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WO2024050940A1 - 显示面板和显示装置 - Google Patents

显示面板和显示装置 Download PDF

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Publication number
WO2024050940A1
WO2024050940A1 PCT/CN2022/127920 CN2022127920W WO2024050940A1 WO 2024050940 A1 WO2024050940 A1 WO 2024050940A1 CN 2022127920 W CN2022127920 W CN 2022127920W WO 2024050940 A1 WO2024050940 A1 WO 2024050940A1
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WO
WIPO (PCT)
Prior art keywords
sub
display area
driving unit
pixel
inclined portion
Prior art date
Application number
PCT/CN2022/127920
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English (en)
French (fr)
Inventor
马扬昭
代好
Original Assignee
武汉天马微电子有限公司
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Publication date
Application filed by 武汉天马微电子有限公司 filed Critical 武汉天马微电子有限公司
Publication of WO2024050940A1 publication Critical patent/WO2024050940A1/zh

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    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/10OLED displays
    • H10K59/12Active-matrix OLED [AMOLED] displays
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/10OLED displays
    • H10K59/12Active-matrix OLED [AMOLED] displays
    • H10K59/131Interconnections, e.g. wiring lines or terminals
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/60OLEDs integrated with inorganic light-sensitive elements, e.g. with inorganic solar cells or inorganic photodiodes
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/60OLEDs integrated with inorganic light-sensitive elements, e.g. with inorganic solar cells or inorganic photodiodes
    • H10K59/65OLEDs integrated with inorganic image sensors
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/80Constructional details
    • H10K59/88Dummy elements, i.e. elements having non-functional features

Definitions

  • the present invention relates to the field of display technology, and more specifically, to a display panel and a display device.
  • full-screen displays are the main trend in the development of mobile phone terminals.
  • arranging photosensitive elements such as cameras under the display screen is an important technology to achieve a full screen.
  • the display screen can not only display, but also ensure the normal effect of the photosensitive elements.
  • the photosensitive element is disposed under the screen, the display uniformity of the display screen will be poor.
  • the present invention provides a display panel and a display device to improve the display effect of a display panel including an under-screen photosensitive element.
  • this application provides a display panel, including a display area
  • the display area includes a first display area and at least one second display area arranged along a first direction, and the first display area includes a first sub-display area and at least one second sub-display area arranged along a second direction,
  • the second sub-display area is used to set photosensitive devices;
  • the display area includes a plurality of sub-pixels distributed in an array.
  • the sub-pixels include first sub-pixels, second sub-pixels and third sub-pixels.
  • the first sub-pixels are all located in the first sub-display area.
  • the second sub-pixels are all located in the second sub-display area, and the third sub-pixels are all located in the second display area;
  • the display area also includes a driving unit.
  • the driving unit includes a first driving unit, a second driving unit and a third driving unit.
  • the third driving unit is located in the second display area and is connected with the third sub-unit.
  • the pixels are electrically connected in one-to-one correspondence to drive each of the third sub-pixels to emit light;
  • the first driving unit and the second driving unit are both located in the first sub-display area, and the first driving unit is electrically connected to the first sub-pixels in a one-to-one correspondence to drive each of the first sub-pixels.
  • the pixel emits light
  • the second driving unit is electrically connected to the second sub-pixel in a one-to-one correspondence to drive each of the second sub-pixels to emit light;
  • the front projection of each driving unit on the light-emitting surface of the display panel is S1; in the second display area, the front projection of each driving unit on the light-emitting surface of the display panel is S1.
  • the projected area is S2; 1/2 ⁇ S1:S2 ⁇ 1;
  • first direction and the second direction intersect.
  • the present application provides a display device, which includes the display panel.
  • the display panel and display device provided by the present invention at least achieve the following beneficial effects:
  • the present application provides a display panel and a display device, by arranging the second driving unit required for electrical connection of the corresponding second sub-pixel in the second sub-display area of the photosensitive device outside the second sub-display area, Avoid the second driving unit from occupying the second sub-display area, and the orthographic projection of each driving unit in the first display area where the second sub-display area is located on the light-emitting surface of the display panel is less than or equal to that without the second sub-display area.
  • each drive unit in the second display area on the light-emitting surface of the display panel; thus, without changing the light-emitting position and number of sub-pixels in the display panel, a second drive unit is added outside the second sub-display area, using The second driving unit implements a one-driving design for each sub-pixel in the second sub-display area to ensure display stability and uniformity of the display panel.
  • Figure 1 shows a schematic diagram of a display panel provided by an embodiment of the present application
  • Figure 2 shows another schematic diagram of a display panel provided by an embodiment of the present application
  • Figure 3 shows another schematic diagram of a display panel provided by an embodiment of the present application
  • Figure 4 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 5 shows a partial enlarged view of area A in Figure 4 provided by the embodiment of the present application
  • Figure 6 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 7 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 8 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 9 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 10 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 11 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 12 shows a BB' cross-sectional view of Figure 10 provided by the embodiment of the present application.
  • Figure 13 shows a partial cross-sectional view of the display panel provided by the embodiment of the present application.
  • Figure 14 shows a schematic diagram of a display device provided by an embodiment of the present application.
  • any specific values are to be construed as illustrative only and not as limiting. Accordingly, other examples of the exemplary embodiments may have different values.
  • full-screen display is the main trend in the development of mobile phone terminals.
  • arranging photosensitive elements such as cameras under the display screen is an important technology to achieve a full screen.
  • the display screen can not only display, but also ensure the normal effect of the photosensitive elements.
  • the photosensitive element is disposed under the screen, the display uniformity of the display screen will be poor.
  • the present invention provides a display panel and a display device to improve the display effect of a display panel including an under-screen photosensitive element.
  • Figure 1 shows a schematic diagram of a display panel provided by an embodiment of the present application. Please refer to Figure 1.
  • the present application provides a display panel 100, including a display area 10;
  • the display area 10 includes a first display area X1 and at least one second display area X2 arranged along the first direction.
  • the first display area X1 includes a first sub-display area X11 and at least one second sub-display area arranged along the second direction.
  • X12, the second sub-display area X12 is used to set the photosensitive device;
  • the display area 10 includes a plurality of sub-pixels 20 distributed in an array.
  • the sub-pixels 20 include a first sub-pixel 21, a second sub-pixel 22 and a third sub-pixel 23.
  • the first sub-pixel 21 is located in the first sub-display area X11
  • the second sub-pixel 20 is located in the first sub-display area X11.
  • the sub-pixels 22 are all located in the second sub-display area X12
  • the third sub-pixels 23 are all located in the second display area X2;
  • the display area 10 also includes a driving unit 30.
  • the driving unit 30 includes a first driving unit 31, a second driving unit 32 and a third driving unit 33.
  • the third driving unit 33 is located in the second display area X2 and is connected to the third sub-pixel 23. One-to-one electrical connection to drive each third sub-pixel 23 to emit light;
  • the first driving unit 31 and the second driving unit 32 are both located in the first sub-display area X11.
  • the first driving unit 31 is electrically connected to the first sub-pixels 21 in a one-to-one correspondence to drive each first sub-pixel 21 to emit light.
  • the unit 32 is electrically connected to the second sub-pixels 22 in a one-to-one correspondence to drive each second sub-pixel 22 to emit light;
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1; in the second display area X2, the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2; 1 /2 ⁇ S1:S2 ⁇ 1;
  • first direction and the second direction intersect.
  • this application provides a display panel 100 that includes a display area 10.
  • This application provides an optional embodiment that along a first direction, the display area 10 includes adjacently arranged first Display area X1 and second display area X2.
  • the first display area X1 includes a first sub-display area X11, a second sub-display area X12 and a first sub-display area
  • the display area X12 is used to set photosensitive devices.
  • the photosensitive devices here may be, for example, cameras and other photosensitive devices. This application does not specifically limit the specific types of photosensitive devices.
  • the display area 10 includes a plurality of sub-pixels 20 distributed in an array. According to the different positions of the sub-pixels 20 in the display area 10, this application divides the sub-pixels 20 included in the display area 10 into three categories, namely the first sub-pixels 20. Pixel 21, second sub-pixel 22 and third sub-pixel 23, wherein the sub-pixels 20 located in the first sub-display area X11 are all first sub-pixels 21, and the sub-pixels 20 located in the second sub-display area X12 are all is the second sub-pixel 22, and the sub-pixels 20 located in the second display area X2 are all third sub-pixels 23.
  • the first sub-pixel 21 provided in this application can have corresponding red sub-pixels, blue sub-pixels, green sub-pixels, etc. according to the display requirements
  • the second sub-pixel 22 can have corresponding red sub-pixels according to the display requirements.
  • the third sub-pixel 23 can have corresponding red sub-pixel, blue sub-pixel, green sub-pixel, etc. according to the display requirements.
  • This application is for the colors included in the various sub-pixels 20
  • the type and type are not specifically limited, and the user can make corresponding adjustments according to the design requirements of the display panel 100 .
  • the different fill patterns shown in Figure 1 can be used to represent the sub-pixel color respectively.
  • a larger square filled with diagonal lines represents a blue sub-pixel
  • a smaller square filled with a square grid represents a blue sub-pixel. Red, the rectangle with the smallest size and filled with a grid represents green; this is just an optional embodiment provided by this application.
  • This application does not specifically limit the size and arrangement rules of various sub-pixels in the display panel. Users Adjustments can be made according to actual needs.
  • the first sub-pixel 21 , the second sub-pixel 22 and the third sub-pixel 23 included in the display panel 100 may appear as several uniformly and regularly arranged sub-pixels in the entire display area 10 .
  • the pixels 20 avoid the problem of different arrangement densities of the sub-pixels 20, thereby ensuring that the display panel 100 can present a uniform display effect. That is to say, the arrangement structure of the sub-pixels 20 is not adjusted according to the position of the driving unit corresponding to each sub-pixel in the first display area X1.
  • each first driving unit 31 included in the driving unit 30 is connected to the display area 10
  • Each first sub-pixel 21 is electrically connected in a one-to-one correspondence, and the first driving unit 31 is used to drive the electrically connected first sub-pixel 21, thereby controlling the first sub-pixel 21 to be in a light-emitting state or an extinguished state;
  • Each second driving unit 32 included in 30 is electrically connected to each second sub-pixel 22 in the display area 10 in a one-to-one correspondence, and the driving of the electrically connected second sub-pixel 22 is achieved through the second driving unit 32.
  • each third driving unit 33 included in the driving unit 30 is electrically connected to each third sub-pixel 23 in the display area 10 in a one-to-one correspondence.
  • the unit 33 implements driving of the third sub-pixel 23 electrically connected thereto, thereby controlling the third sub-pixel 23 to be in a light-emitting state or an extinguishing state.
  • the third driving unit 33 is arranged in the second display area X2, and the first driving unit 31 and the second driving unit 32 are arranged in the first sub-display area
  • the driving unit 30 is provided in the second sub-display area X12 of the photosensitive device, and the second driving units 32 required to be electrically connected to each second sub-pixel 22 in the second sub-display area X12 are arranged outside the second sub-display area X12 , does not need to occupy the space of the second sub-display area
  • the present application disposes both the second driving unit 32 and the first driving unit 31 in the first sub-display area X11, compared with the existing design, the first sub-display area only has the corresponding first driving unit. In this case, it is necessary to compress at least part of the space occupied by the first driving unit 31; therefore, this application provides an optional setting method: in the first display area X1, each driving unit 30 is on the light-emitting surface of the display panel 100 The orthographic projection is S1. In the second display area X2, the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2. It is set that 1/2 ⁇ S1:S2 ⁇ 1; that is, the first display area X1 is set.
  • each driving unit 30 in the second display area X2 is smaller than the size of each driving unit 30 in the second display area X2, or other methods can be used to set the size of each driving unit 30 in the first display area
  • the size of each drive unit 30 in X2 (shown in subsequent embodiments).
  • this application provides an optional setting method in which the size of each driving unit 30 in the first display area X1 is smaller than that in the second display area X2
  • setting the size of each driving unit 30 set 1/2 ⁇ S1:S2 to avoid excessive inclination of the wiring that needs to pass through the first display area X1 and the second display area X2 during extended installation, and ensure that the display panel 100 Simplicity of routing setup.
  • the display panel 100 provided above in this application can add a second driving unit 32 outside the second sub-display area X12 without changing the light-emitting position and number of the sub-pixels 20 in the display panel 100.
  • the driving unit 32 implements a one-driving design for each sub-pixel 20 in the second sub-display area X12, thereby ensuring the display stability and uniformity of the display panel 100.
  • this application does not specifically limit the number of the first display areas X1 and the number of the second display areas X2 included in the display area 10.
  • Both sides of the first display area X1 include second display areas X2, or multiple first display areas X1 and second display areas
  • the number of display areas X11 and the number of second sub-display areas X12 is not specifically limited.
  • the second direction it may also include only one first sub-display area X11 and one second sub-display area X11 that are adjacently arranged.
  • the display area X12 may also be a plurality of first sub-display areas X11 and second sub-display areas X12 arranged alternately.
  • Figure 2 shows another schematic diagram of the display panel provided by the embodiment of the present application. Please refer to Figures 1 and 2. It should be noted that in order to clearly illustrate the relevant arrangement of the driving unit in the display panel of the present application, Figure 2 Subpixels are not shown in .
  • the first display area X1 includes a plurality of first driving unit columns 311 extending along the first direction and arranged along the second direction;
  • the second display area X2 includes a plurality of second driving unit columns 331 extending along the first direction and arranged along the second direction;
  • this application provides an optional arrangement method in which the first display area Directional arrangement; the second display area In the first display area , this application provides an optional setting method of S1:S2 ⁇ 1.
  • the first driving unit column 311 and the second driving unit column 331 corresponding to the same 20 sub-pixel columns are not Exactly corresponding dimensions will include at least part of the overlapping area; in this way, if there is an overlapping area between the adjacent first driving unit row 311 and the second driving unit row 331 along the first direction, When it is necessary to provide some traces extending along the first direction to realize the electrical connection of each driving unit 30 in the adjacent first driving unit column 311 and the second driving unit column 331, the traces can be almost linear.
  • the design avoids the situation where the wiring needs to be greatly offset, which is conducive to simplifying the manufacturing process of the related structure and ensuring the simplicity of the wiring settings in the display panel 100 . And with this arrangement, there is no need to adjust the installation area and size of each driving unit 30 in the second display area X2, and the existing process can be reused to realize the production of the second display area X2; only the first display area The second display area X2 needs to adjust the setting size of each driving unit 30.
  • 1/2 ⁇ S1:S2 ⁇ 1 and 1/2 ⁇ S1:S2 ⁇ 1 are only optional embodiments provided by this application, and can be regarded as a relatively large ratio of S1:S2 provided by this application.
  • the value range of The first driving unit column 311 and the second driving unit column 331 arranged in the sub-pixel column corresponding to the sub-pixel 20 have overlapping portions to minimize electrical connections between the driving units in the first driving unit column 311 and the second driving unit column 331.
  • the 30% trace includes the number of inclined parts, simplifying the manufacturing process of related structures.
  • Figure 3 shows another schematic diagram of the display panel provided by the embodiment of the present application.
  • Figure 4 shows another schematic diagram of the display panel provided by the embodiment of the present application. Please refer to Figures 2-4.
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23 and the first sub-pixel 21.
  • the two data lines 52 electrically connect the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the length of the first inclined portion 511 along its extending direction is L1
  • the length of the second inclined portion 521 along its extending direction is L2; L1 ⁇ L2.
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • Both data lines 52 include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1.
  • the extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction; when both sides of the second sub-display area X12 in the first display area the first inclined portion 511 and the tenth first inclined portion 511), and there are at least two second inclined portions 521 with different extending directions (for example, the second inclined portion 521 and the second inclined portion 521 from left to right in Figure 3
  • the third second inclined portion 521) can better coordinate the electrical connection between the first data line 51 and the second data line 52 and the corresponding driving unit 30, and ensure the simplicity of wiring in the display area 10.
  • the present application provides an optional arrangement method in which the length of the first inclined part 511 is shorter than the length of the second inclined part 521 to avoid excessive inclination of the first inclined part 511 and to ensure as much of the second inclined part as possible.
  • a data line 51 is almost straight in the first direction, which simplifies the manufacturing process of related structures.
  • Figure 5 shows a partially enlarged view of area A in Figure 4 provided by an embodiment of the present application. Please continue to refer to Figures 2-5.
  • the display area 10 includes a plurality of first strips extending along the first direction.
  • Data line 51 and a plurality of second data lines 52 the first data line 51 is electrically connected to the third sub-pixel 23 and the first sub-pixel 21, and the second data line 52 is electrically connected to the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the inclination angle of the first inclined part 511 relative to the first direction is ⁇ 1
  • the inclination angle of the second inclined part 521 relative to the first direction is ⁇ 2; ⁇ 1 ⁇ 2.
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • there is a part of the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • Both data lines 52 include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1.
  • the extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction; when both sides of the second sub-display area X12 in the first display area X1 include the first sub-display area X11, there are at least two first inclined portions 511 extending in different directions, and there are at least two second inclined portions 521
  • the extension directions are different to better coordinate the electrical connection between the first data line 51 and the second data line 52 and the corresponding driving unit 30 and ensure the simplicity of wiring in the display area 10 .
  • the present application provides an optional arrangement in which the inclination angle of the first inclined part 511 with respect to the first direction is smaller than the inclination angle of the second inclined part 521 with respect to the first direction, so as to avoid the inclination angle of the first inclined part 511 with respect to the first direction.
  • the degree of inclination is too large, so that a greater number of first data lines 51 appear in a nearly straight line in the first direction, simplifying the manufacturing process of related structures.
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel. 23 and the first sub-pixel 21, the second data line 52 electrically connects the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the inclination direction of the first inclined portion 511 includes the direction along the second sub-display area X12 pointing to the first sub-display area X11, and, the first inclined portion 511
  • the tilt direction of 511 also includes a direction along the first sub-display area X11 toward the second sub-display area X12.
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • Both data lines 52 include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1. The extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction.
  • the present application provides an optional embodiment, as shown in Figures 3 and 4, the inclination direction of the first inclined portion 511 is from the second sub-display area X12 to the first sub-display area on one side. In the direction of As shown in FIG. 4 , the rightmost first inclined portion 511 is inclined toward the second sub-display area X12 along the first sub-display area X11 .
  • the second data line 52 is electrically connected to the sub-pixel column corresponding to the second sub-pixel 22 located in the second sub-display area X12, and the sub-pixel column corresponding to the third sub-pixel 23 located in the second display area X2.
  • the pixel columns correspond to each other, and at the same time, a larger number of first data lines 51 electrically connected to the first sub-pixels 21 and the third sub-pixels 23 can be presented in a straight line or a nearly straight line state, thereby simplifying the manufacturing process of the related structures of the display panel 100 .
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23 and the first sub-pixel 21, the second data line 52 electrically connects the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • At least one first data line 51 is included as a straight line.
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • Both data lines 52 include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1. The extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction.
  • the present application provides an optional embodiment, as shown in FIG. 4 , including several first data lines 51 appearing as straight lines extending in the first direction, which can realize the first data lines 51 for
  • the electrical connection of the first driving unit 31 and the third driving unit 33 corresponding to the first sub-pixel 21 and the third sub-pixel 23 included in a column of sub-pixels 20 arranged along the first direction is beneficial to facilitate the first corresponding to the column.
  • the standardized production of the driving unit 31, the third driving unit 33, and the first data line 51 is conducive to simplifying the manufacturing process of the related structures of the display panel 100 and ensuring the simplicity of the wiring arrangement in the display panel 100.
  • the display area 10 includes a first area Y1, a second area Y2, and a third area Y3 arranged sequentially along the second direction.
  • the second area Y2 is located between the first area Y1 and the third area Y3.
  • the first area Y1 includes at least one first data line 51 as a straight line
  • the third area Y3 includes at least one first data line 51 as a straight line.
  • this application provides an optional embodiment in which the display area 10 includes a first area Y1, a second area Y2, and a third area Y3 sequentially arranged along the second direction, wherein the display area appears along the first direction.
  • the extended linear first data line 51 is specifically located in the first area Y1, or the third area Y3, or both the first area Y1 and the third area Y3 (as shown in FIG. 4), that is, The first data line 51 in the form of a straight line is disposed on one side of the display area 10 close to the edge of the display area 10 along the second direction.
  • Arranging at least a few first data lines 51 to appear as straight lines extending along the first direction can realize that the first data lines 51 can control the first sub-pixels 21 and the third sub-pixels 21 included in a column of sub-pixels 20 arranged along the first direction.
  • the electrical connection of the first driving unit 31 and the third driving unit 33 corresponding to the pixel 23 is conducive to the regular production of the first driving unit 31, the third driving unit 33 and the first data line 51 corresponding to the column, and is conducive to
  • the manufacturing process of related structures of the display panel 100 is simplified to ensure the simplicity of wiring settings in the display panel 100 .
  • the other data lines arranged towards the center of the display area 10 will not have an excessive offset, that is, the other data lines will not have excessive offsets.
  • the existing inclined portion will not be inclined too obviously, thereby making the overall manufacturing process of the display panel 100 simpler.
  • Figure 6 shows another schematic diagram of a display panel provided by an embodiment of the present application. Please refer to Figure 6 . It should be noted that in order to clearly illustrate the relevant arrangement of the drive unit in the display panel of the present application, it is not shown in Figure 6 out sub-pixels.
  • the second display area X2 includes dummy driving units 34, and the dummy driving units 34 form a dummy driving unit column 341 along the first direction.
  • the number is the same as the number of second sub-first driving unit columns 321 formed by the second driving unit 32 .
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the second display area The front projection area of the light-emitting surface of the panel 100 is S2.
  • a dummy driver can be added in the second display area X2 unit 34, the dummy drive unit 34 forms a dummy drive unit column 341 along the first direction, and the number of columns of the dummy drive unit column 341 is the same as the number of columns of the second sub-first drive unit column 321, that is, The number of columns of the second sub-first driving unit rows 321 added in the first display area X1 is the same as the number of columns of the dummy driving unit rows 341 added in the second display area X2, thereby maintaining the first display area of the display panel 100 X1, a driving unit column formed by driving units 30 having the same number of columns in the second display area X2.
  • the corresponding drive units 30 and data lines in each drive unit column can be made in a regular manner.
  • the data lines can be extended in a straight line, which is conducive to simplifying the related structure of the display panel 100. process to ensure the simplicity of the wiring settings in the display panel 100.
  • the size of the drive unit 30 and data lines produced in a standardized manner can also ensure that the entire display area 10 has the same reflectivity, improving the display uniformity of the display panel 100 .
  • Figure 7 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 8 shows another schematic diagram of a display panel provided by an embodiment of the present application. Please refer to Figures 7 and 8.
  • the sub-pixels are not shown in Figures 7 and 8 .
  • the second display area X2 includes dummy driving units 34, and the dummy driving units 34 form a dummy driving unit column 341 along the first direction.
  • the number is the same as the number of second sub-first driving unit columns 321 formed by the second driving unit 32, and the dummy driving unit column 341 and the corresponding second sub-first driving unit column 321 are arranged in the same column along the first direction. .
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the second display area The front projection area of the light-emitting surface of the panel 100 is S2.
  • a dummy driver can be added in the second display area X2 unit 34, the dummy drive unit 34 forms a dummy drive unit column 341 along the first direction, and the number of columns of the dummy drive unit column 341 is the same as the number of columns of the second sub-first drive unit column 321, that is, The number of columns of the second sub-first driving unit rows 321 added in the first display area X1 is the same as the number of columns of the dummy driving unit rows 341 added in the second display area X2, thereby maintaining the first display area of the display panel 100 X1, a driving unit column formed by driving units 30 having the same number of columns in the second display area X2.
  • the dummy driving unit column 341 and the corresponding second sub-first driving unit column 321 can be further arranged to appear in the same column along the first direction.
  • the third driving unit column 341 set in the first display area X1 can also be set.
  • the three driving units 33 are all arranged adjacent to the second sub-display area X12 and are symmetrically arranged on both sides of the second sub-display area When the direction extends, they all appear as straight lines, and only the second data line 52 needs to have a partial inclined portion (the second inclined portion 521). With this arrangement, more driving units 30 and almost all the first data lines 51 can be processed in the same process. Completing the production can make the overall production process of the display panel 100 simpler.
  • the corresponding driving units 30 and data lines in more driving unit columns in the display panel 100 can be made in a standardized manner, which is conducive to simplifying the manufacturing process of related structures.
  • the simplicity of the wiring arrangement in the display panel 100 is ensured.
  • the size of the drive unit 30 and data lines produced in a standardized manner can also ensure that the entire display area 10 has the same reflectivity, improving the display uniformity of the display panel 100 .
  • the second display area X2 includes dummy driving units 34, and the dummy driving units 34 form a dummy driving unit column 341 along the first direction.
  • the number of the driving unit rows 341 is set to be the same as the number of the second sub-first driving unit rows 321 formed by the second driving unit 32;
  • the dummy drive unit column 341 is multiplexed as a repair circuit.
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the orthographic projection of each driving unit 30 on the light-emitting surface of the display panel 100 is S1
  • the second display area The front projection area of the light-emitting surface of the panel 100 is S2.
  • a dummy driver can be added in the second display area X2 unit 34, the dummy drive unit 34 forms a dummy drive unit column 341 along the first direction, and the number of columns of the dummy drive unit column 341 is the same as the number of columns of the second sub-first drive unit column 321, that is,
  • the number of columns of the second sub-first driving unit rows 321 added in the first display area X1 is the same as the number of columns of the dummy driving unit rows 341 added in the second display area X2, thereby maintaining the first display area of the display panel 100 X1, a driving unit column formed by driving units 30 having the same number of columns in the second display area X2.
  • the dummy driving unit column 341 and the corresponding second sub-first driving unit column 321 may be further configured to be arranged in the same column along the first direction.
  • this application provides an optional setting method that multiplexes the dummy drive unit row 341 as a repair circuit; in the prior art, the repair circuit is set in the non-display area of the display panel, that is, In the peripheral frame of the display area, this application multiplexes the dummy drive unit columns 341 as repair circuits to avoid excessive occupation of the space of the display panel 100 by setting both the dummy drive units 34 and the repair circuits in the display panel 100.
  • the manufacturing process of the display panel 100 is simplified and can meet current users' design requirements for the narrow bezel of the display panel 100 .
  • the corresponding drive units 30 and data lines in each drive unit column can be produced in a regular manner, and the added dummy drive unit column 341 can be reused, which is conducive to simplifying the manufacturing process of related structures. , ensuring the simplicity of structural settings such as wiring in the display panel 100 .
  • the size of the driving unit 30 and data lines produced in a standardized manner can also ensure that the entire display area 10 has the same reflectivity, improving the display uniformity of the display panel 100 .
  • the first display area X1 includes a plurality of first driving unit columns 311 extending along the first direction and arranged along the second direction;
  • the first driving unit column 311 includes a first sub-first driving unit column 3111 and a second sub-first driving unit column 321.
  • the first sub-first driving unit column 3111 includes the first driving unit 31, and the second sub-first driving unit Column 321 includes second drive units 32;
  • At least one second sub-first driving unit column 321 is included between at least one group of two adjacent first sub-first driving unit columns 3111 .
  • the present application also provides a drive unit row including the first drive unit 31 and the drive unit row of the second drive unit 32.
  • An optional arrangement method is such that a plurality of drive unit rows in the first display area X1 are arranged extending along the first direction.
  • the first driving unit row 311 includes a first sub-first driving unit row 3111 formed by a plurality of first driving units 31, and a second sub-first driving unit row 321 formed by a plurality of second driving units 32.
  • Each second sub-first driving unit column 321 is disposed between two adjacent first sub-first driving unit columns 3111; it should be noted that this application is for the second sub-first driving unit column included in the first display area X1.
  • the number of sub-first driving unit columns 321 is not specifically limited and can be set according to the number of columns of second sub-pixels 22 included in the second sub-display area X12; in this application, the second sub-pixel 22 in the first display area
  • the specific location of the sub-first driving unit row 321 is not specifically limited, and the user can make corresponding adjustments according to the actual design requirements of the display panel 100 .
  • the first display area X1 includes a plurality of first driving unit columns 311 extending along the first direction and arranged along the second direction;
  • the first driving unit column 311 includes a first sub-first driving unit column 3111 and a second sub-first driving unit column 321.
  • the first sub-first driving unit column 3111 includes the first driving unit 31, and the second sub-first driving unit Column 321 includes second drive units 32;
  • At least one second sub-first driving unit column 321 is located between the first sub-first driving unit column 3111 and the second sub-display area X12.
  • the present application also provides a drive unit row including the first drive unit 31 and the drive unit row of the second drive unit 32.
  • An optional arrangement method is such that a plurality of drive unit rows in the first display area X1 are arranged extending along the first direction.
  • the first driving unit row 311 includes a first sub-first driving unit row 3111 formed by a plurality of first driving units 31, and a second sub-first driving unit row 321 formed by a plurality of second driving units 32. At least one second sub-first driving unit column 321 is disposed between two adjacent first sub-first driving unit columns 3111. At least one second sub-first driving unit column 321 can also be placed next to the second sub-first driving unit column 3111.
  • the display area X12 is configured such that at least one second sub-first driving unit column 321 is located between a first sub-first driving unit column 3111 and the second sub-display area In the second direction, it can be placed closer to the second sub-display area
  • the second inclined portion 521 included in the second data line 52 corresponding to the sub-first driving unit column 321 has an inclination angle compared to the first direction. This is conducive to simplifying the manufacturing process of the related structure and ensuring the wiring in the display panel 100 Simplicity of component settings.
  • this application does not specifically limit the number of other second sub-first driving unit columns 321 included in the first display area X1.
  • the number of columns of sub-pixels 22 is set; this application does not specifically limit the specific setting positions of other second sub-first driving unit columns 321 in the first display area X1, and the user can make corresponding settings according to the actual design requirements of the display panel 100. adjust.
  • Figure 9 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 10 shows another schematic diagram of a display panel provided by an embodiment of the present application.
  • Figure 11 shows a display panel provided by an embodiment of the present application.
  • it also includes a third display area X3.
  • the third display area X3 is located between the first display area X1 and the second display area X2;
  • the third display area X3 includes at least one row of fourth sub-pixels 24 arranged along the second direction; the fourth sub-pixels 24 are electrically connected to the third driving unit 33 in a one-to-one correspondence, and the third driving unit 33 is also used to drive the electrically connected Each fourth sub-pixel 24 emits light;
  • the third sub-pixel 23 and the fourth sub-pixel 24 are arranged in an array in the second display area X2 and the third display area X3.
  • this application also provides an optional embodiment in which the display panel 100, on the basis of including the first display area X1 and the second display area X2, further includes a display located in the first display area X1 and the second display area X2.
  • the third display area X3 between The number of formed driving unit rows is one more than the number of sub-pixel rows formed by the sub-pixels 20 in the second display area X2. Therefore, one row of driving unit rows can be left in the second display area X2 for use with the third display area X3.
  • the fourth sub-pixel 24 is electrically connected, that is, the fourth sub-pixel 24 can be set to be electrically connected to the third driving unit 33 located in the second display area X2 in a one-to-one correspondence, and the third driving unit 33 is also used to drive the electrical connection.
  • Each fourth sub-pixel 24 emits light; that is, when the third display area X3 includes a row of fourth sub-pixels 24, it is enough to add a row of third driving units 33 to the second display area X2; at this time, add The driving unit 30 may not be required in the third display area X3, and the additional third display area
  • the included second inclined portion 521 avoids the coupling influence of the first inclined portion 511 and the second inclined portion 521 that need to be inclined on other structural components in the area, ensuring a good display effect of the display panel 100 .
  • each sub-pixel 20 has a corresponding electrically connected driving unit 30, so that This is beneficial to ensuring uniform display of the display panel 100 .
  • Figure 12 shows a BB' cross-sectional view of Figure 10 provided by an embodiment of the present application. Please refer to Figures 9-12.
  • the display panel 100 includes a plurality of strips extending along the first direction and extending along the second direction. Arranged data lines 50;
  • the display panel 100 includes a first metal layer 61 and a second metal layer 62;
  • At least part of the data line 50 is located on the first metal layer 61 in the first display area X1 and the second display area X2, and is located on the second metal layer 62 in the third display area X3.
  • this application also provides an optional embodiment in which the display panel 100, on the basis of including the first display area X1 and the second display area X2, further includes a display located in the first display area X1 and the second display area X2.
  • the third display area When extending along the first direction, the data lines 50 located in the first display area X1 and the second display area X2 are provided on the first metal layer 61, and the data lines 50 located in the third display area X3 are provided on the second metal layer 62, that is, some of the data lines 50 are arranged to be routed across layers in the third display area X3 to realize that some of the data lines 50 have an overlapping area at a certain position in the third display area 50 Various wiring methods required in the third display area X3.
  • the first metal layer 61 can be specifically the M3 wiring layer in the display panel 100.
  • the data line 50 is provided through the M3 wiring layer, which can reduce the cost of the data line 50 to a certain extent compared to other metal layers. load;
  • the second metal layer 62 can be specifically any one of the M1 wiring layer, MC wiring layer, and M2 wiring layer in the display panel 100, that is, the first data line 5051 and the second data line 5052 are in
  • the wiring settings in the first display area X1 and the second display area X2 can be carried out through the M3 wiring layer.
  • the data lines 50 that need cross-layer wiring can be optionally jumpered to the M1 wiring layer.
  • the M1 wiring layer, MC wiring layer, M2 wiring layer, and M3 wiring layer are arranged from bottom to top in the thickness direction of the display panel 100, which is equivalent to the first wiring layer to the fourth wiring layer. .
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23 , the first sub-pixel 21 and the fourth sub-pixel 24, the second data line 52 is electrically connected to the third sub-pixel 23, the second sub-pixel 22 and the fourth sub-pixel 24;
  • the display panel 100 includes a first metal layer 61 and a second metal layer 62;
  • the second data line 52 is located on the first metal layer 61 in the first display area X1 and the second display area X2, and is located on the second metal layer 62 in the third display area X3.
  • this application also provides an optional embodiment in which the display panel 100, on the basis of including the first display area X1 and the second display area X2, further includes a display located in the first display area X1 and the second display area X2. between the third display area They are all located on the first metal layer 61 , the portion of the second data line 52 located in the first display area X1 and the second display area X2 is located on the first metal layer 61 , and the portion located in the third display area X3 is located on the second The metal layer 62, that is, the second data line 52 is arranged to be routed across layers in the third display area X3, so that part of the first data line 51 and the second data line 52 exist at a certain position in the third display area X3.
  • the overlapping area can also ensure the various routing methods required for the first data line 51 and the second data line 52 in the third display area X3, ensuring the normal function of each data line.
  • a third display area X3 is also included, and the third display area X3 is located between the first display area X1 and the second display area X2;
  • the third display area X3 includes at least one row of fourth sub-pixels 24 arranged along the second direction.
  • the third display area X3 also includes a fourth driving unit 35.
  • the fourth driving unit 35 is arranged in one-to-one correspondence with the fourth sub-pixels 24;
  • the display panel 100 further includes a plurality of data lines 50 extending along the first direction and arranged along the second direction;
  • the fourth driving unit 35 and the data line 50 are arranged in different layers.
  • this application also provides an optional embodiment in which the display panel 100, on the basis of including the first display area X1 and the second display area X2, further includes a display located in the first display area X1 and the second display area X2.
  • the third display area X3 may be configured to include at least one row of fourth sub-pixels 24 arranged along the second direction, and at least one row of fourth driving units 35 arranged along the second direction.
  • the number of the four driving units 35 is the same as the number of the fourth sub-pixels 24 , and the fourth driving units 35 are used to drive the corresponding electrically connected fourth sub-pixels 24 one by one.
  • the driving unit 30 is provided in the third display area X3.
  • the fourth driving unit 35 in the third display area Four drive units 35 and data lines 50 are set simultaneously. Such an arrangement can ensure that the entire display area 10 has almost the same reflectivity, thereby improving the display uniformity of the display panel 100 .
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23 and the first data line 52 .
  • the second data line 52 electrically connects the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the display panel 100 includes a first metal layer 61 and a second metal layer 62;
  • the second inclined portion 521 is located on the second metal layer 62 on the side close to the first display area X1 in the second display area X2; the first data line 51 is located on the first metal layer 61 and is located in the first display area X1, and The second data line 52 located on the side away from the first display area X1 in the second display area X2 is located on the first metal layer 61 .
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • the second data line 52 both include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1, and the extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction.
  • the display panel 100 includes at least two metal layers (not shown), such as a first metal layer 61 and a second metal layer 62 stacked along the thickness direction of the display panel 100. Some data lines may be arranged along the first direction. When extending, the first inclined portion 511 and the second inclined portion 521 included in the first data line 51 and the second data line 52 can be arranged to be located in the second display area X2 and close to the second display area X2. On one side of the display area Other parts of the lines 52 are located on the first metal layer 61, so that parts of the first data lines 51 and the second data lines 52 are located in the second display area X2 and are located in the second display area X2 close to the first display area X1.
  • first data line 51 and the second data line 52 are in the second display area X2 and are located in the second display area X2 close to the first display area X1
  • a variety of wiring methods are required on one side to ensure the normal function of each data line.
  • the first metal layer 61 can be specifically the M3 wiring layer in the display panel 100. Data lines are arranged through the M3 wiring layer, which can reduce the load of the data lines to a certain extent compared to other metal layers. ;
  • the second metal layer 62 can be specifically any one of the M1 wiring layer, MC wiring layer, and M2 wiring layer in the display panel 100, that is, the first data line 51 and the second data line 52 except the second Except for the inclined part 521, wiring settings can be performed through the M3 wiring layer.
  • the second inclined part 521 can be jumpered to any of the M1 wiring layer, MC wiring layer, and M2 wiring layer for wiring settings. That’s it.
  • the M1 wiring layer, MC wiring layer, M2 wiring layer, and M3 wiring layer are arranged from bottom to top in the thickness direction of the display panel 100, which is equivalent to the first wiring layer to the fourth wiring layer. .
  • Figure 13 shows a partial cross-sectional view of the display panel provided by the embodiment of the present application.
  • the first driving unit 31 includes a first driving transistor 319
  • the first driving transistor 319 includes a first driving transistor 319.
  • a channel region, the width-to-length ratio of the first channel region is R1
  • the second driving unit 32 includes a second driving transistor 329
  • the second driving transistor 329 includes a second channel region
  • the width-to-length ratio of the second channel region is R2
  • the third driving unit 33 includes a third driving transistor 339
  • the third driving transistor 339 includes a third channel region, the width-to-length ratio of the third channel region is R3; R3>R1, and R3>R2.
  • the offset of the light-emitting elements is small, and the anode RE connection line is short; the offset of the other driving units 30 and the corresponding light-emitting elements in the first display area X1 is larger than that of the adjacent second sub-display area X12 in the first display area X1 .
  • driving units 30 are offset from corresponding light-emitting elements; in order to achieve high light transmittance of the second sub-display area X12, they can be set to the second sub-display area X12 and the second sub-display area adjacent to the first display area X1
  • the area of the light-emitting element of The width-to-length ratio of the third channel region of the third driving transistor 339 is greater than the width-to-length ratio of the first channel region of the first driving transistor 319 located in the first display area X1, and is greater than that located in the first display area X1
  • the width-to-length ratio of the second channel region of the second driving transistor 329 in the second drive transistor 329 ensures
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23. and the first sub-pixel 21, the second data line 52 electrically connects the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the display panel 100 includes a substrate.
  • Each sub-pixel 20 includes an anode metal layer RE located on one side of the substrate.
  • the orthographic projection of the second inclined portion 521 on the plane of the substrate is the same as the orthogonal projection of the anode metal layer RE on the plane of the substrate. Projections do not overlap.
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • the second data line 52 both include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1, and the extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction.
  • the display panel 100 provided by this application includes a substrate, and the light-emitting elements provided on it all include an anode metal layer RE.
  • this application provides an optional arrangement method. Because the data lines are routed in a zigzag manner, the overlapping area between the data lines and the anode metal layer RE is avoided, thereby avoiding the impact of the data lines on the flatness of the anode, ensuring the overall reflectivity of the display panel 100, and preventing obvious reflections on the display panel 100. Color shift problem ensures the display uniformity of the display panel 100.
  • the path of the second inclined portion 521 can be provided as much as possible.
  • the anode of the sub-pixel 20 that it passes through is bisected so that the anode of the sub-pixel 20 has symmetrical reflectivity except for the portion overlapping the second inclined portion 521, which can reduce the second inclined portion 521 to a certain extent.
  • the stacking area is symmetrically arranged with the center line of the display panel 100 as the symmetry axis, so that the arrangement of the data lines has a symmetrical distribution on the reflectivity of the display panel 100 along the second direction, so that the display panel 100 has a symmetrical distribution along the second direction.
  • the display effect is symmetrical to the center line of the display panel 100. Compared with the random distribution of the overlapping areas of the data lines and the anodes of the sub-pixels 20, it can avoid obvious color shift problems in the display panel 100, thus improving the display effect of the display panel 100.
  • the data line can also be set to have an overlapping area with the entire anode of the corresponding sub-pixel 20 to avoid convex areas or depressions in the anode. area, this can also reduce the impact on the reflectivity of the entire display panel 100 to a certain extent, avoid obvious color shift problems in the display panel 100, and ensure the overall display effect of the display panel 100.
  • the present application provides an optional setting method as follows: Add a metal piece to the M3 wiring layer above the M2 wiring layer, use the metal piece to cover the M2 wiring layer and poly layer related to the N1 node, and then set the metal piece and the corresponding PVDD in the sub-pixel 20
  • the signal lines are electrically connected to avoid the influence of the second inclined portion 521 on the N1 node potential, ensure the working performance of the display panel 100, and ensure the display effect of the display panel 100.
  • the second inclined part 521 may also be provided to avoid the area of the M2 wiring layer and the poly layer corresponding to the N1 node. That is, the second inclined portion 521 does not have an overlapping area in the area of the M2 wiring layer and the poly layer corresponding to the N1 node in the display panel 100, thereby avoiding the influence of the second inclined portion 521 on the potential of the N1 node and ensuring that the display panel 100 The working performance ensures the display effect of the display panel 100.
  • the display area 10 includes a plurality of first data lines 51 and a plurality of second data lines 52 extending along the first direction.
  • the first data lines 51 are electrically connected to the third sub-pixel 23 and the third sub-pixel 23 .
  • a sub-pixel 21, the second data line 52 electrically connects the third sub-pixel 23 and the second sub-pixel 22;
  • the first data line 51 includes a first inclined portion 511, and the extending direction of the first inclined portion 511 intersects with the first direction;
  • the second data line 52 includes a second inclined portion 521, and the second inclined portion 521 includes a second inclined portion 521.
  • the extending direction of the inclined portion 521 intersects with the first direction;
  • the display panel 100 includes a substrate, and the orthographic projection of each second inclined portion 521 on the surface of the substrate overlaps with the orthographic projection of at least one third sub-pixel 23 on the surface of the substrate; in the same display panel 100, each The third sub-pixels 23 corresponding to the overlapping second inclined portion 521 are all first-color sub-pixels 20 .
  • this application also provides an optional arrangement method in which the display area 10 includes a plurality of first data lines 51 and second data lines 52 extending in the first direction, and each first data line 51 realizes The electrical connection between the third sub-pixels 23 and the first sub-pixels 21 in each column extending along the first direction is realized through each second data line 52.
  • the orthographic projection of 30 on the light-emitting surface of the display panel 100 is S1.
  • the orthographic projection area of each driving unit 30 on the light-emitting surface of the display panel 100 is S2.
  • This application provides an optional setting method of S1. :S2 ⁇ 1.
  • the first data line 51 including a first inclined portion 511 located on the side of the second display area X2 close to the first display area X1.
  • the second data line 52 both include a second inclined portion 521 located on the side of the second display area X2 close to the first display area X1, and the extending directions of the first inclined portion 511 and the second inclined portion 521 intersect with the first direction.
  • the display panel 100 provided by this application includes a substrate, and the second inclined portions 521 corresponding to all the second data lines 52 included in each display panel 100 can be configured to have overlapping areas with the third sub-pixels 23 of the same color; If the arrangement of the second inclined portion 521 has a negative impact on the display effect of the third sub-pixels 23 of the same color with overlapping areas, the user can only correct the problem of poor display in the display panel 100 .
  • the sub-pixels 20 of the same color are compensated to improve the display uniformity of the display panel 100. There is no need to separately compensate and improve the sub-pixels 20 of different colors, thereby reducing the complexity of the manufacturing process and control of the display panel 100 and making it simpler.
  • the adjustment method can make the display panel 100 have a good display effect.
  • Figure 14 shows a schematic diagram of a display device provided by an embodiment of the present application. Please refer to Figure 14 in conjunction with Figures 1-13. Based on the same inventive concept, the present application also provides a display device 200.
  • the display device 200 includes The display panel 100 is any display panel 100 provided by this application.
  • the display device 200 provided in this application can be: a mobile phone, a tablet computer, a television, a monitor, a notebook computer, a navigator, or any other product and component with a display function.
  • the present application provides a display panel and a display device, by arranging the second driving unit required for electrical connection of the corresponding second sub-pixel in the second sub-display area of the photosensitive device outside the second sub-display area, Avoid the second driving unit from occupying the second sub-display area, and the orthographic projection of each driving unit in the first display area where the second sub-display area is located on the light-emitting surface of the display panel is less than or equal to that without the second sub-display area.
  • each drive unit in the second display area on the light-emitting surface of the display panel; thus, without changing the light-emitting position and number of sub-pixels in the display panel, a second drive unit is added outside the second sub-display area, using The second driving unit implements a one-driving design for each sub-pixel in the second sub-display area to ensure display stability and uniformity of the display panel.

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Abstract

本申请提供一种显示面板和显示装置,涉及显示技术领域;显示面板包括显示区;显示区包括沿第一方向的第一显示区和第二显示区,第一显示区包括沿第二方向的第一子显示区和第二子显示区,第二子显示区用于设置感光器件;第一子像素位于第一子显示区,第二子像素位于第二子显示区,第三子像素位于第二显示区;第三驱动单元位于第二显示区,与第三子像素一一对应电连接;第一驱动单元和第二驱动单元位于第一子显示区,第一驱动单元与第一子像素一一对应电连接,第二驱动单元与第二子像素一一对应电连接;第一显示区,一驱动单元在显示面板出光面的正投影为S1;第二显示区,一驱动单元在显示面板出光面的正投影面积为S2;1/2<S1:S2≤1。

Description

显示面板和显示装置
本申请要求于2022年09月05日提交中国专利局、申请号为202211094965.2、申请名称为“显示面板和显示装置”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本发明涉及显示技术领域,更具体地,涉及一种显示面板和显示装置。
背景技术
随着用户对电子设备的屏占比的要求越来越高,全面屏是手机终端发展的主要趋势。其中,将摄像头等感光元件设置于显示屏的屏下是实现全面屏的重要技术,通过该技术,显示屏不仅能够进行显示,同时还能保证感光元件的效果正常。但是,在感光元件设置于屏下时,会导致显示屏的显示均匀性不佳。
发明内容
有鉴于此,本发明提供了一种显示面板和显示装置,用以提升包括屏下感光元件的显示面板的显示效果。
第一方面,本申请提供一种显示面板,包括显示区;
所述显示区包括沿第一方向设置的第一显示区和至少一个第二显示区,所述第一显示区包括沿第二方向设置的第一子显示区和至少一个第二子显示区,所述第二子显示区用于设置感光器件;
所述显示区包括阵列分布的多个子像素,所述子像素包括第一子像素、第二子像素和第三子像素,所述第一子像素均位于所述第一子显示区,所述第二子像素均位于所述第二子显示区,所述第三子像素均位于所述第二显示区;
所述显示区还包括驱动单元,所述驱动单元包括第一驱动单元、第二驱动单元和第三驱动单元,所述第三驱动单元位于所述第二显示区,且与所述第三子像素一一对应电连接,以驱动各所述第三子像素发光;
所述第一驱动单元和所述第二驱动单元均位于所述第一子显示区,所述第一驱动单元与所述第一子像素一一对应电连接,以驱动各所述第一子像素发光,所述第二驱动单元与所述第二子像素一一对应电连接,以驱动各所述第二子像素发光;
所述第一显示区中,每一所述驱动单元在所述显示面板出光面的正投影为S1;所述第二显示区中,每一所述驱动单元在所述显示面板出光面的正投影面积为S2;1/2<S1:S2≤1;
其中,所述第一方向和所述第二方向相交。
第二方面,本申请提供一种显示装置,所述显示装置包括所述的显示面板。
与现有技术相比,本发明提供的一种显示面板和显示装置,至少实现了如下的有益效果:
本申请提供一种显示面板和显示装置,通过将用于设置感光器件的第二子显示区中对应的第二子像素所需电连接的第二驱动单元设置在第二子显示区之外,避免第二驱动单元对于第二子显示区的占用,且设置第二子显示区所在的第一显示区中各驱动单元在显示面板出光面的正投影小于或等于未设置第二子显示区的第二显示区中各驱动单元在显示面板出光面的正投影;从而达到在不改变显示面板中子像素发光位置和个数的基础上,在第二子显示区外增设第二驱动单元,使用第二驱动单元实现对于第二子显示区中各子像素的一驱一设计,保障显示面板的显示稳定性、均一性。
当然,实施本发明的任一产品必不特定需要同时达到以上所述的所有技术效果。
通过以下参照附图对本发明的示例性实施例的详细描述,本发明的其它特征及其优点将会变得清楚。
附图说明
被结合在说明书中并构成说明书的一部分的附图示出了本发明的实施例,并且连同其说明一起用于解释本发明的原理。
图1所示为本申请实施例提供的显示面板的一种示意图;
图2所示为本申请实施例提供的显示面板的另一种示意图;
图3所示为本申请实施例提供的显示面板的另一种示意图;
图4所示为本申请实施例提供的显示面板的另一种示意图;
图5所示为本申请实施例提供的图4中A区域的一种局部放大图;
图6所示为本申请实施例提供的显示面板的另一种示意图;
图7所示为本申请实施例提供的显示面板的另一种示意图;
图8所示为本申请实施例提供的显示面板的另一种示意图;
图9所示为本申请实施例提供的显示面板的另一种示意图;
图10所示为本申请实施例提供的显示面板的另一种示意图;
图11所示为本申请实施例提供的显示面板的另一种示意图;
图12所示为本申请实施例提供的图10的一种BB’截面图;
图13所示本申请实施例提供的显示面板的一种局部截面图;
图14所示为本申请实施例提供的显示装置的一种示意图。
具体实施方式
现在将参照附图来详细描述本发明的各种示例性实施例。应注意到:除非另外具体说明,否则在这些实施例中阐述的部件和步骤的相对布置、数字表达式和数值不限制本发明的范围。
以下对至少一个示例性实施例的描述实际上仅仅是说明性的,决不作为对本发明及其应用或使用的任何限制。
对于相关领域普通技术人员已知的技术、方法和设备可能不作详细讨论,但在适当情况下,所述技术、方法和设备应当被视为说明书的一部分。
在这里示出和讨论的所有例子中,任何具体值应被解释为仅仅是示例性的,而不是作为限制。因此,示例性实施例的其它例子可以具有不同的值。
应注意到:相似的标号和字母在下面的附图中表示类似项,因此,一旦某一项在一个附图中被定义,则在随后的附图中不需要对其进行进一步讨论。
现有技术中,随着用户对电子设备的屏占比的要求越来越高,全面屏是手机终端发展的主要趋势。其中,将摄像头等感光元件设置于显示屏的屏下是实现全面屏的重要技术,通过该技术,显示屏不仅能够进行显示,同时还能保证感光元件的效果正常。但是,在感光元件设置于屏下时,会导致显示屏的显示均匀性不佳。
有鉴于此,本发明提供了一种显示面板和显示装置,用以提升包括屏下感光元件的显示面板的显示效果。
图1所示为本申请实施例提供的显示面板的一种示意图,请参照图1,本申请提供了一种显示面板100,包括显示区10;
显示区10包括沿第一方向设置的第一显示区X1和至少一个第二显示区X2,第一显示区X1包括沿第二方向设置的第一子显示区X11和至少一个第二子显示区X12,第二子显示区X12用于设置感光器件;
显示区10包括阵列分布的多个子像素20,子像素20包括第一子像素21、第二子像素22和第三子像素23,第一子像素21均位于第一子显示区X11,第二子像素22均位于第二子显示区X12,第三子像素23均位于第二显示区X2;
显示区10还包括驱动单元30,驱动单元30包括第一驱动单元31、第二驱动单元32和第三驱动单元33,第三驱动单元33位于第二显示区X2,且与第三子像素23一一对应电连接,以驱动各第三子像素23发光;
第一驱动单元31和第二驱动单元32均位于第一子显示区X11,第一驱动单元31与第一子像素21一一对应电连接,以驱动各第一子像素21发光,第二驱动单元32与第二子像素22一一对应电连接,以驱动各第二子像素22发光;
第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1;第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2;1/2<S1:S2≤1;
其中,第一方向和第二方向相交。
具体地,本申请提供了一种显示面板100,该显示面板100包括显示区10,本申请提供一种可选择的实施例为,沿第一方向上,显示区10包括相邻设置的第一显示区X1和第二显示区X2,第一显示区X1包括沿第二方向上依次设置的第一子显示区X11、第二子显示区X12和第一子显示区X11,其中,第二子显示区X12是用于设置感光器件的,这里的感光器件例如可以为摄像头等感光器件,本申请对于感光器件的具体类型并不做具体限定。
显示区10中包括有阵列分布的多个子像素20,按照子像素20在显示区10中位置的不同,本申请将显示区10中所包括的子像素20分为三类,分别为第一子像素21、第二子像素22和第三子像素23,其中,位于第一子显示区X11中的子像素20均为第一子像素21,位于第二子显示区X12中的子像素20均为第二子像素22,位于第二显示区X2中的子像素20均为第三子像素23。需要说明的是本申请所提供的第一子像素 21可根据显示需求具有相应的红色子像素、蓝色子像素、绿色子像素等,第二子像素22可根据显示需求具有相应的红色子像素、蓝色子像素、绿色子像素等,第三子像素23可根据显示需求具有相应的红色子像素、蓝色子像素、绿色子像素等,本申请对于各类子像素20所包括的颜色的种类和类型并不做具体限定,用户根据显示面板100的设计需求进行相应的调整即可。图1中示出的不同填充图案即可分别用于代表子像素的延颜色,例如尺寸大一点的、填充为斜线的方块代表蓝色子像素,尺寸小一点、填充为方形格子的方块代表红色,尺寸最小、填充为网格的矩形代表绿色;这只是本申请提供的一种可选择的实施例,本申请对于显示面板中各色子像素的尺寸、排布规律并不做具体限定,用户可根据实际需求进行相应的调整。
需要说明的是,显示面板100所包括的第一子像素21、第二子像素22和第三子像素23在整个显示区10中呈现出来的可为均匀化地、有规律排布的若干子像素20,避免出现子像素20排布密度不同的问题,从而保障显示面板100能够呈现均匀化的显示效果。也即,子像素20的排布结构并不随第一显示区X1中各子像素对应的设置驱动单元的位置进行调整。
对于显示区10中所设置的用于驱动子像素20的驱动单元30,本申请提供了一种可选择的设置方式为,驱动单元30中所包括的每一第一驱动单元31与显示区10中的各第一子像素21一一对应电连接,通过第一驱动单元31实现对于其电连接的第一子像素21的驱动,从而控制第一子像素21处于发光状态或熄灭状态;驱动单元30中所包括的每一第二驱动单元32与显示区10中的各第二子像素22一一对应电连接,通过第二驱动单元32实现对于其电连接的第二子像素22的驱动,从而控制第二子像素22处于发光状态或熄灭状态;驱动单元30中所包括的每一第三驱动单元33与显示区10中的各第三子像素23一一对应电连接,通过第三驱动单元33实现对于其电连接的第三子像素23的驱动,从而控制第三子像素23处于发光状态或熄灭状态。其中,本申请将第三驱动单元33均设置在第二显示区X2中,将第一驱动单元31和第二驱动单元32均设置在第一子显示区X11中,也即,不在用于设置感光器件的第二子显示区X12中设置驱动单元30,第二子显示区X12中各第二子像素22所需电连接的第二驱动单元32均被设置到第二子显示区X12之外,不需要占用第二子显示区X12的空间,能够避免由于空间不足设置多个第二子像素22只能够设置有对应的一个驱动单元30的情况,也能够避免驱动单元30的设置对于感光器件所占设置面积的影响,且还能够实现第二子像素22的一驱一设计,提高第二子显示区X12的解析度,使得第二子显示区X12和其余显示区10具有相同的解析度,有利于使得显示区10中各个区域的显示效果更加均匀,优化了显示面板100的显示效果。
此外,本申请将第二驱动单元32和第一驱动单元31均设置在第一子显示区X11中时,相较于现有设计中第一子显示区仅会对应设置有第一驱动单元的情况来说,需要压缩至少部分第一驱动单元31所占用的空间;因此,本申请提供一种可选择的设置方式为,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,设置1/2<S1:S2≤1;也即设置第一显示区X1中每一驱动单元30的尺寸小于第二显示区X2中每一驱动单元30的尺寸,或是也可利用其他的方式设置第一显示区X1中每一 驱动单元30的尺寸等于第二显示区X2中每一驱动单元30的尺寸(后续实施例示出)。为了避免驱动单元30的设置难度增加、避免相关走线设置的复杂,本申请提供一种可选择的设置方式为,第一显示区X1中每一驱动单元30的尺寸小于第二显示区X2中每一驱动单元30的尺寸时,设定1/2<S1:S2,避免延伸设置时需经过第一显示区X1和第二显示区X2的走线出现倾斜过多的情况,保障显示面板100中走线设置的简洁性。
此外,本申请上述提供的显示面板100,能够达到在不改变显示面板100中子像素20发光位置和个数的基础上,在第二子显示区X12外增设第二驱动单元32,使用第二驱动单元32实现对于第二子显示区X12中各子像素20的一驱一设计,从而保障显示面板100的显示稳定性、均一性。
还需要补充的是,本申请对于显示区10中所包括的第一显示区X1的个数、第二显示区X2的个数并不做具体限定,例如,沿第一方向上,可具体为第一显示区X1两侧均包括第二显示区X2,或是多个第一显示区X1、第二显示区X2交替设置;此外,本申请对于第一显示区X1中所包括的第一子显示区X11的个数和第二子显示区X12的个数也不做具体限定,例如沿第二方向上,也可为仅包括相邻设置的一个第一子显示区X11和一个第二子显示区X12,或也可为多个第一子显示区X11、第二子显示区X12交替设置。
图2所示为本申请实施例提供的显示面板的另一种示意图,请参照图1和图2,需要说明的是,为了清晰示出本申请显示面板中驱动单元的相关设置方式,图2中未示出子像素。可选地,第一显示区X1中,包括沿第一方向延伸、且沿第二方向排布的多个第一驱动单元列311;
第二显示区X2中,包括沿第一方向延伸、且沿第二方向排布的多个第二驱动单元列331;
当S1:S2<1时,沿第一方向上,同一子像素20列对应设置的第一驱动单元列311和第二驱动单元列331至少部分交叠。
具体地,本申请提供一种可选择的设置方式为,第一显示区X1中包括多个第一驱动单元列311,多个第一驱动单元列311均沿第一方向延伸、且沿第二方向排布;第二显示区X2中包括多个第二驱动单元列331,多个第二驱动单元列331均沿第一方向延伸、且沿第二方向排布;本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,沿第一方向上,同一子像素20列对应设置的第一驱动单元列311和第二驱动单元列331并不是正好相对应的尺寸,而是会包括至少部分交叠面积;如此设置,沿第一方向上,相邻设置的第一驱动单元列311和第二驱动单元列331之间存在交叠面积的话,当需要设置一些沿第一方向延伸的走线来实现相邻设置的第一驱动单元列311和第二驱动单元列331中各驱动单元30的电连接时,该走线能够呈现为近乎直线型的设计,避免走线需要大幅偏移的情况出现,有利于简化相关结构的制程,保障显示面板100中走线设置的简洁性。且如此设置,对于第二显示区X2中各驱动单元30的设置面积、尺寸并不需要调整,能够复用现有的制程实现第二显示区X2的 制作;只有第一显示区X1相对于第二显示区X2需要调整各驱动单元30的设置大小。
还需要补充的是,1/2<S1:S2≤1、1/2<S1:S2<1仅是本申请提供的可选择的实施例,且可以算是本申请提供的S1:S2的比较大的取值范围;此外,例如也可设置2/3<S1:S2<4/5、3/4<S1:S2<9/10等等,以尽可能使得沿第一方向上延伸设置的同一子像素20对应的子像素列设置的第一驱动单元列311和第二驱动单元列331存在交叠部分,以尽量减少电连接第一驱动单元列311和第二驱动单元列331中各驱动单元30的走线包括倾斜部分的数量,简化相关结构的制程。
图3所示为本申请实施例提供的显示面板的另一种示意图,图4所示为本申请实施例提供的显示面板的另一种示意图,请参照图2-图4,需要说明的是,为了清晰示出本申请显示面板中驱动单元的相关设置方式,图4中未示出子像素。可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
第一倾斜部511沿其延伸方向的长度为L1,第二倾斜部521沿其延伸方向的长度为L2;L1<L2。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3、图4所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交;当第一显示区X1中的第二子显示区X12两侧均包括第一子显示区X11时,存在至少两个第一倾斜部511的延伸方向不同(例如图3中由左至右的第9根第一倾斜部511和第10根第一倾斜部511),且存在至少两个第二倾斜部521的延伸方向不同(例如图3中由左至右的第2根第二倾斜部521和第3根第二倾斜部521),从而更好地配合第一数据线51、第二数据线52与对应的驱动单元30电连接,且保障显示区10中走线的简洁。此时,本申请提供一种可选择的设置方式为,第一倾斜部511的长度小于第二倾斜部521的长度,以避免第一倾斜部511的倾斜程度过大,尽量保障更多的第一数据线51在第一方向上呈现为近乎于直线的状态,简化相关结构的制程。
图5所示为本申请实施例提供的图4中A区域的一种局部放大图,请继续参照图2-图5,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据 线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
第一倾斜部511相对于第一方向的倾斜角度为α1,第二倾斜部521相对于第一方向的倾斜角度为α2;α1<α2。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3-图5所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交;当第一显示区X1中的第二子显示区X12两侧均包括第一子显示区X11时,存在至少两个第一倾斜部511的延伸方向不同,且存在至少两个第二倾斜部521的延伸方向不同,从而更好地配合第一数据线51、第二数据线52与对应的驱动单元30电连接,且保障显示区10中走线的简洁。此时,本申请提供一种可选择的设置方式为,第一倾斜部511相对于第一方向的倾斜角度小于第二倾斜部521相对于第一方向的倾斜角度,以避免第一倾斜部511的倾斜程度过大,从而具有更多数量的第一数据线51在第一方向上呈现为近乎于直线的状态,简化相关结构的制程。
请继续参照图2-图4,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
沿第二子显示区X12指向第一子显示区X11的方向上,第一倾斜部511的倾斜方向包括沿第二子显示区X12指向第一子显示区X11的方向,且,第一倾斜部511的倾斜方向还包括沿第一子显示区X11指向第二子显示区X12的方向。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面 板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3-图5所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交。
此时,本申请提供一种可选择的实施例为,如图3、图4所示出的,第一倾斜部511的倾斜方向在由第二子显示区X12指向一侧第一子显示区X11的方向上,包括两种倾斜方向,具体地,如图4中示出的左侧3根第一倾斜部511,其是沿第二子显示区X12朝向第一子显示区X11一侧倾斜的,如图4中示出的最右侧1根第一倾斜部511,其是沿第一子显示区X11指向第二子显示区X12一侧倾斜的。
如此设置,实现第二数据线52所电连接的位于第二子显示区X12中的第二子像素22对应的子像素列、与位于第二显示区X2中的第三子像素23对应的子像素列相对应,同时能够使得更多数量的电连接第一子像素21和第三子像素23的第一数据线51呈现为直线或是近乎于直线的状态,简化显示面板100相关结构的制程。
请参照图2-图5,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
至少包括一条第一数据线51为直线。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3-图5所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交。
此时,本申请提供一种可选择的实施例为,如图4所示出的,包括几条第一数据线51呈现为沿第一方向延伸的直线,既能够实现第一数据线51对于沿第一方向设置的一列子像素20中包括的第一子像素21和第三子像素23对应的第一驱动单元31、第三驱动单元33的电连接,有利于方便该列对应的第一驱动单元31、第三驱动单元33、第一数据线51的规整化制作,有利于简化显示面板100相关结构的制程,保障显示面板100中走线设置的简洁性。
请参照图2-图4,可选地,显示区10包括沿第二方向依次设置的第一区域Y1、第二区域Y2、第三区域Y3,第二区域Y2位于第一区域Y1和第三区域Y3之间,第一区域Y1至少包括一条第一数据线51为直线,和/或,第三区域Y3至少包括一条第一数据线51为直线。
具体地,本申请提供一种可选择的实施例为,显示区10包括沿第二方向上依次设置的第一区域Y1、第二区域Y2、第三区域Y3,其中,呈现为沿第一方向延伸的直线形式的第一数据线51具体位于第一区域Y1中、或第三区域Y3中、或既位于第一区域Y1中又位于第三区域Y3中(如图4示出),也即呈现为直线形式的第一数据线51设置在显示区10沿第二方向上靠近显示区10边缘的一侧。
设置至少几条第一数据线51呈现为沿第一方向延伸的直线,既能够实现第一数据线51对于沿第一方向设置的一列子像素20中包括的第一子像素21和第三子像素23对应的第一驱动单元31、第三驱动单元33的电连接,有利于方便该列对应的第一驱动单元31、第三驱动单元33、第一数据线51的规整化制作,有利于简化显示面板100相关结构的制程,保障显示面板100中走线设置的简洁性。
再者,靠近显示区10边缘一侧设置的若干条数据线能够被呈现为直线形式设置时,偏向显示区10中心设置的其余数据线也不会存在过大的偏移量,即其余数据线存在的倾斜部分也不会倾斜的过于明显,从而能够使得显示面板100的整体制作工艺更为简单。
图6所示为本申请实施例提供的显示面板的另一种示意图,请参照图6,需要说明的是,为了清晰示出本申请显示面板中驱动单元的相关设置方式,图6中未示出子像素。可选地,当S1:S2=1时,第二显示区X2包括虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,虚置驱动单元列341的设置列数与第二驱动单元32形成的第二子第一驱动单元列321的设置列数相同。
具体地,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2=1,为了达到S1:S2=1的设置,可在第二显示区X2中增设虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,设置虚置驱动单元列341的设置列数与第二子第一驱动单元列321的设置列数相同,也即使得第一显示区X1中增设的第二子第一驱动单元列321的列数与第二显示区X2中增设的虚置驱动单元列341的列数相同,从而维持显示面板100的第一显示区X1、第二显示区X2中具有相同列数的驱动单元30形成的驱动单元列。
上述结构设置下,可使得每个驱动单元列中对应设置的驱动单元30、数据线均呈现为规整化制作,具体地,数据线可呈现为直线式延伸,有利于简化显示面板100相关结构的制程,保障显示面板100中走线设置的简洁性。规整化制作的驱动单元30、数据线的尺寸都是相同的,也可以保障整个显示区10具有相同的反射率,提升显示面板100的显示均一性。
图7所示为本申请实施例提供的显示面板的另一种示意图,图8所示为本申请实施例提供的显示面板的另一种示意图,请参照图7、图8,需要说明的是,为了清晰示 出本申请显示面板中驱动单元的相关设置方式,图7、图8中未示出子像素。可选地,当S1:S2=1时,第二显示区X2包括虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,虚置驱动单元列341的设置列数与第二驱动单元32形成的第二子第一驱动单元列321的设置列数相同,且虚置驱动单元列341和对应设置的第二子第一驱动单元列321沿第一方向同列设置。
具体地,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2=1,为了达到S1:S2=1的设置,可在第二显示区X2中增设虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,设置虚置驱动单元列341的设置列数与第二子第一驱动单元列321的设置列数相同,也即使得第一显示区X1中增设的第二子第一驱动单元列321的列数与第二显示区X2中增设的虚置驱动单元列341的列数相同,从而维持显示面板100的第一显示区X1、第二显示区X2中具有相同列数的驱动单元30形成的驱动单元列。
在此基础上,可进一步设置虚置驱动单元列341和对应设置的第二子第一驱动单元列321沿第一方向呈现为同列设置,此时也可设置第一显示区X1中设置的第三驱动单元33均与第二子显示区X12相邻设置,且对称设置于第二子显示区X12沿第二方向上的两侧,从而能够使得近乎所有的第一数据线51在沿第一方向延伸时均呈现为直线,只有第二数据线52需要存在部分倾斜部分(第二倾斜部521),如此设置,更多的驱动单元30和近乎所有的第一数据线51能够在同一工序下完成制作,能够使得显示面板100的整体制作工艺更为简单。
也即,在本申请提供的上述结构设置下,可使得显示面板100中更多的驱动单元列中对应设置的驱动单元30、数据线均呈现为规整化制作,有利于简化相关结构的制程,保障显示面板100中走线设置的简洁性。规整化制作的驱动单元30、数据线的尺寸都是相同的,也可以保障整个显示区10具有相同的反射率,提升显示面板100的显示均一性。
请参照图6-图8,可选地,当S1:S2=1时,第二显示区X2包括虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,虚置驱动单元列341的设置列数与第二驱动单元32形成的第二子第一驱动单元列321的设置列数相同;
虚置驱动单元列341复用为修复电路。
具体地,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2=1,为了达到S1:S2=1的设置,可在第二显示区X2中增设虚置驱动单元34,虚置驱动单元34沿第一方向形成虚置驱动单元列341,设置虚置驱动单元列341的设置列数与第二子第一驱动单元列321的设置列数相同,也即使得第一显示区X1中增设的第二子第一驱动单元列321的列数与第二显示区X2中增设的虚置驱动单元列341的列数相同,从而维持显示面板100的第一显示区X1、第二显示区X2中具有相同列数的驱动单元30形成的驱动单元列。在此基础上,可进一步设置虚置驱动单元列341和对应设置的 第二子第一驱动单元列321沿第一方向呈现为同列设置。
在此基础上,本申请提供一种可选择的设置方式为,将虚置驱动单元列341复用为修复电路;现有技术中,修复电路是设置在显示面板的非显示区的,即设置在显示区的外围边框中的,本申请将虚置驱动单元列341复用为修复电路,避免显示面板100中既设置虚置驱动单元34又设置修复电路对于显示面板100空间的过多占用,简化显示面板100制程,且能够满足当下用户对于显示面板100窄边框化的设计需求。
上述结构设置下,可使得每个驱动单元列中对应设置的驱动单元30、数据线均呈现为规整化制作,且对增设的虚置驱动单元列341进行复用,有利于简化相关结构的制程,保障显示面板100中走线等结构设置的简洁性。规整化制作的驱动单元30、数据线的尺寸都是相同的,也可以保障整个显示区10具有相同的反射率,提升显示面板100的显示均一性。
请参照图2、图6、图7,可选地,第一显示区X1中,包括沿第一方向延伸、且沿第二方向排布设置的多个第一驱动单元列311;
第一驱动单元列311包括第一子第一驱动单元列3111和第二子第一驱动单元列321,第一子第一驱动单元列3111包括第一驱动单元31,第二子第一驱动单元列321包括第二驱动单元32;
至少一组相邻设置的两个第一子第一驱动单元列3111之间,包括至少1个第二子第一驱动单元列321。
具体地,本申请还提供一种包括第一驱动单元31的驱动单元列、第二驱动单元32的驱动单元列可选择的设置方式为,第一显示区X1中多个沿第一方向延伸设置的第一驱动单元列311包括由多个第一驱动单元31形成的第一子第一驱动单元列3111、及由多个第二驱动单元32形成的第二子第一驱动单元列321,可设置每一第二子第一驱动单元列321位于相邻设置的两个第一子第一驱动单元列3111之间;需要说明的是,本申请对于第一显示区X1中所包括的第二子第一驱动单元列321的列数并不做具体限定,可根据第二子显示区X12中所包括的第二子像素22的列数进行设置;本申请对于第一显示区X1中第二子第一驱动单元列321具体的设置位置也不做具体限定,用户可以根据显示面板100的实际设计需求进行相应的调节。
请参照图8,可选地,第一显示区X1中,包括沿第一方向延伸、且沿第二方向排布设置的多个第一驱动单元列311;
第一驱动单元列311包括第一子第一驱动单元列3111和第二子第一驱动单元列321,第一子第一驱动单元列3111包括第一驱动单元31,第二子第一驱动单元列321包括第二驱动单元32;
至少1个第二子第一驱动单元列321位于第一子第一驱动单元列3111与第二子显示区X12之间。
具体地,本申请还提供一种包括第一驱动单元31的驱动单元列、第二驱动单元32的驱动单元列可选择的设置方式为,第一显示区X1中多个沿第一方向延伸设置的第一驱动单元列311包括由多个第一驱动单元31形成的第一子第一驱动单元列3111、及由多个第二驱动单元32形成的第二子第一驱动单元列321,可设置至少一个第二子第一驱动单元列321位于相邻设置的两个第一子第一驱动单元列3111之间、也可将至 少一个第二子第一驱动单元列321挨着第二子显示区X12设置,即至少一个第二子第一驱动单元列321位于一个第一子第一驱动单元列3111与第二子显示区X12之间,以使得第二子第一驱动单元列321在第二方向上能够更加地贴近第二子显示区X12设置,减小第二子第一驱动单元列321对应设置的第二数据线52所包括的第二倾斜部521的长度,减小第二子第一驱动单元列321对应设置的第二数据线52所包括的第二倾斜部521相比于第一方向的倾斜角度,如此,有利于简化相关结构的制程,保障显示面板100中走线等元器件设置的简洁性。
需要说明的是,本申请对于第一显示区X1中所包括的其它第二子第一驱动单元列321的列数并不做具体限定,可根据第二子显示区X12中所包括的第二子像素22的列数进行设置;本申请对于第一显示区X1中其它第二子第一驱动单元列321具体的设置位置不做具体限定,用户可以根据显示面板100的实际设计需求进行相应的调节。
图9所示为本申请实施例提供的显示面板的另一种示意图,图10所示为本申请实施例提供的显示面板的另一种示意图,图11所示为本申请实施例提供的显示面板的另一种示意图,请参照图9-图11,可选地,还包括第三显示区X3,第三显示区X3位于第一显示区X1和第二显示区X2之间;
第三显示区X3包括沿第二方向排布的至少一行第四子像素24;第四子像素24与第三驱动单元33一一对应电连接,第三驱动单元33也用于驱动电连接的各第四子像素24发光;
其中,第三子像素23、第四子像素24在第二显示区X2和第三显示区X3中阵列排布。
具体地,本申请还提供一种可选择的实施例为,显示面板100在包括第一显示区X1和第二显示区X2的基础上,进一步包括位于第一显示区X1和第二显示区X2之间的第三显示区X3,可设置第三显示区X3包括沿第二方向排布的至少一行第四子像素24,如图11所示出的,第二显示区X2中的驱动单元30形成的驱动单元行的数量比第二显示区X2内子像素20形成的子像素行的数量多一行,因此可以在第二显示区X2中富裕出来一行驱动单元行用于与第三显示区X3中的第四子像素24电连接,也即,可设置第四子像素24与位于第二显示区X2中的第三驱动单元33一一对应电连接,第三驱动单元33也用于驱动电连接的各第四子像素24发光;也即,在第三显示区X3中包括有一行第四子像素24时,在第二显示区X2中增设一行第三驱动单元33即可;此时,增设的第三显示区X3中可以不需要设置驱动单元30,可设置增设的第三显示区X3仅用于第一数据线51所包括的第一倾斜部511的设置、以及第二数据线52所包括的第二倾斜部521的设置,避免需要倾斜设置的第一倾斜部511、第二倾斜部521对于该区域内其它结构件的耦合影响,保障显示面板100的良好显示效果。
此外,本申请增设了第三显示区X3之后,位于整个显示区10内的所有子像素20均是呈均匀化排布的,且每一子像素20都有对应电连接的驱动单元30,从而有利于保障显示面板100的均一化显示。
图12所示为本申请实施例提供的图10的一种BB’截面图,请参照图9-图12,可选地,显示面板100包括多条沿第一方向延伸、且沿第二方向排布的数据线50;
显示面板100包括第一金属层61和第二金属层62;
至少部分数据线50在第一显示区X1和第二显示区X2内位于第一金属层61,在第三显示区X3内位于第二金属层62。
具体地,本申请还提供一种可选择的实施例为,显示面板100在包括第一显示区X1和第二显示区X2的基础上,进一步包括位于第一显示区X1和第二显示区X2之间的第三显示区X3;显示面板100至少包括两个金属层,如沿显示面板100的厚度方向上层叠设置的第一金属层61和第二金属层62,可设置部分数据线50在沿第一方向上延伸时,位于第一显示区X1和第二显示区X2内的数据线50设置于第一金属层61,位于第三显示区X3内的数据线50设置于第二金属层62,也即设置部分数据线50在第三显示区X3内跨层走线,以实现部分数据线50在第三显示区X3内的某一位置存在交叠面积的情况,也能够保障数据线50在第三显示区X3内所需的多种走线方式。
需要补充的是,其中第一金属层61可具体为显示面板100中的M3走线层,通过M3走线层来设置数据线50,相比于其它金属层能够在一定程度上降低数据线50的负载;第二金属层62可具体为显示面板100中的M1走线层、MC走线层、M2走线层中的任一层,也即第一数据线5051和第二数据线5052在第一显示区X1和第二显示区X2内可通过M3走线层进行走线设置,在第三显示区X3中对于有需要跨层走线的数据线50可选择跳线至M1走线层、MC走线层、M2走线层中的任一层进行走线设置即可。其中,M1走线层、MC走线层、M2走线层、M3走线层在显示面板100的厚度方向上自下而上以此设置,相当于第一走线层至第四走线层。
请参照图9-图12,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23、第一子像素21和第四子像素24,第二数据线52电连接第三子像素23、第二子像素22和第四子像素24;
显示面板100包括第一金属层61和第二金属层62;
第二数据线52在第一显示区X1和第二显示区X2内位于第一金属层61,在第三显示区X3内位于第二金属层62。
具体地,本申请还提供一种可选择的实施例为,显示面板100在包括第一显示区X1和第二显示区X2的基础上,进一步包括位于第一显示区X1和第二显示区X2之间的第三显示区X3;显示面板100至少包括两个金属层,如沿显示面板100的厚度方向上层叠设置的第一金属层61和第二金属层62,可设置第一数据线51均位于第一金属层61设置,第二数据线52位于第一显示区X1和第二显示区X2内的部分设置于第一金属层61,位于第三显示区X3内的部分设置于第二金属层62,也即设置第二数据线52在第三显示区X3内跨层走线,以实现部分第一数据线51和第二数据线52在第三显示区X3内的某一位置存在交叠面积的情况,也能够保障第一数据线51和第二数据线52在第三显示区X3内所需的多种走线方式,保障各数据线的正常功能。
请参照图9和图10,可选地,还包括第三显示区X3,第三显示区X3位于第一显示区X1和第二显示区X2之间;
第三显示区X3包括沿第二方向排布的至少一行第四子像素24,第三显示区X3还包括第四驱动单元35,第四驱动单元35与第四子像素24一一对应设置;
显示面板100还包括多条沿第一方向延伸、且沿第二方向排布的数据线50;
在第三显示区X3内,第四驱动单元35与数据线50异层设置。
具体地,本申请还提供一种可选择的实施例为,显示面板100在包括第一显示区X1和第二显示区X2的基础上,进一步包括位于第一显示区X1和第二显示区X2之间的第三显示区X3,可设置第三显示区X3包括沿第二方向排布的至少一行第四子像素24,还包括沿第二方向排布的至少一行第四驱动单元35,第四驱动单元35的数量与第四子像素24的数量相同,第四驱动单元35用于一一驱动对应电连接的第四子像素24。此种实施例中,在第三显示区X3中设置了驱动单元30,第三显示区X3中的第四驱动单元35可为和数据线50异层设置,以实现第三显示区X3中第四驱动单元35和数据线50的同时设置。如此设置,可保障整个显示区10具有近乎相同的反射率,提升显示面板100的显示均一性。
请参照图4,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
显示面板100包括第一金属层61和第二金属层62;
第二倾斜部521在第二显示区X2内靠近第一显示区X1的一侧位于第二金属层62;第一数据线51位于第一金属层61,且位于第一显示区X1内、及位于第二显示区X2内远离第一显示区X1的一侧的第二数据线52位于第一金属层61。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图4所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交。
显示面板100至少包括两个金属层(未示出),如沿显示面板100的厚度方向上层叠设置的第一金属层61和第二金属层62,可设置部分数据线在沿第一方向上延伸时,可设置第一数据线51、第二数据线52所包括的第一倾斜部511、第二倾斜部521是位于第二显示区X2内的、且位于第二显示区X2内靠近第一显示区X1的一侧,可设置第二倾斜部521位于第二金属层62,第一数据线51及其所包括的第一倾斜部511、除去第二倾斜部521之外的第二数据线52的其他部分均位于第一金属层61,以实现部分第一数据线51和第二数据线52在第二显示区X2内的、且位于第二显示区X2内靠近第一显示区X1的一侧的某一位置存在交叠面积的情况,能够保障第一数据线51 和第二数据线52在第二显示区X2内的、且位于第二显示区X2内靠近第一显示区X1的一侧所需的多种走线方式,保障各数据线的正常功能。
需要补充的是,其中第一金属层61可具体为显示面板100中的M3走线层,通过M3走线层来设置数据线,相比于其它金属层能够在一定程度上降低数据线的负载;第二金属层62可具体为显示面板100中的M1走线层、MC走线层、M2走线层中的任一层,也即第一数据线51、第二数据线52除第二倾斜部521之外均可通过M3走线层进行走线设置,第二倾斜部521可选择跳线至M1走线层、MC走线层、M2走线层中的任一层进行走线设置即可。其中,M1走线层、MC走线层、M2走线层、M3走线层在显示面板100的厚度方向上自下而上以此设置,相当于第一走线层至第四走线层。
图13所示本申请实施例提供的显示面板的一种局部截面图,请参照图3和图13,可选地,第一驱动单元31包括第一驱动晶体管319,第一驱动晶体管319包括第一沟道区,第一沟道区的宽长比为R1,第二驱动单元32包括第二驱动晶体管329,第二驱动晶体管329包括第二沟道区,第二沟道区的宽长比为R2,第三驱动单元33包括第三驱动晶体管339,第三驱动晶体管339包括第三沟道区,第三沟道区的宽长比为R3;R3>R1、且R3>R2。
具体地由于第二显示区X2中,驱动单元30与对应的发光元件偏移量大,阳极RE连接线较长;第一显示区X1中临近第二子显示区X12的若干驱动单元30与对应的发光元件偏移量小,阳极RE连接线较短;第一显示区X1中其它的驱动单元30与对应的发光元件偏移量、大于第一显示区X1中临近第二子显示区X12的若干驱动单元30与对应的发光元件偏移量;为了实现第二子显示区X12的高透光率,可设置为第二子显示区X12、及第一显示区X1中临近第二子显示区X12的发光元件的面积最小;为了保证显示面板100的显示均一性,考虑到阳极RE负载大小和发光元件的面积大小,本申请通过在S1:S2<1时,设置位于第二显示区X2中的第三驱动晶体管339的第三沟道区的宽长比、大于位于第一显示区X1中的第一驱动晶体管319的第一沟道区的宽长比,且大于位于第一显示区X1中的第二驱动晶体管329的第二沟道区的宽长比,从而保障显示面板100的良好显示效果。
请结合图13参照图3,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
显示面板100包括衬底,每一子像素20均包括位于衬底一侧的阳极金属层RE,第二倾斜部521在衬底所在平面的正投影与阳极金属层RE在衬底所在平面的正投影不交叠。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50 在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交。
本申请提供的显示面板100包括衬底,其上设置的发光元件均包括阳极金属层RE,为了避免数据线所包括的倾斜部对于阳极平坦度的影响,本申请提供一种可选择的设置方式为,数据线呈折线式走线,避免数据线与阳极金属层RE存在交叠面积,从而避免数据线对于阳极平坦度的影响,保障显示面板100的整体反射率,避免显示面板100出现明显的色偏问题,保障显示面板100的显示均一性。
此外,若是需要设置数据线的至少部分与子像素20的阳极具有交叠面积的话,例如第二倾斜部521和某个子像素20的阳极具有交叠面积,尽量设置第二倾斜部521的路径能够对其所经过的子像素20的阳极进行平分,以使得该子像素20的阳极除与第二倾斜部521交叠的部分外具有对称的反射率,能够在一定程度上降低第二倾斜部521的设置对于显示面板100均匀放射率的影响;进一步地,沿第二方向上,位于显示面板100中线两侧,若包括多个数据线与子像素20的阳极交叠的面积时,设置这些交叠面积以显示面板100中线为对称轴呈现为对称设置,从而使得数据线的设置对于显示面板100沿第二方向上的反射率影响呈现为对称式分布,使得显示面板100沿第二方向上的显示效果以显示面板100中线为对称相同,相比于数据线和子像素20阳极交叠面积胡乱分布来说,能够避免显示面板100出现明显的色偏问题,进而提升显示面板100的显示效果。
此外,若是需要设置数据线的至少部分与子像素20的阳极具有交叠面积的话,也可设置数据线与对应子像素20的整个阳极均具有交叠面积,避免阳极出现凸起区域或是凹陷区域,如此也能够在一定程度上减弱对于整个显示面板100反射率的影响,避免显示面板100出现明显的色偏问题,保障显示面板100的整体显示效果。
还需要补充的是,为了避免第二倾斜部521对于其所经过的子像素20中N1节点(第一节点)电位的影响,本申请提供了一种可选择的设置方式为,在N1节点对应的M2走线层上方的M3走线层中增设一个金属件,使用该金属件覆盖住N1节点相关的M2走线层及poly层,进而设置该金属件与该子像素20中对应设置的PVDD信号线电连接,以避免第二倾斜部521对于N1节点电位的影响,保障显示面板100的工作性能,保障显示面板100的显示效果。
此外,为了避免第二倾斜部521对于其所经过的子像素20中N1节点电位的影响,也可设置第二倾斜部521避开N1节点对应的M2走线层及poly层这一区域,也即第二倾斜部521在显示面板100中与N1节点对应的M2走线层及poly层这一区域不存在交叠面积,从而避免第二倾斜部521对于N1节点电位的影响,保障显示面板100的工作性能,保障显示面板100的显示效果。
请参照图3,,可选地,显示区10包括沿第一方向延伸的多条第一数据线51和多 条第二数据线52,第一数据线51电连接第三子像素23和第一子像素21,第二数据线52电连接第三子像素23和第二子像素22;
当S1:S2<1时,至少部分第一数据线51包括第一倾斜部511,第一倾斜部511的延伸方向与第一方向相交;第二数据线52包括第二倾斜部521,第二倾斜部521的延伸方向与第一方向相交;
显示面板100包括衬底,每一第二倾斜部521在衬底所在表面的正投影、与至少一个第三子像素23在衬底所在表面的正投影交叠;同一显示面板100中,每一第二倾斜部521对应交叠的第三子像素23均为第一颜色子像素20。
具体地,本申请还提供一种可选择的设置方式为,显示区10中包括多条沿第一方向延伸的第一数据线51和第二数据线52,通过每条第一数据线51实现沿第一方向延伸设置的各列第三子像素23和第一子像素21的电连接,通过每条第二数据线52实现沿第一方向延伸设置的各列第三子像素23和第二子像素22的电连接;由于数据线50在显示区01中的具体走向是根据驱动单元30的走向来设置的,本申请提供的显示面板100中,第一显示区X1中,每一驱动单元30在显示面板100出光面的正投影为S1,第二显示区X2中,每一驱动单元30在显示面板100出光面的正投影面积为S2,本申请提供一种可选择的设置方式为S1:S2<1,此时,如图3所示出的,存在部分第一数据线51包括位于第二显示区X2中靠近第一显示区X1一侧的第一倾斜部511,第二数据线52均包括位于第二显示区X2中靠近第一显示区X1一侧的第二倾斜部521,第一倾斜部511、第二倾斜部521的延伸方向均与第一方向相交。
本申请提供的显示面板100包括衬底,可设置每一显示面板100中所包括的所有第二数据线52对应的第二倾斜部521均与相同颜色的第三子像素23具有交叠面积;若是第二倾斜部521的设置对具有交叠面积的相同颜色的第三子像素23的显示效果造成不良影响时,用户在对显示面板100中存在显示不良的问题进行改善的时候,可仅对相同颜色的子像素20进行补偿,以改善显示面板100的显示均一性,不需要分别对不同颜色子像素20进行分别补偿改善,从而降低了显示面板100制程、调控的繁琐程度,以比较简单的调节方式就能够使得显示面板100具有良好的显示效果。
图14所示为本申请实施例提供的显示装置的一种示意图,请结合图1-图13参照图14,基于同一发明构思,本申请还提供了一种显示装置200,该显示装置200包括显示面板100,显示面板100为本申请提供的任一种显示面板100。
需要说明的是,本申请实施例所提供的显示装置200的实施例可参见上述显示面板100的实施例,重复指出不再赘述。本申请所提供的显示装置200可以为:手机、平板电脑、电视机、显示器、笔记本电脑、导航仪等任何具有显示功能的产品和部件。
通过上述实施例可知,本发明提供的显示面板和显示装置,至少实现了如下的有益效果:
本申请提供一种显示面板和显示装置,通过将用于设置感光器件的第二子显示区中对应的第二子像素所需电连接的第二驱动单元设置在第二子显示区之外,避免第二驱动单元对于第二子显示区的占用,且设置第二子显示区所在的第一显示区中各驱动单元在显示面板出光面的正投影小于或等于未设置第二子显示区的第二显示区中各驱动单元在显示面板出光面的正投影;从而达到在不改变显示面板中子像素发光位置和 个数的基础上,在第二子显示区外增设第二驱动单元,使用第二驱动单元实现对于第二子显示区中各子像素的一驱一设计,保障显示面板的显示稳定性、均一性。
虽然已经通过例子对本发明的一些特定实施例进行了详细说明,但是本领域的技术人员应该理解,以上例子仅是为了进行说明,而不是为了限制本发明的范围。本领域的技术人员应该理解,可在不脱离本发明的范围和精神的情况下,对以上实施例进行修改。本发明的范围由所附权利要求来限定。

Claims (21)

  1. 一种显示面板,其特征在于,包括显示区;
    所述显示区包括沿第一方向设置的第一显示区和至少一个第二显示区,所述第一显示区包括沿第二方向设置的第一子显示区和至少一个第二子显示区,所述第二子显示区用于设置感光器件;
    所述显示区包括阵列分布的多个子像素,所述子像素包括第一子像素、第二子像素和第三子像素,所述第一子像素均位于所述第一子显示区,所述第二子像素均位于所述第二子显示区,所述第三子像素均位于所述第二显示区;
    所述显示区还包括驱动单元,所述驱动单元包括第一驱动单元、第二驱动单元和第三驱动单元,所述第三驱动单元位于所述第二显示区,且与所述第三子像素一一对应电连接,以驱动各所述第三子像素发光;
    所述第一驱动单元和所述第二驱动单元均位于所述第一子显示区,所述第一驱动单元与所述第一子像素一一对应电连接,以驱动各所述第一子像素发光,所述第二驱动单元与所述第二子像素一一对应电连接,以驱动各所述第二子像素发光;
    所述第一显示区中,每一所述驱动单元在所述显示面板出光面的正投影为S1;所述第二显示区中,每一所述驱动单元在所述显示面板出光面的正投影面积为S2;1/2<S1:S2≤1;
    其中,所述第一方向和所述第二方向相交。
  2. 根据权利要求1所述的显示面板,其特征在于,
    所述第一显示区中,包括沿所述第一方向延伸、且沿所述第二方向排布的多个第一驱动单元列;
    所述第二显示区中,包括沿所述第一方向延伸、且沿所述第二方向排布的多个第二驱动单元列;
    当所述S1:S2<1时,沿所述第一方向上,同一子像素列对应设置的所述第一驱动单元列和所述第二驱动单元列至少部分交叠。
  3. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    所述第一倾斜部沿其延伸方向的长度为L1,所述第二倾斜部沿其延伸方向的长度为L2;L1<L2。
  4. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述 第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    所述第一倾斜部相对于所述第一方向的倾斜角度为α1,所述第二倾斜部相对于所述第一方向的倾斜角度为α2;α1<α2。
  5. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    沿所述第二子显示区指向所述第一子显示区的方向上,所述第一倾斜部的倾斜方向包括沿所述第二子显示区指向所述第一子显示区的方向,且,所述第一倾斜部的倾斜方向还包括沿所述第一子显示区指向所述第二子显示区的方向。
  6. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    至少包括一条所述第一数据线为直线。
  7. 根据权利要求6所述的显示面板,其特征在于,
    所述显示区包括沿所述第二方向依次设置的第一区域、第二区域、第三区域,所述第二区域位于所述第一区域和所述第三区域之间,所述第一区域至少包括一条所述第一数据线为直线,和/或,所述第三区域至少包括一条所述第一数据线为直线。
  8. 根据权利要求1所述的显示面板,其特征在于,
    当S1:S2=1时,所述第二显示区包括虚置驱动单元,所述虚置驱动单元沿所述第一方向形成虚置驱动单元列,所述虚置驱动单元列的设置列数与所述第二驱动单元形成的第二子第一驱动单元列的设置列数相同。
  9. 根据权利要求1所述的显示面板,其特征在于,
    当S1:S2=1时,所述第二显示区包括虚置驱动单元,所述虚置驱动单元沿所述第一方向形成虚置驱动单元列,所述虚置驱动单元列的设置列数与所述第二驱动单元形成的第二子第一驱动单元列的设置列数相同,且所述虚置驱动单元列和对应设置的所述第二子第一驱动单元列沿所述第一方向同列设置。
  10. 根据权利要求1所述的显示面板,其特征在于,
    当S1:S2=1时,所述第二显示区包括虚置驱动单元,所述虚置驱动单元沿所述第一方向形成虚置驱动单元列,所述虚置驱动单元列的设置列数与所述第二驱动单元形成的第二子第一驱动单元列的设置列数相同;
    所述虚置驱动单元列复用为修复电路。
  11. 根据权利要求1所述的显示面板,其特征在于,
    所述第一显示区中,包括沿所述第一方向延伸、且沿所述第二方向排布设置的多个第一驱动单元列;
    所述第一驱动单元列包括第一子第一驱动单元列和第二子第一驱动单元列,所述第一子第一驱动单元列包括所述第一驱动单元,所述第二子第一驱动单元列包括所述第二驱动单元;
    至少一组相邻设置的两个所述第一子第一驱动单元列之间,包括至少1个所述第二子第一驱动单元列。
  12. 根据权利要求1所述的显示面板,其特征在于,
    所述第一显示区中,包括沿所述第一方向延伸、且沿所述第二方向排布设置的多个第一驱动单元列;
    所述第一驱动单元列包括第一子第一驱动单元列和第二子第一驱动单元列,所述第一子第一驱动单元列包括所述第一驱动单元,所述第二子第一驱动单元列包括所述第二驱动单元;
    至少1个第二子第一驱动单元列位于所述第一子第一驱动单元列与所述第二子显示区之间。
  13. 根据权利要求1所述的显示面板,其特征在于,还包括第三显示区,所述第三显示区位于所述第一显示区和所述第二显示区之间;
    所述第三显示区包括沿所述第二方向排布的至少一行第四子像素;所述第四子像素与所述第三驱动单元一一对应电连接,所述第三驱动单元也用于驱动电连接的各所述第四子像素发光;
    其中,所述第三子像素、所述第四子像素在所述第二显示区和所述第三显示区中阵列排布。
  14. 根据权利要求13所述的显示面板,其特征在于,
    所述显示面板包括多条沿所述第一方向延伸、且沿所述第二方向排布的数据线;
    所述显示面板包括第一金属层和第二金属层;
    至少部分所述数据线在所述第一显示区和所述第二显示区内位于所述第一金属层,在所述第三显示区内位于所述第二金属层。
  15. 根据权利要求13所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素、所述第一子像素和所述第四子像素,所述第二数据线电连接所述第三子像素、所述第二子像素和所述第四子像素;
    所述显示面板包括第一金属层和第二金属层;
    所述第二数据线在所述第一显示区和所述第二显示区内位于所述第一金属层,在所述第三显示区内位于所述第二金属层。
  16. 根据权利要求1所述的显示面板,其特征在于,还包括第三显示区,所述第三显示区位于所述第一显示区和所述第二显示区之间;
    所述第三显示区包括沿所述第二方向排布的至少一行第四子像素,所述第三显示区还包括第四驱动单元,所述第四驱动单元与所述第四子像素一一对应设置;
    所述显示面板还包括多条沿所述第一方向延伸、且沿所述第二方向排布的数据线;
    在所述第三显示区内,所述第四驱动单元与所述数据线异层设置。
  17. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    所述显示面板包括第一金属层和第二金属层;
    所述第二倾斜部在所述第二显示区内靠近所述第一显示区的一侧位于所述第二金属层;所述第一数据线位于所述第一金属层,且位于所述第一显示区内、及位于所述第二显示区内远离所述第一显示区的一侧的所述第二数据线位于所述第一金属层。
  18. 根据权利要求1所述的显示面板,其特征在于,所述第一驱动单元包括第一驱动晶体管,所述第一驱动晶体管包括第一沟道区,所述第一沟道区的宽长比为R1,所述第二驱动单元包括第二驱动晶体管,所述第二驱动晶体管包括第二沟道区,所述第二沟道区的宽长比为R2,所述第三驱动单元包括第三驱动晶体管,所述第三驱动晶体管包括第三沟道区,所述第三沟道区的宽长比为R3;R3>R1、且R3>R2。
  19. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述 第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    所述显示面板包括衬底,每一所述子像素均包括位于所述衬底一侧的阳极金属层,所述第二倾斜部在所述衬底所在平面的正投影与所述阳极金属层在所述衬底所在平面的正投影不交叠。
  20. 根据权利要求1所述的显示面板,其特征在于,
    所述显示区包括沿所述第一方向延伸的多条第一数据线和多条第二数据线,所述第一数据线电连接所述第三子像素和所述第一子像素,所述第二数据线电连接所述第三子像素和所述第二子像素;
    当S1:S2<1时,至少部分所述第一数据线包括第一倾斜部,所述第一倾斜部的延伸方向与所述第一方向相交;所述第二数据线包括第二倾斜部,所述第二倾斜部的延伸方向与所述第一方向相交;
    所述显示面板包括衬底,每一所述第二倾斜部在所述衬底所在表面的正投影、与至少一个所述第三子像素在所述衬底所在表面的正投影交叠;同一所述显示面板中,每一所述第二倾斜部对应交叠的所述第三子像素均为第一颜色子像素。
  21. 一种显示装置,其特征在于,包括如权利要求1-20之任一项所述的显示面板。
PCT/CN2022/127920 2022-09-05 2022-10-27 显示面板和显示装置 WO2024050940A1 (zh)

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Publication number Priority date Publication date Assignee Title
CN111785761A (zh) * 2020-07-20 2020-10-16 武汉天马微电子有限公司 一种显示面板及显示装置
CN113421896A (zh) * 2021-06-03 2021-09-21 武汉天马微电子有限公司 显示面板及显示装置
CN113571570A (zh) * 2021-07-29 2021-10-29 合肥维信诺科技有限公司 显示面板及显示装置
WO2022147679A1 (zh) * 2021-01-06 2022-07-14 京东方科技集团股份有限公司 显示面板、显示装置

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111785761A (zh) * 2020-07-20 2020-10-16 武汉天马微电子有限公司 一种显示面板及显示装置
WO2022147679A1 (zh) * 2021-01-06 2022-07-14 京东方科技集团股份有限公司 显示面板、显示装置
CN113421896A (zh) * 2021-06-03 2021-09-21 武汉天马微电子有限公司 显示面板及显示装置
CN113571570A (zh) * 2021-07-29 2021-10-29 合肥维信诺科技有限公司 显示面板及显示装置

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