CN104460096B - A kind of display panel and display device - Google Patents
A kind of display panel and display device Download PDFInfo
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- CN104460096B CN104460096B CN201510018506.XA CN201510018506A CN104460096B CN 104460096 B CN104460096 B CN 104460096B CN 201510018506 A CN201510018506 A CN 201510018506A CN 104460096 B CN104460096 B CN 104460096B
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1347—Arrangement of liquid crystal layers or cells in which the final condition of one light beam is achieved by the addition of the effects of two or more layers or cells
Abstract
A kind of display panel of present invention offer and display device.The display panel includes at least two sub-panels, and display subelement is both provided on each sub-panel, and the mutual overlay of sub-panel makes display subelement be spliced to form pel array, and pel array is for showing entire image.The pel array that the display panel can be used in display entire image is split at least two sub-panels, to solve the problems, such as that caused pixel charge rate deficiency is arranged on single display panel in pel array, and then display panel is enable to realize that high-resolution is shown.
Description
Technical field
The present invention relates to display technology fields, and in particular, to a kind of display panel and display device.
Background technology
Liquid crystal display product (LCD:Liquid Crystal Display) because of spies such as its small size, low power consumption, no radiations
Point has become the main product in current panel display apparatus.
With the rapid development of LCD technology, high-resolution liquid crystal display product gradually becomes the following display
Main trend.With the raising of liquid crystal display product resolution ratio, more and more (such as Fig. 1 of the quantity of pixel 100 on display panel 4
It is shown) so that the quantity of signal wire (such as grid line and data line) sharply increases on display panel 4, the increasing of signal wire quantity
The following problem can be directly resulted in by, which adding, generates:1. the reduction of 100 charging time of single row of pixels, 100 undercharge of single row of pixels, letter
Between number line overlap capacitance increase and thus caused by signal delay increase etc., this makes 100 charge rate of pixel cannot be satisfied
High-resolution shows the design requirement of product.2. with stepping up for resolution ratio, the preparation work of existing liquid crystal display panel
Artistic skill power is restricted, i.e., cannot achieve the preparation of the liquid crystal display panel of higher resolution using existing preparation process.
Invention content
The present invention is directed to the above-mentioned technical problems in the prior art, provides a kind of display panel and display device.It should
The pel array that display panel can be used in display entire image is split at least two sub-panels, to solve pixel
The problem of caused pixel charge rate deficiency is arranged on single display panel in array, and then display panel is enable to realize height
Resolution ratio is shown.
The present invention provides a kind of display panel, including at least two sub-panels, is both provided on each sub-panel aobvious
Show that subelement, the mutual overlay of sub-panel make the display subelement be spliced to form pel array, the pel array is used for
Show entire image.
Preferably, the display subelement is sub-array of pixels, and the distribution density of pixel is less than in the sub-array of pixels
The distribution density of pixel in the pel array;
Alternatively, the display subelement is sub-pix subarray, the distribution density of sub-pix in the sub-pix subarray
Less than the distribution density of sub-pix in the pel array.
Preferably, the sub-panel is two, respectively the first sub-panel and the second sub-panel, first sub-panel and
The mutual overlay of second sub-panel;
It is provided with the first sub-array of pixels on first sub-panel, the second pixel is provided on second sub-panel
Array, first sub-array of pixels and second sub-array of pixels are spliced to form the pel array.
Preferably, first sub-array of pixels is the array that forms of odd-line pixels of the pel array, described the
Two sub-array of pixels are the array that the even rows of the pel array form.
Preferably, the adjacent odd-line pixels can drive simultaneously with the even rows and driving time is equal.
Preferably, first sub-array of pixels is the array that forms of odd column pixel of the pel array, described the
Two sub-array of pixels are the array that the even column pixels of the pel array form.
Preferably, the odd number of pixels and even number pixel energy for forming any row pixel in the pel array are driven simultaneously
Dynamic and driving time is equal.
Preferably, the sub-panel is three, and respectively the first sub-panel, the second sub-panel and third sub-panel are described
First sub-panel, second sub-panel and the mutual overlay of third sub-panel;
It is provided with the first sub-pix subarray on first sub-panel, the second sub- picture is provided on second sub-panel
Sub-array is provided with third sub-pix subarray, the first sub-pix subarray, described second on the third sub-panel
Sub-pix subarray and the third sub-pix subarray are spliced to form the pel array.
Preferably, the first sub-pix subarray, the second sub-pix subarray and the third sub-pix submatrix
Row are respectively 1/3 red sub-pixel, the battle array of 1/3 green sub-pixels and 1/3 blue subpixels composition in the pel array
Row;
1/ in the first sub-pix subarray, the second sub-pix subarray and the third sub-pix subarray
Position of 3 red sub-pixels in the pel array does not repeat mutually;The first sub-pix subarray, second sub-pix
Position of 1/3 green sub-pixels in the pel array in subarray and the third sub-pix subarray does not repeat mutually;
1/3 blue in the first sub-pix subarray, the second sub-pix subarray and the third sub-pix subarray is sub-
Position of the pixel in the pel array does not repeat mutually;
1/3 red sub-pixel, 1/3 green sub-pixels and 1/3 blue subpixels in the first sub-pix subarray is equal
It is even to be distributed on first sub-panel;1/3 red sub-pixel, 1/3 green sub-pixels in the second sub-pix subarray
It is uniformly distributed on second sub-panel with 1/3 blue subpixels;1/3 red sub-pixel in third sub-pix subarray,
1/3 green sub-pixels and 1/3 blue subpixels are uniformly distributed on the third sub-panel.
Preferably, the first sub-pix submatrix is classified as the array of the composition of the red sub-pixel in the pel array, institute
State the array for the green sub-pixels composition that the second sub-pix submatrix is classified as in the pel array, the third sub-pix subarray
For the array of the blue subpixels composition in the pel array.
Preferably, form the red sub-pixel of any row pixel in the pel array, the green sub-pixels and
The blue subpixels can drive simultaneously and driving time is equal.
The present invention also provides a kind of display devices, including above-mentioned display panel.
Beneficial effects of the present invention:Display panel provided by the present invention can be used by the way that at least two sub-panels are arranged
It is split at least two sub-panels in the pel array of display entire image, is arranged single to solve pel array
The problem of pixel charge rate deficiency caused by display panel, and then display panel is enable to realize that high-resolution is shown.
Display device provided by the present invention can realize that high-resolution is shown by using above-mentioned display panel.
Description of the drawings
Fig. 1 is the structure sectional view of display panel in the prior art;
Fig. 2 is the structure sectional view of display panel in the embodiment of the present invention 1;
Fig. 3 is the distribution schematic diagram of sub-array of pixels on the first sub-panel and the second sub-panel in Fig. 2;
Fig. 4 is the distribution schematic diagram of pel array on display panel in Fig. 2;
Fig. 5 is the first sub-panel in the embodiment of the present invention 3, sub-pix subarray on the second sub-panel and third sub-panel
Distribution schematic diagram;
Fig. 6 is the distribution schematic diagram of pel array on display panel in embodiment 3;
Fig. 7 is the first sub-panel in the embodiment of the present invention 4, sub-pix subarray on the second sub-panel and third sub-panel
Distribution schematic diagram;
Fig. 8 is the distribution schematic diagram of pel array on display panel in embodiment 4.
Reference sign therein:
1. the first sub-panel;11. the first sub-array of pixels;12. the first sub-pix subarray;2. the second sub-panel;21. the
Two sub-array of pixels;22. the second sub-pix subarray;3. third sub-panel;31. third sub-pix subarray;4. display panel;
41. pel array;100. pixel;101. red sub-pixel;102. green sub-pixels;103. blue subpixels.
Specific implementation mode
To make those skilled in the art more fully understand technical scheme of the present invention, below in conjunction with the accompanying drawings and it is embodied
Mode is described in further detail a kind of display panel provided by the present invention and display device.
Embodiment 1:
The present embodiment provides a kind of display panel, including at least two sub-panels, display is both provided on each sub-panel
Subelement, the mutual overlay of sub-panel make display subelement be spliced to form pel array, and pel array is for showing entire image.
The setting of at least two sub-panels, can be used in display entire image pel array be split be separately positioned on to
On few two sub-panels, to solve pel array be arranged on single display panel caused by pixel charge rate it is insufficient
Problem, and then display panel is enable to realize that high-resolution is shown.
In the present embodiment, display subelement is sub-array of pixels, and the distribution density of pixel is less than pixel in sub-array of pixels
The distribution density of pixel in array.
The setting of at least two sub-panels, the pixel that can be used in the pel array of display entire image are split and divide
It is not arranged at least two sub-panels, and the distribution density of pixel is respectively less than the pixel in pel array and exists on each sub-panel
Distribution density on entire display panel, this so that the quantity of pixel and distribution density are obviously reduced on each sub-panel, to
Solve the technical problem of the pixel charge rate deficiency pixel caused by the distribution density on single display panel is excessive,
And then display panel is enable to realize that high-resolution is shown.
In the present embodiment, as shown in Figure 2, Figure 3 and Figure 4, sub-panel is two, respectively the first sub-panel 1 and the second son
Panel 2,2 mutual overlay of the first sub-panel 1 and the second sub-panel.The first sub-array of pixels 11 is provided on first sub-panel 1, the
The second sub-array of pixels 21 is provided on two sub-panels 2, the first sub-array of pixels 11 and the second sub-array of pixels 21 are spliced to form
Pel array 41.
Wherein, the first sub-array of pixels 11 is the array of the composition of odd-line pixels 100 of pel array 41, the second pixel
Array 21 is the array that the even rows 100 of pel array 41 form.So set, the pixel in pel array 41 can be made
In 100 average fractionations to the first sub-panel 1 and the second sub-panel 2, and the pixel 100 in the first sub-array of pixels 11 is in the first son
Distribution density of the pixel 100 in distribution density and the second sub-array of pixels 21 on the second sub-panel 2 on panel 1 is picture
1/2 of distribution density of the pixel 100 on entire display panel 4 in pixel array 41, this makes the first sub-panel 1 and the second son
Pel array 41 is distributed in pixel when on single panel to the quantity and distribution density of pixel on panel 2 than in the prior art
Quantity and distribution density reduce half, to solve the data line overlap capacitance caused by 100 distribution density of pixel is big
Increase and thus caused by data-signal delay the problem of increasing, and then pixel is enable to charge abundance, is advantageously implemented aobvious
Show that the high-resolution of panel is shown.
In the present embodiment, adjacent odd-line pixels 100 can be driven simultaneously with even rows 100 and driving time phase
Deng.That is the first row pixel 100 on the first sub-panel 1 can drive simultaneously with the first row pixel 100 on the second sub-panel 2,
And so on, the line n pixel 100 on the first sub-panel 1 can be driven simultaneously with the line n pixel 100 on the second sub-panel 2
It is dynamic, in the case of the time of a frame scan and constant frequency, single row of pixels 100 on the first sub-panel 1 and the second sub-panel 2
Practical driving time increases is distributed in 100 driving time of single row of pixels when on single panel for pel array 41 in the prior art
Twice, to solve 100 distribution density of pixel it is big caused by 100 charging time of single row of pixels reduce, charge not
The problem of foot, and then pixel is enable to charge abundance, the high-resolution for being advantageously implemented display panel is shown.
Embodiment 2:
The present embodiment provides a kind of display panels, and as different from Example 1, the first sub-array of pixels is pel array
The array of odd column pixel composition, the second sub-array of pixels are the array that the even column pixels of pel array form.
So set, the pixel in pel array can equally averagely split to the first sub-panel and the second sub-panel,
And the pixel in distribution density and the second sub-array of pixels of first pixel in sub-array of pixels on the first sub-panel is
Distribution density on two sub-panels is 1/2 of distribution density of the pixel on entire display panel in pel array, this makes
The quantity and distribution density of the first sub-panel and the pixel on the second sub-panel pel array is distributed in than in the prior art
The quantity and distribution density of pixel on single panel reduce half, to solve caused by pixel distribution density is big
Between grid line overlap capacitance increase and thus caused by scanning signal delay the problem of increasing, and then so that pixel is charged and fill
Foot, the high-resolution for being advantageously implemented display panel are shown.
In the present embodiment, the odd number of pixels for organizing any row pixel in pixel arrays is driven simultaneously with even number pixel energy
Dynamic and driving time is equal.That is the first row pixel on the first sub-panel can be simultaneously with the first row pixel on the second sub-panel
Driving, and so on, the line n pixel on the first sub-panel can drive simultaneously with the line n pixel on the second sub-panel,
In the case that the time of one frame scan and frequency are constant, the odd number of pixels of any row pixel and even number pixel in pel array
Charging time it is equal, and the charging time be equal to the driving time of single row of pixels in pel array.It is distributed in the prior art
In the single row of pixels of pel array on single panel, since the distribution density of pixel is big, so the load of grid line is made to increase, grid
Scanning signal delay on line increases, and thus leads to the practical undercharge of each pixel, and the above-mentioned setting in the present embodiment
The overlap capacitance for reducing the overlap capacitance and switch element (such as thin film transistor (TFT)) of grid line, to reduce the load of grid line,
And then make each pixel in pel array in any row pixel that can charge abundance, therefore solve since pixel distribution is close
The problem of single row of pixels undercharge caused by degree is big, and then pixel is enable to charge abundance, be conducive to display panel realization
High-resolution is shown.
The other structures of display panel are in the same manner as in Example 1 in the present embodiment, and details are not described herein again.
Embodiment 3:
The present embodiment provides a kind of display panels, and unlike embodiment 1-2, in the present embodiment, display subelement is
Sub-pix subarray, the distribution density of sub-pix is less than the distribution density of sub-pix in pel array in sub-pix subarray.
So set, can be used in display entire image pel array in sub-pix be split and be separately positioned on to
On few two sub-panels, and the distribution density of sub-pix is respectively less than the sub-pix in pel array and is entirely showing on each sub-panel
Show the distribution density on panel, this makes the quantity and distribution density of sub-pix on each sub-panel be obviously reduced, to solve
The problem of pixel charge rate deficiency sub-pix caused by the distribution density on single display panel is excessive, and then make
Display panel can realize that high-resolution is shown.
As shown in Figure 5 and Figure 6, the sub-panel in the present embodiment is three, respectively the first sub-panel 1, the second sub-panel 2
With third sub-panel 3,3 mutual overlay of the first sub-panel 1, the second sub-panel 2 and third sub-panel.It is arranged on first sub-panel 1
There is the first sub-pix subarray 12, the second sub-pix subarray 22 is provided on the second sub-panel 2, is arranged on third sub-panel 3
There are third sub-pix subarray 31, the first sub-pix subarray 12, the second sub-pix subarray 22 and third sub-pix subarray
31 are spliced to form pel array 41.
In the present embodiment, the first sub-pix subarray 12, the second sub-pix subarray 22 and third sub-pix subarray 31
It is respectively 1/3 red sub-pixel 101,1/3 green sub-pixels 102 and 1/3 blue subpixels 103 composition in pel array 41
Array.1/3 in first sub-pix subarray 12, the second sub-pix subarray 22 and third sub-pix subarray 31 is red sub-
Position of the pixel 101 in pel array 41 does not repeat mutually;First sub-pix subarray 12, the second sub-pix subarray 22 and
Position of 1/3 green sub-pixels 102 in pel array 41 in Sanya sub-array of pixels 31 does not repeat mutually;First sub-pix
1/3 blue subpixels 103 in array 12, the second sub-pix subarray 22 and third sub-pix subarray 31 are in pel array 41
In position do not repeat mutually.1/3 red sub-pixel 101,1/3 green sub-pixels 102 and 1/3 in first sub-pix subarray 12
Blue subpixels 103 are uniformly distributed on the first sub-panel 1;1/3 red sub-pixel 101 in second sub-pix subarray 22,
1/3 green sub-pixels 102 and 1/3 blue subpixels 103 are uniformly distributed on the second sub-panel 2;Third sub-pix subarray 31
In 1/3 red sub-pixel 101,1/3 green sub-pixels 102 and 1/3 blue subpixels 103 be uniformly distributed in third sub-panel 3
On.
So set, the quantity and distribution density pixel battle array than in the prior art of the sub-pix on each sub-panel can be made
The quantity and distribution density that row 41 are distributed in sub-pix when on single panel reduce 2/3, to solve since sub-pix is distributed
The problem of grid line overlap capacitance caused by density is big increases and thus caused scanning signal delay increases.
In the present embodiment, the red sub-pixel 101 of any row pixel 100, green sub-pixels 102 in pixel arrays 41 are organized
It can be driven simultaneously with blue subpixels 103 and driving time is equal.That is the first row sub-pix, the second son on the first sub-panel 1
The first row sub-pix on the first row sub-pix and third sub-panel 3 on panel 2 can drive simultaneously, and so on, first
The line n sub-pix on the line n sub-pix and third sub-panel 3 on line n sub-pix, the second sub-panel 2 on sub-panel 1
It can drive simultaneously, it is each in any row pixel 100 in pel array 41 in the case of the time of a frame scan and constant frequency
The charging time of a sub-pix is equal, and the charging time is equal to the driving time of single row of pixels 100 in pel array 41.Due to
Above-mentioned setting in the present embodiment reduces the overlap capacitance of the overlap capacitance and switch element (such as thin film transistor (TFT)) of grid line, from
And the load of grid line is reduced, and then make each sub-pix in pel array 41 in any row pixel 100 that can charge and fill
Foot, therefore solve the problems, such as 100 undercharge of single row of pixels caused by sub-pix distribution density is big, and then make display
Panel 4 can realize that high-resolution is shown.
Embodiment 4:
The present embodiment provides a kind of display panels, as different from Example 3, as shown in Figure 7 and Figure 8, the first sub-pix
Subarray 12 is the array that the red sub-pixel 101 in pel array 41 forms, and the second sub-pix subarray 22 is pel array
The array that green sub-pixels 102 in 41 form, third sub-pix subarray 31 are the blue subpixels 103 in pel array 41
The array of composition.
In the present embodiment in the other structures of display panel 4 and pel array 41 driving time of any row pixel 100 with
Identical in embodiment 3, details are not described herein again.
The advantageous effect of embodiment 1-4:Display panel provided in embodiment 1-4, by the way that at least two sub- faces are arranged
Plate, the pixel that can be used in the pel array of display entire image are split and are separately positioned at least two sub-panels,
And the distribution density of pixel is respectively less than distribution density of the pixel in pel array on entire display panel on each sub-panel,
This so that the quantity of pixel and distribution density are obviously reduced on each sub-panel;Alternatively, being used in the pixel of display entire image
Sub-pix in array is split and is separately positioned at least two sub-panels, and each the distribution of sub-pix is close on sub-panel
Degree is respectively less than distribution density of the sub-pix on entire display panel in pel array, this makes sub-pix on each sub-panel
Quantity and distribution density be obviously reduced, to solve pel array be arranged on single display panel caused by pixel fill
The problem of electric rate deficiency, and then display panel is enable to realize that high-resolution is shown.
Embodiment 5:
The present embodiment provides a kind of display device, include display panels of the embodiment 1-4 in any one.
By using display panels of the embodiment 1-4 in any one, the display device is enable to realize that high-resolution is aobvious
Show.
Display device provided by the present invention can be liquid crystal display panel, LCD TV, display, oled panel, OLED electricity
Depending on, any product or component with display function such as mobile phone, navigator.
It is understood that the principle that embodiment of above is intended to be merely illustrative of the present and the exemplary implementation that uses
Mode, however the present invention is not limited thereto.For those skilled in the art, in the essence for not departing from the present invention
In the case of refreshing and essence, various changes and modifications can be made therein, these variations and modifications are also considered as protection scope of the present invention.
Claims (7)
1. a kind of display panel, which is characterized in that including two or three sub-panels, be both provided on each sub-panel aobvious
Show that subelement, the mutual overlay of sub-panel make the display subelement be spliced to form pel array, the pel array is used for
Show entire image,
When the display panel includes two sub-panels, the display subelement is sub-array of pixels, pixel
The distribution density of pixel is less than the distribution density of pixel in the pel array in array,
When the display panel includes three sub-panels, the display subelement is sub-pix subarray, the Asia picture
The distribution density of sub-pix is less than the distribution density of sub-pix in the pel array in sub-array, wherein each sub-panel
On line n pixel can drive simultaneously, alternatively, the line n sub-pix on each sub-panel can drive simultaneously, n is nature
Number.
2. display panel according to claim 1, which is characterized in that the sub-panel is two, the respectively first sub- face
Plate and the second sub-panel, first sub-panel and the mutual overlay of the second sub-panel;It is provided on first sub-panel
First sub-array of pixels, is provided with the second sub-array of pixels on second sub-panel, first sub-array of pixels and described
Second sub-array of pixels is spliced to form the pel array,
Wherein, the first sub-array of pixels is the array of the odd-line pixels composition of the pel array, and the second sub-array of pixels is
The array of the even rows composition of the pel array, the adjacent odd-line pixels can be simultaneously with the even rows
It drives and driving time is equal;
Alternatively,
First sub-array of pixels is the array that the odd column pixel of the pel array forms, second sub-array of pixels
For the array that the even column pixels of the pel array form, the odd number picture of any row pixel in the pel array is formed
Element is driven simultaneously with even number pixel energy and driving time is equal.
3. display panel according to claim 1, which is characterized in that the sub-panel is three, the respectively first sub- face
Plate, the second sub-panel and third sub-panel, first sub-panel, second sub-panel and the third sub-panel mutually cover
It is folded;
It is provided with the first sub-pix subarray on first sub-panel, the second sub-pix is provided on second sub-panel
Array is provided with third sub-pix subarray, the first sub-pix subarray, the second sub- picture on the third sub-panel
Sub-array and the third sub-pix subarray are spliced to form the pel array.
4. display panel according to claim 3, which is characterized in that the first sub-pix subarray, second Asia
Sub-array of pixels and the third sub-pix subarray are respectively 1/3 red sub-pixel, 1/3 green in the pel array
The array of sub-pix and 1/3 blue subpixels composition;
1/3 in the first sub-pix subarray, the second sub-pix subarray and the third sub-pix subarray is red
Position of the color sub-pix in the pel array does not repeat mutually;The first sub-pix subarray, second sub-pix
Position of 1/3 green sub-pixels in the pel array in array and the third sub-pix subarray does not repeat mutually;Institute
State the sub- picture of 1/3 blue in the first sub-pix subarray, the second sub-pix subarray and the third sub-pix subarray
Position of the element in the pel array does not repeat mutually;
1/3 red sub-pixel, 1/3 green sub-pixels and 1/3 blue subpixels in the first sub-pix subarray are uniformly divided
It is distributed on first sub-panel;1/3 red sub-pixel, 1/3 green sub-pixels and 1/3 in the second sub-pix subarray
Blue subpixels are uniformly distributed on second sub-panel;It is 1/3 red sub-pixel in third sub-pix subarray, 1/3 green
Color sub-pix and 1/3 blue subpixels are uniformly distributed on the third sub-panel.
5. display panel according to claim 3, which is characterized in that the first sub-pix submatrix is classified as the pixel battle array
The array of red sub-pixel composition in row, the second sub-pix submatrix are classified as the green sub-pixels group in the pel array
At array, the third sub-pix submatrix be classified as the blue subpixels in the pel array composition array.
6. display panel according to claim 4 or 5, which is characterized in that form any row pixel in the pel array
The red sub-pixel, the green sub-pixels and the blue subpixels can drive simultaneously and driving time is equal.
7. a kind of display device, which is characterized in that including the display panel described in claim 1-6 any one.
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CN106501980B (en) * | 2016-11-24 | 2020-07-21 | 京东方科技集团股份有限公司 | Display panel and manufacturing method thereof, display device and driving method thereof |
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