CN209056269U - Terminal screen, screen construction and terminal - Google Patents
Terminal screen, screen construction and terminal Download PDFInfo
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- CN209056269U CN209056269U CN201821791261.XU CN201821791261U CN209056269U CN 209056269 U CN209056269 U CN 209056269U CN 201821791261 U CN201821791261 U CN 201821791261U CN 209056269 U CN209056269 U CN 209056269U
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/10—OLED displays
- H10K59/12—Active-matrix OLED [AMOLED] displays
- H10K59/131—Interconnections, e.g. wiring lines or terminals
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/30—Devices specially adapted for multicolour light emission
- H10K59/35—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels
- H10K59/353—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels characterised by the geometrical arrangement of the RGB subpixels
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/10—OLED displays
- H10K59/12—Active-matrix OLED [AMOLED] displays
- H10K59/121—Active-matrix OLED [AMOLED] displays characterised by the geometry or disposition of pixel elements
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Physics & Mathematics (AREA)
- Computer Hardware Design (AREA)
- General Physics & Mathematics (AREA)
- Theoretical Computer Science (AREA)
- Devices For Indicating Variable Information By Combining Individual Elements (AREA)
Abstract
A kind of terminal screen, screen construction and terminal.The terminal screen includes: substrate and the display layer positioned at substrate upper layer;Display layer includes main viewing area and auxiliary viewing area;Main viewing area and auxiliary viewing area have different pixel distribution forms;Auxiliary viewing area includes n sub-pixel sequence, includes at least two sub-pixels in each sub-pixel sequence in the n sub-pixel sequence, and the color for each sub-pixel for including is identical in any one sub-pixel sequence;There are the sub-pixels of at least two same colors to share same cabling in auxiliary viewing area.By above-mentioned design, the cabling quantity in auxiliary viewing area is reduced, and optimization cabling layout improves the light transmittance of auxiliary viewing area so that the quantity of the devices such as holding capacitor, TFT is reduced in auxiliary viewing area.In this way, some optical devices can be arranged in the lower section of auxiliary viewing area, and ensure that these optical devices can work normally, farthest ensures the working performance of above-mentioned optical device.
Description
Technical field
The embodiment of the present disclosure is related to display screen technology field, in particular to a kind of terminal screen, screen construction and terminal.
Background technique
Mobile phone industry has higher and higher pursuit to screen accounting, it is expected that mobile phone of the output close to 100% screen accounting.
Mobile phone screen accounting promoted difficult point be: how by Mobile telephone front panel function element (such as camera, earpiece,
The devices such as light sensor, range sensor, fingerprint sensor) rationally it is arranged, maximumlly to promote screen accounting.In phase
In the technology of pass, the technical though above-mentioned function element being arranged in below mobile phone screen is proposed.By by above-mentioned function element
It is arranged below mobile phone screen, can sufficiently discharges these function elements to the occupied space of Mobile telephone front panel, promote screen accounting.
But when for a few thing need receive or emit light optical device (such as camera, light sensor,
The devices such as infrared transmitter, infrared remote receiver) for, after being arranged these optical devices below mobile phone screen, due to
The translucency of mobile phone screen, the working performance that will lead to these optical devices is affected, or even can not work normally.
Utility model content
The embodiment of the present disclosure provides a kind of terminal screen, screen construction and terminal, can be used for solving setting optical device
After setting below terminal screen, due to the translucency of terminal screen, the working performance of these optical devices will lead to by shadow
The problem of ringing, or even can not work normally.The technical solution is as follows:
According to the first aspect of the embodiments of the present disclosure, provide a kind of terminal screen, the terminal screen include: substrate with
And the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The main viewing area and the auxiliary viewing area have different pixel distribution forms;
The auxiliary viewing area includes n sub-pixel sequence, in each sub-pixel sequence in the n sub-pixel sequence
Including at least two sub-pixels, and the color for each sub-pixel for including in any one sub-pixel sequence is identical,
The n is positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area.
Optionally, the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
Optionally, the target direction is vertical or horizontal.
Optionally, the n sub-pixel sequence includes: at least one red sub-pixel sequence, at least one sub- picture of green
Prime sequences and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence are along the target side
To being alternatively arranged one by one.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is located along the same line.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is not located along the same line.
Optionally, for i-th sub-pixel sequence in the n sub-pixel sequence, in i-th sub-pixel sequence
Including the central point of the 2k sub-pixel be located in first straight line, the central point of the 2k-1 sub-pixel is located at second straight line
On, and the first straight line is parallel with the second straight line;Wherein, the i is the positive integer less than or equal to n, and the k is positive
Integer.
Optionally, the distance between the first straight line and the second straight line are equal to two phases in the main viewing area
With the distance between the central point of sub-pixel of color.
Optionally, the size of the sub-pixel in the auxiliary viewing area, greater than the size of the sub-pixel in the main viewing area.
Optionally, the length of the sub-pixel in the auxiliary viewing area is greater than the length of the sub-pixel in the main viewing area;
And/or
The width for the sub-pixel of sub-pixel in the auxiliary viewing area being wider than in the main viewing area.
Optionally, the sub-pixel of same color shares same cabling in the auxiliary viewing area.
Optionally, the auxiliary viewing area includes at least two subregions, and the sub-pixel of same color is total in each subregion
With same cabling.
Optionally, the display layer further includes transition viewing area, and the transition viewing area is located at the main viewing area and institute
It states between auxiliary viewing area;
The transition viewing area has different pixel distribution forms from the main viewing area and the auxiliary viewing area.
Optionally, respectively independent control is shown for the main viewing area, the auxiliary viewing area and the transition viewing area.
Optionally, the arrangement mode of the sub-pixel in the main viewing area is any one or more following combination:
Delta arrangement, Pentile arrangement, standard RGB arrangement.
According to the second aspect of an embodiment of the present disclosure, provide a kind of terminal screen, the terminal screen include: substrate with
And the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The size of sub-pixel in the auxiliary viewing area, greater than the size of the sub-pixel in the main viewing area.
Optionally, the length of the sub-pixel in the auxiliary viewing area is greater than the length of the sub-pixel in the main viewing area;
And/or
The width for the sub-pixel of sub-pixel in the auxiliary viewing area being wider than in the main viewing area.
Optionally, the auxiliary viewing area includes n sub-pixel sequence, each strip picture in the n sub-pixel sequence
It include at least two sub-pixels, and the face for each sub-pixel for including in prime sequences in any one sub-pixel sequence
Color is identical, and the n is positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area.
Optionally, the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
Optionally, the target direction is vertical or horizontal.
Optionally, the n sub-pixel sequence includes: at least one red sub-pixel sequence, at least one sub- picture of green
Prime sequences and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence are along the target side
To being alternatively arranged one by one.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is located along the same line.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is not located along the same line.
Optionally, for i-th sub-pixel sequence in the n sub-pixel sequence, in i-th sub-pixel sequence
Including the central point of the 2k sub-pixel be located in first straight line, the central point of the 2k-1 sub-pixel is located at second straight line
On, and the first straight line is parallel with the second straight line;Wherein, the i is the positive integer less than or equal to n, and the k is positive
Integer.
Optionally, the distance between the first straight line and the second straight line are equal to two phases in the main viewing area
With the distance between the central point of sub-pixel of color.
Optionally, the sub-pixel of same color shares same cabling in the auxiliary viewing area.
Optionally, the auxiliary viewing area includes at least two subregions, and the sub-pixel of same color is total in each subregion
With same cabling.
Optionally, the display layer further includes transition viewing area, and the transition viewing area is located at the main viewing area and institute
It states between auxiliary viewing area;
The transition viewing area has different pixel distribution forms from the main viewing area and the auxiliary viewing area.
Optionally, respectively independent control is shown for the main viewing area, the auxiliary viewing area and the transition viewing area.
Optionally, the arrangement mode of the sub-pixel in the main viewing area is any one or more following combination:
Delta arrangement, Pentile arrangement, standard RGB arrangement.
According to the third aspect of an embodiment of the present disclosure, a kind of screen construction is provided, the screen construction includes n strip
Pixel sequence, the n are positive integer;
It include at least two sub-pixels in each sub-pixel sequence in the n sub-pixel sequence, and any one
The color for each sub-pixel for including in the sub-pixel sequence is identical;
There are the sub-pixels of at least two same colors to share same cabling in the screen construction.
Optionally, the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
Optionally, the target direction is vertical or horizontal.
Optionally, the n sub-pixel sequence includes: at least one red sub-pixel sequence, at least one sub- picture of green
Prime sequences and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence are along the target side
To being alternatively arranged one by one.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is located along the same line.
Optionally, each described there are include at least one sub-pixel sequence in the n sub-pixel sequence
The central point of sub-pixel is not located along the same line.
Optionally, for i-th sub-pixel sequence in the n sub-pixel sequence, in i-th sub-pixel sequence
Including the central point of the 2k sub-pixel be located in first straight line, the central point of the 2k-1 sub-pixel is located at second straight line
On, and the first straight line is parallel with the second straight line;Wherein, the i is the positive integer less than or equal to n, and the k is positive
Integer.
Optionally, the sub-pixel of same color shares same cabling in the screen construction.
Optionally, the screen construction includes at least two subregions, and the sub-pixel of same color is total in each subregion
With same cabling.
According to a fourth aspect of embodiments of the present disclosure, a kind of terminal is provided, the terminal includes as described in relation to the first aspect
Terminal screen, or include the terminal screen as described in second aspect.
According to a fifth aspect of the embodiments of the present disclosure, a kind of terminal is provided, the terminal includes terminal screen;
The terminal screen includes: substrate and the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The main viewing area and the auxiliary viewing area have different pixel distribution forms;
The auxiliary viewing area includes n sub-pixel sequence, in each sub-pixel sequence in the n sub-pixel sequence
Including at least two sub-pixels, and the color for each sub-pixel for including in any one sub-pixel sequence is identical,
The n is positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area;
Optical device is provided with below the auxiliary viewing area.
Optionally, the optical device comprises at least one of the following: camera, light sensor, close to inductor, optics
Transmitter, optical receiver.
According to a sixth aspect of an embodiment of the present disclosure, a kind of terminal is provided, the terminal includes terminal screen;
The terminal screen includes: substrate and the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The size of sub-pixel in the auxiliary viewing area, greater than the size of the sub-pixel in the main viewing area;
Optical device is provided with below the auxiliary viewing area.
Optionally, the optical device comprises at least one of the following: camera, light sensor, close to inductor, optics
Transmitter, optical receiver.
The technical solution that the embodiment of the present disclosure provides can include the following benefits:
By forming the display layer of integral structure on substrate, and the display layer is divided by main display by manufacturing process
Area and auxiliary viewing area, and main viewing area and auxiliary viewing area have different pixel distribution forms;Wherein, auxiliary viewing area includes at least
One sub-pixel sequence includes at least two sub-pixels in each sub-pixel sequence at least one sub-pixel sequence,
And the color for each sub-pixel in any one sub-pixel sequence including is identical.Due to having at least two in auxiliary viewing area
The sub-pixel of a same color shares same cabling, therefore the cabling quantity in auxiliary viewing area can be reduced, optimization cabling layout,
So that the quantity of the devices such as such as holding capacitor, TFT (Thin Film Transistor, thin film transistor (TFT)) subtracts in auxiliary viewing area
It is few, to improve the light transmittance of auxiliary viewing area.In this manner it is possible to lower section setting such as camera, light sensing in auxiliary viewing area
Device, close to optical devices such as inductor, optical launcher, optical receivers, and ensure that these optical devices can work normally,
Farthest ensure the working performance of above-mentioned optical device.
It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not
The disclosure can be limited.
Detailed description of the invention
The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure
Example, and together with specification for explaining the principles of this disclosure.
Fig. 1 is a kind of schematic diagram of terminal screen shown according to an exemplary embodiment;
Fig. 2 to Fig. 9 illustrates the schematic diagram of several display layers;
Figure 10 illustrates a kind of schematic diagram of transition display layer;
Figure 11 is a kind of schematic diagram of screen construction shown according to an exemplary embodiment;
Figure 12 is a kind of schematic diagram of terminal shown according to an exemplary embodiment;
Figure 13 is a kind of block diagram of the control device of terminal screen shown according to an exemplary embodiment;
Figure 14 is a kind of structural block diagram of terminal shown according to an exemplary embodiment.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all implementations consistent with this disclosure.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects be described in detail in claims, the disclosure.
Fig. 1 is a kind of schematic diagram of terminal screen shown according to an exemplary embodiment.As shown in Figure 1, the end panel
Curtain may include: substrate 10 and the display layer 20 positioned at 10 upper layer of substrate.
Display layer 20 for realizing terminal screen display function.In the embodiments of the present disclosure, display layer 20 includes main aobvious
Show area 21 and auxiliary viewing area 22.Main viewing area 21 and auxiliary viewing area 22 are provided with display function.The quantity of auxiliary viewing area 22 can be with
It is one, is also possible to multiple.In Fig. 1, it is 1 with the quantity of auxiliary viewing area 22 and is schematically illustrated.
In the embodiments of the present disclosure, display layer 20 includes main viewing area 21 and the two distinct types of display in auxiliary viewing area 22
Region, but main viewing area 21 and auxiliary viewing area 22 are a one being physically a unified entirety namely display layer 20
Body structure is not divided into multiple independent component parts mutually.
If display layer 20 includes multiple independent component parts mutually, and these component parts are spliced to form display layer
20, then certain interval is certainly existed at stitching position, eventually leads between the display content of each component part that there are gap, nothings
Method reaches display content one integrated mass, the gapless display effect of entire display layer 20.
But in the embodiments of the present disclosure, since main viewing area 21 and auxiliary viewing area 22 are being physically a systems
Between the two and gap, therefore the display content of the display content of main viewing area 21 and auxiliary viewing area 22 is not present in one entirety
Between will not have gap, to reach display content one integrated mass, the gapless display effect of entire display layer 20.
It may include multiple pixels in main viewing area 21, may include one or more pixels in auxiliary viewing area 22.Logical
In normal situation, a pixel includes the sub-pixel namely a picture of R (red), G (green) and three kinds of different colours of B (blue)
Element includes at least one red sub-pixel, at least one green sub-pixels and at least one blue subpixels.Certainly, it is some its
In its possible embodiment, a pixel can also only include a kind of sub-pixel of color, such as a pixel only includes R, G, B
In any one color sub-pixel.Alternatively, a pixel can also only include the sub-pixel of two kinds of colors, such as a pixel
It only include the sub-pixel of any two kinds of colors in R, G, B.Alternatively, a pixel is in addition to including at least one red sub-pixel, extremely
It further include the sub-pixel of at least one other color except few green sub-pixels and at least one blue subpixels, such as also
Including at least one white sub-pixels.Color and quantity for the sub-pixel for including in a pixel, the disclosure do not make this
It limits.
In the embodiments of the present disclosure, main viewing area 21 and auxiliary viewing area 22 have different pixel distribution forms.Above-mentioned picture
Plain distributional pattern refers to the distributional pattern of sub-pixel.Above-mentioned pixel distribution form include but is not limited to it is following any one or more
Combination: Pixel Dimensions, pixel arrangements, pixel distribution density.Wherein, main viewing area 21 and auxiliary viewing area 22 have difference
Pixel Dimensions, refer to that the size of the sub-pixel in main viewing area 21 is different from the size of sub-pixel in auxiliary viewing area 22, example
As the size of the sub-pixel in auxiliary viewing area 22 is greater than the size of the sub-pixel in main viewing area 21.Main viewing area 21 and auxiliary display
Area 22 has different pixel arrangements, refers in arrangement mode and the auxiliary viewing area 22 of the sub-pixel in main viewing area 21
The arrangement mode of sub-pixel is different, such as the arrangement mode of the sub-pixel in main viewing area 21 is Delta arrangement, auxiliary viewing area 22
In sub-pixel arrangement mode be standard RGB arrangement.Main viewing area 21 and auxiliary viewing area 22 have different pixel distributions close
Degree, refers to that the distribution density of the sub-pixel in main viewing area 21 is different from the distribution density of sub-pixel in auxiliary viewing area 22, example
The distribution density of sub-pixel in such as main viewing area 21 is greater than the distribution density of the sub-pixel in auxiliary viewing area 22.
As shown in Fig. 2, auxiliary viewing area 22 includes n sub-pixel sequence 23, each in the n sub-pixel sequence 23
It include at least two sub-pixels 24, and each sub-pixel for including in sub-pixel sequence 23 in any one sub-pixel sequence 23
24 color is identical, and n is positive integer.Since the color of sub-pixel 24 generally includes tri- kinds of colors of R, G and B, above-mentioned n item
A certain sub-pixel sequence 23 in sub-pixel sequence 23 can be red sub-pixel sequence, be also possible to green sub-pixels sequence
Column or blue subpixels sequence.Wherein, red sub-pixel sequence refer to including the color of each sub-pixel be red
Sub-pixel sequence, green sub-pixels sequence refer to including each sub-pixel color be green sub-pixel sequence, it is blue
Sub-pixels sequence refer to including each sub-pixel color be blue sub-pixel sequence.
In the embodiments of the present disclosure, in auxiliary viewing area 22 there are the sub-pixel of at least two same colors share it is same walk
Line.For example, sub-pixel A illustrated in fig. 2, sub-pixel B and sub-pixel C are same color, for example this 3 sub-pixels can be all
Red sub-pixel can also be all green sub-pixels, or be all blue subpixels and this 3 sub-pixels;Also, this 3 sons
Pixel shares same cabling.In the embodiments of the present disclosure, cabling refers to for controlling the power supply line and/or signal that sub-pixel is shown
Line.Wherein, power supply line is used to provide voltage for sub-pixel;Signal wire is used to provide control signal for sub-pixel, such as brightness or ash
The pixel values such as rank, signal wire are alternatively referred to as data line.
In conclusion in the technical solution that the embodiment of the present disclosure provides, by forming the aobvious of integral structure on substrate
Show layer, and the display layer is divided by main viewing area and auxiliary viewing area by manufacturing process, and main viewing area and auxiliary viewing area have
Different pixel distribution forms;Wherein, auxiliary viewing area includes at least one sub-pixel sequence, at least one sub-pixel sequence
Each sub-pixel sequence in include at least two sub-pixels, and each sub-pixel for including in any one sub-pixel sequence
Color it is identical.Since in auxiliary viewing area, there are the sub-pixels of at least two same colors to share same cabling, thus it is auxiliary aobvious
Show that the cabling quantity in area can be reduced, optimization cabling layout, so that the devices such as holding capacitor, TFT in auxiliary viewing area
Quantity is reduced, to improve the light transmittance of auxiliary viewing area.In this manner it is possible to lower section setting such as camera, light in auxiliary viewing area
Line inductor, close to optical devices such as inductor, optical launcher, optical receivers, and ensure that these optical devices can be just
Often work, farthest ensures the working performance of above-mentioned optical device.
Disclosure another exemplary embodiment additionally provides a kind of terminal screen.As shown in Figure 1, the terminal screen can wrap
It includes: substrate 10 and the display layer 20 positioned at 10 upper layer of substrate.
Display layer 20 for realizing terminal screen display function.In the embodiments of the present disclosure, display layer 20 includes main aobvious
Show area 21 and auxiliary viewing area 22.Main viewing area 21 and auxiliary viewing area 22 are provided with display function.The quantity of auxiliary viewing area 22 can be with
It is one, is also possible to multiple.In Fig. 1, it is 1 with the quantity of auxiliary viewing area 22 and is schematically illustrated.
In the embodiments of the present disclosure, display layer 20 includes main viewing area 21 and the two distinct types of display in auxiliary viewing area 22
Region, but main viewing area 21 and auxiliary viewing area 22 are a one being physically a unified entirety namely display layer 20
Body structure is not divided into multiple independent component parts mutually.
If display layer 20 includes multiple independent component parts mutually, and these component parts are spliced to form display layer
20, then certain interval is certainly existed at stitching position, eventually leads between the display content of each component part that there are gap, nothings
Method reaches display content one integrated mass, the gapless display effect of entire display layer 20.
But in the embodiments of the present disclosure, since main viewing area 21 and auxiliary viewing area 22 are being physically a systems
Between the two and gap, therefore the display content of the display content of main viewing area 21 and auxiliary viewing area 22 is not present in one entirety
Between will not have gap, to reach display content one integrated mass, the gapless display effect of entire display layer 20.
It may include multiple pixels in main viewing area 21, may include one or more pixels in auxiliary viewing area 22.Logical
In normal situation, a pixel includes the sub-pixel namely a picture of R (red), G (green) and three kinds of different colours of B (blue)
Element includes at least one red sub-pixel, at least one green sub-pixels and at least one blue subpixels.Certainly, it is some its
In its possible embodiment, a pixel can also only include a kind of sub-pixel of color, such as a pixel only includes R, G, B
In any one color sub-pixel.Alternatively, a pixel can also only include the sub-pixel of two kinds of colors, such as a pixel
It only include the sub-pixel of any two kinds of colors in R, G, B.Alternatively, a pixel is in addition to including at least one red sub-pixel, extremely
It further include the sub-pixel of at least one other color except few green sub-pixels and at least one blue subpixels, such as also
Including at least one white sub-pixels.Color and quantity for the sub-pixel for including in a pixel, the disclosure do not make this
It limits.
In the embodiments of the present disclosure, as shown in figure 3, the size of the sub-pixel 24 in auxiliary viewing area 22, is greater than main viewing area
The size of sub-pixel 21a in 21.For example, the length of the sub-pixel 24 in auxiliary viewing area 22 is greater than the sub-pixel in main viewing area 21
The length of 21a;And/or the width for the sub-pixel 21a of the sub-pixel 24 in auxiliary viewing area 22 being wider than in main viewing area 21.Wherein,
The side length of sub-pixel horizontally is the length of the sub-pixel, and side length in the longitudinal direction is the width of the sub-pixel.
In one example, the length of the length of the sub-pixel 24 in auxiliary viewing area 22 and the sub-pixel 21a in main viewing area 21
It is identical, and the width for the sub-pixel 21a of the sub-pixel 24 in auxiliary viewing area 22 being wider than in main viewing area 21.For example, auxiliary display
Wide wide 2 times that can be the sub-pixel 21a in main viewing area 21 of sub-pixel 24 in area 22,2.5 times, 3 times, 4 times etc., this
Open embodiment is not construed as limiting this.
In another example, sub-pixel 21a in the wide and main viewing area 21 of the sub-pixel 24 in auxiliary viewing area 22
Width is identical, and the length of the sub-pixel 24 in auxiliary viewing area 22 is greater than the length of the sub-pixel 21a in main viewing area 21.For example, auxiliary aobvious
Show that the length of the sub-pixel 24 in area 22 can be 2 times, 2.5 times, 3 times, 4 times of the length of the sub-pixel 21a in main viewing area 21 etc.,
The embodiment of the present disclosure is not construed as limiting this.
In yet another example, the sub-pixel 21a of the sub-pixel 24 in auxiliary viewing area 22 being wider than in main viewing area 21
Width, and the length of the sub-pixel 24 in auxiliary viewing area 22 is also greater than the length of the sub-pixel 21a in main viewing area 21.For example, auxiliary aobvious
Show wide wide 2 times that can be the sub-pixel 21a in main viewing area 21 of the sub-pixel 24 in area 22,2.5 times, 3 times, 4 times etc.,
The length of sub-pixel 24 in auxiliary viewing area 22 can be 2 times of the length of the sub-pixel 21a in main viewing area 21,2.5 times, 3 times, 4
Times etc., the embodiment of the present disclosure is not construed as limiting this.
Due to the size of the sub-pixel in auxiliary viewing area 22, greater than the size of the sub-pixel in main viewing area 21, therefore it is auxiliary
Pixel distribution density in viewing area 22 can be less than the pixel distribution density in main viewing area 21, in this way, Ke Yijin
The cabling quantity in auxiliary viewing area 22, optimization cabling layout are possibly reduced, and makes the PDL (Pixel between pixel and pixel
Delineation Layer, pixel defining layer) shape that becomes as far as possible regular bulk, so that the light transmission in auxiliary viewing area 22
Region (including region shared by sub-pixel and PDL) can obtain better light transmission and higher reflectivity and refraction
Rate.In this manner it is possible to auxiliary viewing area 22 lower section be arranged optical device, as camera, light sensor, close to inductor,
The optical devices such as optical launcher, optical receiver, and ensure that these optical devices can work normally.
In addition, in the embodiments of the present disclosure, although the size of the sub-pixel in auxiliary viewing area 22, being greater than in main viewing area 21
Sub-pixel size, it is auxiliary but in view of area accounting very little of the auxiliary viewing area 22 in entire terminal screen in actual product
Viewing area 22 and the partial region in the main viewing area 21 around auxiliary viewing area 22 are usually only necessary to display monochrome, because
The display effect of this entire terminal screen is unaffected substantially.
In addition, in the embodiments of the present disclosure, not limiting the size of each of auxiliary viewing area 22 sub-pixel, requiring
Greater than the size of the sub-pixel in main viewing area 21.There may also be individual or part sub-pixel, sizes in auxiliary viewing area 22
It is identical as the size of sub-pixel in main viewing area 21, the size of the sub-pixel in even less than main viewing area 21, disclosure reality
It applies example and this is not construed as limiting.
Optionally, main viewing area 21 and auxiliary viewing area 22 have except different Pixel Dimensions, can also there is different pictures
Plain arrangement mode, different pixel distribution density or other different pixel distribution forms.
In conclusion in the technical solution that the embodiment of the present disclosure provides, due to the size of the sub-pixel in auxiliary viewing area, greatly
The size of sub-pixel in main viewing area, therefore the pixel distribution density in auxiliary viewing area can be less than the pixel in main viewing area
Distribution density, in this way, the cabling quantity that can be reduced as far as in auxiliary viewing area, optimization cabling layout, and make
PDL between pixel and pixel becomes the shape of bulk as regular as possible so that transmission region (including the son in auxiliary viewing area
Region shared by pixel and PDL) better light transmission and higher reflectivity and refractive index can be obtained.In this manner it is possible to
Optical device is set in the lower section of auxiliary viewing area, is connect such as camera, light sensor, close to inductor, optical launcher, optics
The optical devices such as device are received, and ensure that these optical devices can work normally.
In some alternative embodiments based on any one embodiment offer described above, the terminal screen also has
There is following characteristic.
Optionally, when auxiliary viewing area 22 includes n sub-pixel sequence, and n is the integer greater than 1, the n sub-pixel
Sequence arranges one by one along target direction.Optionally, target direction is vertical or horizontal.In one example, each sub-pixel
The each sub-pixel for including in sequence arranges one by one along first direction, and n sub-pixel sequence arranges one by one in a second direction, and first
Direction and second direction are orthogonal.For example, first direction is that laterally, then second direction is longitudinal.In another example first direction is
Longitudinal, then second direction is laterally.By taking Fig. 2 as an example, auxiliary viewing area 22 includes 6 sub-pixel sequences 23, each sub-pixel sequence
It include multiple sub-pixels 24 in column 23, each sub-pixel 24 for including in each sub-pixel sequence 23 transversely arranges one by one,
And this 6 sub-pixel sequences 23 arrange one by one along longitudinal direction.
Optionally, above-mentioned n sub-pixel sequence includes: at least one red sub-pixel sequence, at least one sub- picture of green
Prime sequences and at least one blue subpixels sequence.Wherein, red sub-pixel sequence, green sub-pixels sequence and blue
Pixel sequence is alternatively arranged one by one along target direction.
In one example, as shown in figure 4, each height for including in auxiliary viewing area 22, in each sub-pixel sequence
Pixel transversely arranges one by one, includes at least one red sub-pixel sequence, at least one green sub-pixels in auxiliary viewing area 22
Sequence and at least one blue subpixels sequence.Also, according to a red sub-pixel sequence, a green sub-pixels sequence
Putting in order for column and blue subpixels sequence, is alternatively arranged one by one along longitudinal direction.
In another example, as shown in figure 5, include in each sub-pixel sequence is each in auxiliary viewing area 22
Sub-pixel arranges one by one along longitudinal direction, includes at least one red sub-pixel sequence, at least one sub- picture of green in auxiliary viewing area 22
Prime sequences and at least one blue subpixels sequence.Also, according to a red sub-pixel sequence, a green sub-pixels
Putting in order for sequence and blue subpixels sequence, is transversely alternatively arranged one by one.
When in auxiliary viewing area 22 include at least one red sub-pixel sequence, at least one green sub-pixels sequence, and
When at least one blue subpixels sequence, auxiliary viewing area 22 can mix above-mentioned three primary colors, show various different colours.When
When only including the sub-pixel sequence of one or two kinds of colors in auxiliary viewing area 22, color that auxiliary viewing area 22 can be shown can be by
To certain restrictions.For example, auxiliary viewing area 22 is just merely able to show red when only including red sub-pixel sequence in auxiliary viewing area 22
Color;In another example auxiliary viewing area 22 is with regard to only when only including red sub-pixel sequence and green sub-pixels sequence in auxiliary viewing area 22
It can be displayed in red, green and the color that will be obtained after red and green mixing.
In the embodiments of the present disclosure, the length-width ratio of each sub-pixel in auxiliary viewing area 22 is not construed as limiting, such as the length
Width is than can be 1:1,1:2,1:3,2:1,3:1 or other ratios.In addition, the ruler of each sub-pixel in auxiliary viewing area 22
It is very little to may be the same or different.Also, the size of each sub-pixel of same color may be the same or different;No
Size with each sub-pixel of color may be the same or different.
Optionally, each there are include at least one sub-pixel sequence in n sub-pixel sequence of auxiliary viewing area 22
The central point of sub-pixel is located along the same line.For example, in Fig. 4 and Fig. 5 example, n sub-pixel sequence of auxiliary viewing area 22
In, the central point for each sub-pixel for including in any one sub-pixel sequence is respectively positioned on same straight line.
Optionally, each there are include at least one sub-pixel sequence in n sub-pixel sequence of auxiliary viewing area 22
The central point of sub-pixel is not located along the same line.For example, in Fig. 6 or Fig. 7 example, n sub-pixel sequence of auxiliary viewing area 22
In column, the central point for each sub-pixel for including in any one sub-pixel sequence is not located along the same line.In Fig. 6 and figure
In auxiliary viewing area 22 shown by 7, the multiple sub-pixels for the same color that a curve is connected form a sub-pixel sequence
Column.
In one example, for i-th sub-pixel sequence in n sub-pixel sequence of auxiliary viewing area 22, this i-th
The central point for the 2k sub-pixel for including in sub-pixel sequence is located in first straight line, the central point of the 2k-1 sub-pixel
In second straight line, and first straight line is parallel with second straight line;Wherein, i is the positive integer less than or equal to n, and k is positive whole
Number.That is, the central point of even number (such as the 2nd, the 4th, the 6th) sub-pixel is located in first straight line, odd number
The central point of (such as the 1st, the 3rd, the 5th) sub-pixel is located in second straight line.It is red with the 1st row in Fig. 6 or Fig. 7
For sub-pixel sequence, the central point of even number sub-pixel is located on first straight line L1, the central point of odd number sub-pixel
On second straight line L2, and first straight line L1 is parallel with second straight line L2.
It should be noted that the n sub-pixel sequence that Fig. 6 and Fig. 7 illustrate only in auxiliary viewing area 22 is arranged one by one along longitudinal direction
In the case where column, the situation that the central point for each sub-pixel for including in sub-pixel sequence is not located along the same line, for n item
The central point of the case where sub-pixel sequence transversely arranges one by one, each sub-pixel for including in sub-pixel sequence can not also position
In on same straight line.
When the central point for each sub-pixel for including in sub-pixel sequence is located along the same line, cabling is simple, and picture
The manufacture of element is simpler;When the central point for each sub-pixel for including in sub-pixel sequence is not located along the same line, walk
Line is more relative complex, but display effect is more preferably, for example, make auxiliary viewing area 22 obtain as far as possible it is identical as main viewing area 21 or
Similar display effect.
Optionally, if auxiliary viewing area 22 only has monochrome display capabilities namely synchronization is only able to display a kind of color
Ability, then the sub-pixel of same color shares same cabling in auxiliary viewing area 22.In one example, as shown in Figure 8, it is assumed that
It include the sub-pixel of tri- kinds of different colours of R, G, B in auxiliary viewing area 22, then red sub-pixel all in auxiliary viewing area 22 shares
Same cabling (being denoted as the first cabling S1), all green sub-pixels share same cabling and (are denoted as second to walk in auxiliary viewing area 22
Line S2), all blue subpixels share same cabling (being denoted as third cabling S3) in auxiliary viewing area 22, and the son of different colours
Pixel is three groups of different cablings using different cabling namely above-mentioned first cabling S1, the second cabling S2 and third cabling S3.
In this case, auxiliary viewing area 22 can show R, G, B or its any one monochrome being mixed to get.Certainly, some
It may also only include the sub-pixel of one or two kinds of colors in other possible embodiments, in auxiliary viewing area 22, or in addition to packet
Include further include except the sub-pixel of tri- kinds of different colours of R, G, B other colors sub-pixel.But it no matter is wrapped in auxiliary viewing area 22
Varicolored sub-pixel is included, when auxiliary viewing area 22 only has monochrome display capabilities, by same color in auxiliary viewing area 22
Sub-pixel shares same cabling.
Optionally, if auxiliary viewing area 22 has multicolor displaying ability namely synchronization and can show multiple color
Ability, then auxiliary viewing area 22 includes at least two subregions, and the sub-pixel of same color shares same cabling in each subregion.
Optionally, the cabling of different subregion sub-pixels is respectively independent.It may include one or more sub- pictures in each sub-regions
Element.In one example, as shown in figure 9, auxiliary viewing area 22 is divided into 4 sub-regions 22a, with son shown in the upper right corner Fig. 9
It include the sub-pixel of tri- kinds of different colours of R, G, B for the 22a of region, in subregion 22a, it is all red in subregion 22a
Sub-pixels share same cabling (being denoted as the 4th cabling S4), in subregion 22a all green sub-pixels share it is same walk
Line (is denoted as the 5th cabling S5), and all blue subpixels share same cabling (being denoted as the 6th cabling S6) in subregion 22a,
And the sub-pixel of different colours is using different cabling namely above-mentioned 4th cabling S4, the 5th cabling S5 and the 6th cabling S6
Three groups of different cablings.In this way, each sub-regions 22a can show R, G, B or its any one monochrome being mixed to get,
Entire auxiliary viewing area 22 is due to that can show a kind of monochrome, different sub-districts including multiple subregion 22a, each subregion 22a
Domain 22a can show same or different monochrome, therefore entire auxiliary viewing area 22 can have multicolor displaying ability.In addition,
In Fig. 9 example, only to be introduced in each sub-regions 22a all including the sub-pixel of tri- kinds of different colours of R, G, B
Illustrate, may also only include the sub- picture of one or two kinds of colors in some other possible embodiments, in a sub-regions 22a
It further include the sub-pixel of other colors other than element, or the sub-pixel in addition to including tri- kinds of different colours of R, G, B.In addition, at this
In open embodiment, the quantity and division mode of the subregion 22a for including in auxiliary viewing area 22 are not construed as limiting, it can be according to reality
Border demand is designed.When auxiliary viewing area 22 has multicolor displaying ability, multiple subregions included by auxiliary viewing area 22 are just
Multiple color lumps can be shown, to meet more display demands.
Optionally, as shown in Figure 10, display layer 20 further includes transition viewing area 25 (figure bend fills shown region), mistake
Viewing area 25 is crossed between main viewing area 21 and auxiliary viewing area 22, transition viewing area 25 and main viewing area 21 and auxiliary viewing area
22 have different pixel distribution forms.For example, the size of the sub-pixel in transition viewing area 25, is greater than in main viewing area 21
Sub-pixel size, and be less than auxiliary viewing area 22 in sub-pixel size.Each sub-pixel in transition viewing area 25
Size may be the same or different.For example, the size closer to the sub-pixel of auxiliary viewing area 22 is bigger, closer to main display
The size of the sub-pixel in area 21 is smaller.By the above-mentioned means, the resolution between main viewing area 21 and auxiliary viewing area 22 can be made
Rate transition is more smooth naturally, promoting the display effect of entire terminal screen.
In addition, main viewing area 21, the respective independent control in auxiliary viewing area 22 and transition viewing area 25 are shown.That is, main
Viewing area 21, auxiliary viewing area 22 and transition viewing area 25 respectively have independent cabling, thus can be to transition viewing area 25
Shown brightness and color is individually controlled.Under application scenes, main viewing area 21 and auxiliary viewing area 22 can be divided
Related content is not shown, and transition viewing area 25 can not provide power supply for it, so that black is presented in transition viewing area 25, to meet
To the display demand of some specific contents.
In addition, the spacing distance in auxiliary viewing area 22 between each sub-pixel, it can be with each height in main viewing area 21
Spacing distance between pixel is equal as much as possible or close.For example, between the sub-pixel of same color laterally or longitudinally
Spacing distance is equal as much as possible or close with main viewing area 21 in auxiliary viewing area 22.Optionally, in auxiliary viewing area 22
Pixel distribution form as is seen in fig. 6 or fig. 7 when, the distance between first straight line and second straight line, be equal to main viewing area 21 in two
The distance between the central point of sub-pixel of a same color.By the above-mentioned means, helping to promote the aobvious of entire terminal screen
Show effect.
It should be noted that in the embodiments of the present disclosure, not limiting the arrangement mode of the sub-pixel in main viewing area 21
It is fixed.The arrangement mode of sub-pixel in main viewing area is any one or more following combination: Delta arrangement, Pentile
Arrangement, standard RGB arrangement.
It should also be noted that, in the embodiments of the present disclosure, the cross-sectional shapes of auxiliary viewing area 22 are not construed as limiting, it can be with
It is the regular shapes such as rectangle, round rectangle, circle, is also possible to the non-regular shapes such as water-drop-shaped, arc.
In addition, being only formed in above-mentioned Fig. 1 into example shown in Fig. 10 with the edge or centre of main viewing area 21 scarce
Oral area position, and auxiliary viewing area 22 be located at above-mentioned gap portions for be illustrated.In some other possible embodiments,
Main viewing area 21 can also be formed without gap portions, and auxiliary viewing area 22 is located at the side of some side of main viewing area 21, and
It is closely coupled with main viewing area 21.Alternatively, can also both include that main viewing area 21 is formed by gap portions in display layer 20
Auxiliary viewing area 22, and include the auxiliary viewing area 22 beside some side of main viewing area 21.
Optionally, terminal screen is in regular shape, which includes any of the following: rectangle, round rectangle, circle
Shape.Certainly, in some other possible embodiments, terminal screen can also be in non-regular shape, and the disclosure does not limit this
It is fixed.
In addition, substrate 10 may include: the first substrate region below main viewing area 21, and it is located at auxiliary viewing area
The second substrate region of 22 lower sections.Wherein, the view field of main viewing area 21 on the substrate 10 is then first substrate region;It is auxiliary
The view field of viewing area 22 on the substrate 10 is then the second substrate region.In one possible implementation, first substrate
Region and the second substrate region are all made of identical material and are made.That is, one piece of whole plate that substrate 10 is made of the same material.
For example, the substrate 10 can be made of glass, can also be made of PI.In alternatively possible implementation, first substrate
Region and the second substrate region are made of different materials.For example, first substrate region and the second substrate region use different materials
Material is made.Illustratively, first substrate region is made of PI material, and the second substrate region is made of glass material.Glass
Glass material has better translucency compared to PI material, but glass material belongs to hard material, not bent, and PI material can
To produce flexible screen.Using aforesaid way, since the corresponding first substrate region in main viewing area 21 is made of PI material,
So that the most areas of terminal screen can be bent, flexible screen design is realized, but auxiliary viewing area 22 corresponding the
Two substrate regions are made of the better glass material of translucency, so that the camera being arranged below auxiliary viewing area 22, sensor
The working performance of equal optical devices is more preferably.
In addition, display layer 20 is usually controlled by driving IC.In one example, main viewing area 21 and auxiliary viewing area 22 are total
Two parts can be divided into same driving IC, such as a driving IC, a part for driving main viewing area 21, use by another part
In the auxiliary viewing area 22 of driving.In another example, main viewing area 21 and auxiliary viewing area 22 use different driving IC, such as
Terminal screen includes two driving IC, and one of driving IC is for driving main viewing area 21, another driving IC is for driving
Auxiliary viewing area 22.In addition, multiple auxiliary viewing area 22 can share same when display layer 20 includes multiple auxiliary viewing areas 22
IC is driven, different driving IC also can be used, the disclosure is not construed as limiting this.
In addition, terminal screen other than including substrate 10 and display layer 20 described above, can also include touching sense
Answer layer and glass cover-plate.Wherein, touch sensitive layer is located on display layer 20, and glass cover-plate is located on touch sensitive layer.Touching
Inductive layer is touched for realizing click, sliding, the pressing operation of touch sensing function, such as detection user's finger.Glass cover-plate is used
In forming the protection to terminal screen, extend screen service life.
The terminal screen that the embodiment of the present disclosure provides, can be LCD (Liquid Crystal Display, liquid crystal
Display screen) screen, it is also possible to OLED screen curtain.When terminal screen is OLED screen curtain, it can be flexible screen, be also possible to non-
Flexible screen.
When terminal screen is LCD screen, display layer 20 may include TFT array, the liquid crystal being arranged successively from lower to upper
Layer, CF (Color Filter, colored filter).Substrate positioned at 20 lower section of display layer can be made of glass material, and
The substrate is properly termed as lower substrate;It is further typically provided with upper substrate above display layer 20, which can also use glass material
Material is made.In addition, the also settable down polaroid in the lower section of lower substrate, the also settable upper polaroid in the top of upper substrate.Also,
LCD screen further includes the backlight module below down polaroid.
When terminal screen is OLED screen curtain, display layer 20 may include the ITO (indium being arranged successively from lower to upper
Tin oxide, tin indium oxide) anode, hole transmission layer, organic luminous layer, electron transfer layer and metallic cathode.Positioned at display layer
The substrate of 20 lower sections can be made of glass material, can also be adopted made of plastic, can also be used metal foil or other materials
Material is made.
Certainly, the introduction of the above-mentioned hierarchical structure in relation to LCD screen and OLED screen curtain is only exemplary and explanatory, and
It is not used in and disclosed technique forecast scheme configuration is limited.
Figure 11 is a kind of schematic diagram of screen construction shown according to an exemplary embodiment, which may include
N sub-pixel sequence 23, n are positive integer.
Include at least two sub-pixels 24 in each sub-pixel sequence 23 in above-mentioned n sub-pixel sequence 23, and appoints
Anticipate each sub-pixel 24 for including in a sub-pixel sequence 23 color it is identical.Due to the color of sub-pixel 24 generally include R,
Tri- kinds of colors of G and B, therefore, a certain sub-pixel sequence 23 in above-mentioned n sub-pixel sequence 23 can be red sub-pixel sequence
Column, are also possible to green sub-pixels sequence or blue subpixels sequence.
In addition, the sub-pixel 24 in the screen construction there are at least two same colors shares same cabling.For example, Figure 11
Shown sub-pixel A, sub-pixel B and sub-pixel C is same color, for example this 3 sub-pixels can be all red sub-pixel,
It can also be all green sub-pixels, or be all blue subpixels and this 3 sub-pixels;Also, this 3 sub-pixels share same
One cabling.
Due to sharing same cabling there are the sub-pixel of at least two same colors in screen construction, in screen construction
Cabling quantity can reduce, optimization cabling layout so that the quantity of the devices such as holding capacitor, TFT subtracts in screen construction
It is few, to improve the light transmittance of screen construction.In this manner it is possible to screen construction lower section be arranged optical device, as camera,
Light sensor, close to optical devices such as inductor, optical launcher, optical receivers, and ensure that these optical devices can
It works normally.
Optionally, when n is the integer greater than 1, above-mentioned n sub-pixel sequence arranges one by one along target direction.Optionally,
Target direction is vertical or horizontal.
Optionally, n sub-pixel sequence includes: at least one red sub-pixel sequence, at least one green sub-pixels sequence
Column and at least one blue subpixels sequence.Also, red sub-pixel sequence, green sub-pixels sequence and blue subpixels
Sequence is alternatively arranged one by one along target direction.
Optionally, in n sub-pixel sequence, there are the centers for each sub-pixel for including at least one sub-pixel sequence
Point is located along the same line.
Optionally, in n sub-pixel sequence, there are the centers for each sub-pixel for including at least one sub-pixel sequence
Point is not located along the same line.
Optionally, for i-th sub-pixel sequence in n sub-pixel sequence, include in i-th article of sub-pixel sequence
The central point of 2k sub-pixel is located in first straight line, and the central point of the 2k-1 sub-pixel is located in second straight line, and first
Straight line is parallel with second straight line;Wherein, i is the positive integer less than or equal to n, and k is positive integer.
Optionally, the distance between first straight line and second straight line, equal to the sub- picture of two same colors in main viewing area
The distance between the central point of element.
Optionally, the sub-pixel of same color shares same cabling in screen construction.
Optionally, screen construction includes at least two subregions, and the sub-pixel of same color shares same in each subregion
One cabling.
Screen construction provided in this embodiment has phase with the auxiliary viewing area 22 in the terminal screen of foregoing embodiments introduction
Same or similar characteristic.To the details not disclosed in detail in this present embodiment, reference can be made to related terminal screen in foregoing embodiments
In auxiliary viewing area 22 introduction explanation, the present embodiment repeats no more this.
In addition, screen construction provided in this embodiment, can be implemented separately as one piece of terminal screen, can also be used as
The auxiliary viewing area 22 that text is introduced combines with main viewing area 21 and forms one piece of terminal screen.
One exemplary embodiment of the disclosure additionally provides a kind of terminal, which can be such as mobile phone, tablet computer, electricity
The electronic equipments such as philosophical works reader, multimedia play equipment, wearable device, car-mounted terminal.The terminal includes such as Fig. 1 embodiment
Or the terminal screen that any of the above-described alternative embodiment provides.
In one example, as shown in figure 12, terminal 1 includes terminal screen.Terminal screen include: substrate (in Figure 12 not
Show) and display layer 20 positioned at substrate upper layer.It optionally, can also include touch sensitive layer and glass on display layer 20
Cover board.
As shown in figure 12, display layer 20 includes main viewing area 21 and auxiliary viewing area 22.In Figure 12, only with the packet of display layer 20
An auxiliary viewing area 22 is included, and the auxiliary viewing area 22 is located at the gap portions of main 21 top edge of viewing area formation, auxiliary viewing area
22 with main viewing area 21 display layer 20 of the rounded rectangular shape in a section is collectively formed for explanation is introduced.Auxiliary viewing area
22 and main viewing area 21 other positions relationship also may be present, the embodiment of the present disclosure is not construed as limiting this.
In one example, auxiliary viewing area 22 includes n sub-pixel sequence, each strip in the n sub-pixel sequence
It include at least two sub-pixels, and the color phase for each sub-pixel for including in pixel sequence in any one sub-pixel sequence
Together, n is positive integer.There are the sub-pixels of at least two same colors to share same cabling in auxiliary viewing area 22.
In another example, the size of the sub-pixel in auxiliary viewing area 22, greater than the sub-pixel in main viewing area 21
Size.
Introduction explanation in relation to auxiliary viewing area 22 can be found in foregoing embodiments, and details are not described herein again.In above-mentioned two example
Any one example, may make auxiliary viewing area 22 to have higher light transmittance.Certainly, on auxiliary viewing area 22 can only have
Feature defined by any one example in two examples is stated, spy defined in above-mentioned two example can also be provided simultaneously with
Sign.
The lower section of auxiliary viewing area 22 is provided with optical device (being not shown in Figure 12).The optical device include but is not limited to
Lower at least one: camera, light sensor, close to inductor, optical launcher, optical receiver.Wherein, camera is used for
Realize shooting function, such as common camera, infrared camera, depth camera head.Light sensor is for acquiring environmental light intensity
Degree.It is used to acquire the distance of objects in front close to inductor.Optical launcher is the function element for emitting light, such as infrared
Transmitter is some for emitting the transmitter of other light.Optical receiver is the function element for receiving light, such as
Infrared remote receiver is some for receiving the receiver of other light.
Optionally, auxiliary viewing area 22 lower section setting function element, in addition to may include optics device described above it
Outside, it can also include other function elements, such as earpiece, biosensor, environmental sensor, food safety detection sensor, be good for
Health sensor etc..Earpiece is for realizing sound-playing function.The biological characteristic of biosensor user for identification, as fingerprint is known
Individual sensor, iris recognition sensor etc..Environmental sensor for acquiring environmental information, as temperature sensor, humidity sensor,
Baroceptor etc..Food safety detection sensor is used to detect the index of some harmful substances in food, such as optical sensing
Device, biometric sensor etc..Health sensor is used to acquire the health and fitness information of user, such as acquiring heart rate, the blood of user
The sensor of pressure, heartbeat or other somatic datas.
A function element can be set below one auxiliary viewing area 22, also can be set multiple function elements, such as
Camera is set below some auxiliary viewing area 22 and close to inductor.In addition, when display layer 20 includes multiple auxiliary viewing areas 22
When, above-mentioned function element can be set below the auxiliary viewing area 22 that has, above-mentioned function can be not provided with below the auxiliary viewing area 22 having
Energy device, and same or different function element can be set below two different auxiliary viewing areas 22, for example, auxiliary at one
Camera is set below viewing area 22 and close to inductor, fingerprint Identification sensor is set below another auxiliary viewing area 22.
In the embodiments of the present disclosure, by by the sub-pixel of at least two same colors in auxiliary viewing area 22 share it is same walk
Line, and/or, it, can by the size of the sub-pixel for being dimensioned to be less than in main viewing area 21 of the sub-pixel in auxiliary viewing area 22
With the cabling quantity being reduced as far as in auxiliary viewing area 22, optimize cabling layout, so that such as keeping electricity in auxiliary viewing area 22
The quantity of the devices such as appearance, TFT is reduced, to improve the light transmittance of auxiliary viewing area 22.In this manner it is possible in auxiliary viewing area 22
Some optical devices are arranged in lower section, and ensure that these optical devices can work normally.
One exemplary embodiment of the disclosure additionally provides a kind of control method of terminal screen, implements for controlling Fig. 1 such as
The terminal screen that example or any of the above-described alternative embodiment provide.This method can be executed by the driving IC of terminal screen, can also
It is executed to be executed by the processor in terminal, or with multiple component interactions with processing capacity in terminal.The party
Method may include steps of: sending the first synchronization signal to main viewing area, and sends the second synchronization signal to auxiliary viewing area.
Wherein, the first synchronization signal and the second synchronization signal are for controlling main viewing area and auxiliary viewing area while showing same
A content.The same content is referred to as the same display picture or the same frame.Due to main viewing area and auxiliary display
Area is to be controlled respectively by the different piece of two different driving IC or same driving IC, therefore work as main viewing area and auxiliary display
When area needs to show the different piece of the same content, therefore, to assure that frame synchronization between main viewing area and auxiliary viewing area avoids leading
Viewing area and auxiliary viewing area show that different frames influences display effect.
The terminal screen provided using the embodiment of the present disclosure, shown by content and auxiliary viewing area shown by main viewing area
Content combines to be formed one complete display content, is equivalent to and is of the same size with the terminal screen and shape, but not area
The complete display content of one for dividing another terminal screen of main viewing area and auxiliary viewing area that can show.But due to auxiliary aobvious
Show that the light transmittance in area is high, therefore some optical devices can be set in the lower section of auxiliary viewing area, and ensure these optical devices
Normal working performance.To reach under the premise of not sacrificing the display quality of terminal screen, will need to be deployed in terminal originally
The lower section to terminal screen can be arranged in the optical device of front panel and other function elements, so that the screen accounting of terminal screen can
To be more nearly even up to 100%.
Optionally, this method further includes following steps: the primitive color component of the content of being shown in main viewing area is obtained,
And in auxiliary viewing area the content of being shown primitive color component;The school Gamma is carried out respectively to main viewing area and auxiliary viewing area
Just, the school of the content of being shown in color component after the correction for the content of being shown and auxiliary viewing area is obtained in main viewing area
Color component after just;Color component and Xiang Fuxian after the correction for the content of being shown are sent in main viewing area to main viewing area
Show that area sends in the auxiliary viewing area color component after the correction for the content of being shown.
Since the manufacture attribute (pixel distribution form as described above) of main viewing area and auxiliary viewing area is different, two
For person when same color effect is presented, used color component is also possible to can have difference.Wherein, color component can wrap
Include the value of each color component of R, G, B.For example, when upper level applications require terminal screen to show a red area, and should
Red area a part shows that another part is when auxiliary viewing area is shown, if (such as by identical color component in main viewing area
R, G, B respectively correspond 255,0,0) be sent to main viewing area and auxiliary viewing area, main viewing area according to color component 255/0/0 into
Row shows presented color, and presented color is shown according to color component 255/0/0 with auxiliary viewing area, comes from human eye
Seeing may be not consistent, and there are difference.Therefore, by carrying out Gamma correction respectively to main viewing area and auxiliary viewing area, work as master
When viewing area and auxiliary viewing area need to show same color, identical color effects can be showed.
Optionally, it is contemplated that the pixel distribution density of main viewing area is greater than the pixel distribution density of auxiliary viewing area, Ye Jizhu
The resolution ratio of viewing area is greater than the resolution ratio of auxiliary viewing area, in order to enable main viewing area and auxiliary viewing area are showing same content
When different piece, the display effect between two viewing areas can be seamlessly transitted, between above-mentioned main viewing area and auxiliary viewing area also
It is formed with transition viewing area.Correspondingly, this method further includes following steps: being shown according in main viewing area and auxiliary viewing area
Content determines the display parameters of the transition viewing area between the viewing area main viewing area Zhong Yufu;It is sent to transition viewing area above-mentioned
Display parameters, transition viewing area are used to control transition viewing area according to above-mentioned display parameters and be shown.
Wherein, the display parameters of transition viewing area are for keeping the display effect between winner viewing area and auxiliary viewing area smooth
Transition, there are significant differences for the display effect for avoiding causing because resolution ratio is inconsistent in two viewing areas, promote the screen of user
Viewing experience.
Following is embodiment of the present disclosure, can be used for executing embodiments of the present disclosure.It is real for disclosure device
Undisclosed details in example is applied, embodiments of the present disclosure is please referred to.
Figure 13 is a kind of block diagram of the control device of terminal screen shown according to an exemplary embodiment.The device has
Realize the exemplary function of the above method, which can also be executed corresponding software realization by hardware realization by hardware.It should
Device can be terminal described above, also can be set in terminal described above.The device is implemented for controlling Fig. 1 such as
The terminal screen that example or any of the above-described alternative embodiment provide.As shown in figure 13, which may include: sending module
1310。
Sending module 1310 is configured as sending the first synchronization signal to the main viewing area, and to the auxiliary display
Area sends the second synchronization signal, first synchronization signal and second synchronization signal for controlling the main viewing area and institute
It states auxiliary viewing area while showing the same content.
Optionally, as shown in figure 13, described device 1300 further include: obtain module 1320 and correction module 1330.
Module 1320 is obtained, is configured as obtaining the primitive color component of the content of being shown in the main viewing area, with
And in the auxiliary viewing area content of being shown primitive color component.
Correction module 1330 is configured as carrying out Gamma correction respectively to the main viewing area and the auxiliary viewing area,
Obtain in the main viewing area after the correction for the content of being shown the content of being shown in color component and the auxiliary viewing area
Correction after color component.
The sending module 1310, also by in being combined into and sending to the main viewing area and to be shown in the main viewing area
Color component after the correction of appearance, and face after the correction for the content of being shown is sent in the auxiliary viewing area to the auxiliary viewing area
Colouring component.
Optionally, as shown in figure 13, described device 1300 further include: determining module 1340.
Determining module 1340 is configured as according to the content of being shown in the main viewing area and the auxiliary viewing area, really
The display parameters of transition viewing area between the fixed main viewing area and the auxiliary viewing area.
The sending module 1310 is additionally configured to send the display parameters, the transition to the transition viewing area
Viewing area is used to control the transition viewing area according to the display parameters and be shown.
It should be noted is that device provided by the above embodiment is when realizing its function, only with above-mentioned each function
The division progress of module, can be according to actual needs and by above-mentioned function distribution by different function for example, in practical application
Energy module is completed, i.e., the content structure of equipment is divided into different functional modules, to complete whole described above or portion
Divide function.
About the device in above-described embodiment, wherein modules execute the concrete mode of operation in related this method
Embodiment in be described in detail, no detailed explanation will be given here.
One exemplary embodiment of the disclosure additionally provides a kind of terminal, can be realized the control of the terminal screen of disclosure offer
Method processed.The terminal includes the terminal screen provided such as Fig. 1 embodiment or any of the above-described alternative embodiment, and the terminal is also wrapped
It includes: processor, and the memory of the executable instruction for storage processor.Wherein, processor is configured as:
The first synchronization signal is sent to the main viewing area, and sends the second synchronization signal, institute to the auxiliary viewing area
The first synchronization signal and second synchronization signal are stated for controlling the main viewing area and the auxiliary viewing area while display together
One content.
Optionally, processor is also configured to
It obtains in the main viewing area to be shown in the primitive color component for the content of being shown and the auxiliary viewing area
Show the primitive color component of content;
Gamma correction is carried out to the main viewing area and the auxiliary viewing area respectively, obtains being wanted in the main viewing area
Show after the correction of content in color component and the auxiliary viewing area color component after the correction for the content of being shown;
Color component after the correction for the content of being shown is sent in the main viewing area to the main viewing area, and to institute
It states auxiliary viewing area and sends in the auxiliary viewing area color component after the correction for the content of being shown.
Optionally, processor is also configured to
According to the content of being shown in the main viewing area and the auxiliary viewing area, determine the main viewing area with it is described auxiliary
The display parameters of transition viewing area between viewing area;
The display parameters are sent to the transition viewing area, the transition viewing area is used for according to the display parameters control
The transition viewing area is made to be shown.
Figure 14 is a kind of structural block diagram of terminal 1400 shown according to an exemplary embodiment.For example, terminal 1400 can
To be the electronic equipments such as mobile phone, tablet computer, E-book reader, multimedia play equipment, wearable device, car-mounted terminal.
Referring to Fig.1 4, terminal 1400 may include following one or more components: processing component 1402, memory 1404,
Power supply module 1406, multimedia component 1408, audio component 1410, input/output (I/O) interface 1412, sensor module
1414 and communication component 1416.
The integrated operation of the usual controlling terminal 1400 of processing component 1402, such as with display, telephone call, data communication,
Camera operation and record operate associated operation.Processing component 1402 may include one or more processors 1420 to execute
Instruction, to perform all or part of the steps of the methods described above.In addition, processing component 1402 may include one or more moulds
Block, convenient for the interaction between processing component 1402 and other assemblies.For example, processing component 1402 may include multi-media module,
To facilitate the interaction between multimedia component 1408 and processing component 1402.
Memory 1404 is configured as storing various types of data to support the operation in terminal 1400.These data
Example includes the instruction of any application or method for operating in terminal 1400, contact data, telephone book data,
Message, picture, video etc..Memory 1404 can by any kind of volatibility or non-volatile memory device or they
Combination realizes that, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM) is erasable
Programmable read only memory (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, quick flashing
Memory, disk or CD.
Power supply module 1406 provides electric power for the various assemblies of terminal 1400.Power supply module 1406 may include power management
System, one or more power supplys and other with for terminal 1400 generate, manage, and distribute the associated component of electric power.
Multimedia component 1408 includes the end panel of one output interface of offer between the terminal 1400 and user
Curtain.The terminal screen can be the terminal screen such as Fig. 1 embodiment or the offer of any of the above-described alternative embodiment.In some implementations
In example, multimedia component 1408 includes a front camera and/or rear camera.When terminal 1400 is in operation mode,
Such as in a shooting mode or a video mode, front camera and/or rear camera can receive external multi-medium data.Each
Front camera and rear camera can be a fixed optical lens system or have focusing and optical zoom capabilities.
Audio component 1410 is configured as output and/or input audio signal.For example, audio component 1410 includes a wheat
Gram wind (MIC), when terminal 1400 is in operation mode, when such as call mode, recording mode, and voice recognition mode, microphone quilt
It is configured to receive external audio signal.The received audio signal can be further stored in memory 1404 or via communication
Component 1416 is sent.In some embodiments, audio component 1410 further includes a loudspeaker, is used for output audio signal.
I/O interface 1412 provides interface, above-mentioned peripheral interface module between processing component 1402 and peripheral interface module
It can be keyboard, click wheel, button etc..These buttons may include, but are not limited to: home button, volume button, start button and
Locking press button.
Sensor module 1414 includes one or more sensors, and the state for providing various aspects for terminal 1400 is commented
Estimate.For example, sensor module 1414 can detecte the state that opens/closes of terminal 1400, the relative positioning of component, such as institute
The display and keypad that component is terminal 1400 are stated, sensor module 1414 can also detect terminal 1400 or terminal 1400
The position change of one component, the existence or non-existence that user contacts with terminal 1400,1400 orientation of terminal or acceleration/deceleration and
The temperature change of terminal 1400.Sensor module 1414 may include proximity sensor, be configured in not any object
It is detected the presence of nearby objects when reason contact.Sensor module 1414 can also include optical sensor, as CMOS or ccd image are passed
Sensor, for being used in imaging applications.In some embodiments, which can also include acceleration sensing
Device, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.
Communication component 1416 is configured to facilitate the communication of wired or wireless way between terminal 1400 and other equipment.Eventually
End 1400 can access the wireless network based on communication standard, such as Wi-Fi, 2G, 3G, 4G or 5G or their combination.One
In a exemplary embodiment, communication component 1416 via broadcast channel receive broadcast singal from external broadcasting management system or
Broadcast related information.In one exemplary embodiment, the communication component 1416 further includes near-field communication (NFC) module, with
Promote short range communication.For example, can be based on radio frequency identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology surpasses
Broadband (UWB) technology, bluetooth (BT) technology and other technologies are realized.
In the exemplary embodiment, terminal 1400 can be by one or more application specific integrated circuit (ASIC), number
Signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array
(FPGA), controller, microcontroller, microprocessor or other electronic components are realized, for executing the above method.
In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided
It such as include the memory 1404 of instruction, above-metioned instruction can be executed by the processor 1420 of terminal 1400 to complete the above method.Example
Such as, the non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, tape, soft
Disk and optical data storage devices etc..
A kind of non-transitorycomputer readable storage medium, is stored thereon with computer program, when the computer program
When being executed by the processor of terminal 1400, the control method of terminal screen described above can be realized.
It should be understood that referenced herein " multiple " refer to two or more."and/or", description association
The incidence relation of object indicates may exist three kinds of relationships, for example, A and/or B, can indicate: individualism A exists simultaneously A
And B, individualism B these three situations.Character "/" typicallys represent the relationship that forward-backward correlation object is a kind of "or".
Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to its of the disclosure
Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or
Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the disclosure
Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following
Claim is pointed out.
It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.
Claims (44)
1. a kind of terminal screen, which is characterized in that the terminal screen includes: substrate and the display positioned at the substrate upper layer
Layer;
The display layer includes main viewing area and auxiliary viewing area;
The main viewing area and the auxiliary viewing area have different pixel distribution forms;
The auxiliary viewing area includes n sub-pixel sequence, includes in each sub-pixel sequence in the n sub-pixel sequence
At least two sub-pixels, and the color for each sub-pixel for including in any one sub-pixel sequence is identical, the n
For positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area.
2. terminal screen according to claim 1, which is characterized in that the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
3. terminal screen according to claim 2, which is characterized in that the target direction is vertical or horizontal.
4. terminal screen according to claim 2, which is characterized in that the n sub-pixel sequence includes: at least one red
Sub-pixels sequence, at least one green sub-pixels sequence and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence along the target direction by
Item is alternatively arranged.
5. terminal screen according to claim 1, which is characterized in that in the n sub-pixel sequence, there are at least one
The central point for each sub-pixel for including in the sub-pixel sequence is located along the same line.
6. terminal screen according to claim 1, which is characterized in that in the n sub-pixel sequence, there are at least one
The central point for each sub-pixel for including in the sub-pixel sequence is not located along the same line.
7. terminal screen according to claim 6, which is characterized in that for the i-th strip in the n sub-pixel sequence
The central point of pixel sequence, the 2k sub-pixel for including in i-th article of sub-pixel sequence is located in first straight line, 2k-1
The central point of a sub-pixel is located in second straight line, and the first straight line is parallel with the second straight line;Wherein, the i is
Positive integer less than or equal to n, the k are positive integer.
8. terminal screen according to claim 7, which is characterized in that between the first straight line and the second straight line
Distance, equal to the distance between the central point of sub-pixel of two same colors in the main viewing area.
9. terminal screen according to claim 1, which is characterized in that the size of the sub-pixel in the auxiliary viewing area, greatly
The size of sub-pixel in the main viewing area.
10. terminal screen according to claim 9, which is characterized in that
The length of sub-pixel in the auxiliary viewing area is greater than the length of the sub-pixel in the main viewing area;
And/or
The width for the sub-pixel of sub-pixel in the auxiliary viewing area being wider than in the main viewing area.
11. terminal screen according to claim 1, which is characterized in that the sub-pixel of same color in the auxiliary viewing area
Share same cabling.
12. terminal screen according to claim 1, which is characterized in that the auxiliary viewing area includes at least two subregions,
The sub-pixel of same color shares same cabling in each subregion.
13. terminal screen according to claim 1, which is characterized in that the display layer further includes transition viewing area, described
Transition viewing area is between the main viewing area and the auxiliary viewing area;
The transition viewing area has different pixel distribution forms from the main viewing area and the auxiliary viewing area.
14. terminal screen according to claim 13, which is characterized in that the main viewing area, the auxiliary viewing area and institute
Stating transition viewing area, respectively independent control is shown.
15. terminal screen according to claim 1, which is characterized in that
The arrangement mode of sub-pixel in the main viewing area is any one or more following combination: Delta arrangement,
Pentile arrangement, standard RGB arrangement.
16. a kind of terminal screen, which is characterized in that the terminal screen includes: substrate and showing positioned at the substrate upper layer
Show layer;
The display layer includes main viewing area and auxiliary viewing area;
The size of sub-pixel in the auxiliary viewing area, greater than the size of the sub-pixel in the main viewing area.
17. terminal screen according to claim 16, which is characterized in that
The length of sub-pixel in the auxiliary viewing area is greater than the length of the sub-pixel in the main viewing area;
And/or
The width for the sub-pixel of sub-pixel in the auxiliary viewing area being wider than in the main viewing area.
18. terminal screen according to claim 16, which is characterized in that
The auxiliary viewing area includes n sub-pixel sequence, includes in each sub-pixel sequence in the n sub-pixel sequence
At least two sub-pixels, and the color for each sub-pixel for including in any one sub-pixel sequence is identical, the n
For positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area.
19. terminal screen according to claim 18, which is characterized in that the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
20. terminal screen according to claim 19, which is characterized in that the target direction is vertical or horizontal.
21. terminal screen according to claim 19, which is characterized in that the n sub-pixel sequence includes: at least one
Red sub-pixel sequence, at least one green sub-pixels sequence and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence along the target direction by
Item is alternatively arranged.
22. terminal screen according to claim 18, which is characterized in that in the n sub-pixel sequence, there is at least one
The central point for each sub-pixel for including in sub-pixel sequence described in item is located along the same line.
23. terminal screen according to claim 18, which is characterized in that in the n sub-pixel sequence, there is at least one
The central point for each sub-pixel for including in sub-pixel sequence described in item is not located along the same line.
24. terminal screen according to claim 23, which is characterized in that for i-th in the n sub-pixel sequence
The central point of sub-pixel sequence, the 2k sub-pixel for including in i-th article of sub-pixel sequence is located in first straight line, and
The central point of 2k-1 sub-pixel is located in second straight line, and the first straight line is parallel with the second straight line;Wherein, described
I is the positive integer less than or equal to n, and the k is positive integer.
25. terminal screen according to claim 24, which is characterized in that between the first straight line and the second straight line
Distance, equal to the distance between the central point of sub-pixel of two same colors in the main viewing area.
26. terminal screen according to claim 18, which is characterized in that the sub-pixel of same color in the auxiliary viewing area
Share same cabling.
27. terminal screen according to claim 18, which is characterized in that the auxiliary viewing area includes at least two sub-districts
Domain, the sub-pixel of same color shares same cabling in each subregion.
28. terminal screen according to claim 16, which is characterized in that the display layer further includes transition viewing area, institute
Transition viewing area is stated between the main viewing area and the auxiliary viewing area;
The transition viewing area has different pixel distribution forms from the main viewing area and the auxiliary viewing area.
29. terminal screen according to claim 28, which is characterized in that the main viewing area, the auxiliary viewing area and institute
Stating transition viewing area, respectively independent control is shown.
30. terminal screen according to claim 16, which is characterized in that
The arrangement mode of sub-pixel in the main viewing area is any one or more following combination: Delta arrangement,
Pentile arrangement, standard RGB arrangement.
31. a kind of screen construction, which is characterized in that the screen construction includes n sub-pixel sequence, and the n is positive integer;
It include at least two sub-pixels in each sub-pixel sequence in the n sub-pixel sequence, and described in any one
The color for each sub-pixel for including in sub-pixel sequence is identical;
There are the sub-pixels of at least two same colors to share same cabling in the screen construction.
32. screen construction according to claim 31, which is characterized in that the n is the integer greater than 1;
The n sub-pixel sequence arranges one by one along target direction.
33. screen construction according to claim 32, which is characterized in that the target direction is vertical or horizontal.
34. screen construction according to claim 32, which is characterized in that the n sub-pixel sequence includes: at least one
Red sub-pixel sequence, at least one green sub-pixels sequence and at least one blue subpixels sequence;
The red sub-pixel sequence, the green sub-pixels sequence and the blue subpixels sequence along the target direction by
Item is alternatively arranged.
35. screen construction according to claim 31, which is characterized in that in the n sub-pixel sequence, there is at least one
The central point for each sub-pixel for including in sub-pixel sequence described in item is located along the same line.
36. screen construction according to claim 31, which is characterized in that in the n sub-pixel sequence, there is at least one
The central point for each sub-pixel for including in sub-pixel sequence described in item is not located along the same line.
37. screen construction according to claim 36, which is characterized in that for i-th in the n sub-pixel sequence
The central point of sub-pixel sequence, the 2k sub-pixel for including in i-th article of sub-pixel sequence is located in first straight line, and
The central point of 2k-1 sub-pixel is located in second straight line, and the first straight line is parallel with the second straight line;Wherein, described
I is the positive integer less than or equal to n, and the k is positive integer.
38. screen construction according to claim 31, which is characterized in that the sub-pixel of same color in the screen construction
Share same cabling.
39. screen construction according to claim 31, which is characterized in that the screen construction includes at least two sub-districts
Domain, the sub-pixel of same color shares same cabling in each subregion.
40. a kind of terminal, which is characterized in that the terminal includes such as described in any item terminal screens of claim 1 to 15, or
Person includes such as the described in any item terminal screens of claim 16 to 30.
41. a kind of terminal, which is characterized in that the terminal includes terminal screen;
The terminal screen includes: substrate and the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The main viewing area and the auxiliary viewing area have different pixel distribution forms;
The auxiliary viewing area includes n sub-pixel sequence, includes in each sub-pixel sequence in the n sub-pixel sequence
At least two sub-pixels, and the color for each sub-pixel for including in any one sub-pixel sequence is identical, the n
For positive integer;
There are the sub-pixels of at least two same colors to share same cabling in the auxiliary viewing area;
Optical device is provided with below the auxiliary viewing area.
42. terminal according to claim 41, which is characterized in that the optical device comprises at least one of the following: camera shooting
Head, light sensor, close to inductor, optical launcher, optical receiver.
43. a kind of terminal, which is characterized in that the terminal includes terminal screen;
The terminal screen includes: substrate and the display layer positioned at the substrate upper layer;
The display layer includes main viewing area and auxiliary viewing area;
The size of sub-pixel in the auxiliary viewing area, greater than the size of the sub-pixel in the main viewing area;
Optical device is provided with below the auxiliary viewing area.
44. terminal according to claim 43, which is characterized in that the optical device comprises at least one of the following: camera shooting
Head, light sensor, close to inductor, optical launcher, optical receiver.
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CN112002749B (en) * | 2020-09-17 | 2022-09-23 | 云谷(固安)科技有限公司 | Display panel and display device |
CN112002749A (en) * | 2020-09-17 | 2020-11-27 | 云谷(固安)科技有限公司 | Display panel and display device |
EP4207160A4 (en) * | 2021-05-31 | 2024-01-10 | BOE Technology Group Co., Ltd. | Display substrate and display apparatus |
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