pixel (7) is arranged in the lower position of the second pixel (3) right, described 3rd sub-pixel (8) is arranged in The lower position of two pixels (3) left;Described 3rd pixel (4) includes the first sub-pixel (6), the second sub-pixel (7) and the 3rd Sub-pixel (8), described first sub-pixel (6) is arranged in the lower position of the 3rd pixel (4), described second sub-pixel (7) arrangement In the upper position of the 3rd pixel (4) left, described 3rd sub-pixel (8) is arranged in the upper position of the 3rd pixel (4) right; Described 4th pixel (5) includes the first sub-pixel (6), the second sub-pixel (7) and the 3rd sub-pixel (8), described first sub-pixel (6) it is arranged in the lower position of the 4th pixel (5), described second sub-pixel (7) is arranged in the upper bit of the 4th pixel (5) right Put, described 3rd sub-pixel (8) is arranged in the upper position of the 4th pixel (5) left;Described first sub-pixel (6), the second son Pixel (7), three sub-pixels of the 3rd sub-pixel (8) are red sub-pixels, green sub-pixel, one kind of blue sub-pixel, each picture The first sub-pixel (6) in element, the second sub-pixel (7), the 3rd sub-pixel (8) collectively form one and have red sub-pixels, green son Pixel, the dot structure of blue sub-pixel three sub-pixel.
2. according to a kind of pixel arrangement structure improving display device resolution ratio described in claim 1 it is characterised in that:Institute State the first sub-pixel (6), the second sub-pixel (7), the 3rd sub-pixel (8) are rectangle;First son of described first pixel (2) Pixel (6) lateral arrangement is vertically arranged in the upper position of the first pixel (2), second sub-pixel (7) of described first pixel (2) In the lower position of the first pixel (2) left, the 3rd sub-pixel (8) of described first pixel (2) is vertically arranged in the first pixel (2) lower position of right;First sub-pixel (6) lateral arrangement of described second pixel (3) is in the upper bit of the second pixel (3) Put, second sub-pixel (7) of described second pixel (3) is vertically arranged in the lower position of the second pixel (3) right, described second 3rd sub-pixel (8) of pixel (3) is vertically arranged in the lower position of the second pixel (3) left;The of described 3rd pixel (4) , in the lower position of the 3rd pixel (4), second sub-pixel (7) of described 3rd pixel (4) is vertical for one sub-pixel (6) lateral arrangement It is arranged in the upper position of the 3rd pixel (4) left, the 3rd sub-pixel (8) of described 3rd pixel (4) is vertically arranged in the 3rd The upper position of pixel (4) right;First sub-pixel (6) lateral arrangement of described 4th pixel (5) is under the 4th pixel (5) Portion position, described second sub-pixel (7) is vertically arranged in the upper position of the 4th pixel (5) right, described 3rd sub-pixel (8) It is vertically arranged in the upper position of the 4th pixel (5) left.
3., according to a kind of pixel arrangement structure improving display device resolution ratio described in claim 1 or 2, its feature exists In:The all overall square or rectangle of described first pixel (2), the second pixel (3), the 3rd pixel (4), the 4th pixel (5), The overall square or rectangle of described pixel group unit (1).
4. a kind of pixel arrangement structure manufacture method improving display device resolution ratio it is characterised in that:Its manufacture method is such as Under:
A, determine sub-pixel fill assembly:
A1, determine the 3rd sub-pixel fill assembly:Four the 3rd sub-pixels (8) at described pixel group unit (1) center constitute one Individual 3rd pixel filling assembly (9);
A2, determine the second sub-pixel fill assembly:Four the second sub-pixels between the two neighboring pixel group unit in left and right (1) (7) constitute a second pixel filling assembly (10);
A3, determine the first sub-pixel fill assembly, the first sub-pixel fill assembly is made up of one of following three kinds of methods:
A31, two neighboring first sub-pixel (6) of each pixel group unit (1) constitute a first pixel filling assembly (11);
Transversely arranged all first sub-pixels (6) of A32, each row of described luminous plaque constitute a first pixel filling assembly (11);
Four the first sub-pixels (6) between A33, neighbouring two pixel group unit (1) constitute first pixel filling Assembly (11);
B, on luminous plaque fill respective pixel:Using the first pixel filling equipment to the first sub-pixel fill assembly all One sub-pixel (6) carries out pixel filling;Using all second sons to the second sub-pixel fill assembly for the second pixel filling equipment Pixel (7) carries out pixel filling;Using all 3rd sub-pixels to the 3rd sub-pixel fill assembly for the 3rd pixel filling equipment (8) carry out pixel filling;
C, complete according to the pixel filling method of step B all sub-pixels on luminous plaque pixel filling work.
CN201611052550.3A 2016-11-24 2016-11-24 Pixel arrangement structure capable of improving resolution ratio of display device and manufacturing method Withdrawn CN106449723A (en)

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