WO2021016962A1 - 电致发光显示面板及显示装置 - Google Patents
电致发光显示面板及显示装置 Download PDFInfo
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- WO2021016962A1 WO2021016962A1 PCT/CN2019/098738 CN2019098738W WO2021016962A1 WO 2021016962 A1 WO2021016962 A1 WO 2021016962A1 CN 2019098738 W CN2019098738 W CN 2019098738W WO 2021016962 A1 WO2021016962 A1 WO 2021016962A1
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/30—Devices specially adapted for multicolour light emission
- H10K59/35—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels
- H10K59/352—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels the areas of the RGB subpixels being different
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/10—OLED displays
- H10K59/12—Active-matrix OLED [AMOLED] displays
- H10K59/121—Active-matrix OLED [AMOLED] displays characterised by the geometry or disposition of pixel elements
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/10—OLED displays
- H10K59/12—Active-matrix OLED [AMOLED] displays
- H10K59/131—Interconnections, e.g. wiring lines or terminals
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/30—Devices specially adapted for multicolour light emission
- H10K59/35—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels
- H10K59/353—Devices specially adapted for multicolour light emission comprising red-green-blue [RGB] subpixels characterised by the geometrical arrangement of the RGB subpixels
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/80—Constructional details
- H10K59/805—Electrodes
- H10K59/8051—Anodes
- H10K59/80515—Anodes characterised by their shape
Definitions
- the embodiments of the present disclosure relate to the field of display technology, and in particular to electroluminescent display panels and display devices.
- OLED display panels have been increasingly used due to their self-luminous, wide viewing angle, high contrast, low power consumption, and high response speed.
- Various electronic devices As people's requirements for OLED display panels increase, in order to achieve high-resolution design in display panels, OLED display panels usually adopt SPR pixel arrangement, that is, pixel borrowing.
- each of the repeating units includes a plurality of sub-pixels, and each of the sub-pixels includes:
- the first conductive layer is located above the substrate;
- a first insulating layer located above the first conductive layer and including a first via hole exposing a part of the first conductive layer;
- the anode is located on the first insulating layer and includes a main body part and an auxiliary part electrically connected to each other; the auxiliary part is electrically connected to the first conductive layer through the first via;
- At least one of the multiple repeating units includes: a first color sub-pixel, a second color sub-pixel, and a third color sub-pixel;
- the area of the main part of the third color sub-pixel is larger than the area of the main part of the second color sub-pixel and the area of the main part of the first color sub-pixel;
- the overlapping area of the main part of the third color sub-pixel and the first conductive layer is larger than the overlapping area of the main part of the second color sub-pixel and the first conductive layer, and the third color
- the overlapping area of the main body portion of the sub-pixel and the first conductive layer is larger than the overlapping area of the main body portion of the first color sub-pixel and the first conductive layer.
- the overlapping area of the body portion of the third color sub-pixel and the first conductive layer is larger than that of the body portion of the second color sub-pixel and the first conductive layer.
- the sum of the overlapping area and the overlapping area of the main body portion of the first color sub-pixel and the first conductive layer is larger than that of the body portion of the second color sub-pixel and the first conductive layer.
- the main body portion of at least one of the sub-pixels has at least one axis of symmetry, and the orthographic projection of the main body portion on the substrate and the first conductive layer on the substrate The orthographic projections overlap;
- the ratio of the area of the first conductive layer that overlaps the main part of the at least one sub-pixel on the orthographic projection of the substrate and located on both sides of the at least one axis of symmetry is in the range of 1 ⁇ 0.1.
- the first conductive layer that overlaps the orthographic projection of the main portion of the at least one sub-pixel on the substrate is substantially axisymmetric along the at least one symmetry axis .
- the first conductive layer includes: a first power line and a first connection line spaced apart from each other; wherein, in each of the sub-pixels, the auxiliary part passes through the second A via hole is electrically connected to the first connection line.
- each of the multiple repeating units includes: one of the first color sub-pixel, one pair of the second color sub-pixel, and one sub-pixel arranged in a third direction.
- the multiple repeating units are arranged along the third direction to form a repeating unit group, the repeating unit group is arranged along the fourth direction, and the repeating units in two adjacent repeating unit groups are arranged in a staggered manner.
- the ratio of the size of the main body portion in the fourth direction to the size of the main body portion in the third direction is ⁇ 1, ⁇ 1
- the value range is 1.2 to 3.
- the electroluminescent display panel further includes: a second insulating layer located between the first conductive layer and the substrate, and a second insulating layer located between the second insulating layer and the A second conductive layer between the substrates; wherein the second conductive layer includes: a second power line and a second connecting line that are arranged at intervals;
- the second insulating layer has a second via hole exposing the second connection line and a third via hole exposing a part of the second power line;
- the first power line and the second power line are electrically connected to each other through the third via;
- the first connection line and the second connection line are electrically connected to each other through the second via hole.
- the orthographic projection of the first connection line on the substrate and the second connection line at least partially overlap
- the orthographic projection of the first power cord on the substrate and the orthographic projection of the second power cord on the substrate at least partially overlap.
- the first power line includes: a plurality of sub power lines arranged in a first direction and extending in a second direction, and a conduction line electrically connecting each of the sub power lines; Wherein, the first direction is different from the second direction.
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of the first power line on the substrate;
- the main body has a first axis of symmetry along the first direction;
- the first power line that overlaps the orthographic projection of the main body portion on the substrate is approximately axisymmetric along the first symmetry axis, and is on the substrate with the main body portion.
- the center of the first power cord where the orthographic projection overlaps approximately overlaps the center of the main body portion.
- the conduction line includes a first conduction line; in the third color sub-pixels, the orthographic projection of the main body portion on the substrate covers at least one of the sub-power sources The orthographic projection of the wire and the at least two first conducting wires on the substrate.
- the sub-power supply line that overlaps the orthographic projection of the main body portion on the substrate is approximately axisymmetric along the first symmetry axis, And the sub-power line overlapping the orthographic projection of the main body part on the substrate covers the center of the main body part;
- the body portion has a second axis of symmetry along the second direction, and at least two first conduction lines that overlap with the orthographic projection of the body portion on the substrate
- the second axis of symmetry is approximately axisymmetric.
- the sub-power line and the first conduction line that overlap the orthographic projection of the main body portion on the substrate adopt a cross Type, M-shaped, Tic-Tac-shaped, I-shaped, II-shaped, and III-shaped setting.
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of at least two sub-power lines on the substrate;
- the at least two sub-power lines whose orthographic projections of the main body portion overlap the substrate are arranged in parallel and at equal intervals.
- the main body portion in the third color sub-pixel, has a second symmetry axis along the second direction; it intersects with the orthographic projection of the main body portion on the substrate.
- the positions where the at least two sub-power lines are stacked are arranged on both sides of the center of the main body part approximately axisymmetrically with respect to the second symmetry axis.
- the third direction is the same as the first direction
- the fourth direction is the same as the second direction
- the main part of the third color sub-pixel is in the The size in the second direction is larger than the size of the main body of the third color sub-pixel in the first direction
- the size of the main body of the first color sub-pixel in the second direction is larger than the size in the first direction
- the orthographic projection of the main part of the third color sub-pixel on the substrate and the orthographic projection of the first connecting line on the substrate do not overlap.
- the conduction line includes a second conduction line; a second conduction line is provided between two second color subpixels in the second color subpixel pair. line.
- the second conduction line extends in a linear shape along the first direction.
- the main part of the third color sub-pixel overlaps the orthographic projection of the substrate.
- the first conduction line and the second conduction line arranged between the two second color sub-pixels in the second color sub-pixel pair substantially extend on the same straight line along the first direction.
- the conduction line includes a third conduction line; the first color sub-pixel in one repeating unit group and the adjacent repeating unit group are connected to the first color sub-pixel A third conduction line is arranged between the nearest third color sub-pixels; and the third conduction line is located on the side of the main part of the corresponding third color sub-pixel away from the auxiliary part.
- the third conduction line is at least one of a broken line shape and a curved shape.
- the third conduction line includes: a first conduction portion and a second conduction portion that are electrically connected to each other;
- the first conductive portion extends in the first direction, and the second conductive portion extends in a direction crossing the first direction.
- the size of the overlap between the orthographic projection of the main body portion on the substrate and the nearest neighboring sub-power line is smaller than that of the sub-power line. 80% of the width in the first direction.
- the area of the orthographic projection of the main body portion on the substrate is less than 10% of the area of the main body portion.
- At least a part of the sub power lines of the orthographic projection of the main body part in the first color sub-pixel nearest to the orthographic projection have a first width
- the orthographic projection is located in the third color sub-pixel
- the sub power line covered by the orthographic projection of the middle main body has a second width; the first width is smaller than the second width.
- the widths of the sub-power supply lines located on both sides of the long axis of the main part of the first color sub-pixel are different, and the sub-power supply lines closest to the first color sub-pixel The width is smaller than the width of the sub power line on the other side.
- the size of the overlap of the orthographic projection of the main body on the substrate with the nearest sub-power line is smaller than that of the sub-power line. 80% of the width in the first direction.
- the orthographic projection of the main body portion on the substrate is less than 10% of the area of the main body portion.
- At least a part of the sub power lines of the orthographic projection of the main body part in the second color sub-pixel nearest to the orthographic projection has a third width, and the orthographic projection is located in the third color sub-pixel
- the sub power line covered by the orthographic projection of the middle main body has a second width; the third width is smaller than the second width.
- the third direction is the same as the second direction, and the fourth direction is the same as the first direction;
- the size of the main part of the third color sub-pixel in the first direction is larger than the size of the main part of the third color sub-pixel in the second direction; the main part of the first color sub-pixel The size in the first direction is larger than the size in the second direction of the main part of the first color sub-pixel.
- the orthographic projection of the main body portion on the substrate overlaps with the orthographic projection of at least two sub-power lines on the substrate;
- the at least two sub-power lines whose orthographic projections of the main body portion overlap the substrate are arranged in parallel and at equal intervals.
- the main body portion in the first color sub-pixel, has a third symmetry axis along the second direction; it intersects with the orthographic projection of the main body portion on the substrate.
- the positions where the at least two stacked sub-power lines are located are substantially axisymmetrical about the third axis of symmetry and are arranged on both sides of the center of the main body part.
- the orthographic projection of the main body portion on the substrate and the orthographic projection of the first via on the substrate do not overlap.
- the orthographic projection of the second via on the substrate and the orthographic projection of the first via on the substrate do not overlap.
- the third direction is the same as the first direction
- the fourth direction is the same as the second direction
- the second color sub-pixel pair includes: the first A second color sub-pixel and a second second color sub-pixel
- the first via hole of the first color subpixel, the first via hole of the second second color subpixel in the second color subpixel pair, and the third color are arranged on the same straight line along the first direction.
- the third direction is the same as the second direction, and the fourth direction is the same as the first direction;
- the second color sub-pixel pair includes: the first A second color sub-pixel and a second second color sub-pixel;
- the first via hole of the first color sub-pixel in the same row of repeating units and the second color sub-pixel pair are arranged on the same straight line along the first direction;
- the first via holes of the third color sub-pixels in the same row of repeating units are arranged on the same straight line along the first direction .
- the first power line is configured as a power line that transmits a driving voltage.
- the first conductive layer includes: a first bridge line, a first connection line, and a plurality of signal line groups arranged at intervals along a first direction; wherein, in each of the sub-pixels, The auxiliary part is electrically connected to the first connection line through the first via;
- Each of the signal line groups includes at least two different signal lines, and each of the signal lines extends along the second direction;
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of the at least one signal line group on the substrate; and overlaps the orthographic projection of the main body portion on the substrate
- the center line of the signal wires in the signal wire group along the second direction is approximately axisymmetric with respect to the symmetry axis of the main body portion along the second direction.
- the third direction is the same as the first direction
- the fourth direction is the same as the second direction
- the main part of the third color sub-pixel is in the The size in the second direction is greater than the size of the main part of the third color sub-pixel in the first direction
- the size of the main part of the first color sub-pixel in the second direction is greater than the size in the first direction
- the size of the body portion of the first color sub-pixel in the first direction is larger than the size of the body portion of the third color sub-pixel in the first direction ;
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of at least one signal line group on the substrate; the main body portion has an orthographic projection along the second direction The third axis of symmetry; and in the first color sub-pixel, the signal line in the signal line group that overlaps the orthographic projection of the main body portion on the substrate is about the center line along the second direction
- the second axis of symmetry is approximately axisymmetric.
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of the nearest neighboring signal line group on the substrate The area is less than 10% of the area of the main body part.
- the size of the body portion of the third color sub-pixel in the first direction is larger than the size of the body portion of the first color sub-pixel in the first direction ;
- the orthographic projection of the main body portion on the substrate overlaps the orthographic projection of the at least one signal line group on the substrate; the main body portion of the first color sub-pixel has an edge The third axis of symmetry in the second direction; and in the first color sub-pixels, the signal lines in the signal line group that overlap the orthographic projection of the main body portion on the substrate are along the second The center line of the direction is approximately axisymmetric about the third axis of symmetry.
- the orthographic projection of the main body portion on the substrate, the orthographic projection of at least one signal line group on the substrate, and at least one The orthographic projection of the first bridge line overlaps the substrate;
- the main part of the third color sub-pixel has a second axis of symmetry along the second direction; and in the third color sub-pixel, the main part overlaps the orthographic projection of the main part on the substrate.
- the center line of the signal lines in the signal line group along the second direction and the center line of the first bridge line along the second direction are substantially axisymmetric with respect to the second symmetry axis.
- the orthographic projection of the main body portion on the substrate and the orthographic projection of the first via on the substrate do not overlap.
- the first via hole of the third color sub-pixel in the repeating unit group, and the first via of the second color sub-pixel pair are arranged along the first direction On the same straight line.
- the third direction is the same as the second direction, and the fourth direction is the same as the first direction; the main part of the third color sub-pixel is in the The size in the first direction is greater than the size of the main part of the third color sub-pixel in the second direction; the size of the main part of the first color sub-pixel in the first direction is greater than that in the first direction The size of the main part of a color sub-pixel in the second direction.
- the orthographic projection of the main body portion on the substrate intersects the orthographic projection of two adjacent signal line groups on the substrate.
- the main body portion of the first color sub-pixel has a third axis of symmetry along the second direction; and in the first color sub-pixel, the main body portion overlaps the orthographic projection of the substrate.
- the orthographic projection of the main body portion on the substrate intersects the orthographic projection of two adjacent signal line groups on the substrate.
- the main part of the third color sub-pixel has a second axis of symmetry along the second direction; and the third color sub-pixel is overlapped with the orthographic projection of the main part on the substrate.
- the positions of the two signal line groups are approximately axisymmetric with respect to the second symmetry axis.
- the orthographic projection of the main body portion on the substrate covers an orthographic projection of the first bridge line on the substrate; and
- the first bridge line overlapping the orthographic projection of the main body part on the substrate is substantially axisymmetric with respect to the second symmetry axis.
- the orthographic projection of the main body portion on the substrate overlaps with the orthographic projection of one signal line group on the substrate;
- the two signal line groups in which the two second color subpixels of the second color subpixel pair overlap are adjacent.
- the main body portions of the two second color sub-pixels of the second color sub-pixel pair are approximately axially symmetrical along the fourth axis of symmetry;
- the two signal line groups whose orthographic projection overlaps the two second color subpixels of the second color subpixel pair are substantially axisymmetrical about the fourth symmetry axis.
- the first via holes of the first color sub-pixels in the same row of repeating units are arranged on the same straight line along the first direction;
- the first via holes of the third color sub-pixels in the same row of repeating units are arranged in the same direction along the first direction. In a straight line.
- each of the signal line groups includes a data line configured to transmit a data signal and a power line configured to transmit a driving voltage.
- the embodiment of the present disclosure also provides a display device including the above-mentioned electroluminescent display panel.
- Figure 1 is one of the structural schematic diagrams of a related electroluminescent display panel
- FIG. 2 is a schematic sectional view of the electroluminescent display panel in FIG. 1 along the AA' direction;
- FIG. 3 is one of the structural schematic diagrams of the electroluminescent display panel provided by the embodiment of the disclosure.
- FIG. 4a is a schematic top view of the structure of an anode provided by an embodiment of the disclosure.
- 4b is a schematic top view of the structure of the first conductive layer provided by an embodiment of the disclosure.
- 5a is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 3 along the AA' direction;
- 5b is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 3 along the BB' direction;
- FIG. 6 is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 3 along the CC' direction;
- Fig. 7a is a schematic sectional view of the electroluminescent display panel shown in Fig. 3 along the DD' direction;
- FIG. 7b is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 3 along the FF' direction;
- Fig. 8a is a schematic sectional view of the electroluminescent display panel shown in Fig. 3 along the EE' direction;
- 8b is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 3 along the GG' direction;
- FIG. 10 is a schematic cross-sectional view of the electroluminescent display panel shown in FIG. 9 along the AA' direction;
- FIG. 11 is the third structural diagram of the electroluminescent display panel provided by the embodiments of the disclosure.
- FIG. 13 is the fifth structural diagram of the electroluminescent display panel provided by the embodiments of the disclosure.
- Fig. 14a is a schematic sectional view of the electroluminescent display panel shown in Fig. 13 along the AA' direction;
- 14b is a schematic cross-sectional view of the third color sub-pixels in the electroluminescent display panel shown in FIG. 13;
- 15 is a sixth structural diagram of the electroluminescent display panel provided by the embodiments of the disclosure.
- FIG. 16 is a schematic cross-sectional view of the first color sub-pixels in the electroluminescent display panel shown in FIG. 15;
- FIG. 17 is the seventh structural diagram of the electroluminescent display panel provided by the embodiments of the disclosure.
- FIG. 18 is the eighth structural diagram of the electroluminescent display panel provided by the embodiments of the disclosure.
- a typical OLED display panel includes a base substrate, a drive circuit arranged on the base substrate, a flat layer arranged on the side of the drive circuit away from the base substrate, an anode arranged on the side of the flat layer away from the base substrate, and The anode is away from the light-emitting layer on the side of the base substrate and the cathode is disposed on the side away from the base substrate.
- the driving circuit on the base substrate usually includes signal lines made of source and drain metal layers, for example, a data line (Data line) for transmitting or writing data and a power line (VDD line) for transmitting a driving voltage.
- a data line for transmitting or writing data
- VDD line power line
- VDD line power line
- PPN flat layer
- the two power lines are electrically connected to each other through the via holes in the insulating layer, so as to reduce the resistance of the power line (VDD line).
- the thickness of the signal line made of the source and drain metal layer is relatively large, and the flat layer on the signal line made of the source and drain metal layer cannot be completely flattened, resulting in unevenness of the anode on the flat layer and the light-emitting layer on the anode ,
- the anode and the light-emitting layer on the anode appear asymmetrical protrusions, resulting in color shift when viewed from the left and right sides of the normal line of the display panel at the same angle as the normal line of the display panel.
- FIG. 1 is a schematic top view of some OLED display panels.
- 2 is a schematic cross-sectional view of a sub-pixel in an OLED display panel.
- the OLED display panel includes: a base substrate 10, a driving circuit 20, a flat layer 30, an anode 40, a light-emitting layer 50, a cathode 60, and a pixel defining layer 80; the pixel defining layer 80 has an opening to The effective light emitting area 90 is defined by the opening.
- the pixel defining layer 80 acts on the anode 41 in the blue sub-pixel to define the blue effective light-emitting area 91
- the pixel defining layer 80 acts on the anode 42 in the red sub-pixel to define the red effective light-emitting area 92
- the pixel defining layer 80 acts on the anode 43 in the green sub-pixel to define the green effective light-emitting area 93.
- the driving circuit 20 includes another power line 25 made of source and drain metal layers.
- FIG. 1 shows the positional relationship between another power cord 25 and the anode 40. As shown in FIGS.
- the flat layer 30 covering the other power line 25 cannot completely flatten the display panel, resulting in the anode 40 and the anode 40 on the flat layer 30
- the upper light-emitting layer 50 is uneven, so that asymmetric protrusions 70 appear on the anode 40 and the light-emitting layer 50 on the anode 40.
- the asymmetric protrusion 70 is asymmetric with respect to the axis of symmetry of the anode 40 along the extension direction of the other power cord 25, so that the asymmetric protrusion 70 emits different light to the left and right sides of the normal line of the display panel.
- Resulting in color shift when viewed from the left and right sides of the normal line of the display panel at the same angle as the normal line of the display panel For example, viewing the color of the display panel from the left side of the normal line of the display panel at an angle of 30 degrees to the normal line of the display panel is 30 degrees from the normal line of the display panel to the normal line of the display panel.
- the color of the display panel is different when viewed from a degree angle, resulting in the above-mentioned color shift phenomenon.
- the electroluminescent display panel may include a plurality of repeating units, each repeating unit includes a plurality of sub-pixels, and each sub-pixel includes: The first conductive layer, the first insulating layer located above the first conductive layer, and the anode located on the first insulating layer. Also, the first insulating layer includes a first via hole, and the anode includes a main body portion and an auxiliary portion electrically connected to each other. The first via hole exposes a part of the first conductive layer, and the auxiliary portion is electrically connected to the first conductive layer through the first via hole.
- At least one of the plurality of repeating units includes: a first color sub-pixel, a second color sub-pixel, and a third color sub-pixel; the area of the main part of the third color sub-pixel is larger than the area of the main part of the second color sub-pixel and The area of the main body of the first color sub-pixel; the overlapping area of the main body of the third color sub-pixel and the first conductive layer is larger than the overlapping area of the main body of the second color sub-pixel and the first conductive layer, and the third The overlapping area of the main part of the color sub-pixel and the first conductive layer is larger than the overlapping area of the main part of the first color sub-pixel and the first conductive layer. This can at least eliminate the asymmetry of light emission in the central area, thereby improving or even eliminating the color shift of the display panel.
- Some electroluminescent display panels may include: a plurality of repeating units 001, each repeating unit 001 includes a plurality of sub-pixels, and each sub-pixel may include: located above the substrate 100
- the first conductive layer 200 is the first insulating layer 300 located above the first conductive layer 200
- the anode 400 is located on the first insulating layer 300.
- the first insulating layer 300 includes a first via 310
- the anode 400 includes a main portion 410 and an auxiliary portion 420 electrically connected to each other.
- the first via 310 exposes a part of the first conductive layer 200, and the auxiliary portion 420 is electrically connected to the first conductive layer 200 through the first via 310.
- at least one of the multiple repeating units may include: a first color sub-pixel 010, a second color sub-pixel, and a third color sub-pixel 030; wherein, the area of the main part 413 of the third color sub-pixel 030 is larger than that of the second color sub-pixel 030.
- the overlapping area of the body portion 413 of the third color subpixel 030 and the first conductive layer 200 is larger than the overlapping area of the body portion of the second color subpixel and the first conductive layer 200, and the body portion of the third color subpixel 030
- the overlapping area of 413 and the first conductive layer 200 is larger than the overlapping area of the body portion 411 of the first color sub-pixel 010 and the first conductive layer 200.
- the first conductive layer 200 may have a hollow pattern, and the part of the hollow pattern overlapping with the orthographic projection of the main body portion 410 on the substrate 100 is configured such that at least the central area AA of the main body portion 410 is substantially flat.
- the main part and the auxiliary part in the same sub-pixel are of an integrated structure.
- one patterning process is used to form the main part and the auxiliary part in the same sub-pixel.
- the shaded area in the first conductive layer 200 is the physical portion that defines the hollow pattern, and the blank portion surrounded by the shaded area in the first conductive layer 200 forms Openwork pattern.
- a first conductive layer is spaced between the first insulating layer 300 that overlaps the solid part in the orthographic projection of the substrate and the solid part, and the first insulating layer 300 that overlaps the blank part in the orthographic projection of the substrate directly
- the first insulating layer 300 which is arranged on the substrate, which can also be said to overlap the orthographic projection of the blank portion on the substrate, is directly arranged on the insulating layer on the substrate.
- each sub-pixel may further include a pixel defining layer 80 located on the side of the anode 400 away from the substrate 100, and located at the anode 400 away from the substrate 100.
- the pixel defining layer 80 has an opening, and the opening exposes at least a part of the area of the body portion 410 of the anode 400.
- the light emitting layer 50 is located in the opening and is in contact with the area of the body portion 410 exposed by the opening, and the light emitting layer 50 in the opening is located
- the area is used for light emission, so that the effective light-emitting area 90 can be defined by the opening.
- the area where the opening of the pixel defining layer 80 and the main body portion 410 of the anode 400 overlap is the effective light-emitting area 90 of each sub-pixel.
- the area where the opening of the pixel defining layer 80 in the third color sub-pixel 030 overlaps with the main body portion 413 of the anode 400 is the effective light-emitting area 90-030 of the third color sub-pixel 030.
- the area where the opening of the pixel defining layer 80 in the first color sub-pixel 010 overlaps with the main body portion 411 of the anode 400 is the effective light-emitting area 90-010 of the first color sub-pixel 010.
- the area where the opening of the pixel defining layer 80 in the second color sub-pixel 021 overlaps with the main body portion 4121 of the anode 400 is the effective light-emitting area 90-021 of the second color sub-pixel 021.
- the area where the opening of the pixel defining layer 80 in the second color sub-pixel 022 overlaps with the main body portion 4122 of the anode 400 is the effective light-emitting area 90-022 of the second color sub-pixel 022.
- each light-emitting layer may include the electroluminescent layer itself and other common layers located on both sides of the electroluminescent layer, for example, a hole injection layer, a hole transport layer, and an electron An injection layer and an electron transport layer, etc., but in the drawings of the present disclosure, only the electroluminescent layer in the light-emitting layer is shown, and other common layers are not shown.
- the material of the electroluminescent layer may include: organic electroluminescent material, so that the electroluminescent display panel can be an OLED display panel.
- the material of the electroluminescent layer may also include: quantum dot electroluminescent material, so that the electroluminescent display panel can be a Quantum Dot Light Emitting Diode (QLED) display panel.
- QLED Quantum Dot Light Emitting Diode
- the central area AA of the main body portion 410 may be an effective light-emitting area defined by the opening of the pixel defining layer. In this way, the entire effective light-emitting area can form a gentle transition to the edge of the main portion 410, so that the effective light-emitting area is approximately flat, thereby improving or even eliminating the color shift of the display panel.
- the central area AA of the main body portion 410 is smaller than the effective light-emitting area defined by the pixel defining layer.
- the central area AA of the main body portion 410 may be the area where the center of the effective light-emitting area defined by the pixel defining layer is located.
- the central area AA of the main body portion 410 can form a gentle transition slope to the edge of the main body portion 410, so that the central area AA of the main body portion 410 is approximately flat, thereby improving or even eliminating the color shift of the display panel.
- the part of the hollow pattern that overlaps the orthographic projection of the main body on the substrate is configured to make the main body substantially flat, which can greatly flatten the entire main body, thereby further improving or even eliminating the color shift of the display panel.
- the overlapping area of the body portion 413 of the third color sub-pixel 030 and the first conductive layer 200 is larger than that of the body portion of the second color sub-pixel and the first conductive layer.
- the main body part 400 in at least one sub-pixel may have at least one axis of symmetry, and the orthographic projection of the main body part 400 on the substrate 100 and the first The conductive layer 200 overlaps the orthographic projection of the substrate 100.
- the ratio of the area of the first conductive layer 200 that overlaps the orthographic projection of the body portion 400 of the at least one sub-pixel on the substrate 100 and located on both sides of at least one axis of symmetry is within the range of 1 ⁇ 0.1.
- the ratio of the area of the first conductive layer 200 that overlaps the orthographic projection of the body portion 400 of the at least one sub-pixel on the substrate 100 and located on both sides of at least one axis of symmetry may be 1.1.
- the ratio of the area of the first conductive layer 200 that overlaps the orthographic projection of the body portion 400 of the at least one sub-pixel on the substrate 100 and located on both sides of at least one axis of symmetry may also be 0.9.
- the ratio of the area of the first conductive layer 200 that overlaps the orthographic projection of the body portion 400 of the at least one sub-pixel on the substrate 100 and located on both sides of at least one axis of symmetry may also be 1.05 or 1.
- the first conductive layer 200 that overlaps the orthographic projection of the main portion 400 of the at least one sub-pixel on the substrate 100 is approximately along at least one axis of symmetry. Axisymmetric. That is to say, the ratio of the area of the first conductive layer 200 that overlaps the orthographic projection of the main portion 400 of the at least one sub-pixel on the substrate 100 and located on both sides of at least one axis of symmetry is approximately 1. Due to the limitation of process conditions, the above ratio cannot be absolutely 1, so the above conditions are probably satisfied. Exemplarily, as shown in FIGS.
- the main body portion 413 may have a first symmetry axis extending along the first direction F1, and the main body portion 413 is on the substrate 100.
- the first conductive layer 200 with overlapping orthographic projections may be arranged substantially axisymmetrically along the first symmetry axis.
- the main body portion 413 may have a second axis of symmetry extending along the second direction F2, and the first conductive layer 200 that overlaps the orthographic projection of the main body portion 413 on the substrate 100 may be substantially axisymmetric along the second axis of symmetry Set up.
- At least the central area AA of the main body portion 413 can be convex, and the areas of the main body portion 413 on both sides of the first symmetry axis are arranged symmetrically and/or the areas of the main body portion 413 on both sides of the second symmetry axis are arranged symmetrically.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the first conductive layer 200 may include: a first power line 210 and a first connection line 220 spaced apart from each other; wherein, each sub-pixel
- the auxiliary part 420 is electrically connected to the first connection line 220 through the first via 310.
- the first power line 210 may be configured as a power line that transmits a driving voltage.
- FIG. 3 only shows the first connection line 220 in one third color sub-pixel 030, and the first connection line in the remaining sub-pixels can be designed and determined according to the actual application environment, and will not be repeated here.
- each of the multiple repeating units 001 may include: a first color sub-pixel 010 arranged along the third direction F3, and a first Two-color sub-pixel pair 020 and one third-color sub-pixel 030.
- the second color sub-pixel pair 020 may include two second-color sub-pixels 021 and 022 arranged along the fourth direction F4.
- the first color sub-pixel 010 is configured to emit light of the first color
- the second color sub-pixels 021 and 022 are configured to emit light of the second color
- the third color sub-pixel is configured to emit light of the third color.
- the first color, the second color, and the third color can be selected from red, green, and blue.
- the first color is red
- the second color is green
- the third color is blue.
- the repeating unit 001 is an arrangement structure of red, green and blue sub-pixels.
- the embodiments of the present disclosure include but are not limited to this.
- the aforementioned first color, second color, and third color may also be other colors.
- the repeating units in adjacent repeating unit groups are staggered along the third direction F3, that is, the adjacent repeating units in adjacent repeating unit groups have a certain offset along the third direction F3 the amount. Therefore, the sub-pixels of the same color in adjacent repeating unit groups are not aligned in the third direction F3.
- the offset of the same color sub-pixels in the adjacent repeating unit group in the third direction F3 may be half of the size of the repeating unit in the third direction F3.
- the size of the repeating unit in the third direction F3 may be the pitch of the repeating unit in the third direction F3.
- the second color sub-pixel pair 020 may include two second color sub-pixels 021 and 022 arranged along the fourth direction F4.
- the light-emitting layers of the two second-color sub-pixels 021 and 022 in each second-color sub-pixel pair 020 can be connected, and each is formed through an evaporation hole of the FMM.
- the light-emitting layers of the two second-color sub-pixels 021 and 022 in the second-color sub-pixel pair 020 When the second color is green, the process difficulty of preparing the light-emitting layer of the green sub-pixel can be reduced to a certain extent.
- the shape of the main part of each sub-pixel in the drawings includes strictly a corner formed by two line segments
- the shape of the effective light-emitting area of each sub-pixel may be rounded. That is to say, on the basis of the above-mentioned various graphic shapes, the corners of the effective light-emitting area of each sub-pixel are rounded. For example, when the light-emitting layer is vapor-deposited through a mask, the corners of the light-emitting layer may naturally form a rounded shape.
- the shapes of the body portions of the first color sub-pixel 010 and the third color sub-pixel 030 may all be hexagons, and the three sets of opposite sides of the hexagon are all parallel.
- the shape of the main part of each second color sub-pixel 021, 022 may be a pentagon, which includes two non-right-angled crossing sides, a set of parallel opposite sides, and a vertical side. The parallel opposite sides are vertical, and the two non-right-angled crossing sides are connected between a set of parallel opposite sides; wherein, the vertical sides of the second color sub-pixels 021 and 022 in each second color sub-pixel pair 020 are opposite to each other. O setting.
- a set of longer parallel pairs in the body portion of the first color sub-pixel 010 and a set of longer parallel pairs in the body portion of the third color sub-pixel 030 The sides are respectively parallel to a set of parallel opposite sides of the main part of the second color sub-pixels 021 and 022.
- a set of relatively long parallel sides in the effective light-emitting regions 90-010 of the first color sub-pixel 010 and a set of relatively long parallel sides in the effective light-emitting regions 90-030 of the third color sub-pixel 030 The opposite sides are respectively parallel to a group of parallel opposite sides in the effective light-emitting regions 90-021 and 90-022 of the second color sub-pixels 021 and 022.
- the area of the first color sub-pixel 010 is larger than the area of one second-color sub-pixel 020
- the area of the third-color sub-pixel 030 is larger than that of the second-color sub-pixel 020. area.
- the area of the effective light-emitting area 90-010 of the first color sub-pixel 010 is larger than the area of the effective light-emitting area 90-021, 90-022 of the second color sub-pixel 020
- the area of -030 is larger than the area of the effective light-emitting regions 90-021 and 90-022 of one second color sub-pixel 020.
- the interlacing distance of two adjacent repeating units in the fourth direction F4 in the third direction F3 is greater than that from the first color sub-pixel One of the maximum span of 010, the maximum span of the second color sub-pixel 021, the maximum span of the second color sub-pixel 022, and the maximum span of the third color sub-pixel 030, or a combination thereof.
- the interleaving distance of two adjacent repeating units in the second direction F1 in the third direction F3 is greater than the maximum span d010 from the effective light-emitting area 90-010 of the first color sub-pixel 010, and the second color sub-pixel 021
- the maximum span d020 of the effective light-emitting area 90-021, the maximum span d020 of the effective light-emitting area 90-022 of the second color sub-pixel 022, and the maximum span d030 of the effective light-emitting area 90-030 of the third color sub-pixel 030 Or a combination.
- the second color sub-pixel 021 and the second color sub-pixel 022 in the second color sub-pixel pair 020 The farthest distance in the fourth direction F4 is greater than the farthest distance of any two points of the first color sub-pixel 010 in the fourth direction F4.
- the effective light-emitting areas 90-021 of the second color sub-pixel 021 in the second-color sub-pixel pair 020 and the effective light-emitting areas 90-022 of the second color sub-pixel 022 are in the fourth direction F4
- the farthest distance on is greater than the farthest distance in the fourth direction F4 of any two points of the effective light-emitting regions 90-010 of the first color sub-pixel 010.
- the second color sub-pixel 021 and the second color sub-pixel 022 in the second color sub-pixel pair 020 The farthest distance in the fourth direction F4 is greater than the farthest distance of any two points of the third color sub-pixel 030 in the fourth direction F4.
- the effective light-emitting areas 90-021 of the second color sub-pixel 021 in the second-color sub-pixel pair 020 and the effective light-emitting areas 90-022 of the second color sub-pixel 022 are in the fourth direction F4
- the farthest distance on is greater than the farthest distance in the fourth direction F4 of any two points of the effective light-emitting regions 90-030 of the third color sub-pixel 030.
- the adjacent sub-pixels of the first color sub-pixel do not include the first color sub-pixel 010, and the adjacent sub-pixels of the second color sub-pixel pair 020
- the sub-pixels do not include the second-color sub-pixel, and the adjacent sub-pixels of the third-color sub-pixel 030 do not include the third-color sub-pixel 030.
- the two first color sub-pixels 010 are composed of the first color sub-pixels.
- the two third-color sub-pixels 030 are divided by other sub-pixels except the third-color sub-pixel, and the two second-color sub-pixel pairs are divided by other sub-pixels except the second-color sub-pixel. segmentation.
- two adjacent repeating units in the second direction F1 are arranged as a repeating group.
- a second color sub-pixel pair 020 in one repeating unit is in a first color sub-pixel 010 and a third color sub-pixel 030 in another repeating unit in the third direction F3
- the effective light-emitting area of the second color sub-pixel pair 020 in one repeating unit is the effective light-emitting area of the first color sub-pixel 010 and the third color sub-pixel 030 in another repeating unit.
- the effective light-emitting area is between the maximum span in the third direction F3.
- two adjacent repeating units in the fourth direction F4 are arranged as a repeating group.
- the first color sub-pixel 010 in one repeating unit is in the second color sub-pixel pair 020 and the third color sub-pixel 030 in another repeating unit is in the third direction F3 Between the maximum span.
- the effective light-emitting area of the first color sub-pixel 010 in one repeating unit is the effective light-emitting area of a second color sub-pixel pair 020 and a third color sub-pixel 030 in another repeating unit.
- the effective light-emitting area is between the maximum span in the third direction F3.
- two adjacent repeating units in the third direction F3 are arranged as a repeating group.
- the third color sub-pixel 030 in one repeating unit is in the second color sub-pixel pair 020 and the first color sub-pixel 010 in the other repeating unit in the third direction F3
- the effective light-emitting area of the third color sub-pixel 030 in one repeating unit is the effective light-emitting area of a second color sub-pixel pair 020 and one first-color sub-pixel 010 in another repeating unit.
- the effective light-emitting area is between the maximum span in the third direction F3.
- two second color sub-pixels 021 and 022 in the same second-color sub-pixel pair 020 are in the first
- the minimum distance in the four directions F4 is smaller than the maximum span of one first color sub-pixel 010 in the fourth direction F4.
- the effective light-emitting areas 90-021 of the second color sub-pixel 021 and the effective light-emitting areas 90-022 of the second color sub-pixel 022 in the same second color sub-pixel pair 020 are in the fourth direction
- the minimum distance on F4 is smaller than the maximum span d010 of the effective light-emitting area 90-010 of one first color sub-pixel 010 in the fourth direction F4.
- two second color sub-pixels 021 and 022 in the same second-color sub-pixel pair 020 are in the first
- the minimum distance in the four directions F4 is smaller than the maximum span of one third color sub-pixel 030 in the fourth direction F4.
- the effective light-emitting areas 90-021 of the second color sub-pixel 021 and the effective light-emitting areas 90-022 of the second color sub-pixel 022 in the same second color sub-pixel pair 020 are in the fourth direction
- the minimum distance on F4 is smaller than the maximum span d030 of the effective light-emitting area 90-030 of one third color sub-pixel 030 in the fourth direction F4.
- the arrangement of the sub-pixels in the repeating unit in the odd-numbered column repeating unit group is the same, and the sub-pixels in the repeating unit in the even-numbered column repeating unit group are arranged The same way.
- the center line of two green sub-pixels in each repeating unit is located between the centers of two adjacent red and blue sub-pixels in adjacent repeating unit groups. between.
- the edges of the two green sub-pixels are inside the outer edges of the two adjacent red and blue sub-pixels, where the outer edge refers to the edges of the two sub-pixels opposite to each other in the fourth direction F4.
- the extension range of a green sub-pixel pair in the fourth direction F4 is not greater than the extension range of the two adjacent red and blue sub-pixels in the fourth direction F4.
- the "center" of the sub-pixel refers to the geometry of the shape of the sub-pixel (for example, the first-color sub-pixel, the second-color sub-pixel, or the third-color sub-pixel). center.
- the sub-pixels are generally designed in a regular shape, such as a hexagon, a pentagon, a trapezoid, or other shapes.
- the center of the sub-pixel may be the geometric center of the aforementioned regular shape.
- the shape of the formed sub-pixels generally has a certain deviation from the regular shape designed above. For example, the corners of the aforementioned regular shape may become rounded corners, and therefore, the shape of the sub-pixels may be rounded corners.
- the shape of the actually manufactured sub-pixel may have other changes from the designed shape. For example, the shape of a sub-pixel designed as a hexagon may become approximately elliptical in actual manufacturing.
- the center of the sub-pixel may not be a strict geometric center of the irregular shape of the sub-pixel formed by fabrication.
- the center of the sub-pixel may have a certain offset from the geometric center of the shape of the sub-pixel.
- the center of a sub-pixel refers to any point in the area enclosed by a specific point on the radial line segment starting from the geometric center of the sub-pixel to each point on the edge of the sub-pixel, and the specific point on the radial line segment is 1 distance from the geometric center. /3 at the length of the radial line segment.
- the definition of the center of the sub-pixel is applicable to the center of a regular-shaped sub-pixel, and it is also applicable to the center of an irregular-shaped sub-pixel.
- the three adjacent columns are along the column direction (ie, the fourth direction F4) Including the first row, the second row and the third row in turn.
- the shortest distance between the centers of the two second-color sub-pixels 021 and 022 in the second-color sub-pixel 020 pair in the second row in the row direction is smaller than that in the first row
- the edge of the first color sub-pixel 010 in the third direction F3 and the edge of the third color sub-pixel 030 in the third direction F3 Arranged in parallel.
- each repeating unit 001 in each repeating unit 001, the first color sub-pixel 010, the second color sub-pixel pair 020, and the third color sub-pixel 030
- the arrangement order is the same.
- the size of the main body part 400 in the fourth direction F4 and the size of the main body part 400 in the third direction F3 are The ratio of ⁇ 1 is ⁇ 1, and the value range of ⁇ 1 is 1.2 ⁇ 3.
- the ⁇ 1 of the blue sub-pixel may be 1.5 to 1.7, for example, the ⁇ 1 of the blue sub-pixel may be 1.5, 1.6, or 1.7.
- the ⁇ 1 of the red sub-pixel may be 2.2 to 2.6.
- the ⁇ 1 of the red sub-pixel may be 2.2, 2.3, 2.4, 2.5, or 2.6.
- the ⁇ 1 of the above sub-pixels can also be determined by design according to the actual application environment, which is not limited here.
- the electroluminescent display panel may further include: a second insulating layer 500 located between the first conductive layer 200 and the substrate 100 and The second conductive layer 600 between the second insulating layer 500 and the substrate 100; wherein the second conductive layer 600 may include: a second power line 610 and a second connection line 620 arranged at intervals.
- the second insulating layer 500 has a second via 520 exposing the second connection line 620 and a third via 530 exposing a part of the second power line 610.
- the first power line 210 and the second power line 610 are electrically connected to each other through the third via 530 to achieve the effect of reducing resistance.
- the first connection line 220 is electrically connected to each other through the second via 520 and the second connection line 620, and the second connection line 620 is electrically connected to the drain of the transistor in the driving circuit to realize signal transmission. It should be noted that the above description only takes the third color sub-pixels as an example, and the settings in the remaining sub-pixels can be deduced by analogy, which will not be repeated here.
- the first connection for the first connection line 220 and the second connection line 620 that are electrically connected to each other, the first connection
- the orthographic projection of the line 220 on the substrate 100 and the orthographic projection of the second connecting line 620 on the substrate 100 at least partially overlap.
- the orthographic projection of the first connecting line 220 on the substrate 100 overlaps with the orthographic projection of the second connecting line 620 on the substrate 100.
- the orthographic projection of the first connecting line 220 on the substrate 100 and the orthographic projection of the second connecting line 620 on the substrate 100 overlap. This can improve the effect of mutual electrical connection.
- the first power line 210 may include: a plurality of sub power lines 211 arranged along the first direction F1 and extending along the second direction F2, and The conduction line 212 electrically connected to each sub-power line 211; wherein, the first direction F1 is different from the second direction F2.
- the first direction F1 is perpendicular to the second direction F2.
- the third direction F3 may be the same as the first direction F1
- the fourth direction F4 may be the same as the second direction F2.
- the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1; the body portion 411 of the first color sub-pixel 010
- the size in the second direction F2 is larger than the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1.
- the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1 is larger than the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1.
- the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2.
- the embodiments of the present disclosure include but are not limited thereto, and the relationship between the above-mentioned dimensions may also be in other forms.
- a plurality of repeating units 001 are arranged along the third direction F3 to form a repeating unit group 002, and the repeating unit group 002 is arranged along the fourth direction F4, and
- the repeating units 001 in two adjacent repeating unit groups 002 are arranged in a staggered manner.
- the repeating units 001 in two adjacent repeating unit groups 002 differ by 1/2 the size of the repeating unit 001.
- the size of one repeating unit 001 mentioned above may be the distance between the centers of the same color sub-pixels in two adjacent repeating units 001 in the third direction F3.
- the size of one repeating unit 001 described above may be: the distance between the centers of the first color sub-pixels 010 in two adjacent repeating units 001 in the third direction F3.
- the orthographic projection of the main body portion 413 in the third color sub-pixel 030 on the substrate 100 and the orthographic projection of the first connecting line 220 on the substrate 100 Do not overlap.
- the orthographic projection of the main part 413 in the third color sub-pixel 030 on the substrate 100 overlaps the orthographic projection of the first power line 210 on the substrate 100.
- the body portion 413 in the third color sub-pixel 030 may have a first symmetry axis along the first direction F1.
- the shape of the body portion 413 in the third color sub-pixel 030 is approximately a hexagon or an ellipse
- the short symmetry axis of the hexagon or the short axis of the ellipse is approximately parallel to the first direction F1
- the long axis of symmetry or the long axis of the ellipse is substantially parallel to the second direction F2
- the short axis of symmetry of the hexagon or the short axis of the ellipse can be used as the first axis of symmetry.
- the first power line 210 that overlaps the orthographic projection of the main body portion 413 on the substrate 100 is approximately axisymmetric along the first symmetry axis, and is substantially axisymmetric with the main body portion 413 on the substrate 100.
- the center of the first power cord 210 overlapped by the orthographic projection approximately overlaps the center of the main body portion 413.
- the main body part 413 can have symmetrical protrusions along the first symmetry axis, so that the areas of the main body part 413 on both sides of the first symmetry axis are symmetrically arranged, thereby reducing the asymmetry of the main body part 413 and making the main body part 413
- the central area is flat.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the conduction line may include a first conduction line 2121.
- the orthographic projection of the main body portion 413 on the substrate 100 covers the orthographic projection of at least one sub-power line 211 and at least two first conductive lines 2121 on the substrate 100.
- the sub power line 211 that overlaps the orthographic projection of the main body portion 413 on the substrate 100 is approximately axisymmetric along the first symmetry axis, and intersects the orthographic projection of the main body portion 413 on the substrate 100
- the stacked sub power cord 211 covers the center of the main body part 413.
- the main body portion 413 has a second axis of symmetry along the second direction F2, and the long axis of symmetry of the hexagon or the long axis of the ellipse may be used as the second axis of symmetry.
- at least two first conductive lines 2121 overlapping with the orthographic projection of the main body portion 413 on the substrate 100 are substantially axisymmetric along the second symmetry axis.
- the entire first insulating layer can be raised by the sub-power line 211 and the first conductive line 2121, and on the basis of reducing the asymmetry of the main body 413, the main body 413 is further made substantially flat, thereby making the light-emitting layer substantially flat , To improve or even eliminate the color cast of the display panel.
- the center in the present disclosure may be the geometric center of the corresponding structure.
- the sub-power line 211 and the first conductor that overlap the orthographic projection of the main body portion 413 on the substrate 100 can be arranged in a cross shape.
- the center of the cross-shaped structure formed by the sub power line 211 and the first conductive line 2121 in the orthographic projection overlaps with the center of the main body portion 413.
- the sub-power line 211 and the first conductive line 2121 that overlap the orthographic projection of the main body portion 413 on the substrate 100 may also be in the shape of a m-shaped, a tic-shaped, a I-shaped, a II-shaped and a III-shaped.
- the embodiments of the present disclosure include but are not limited thereto.
- the aforementioned sub-power line 211 and the first conductive line 2121 that overlap the orthographic projection of the main body portion 413 on the substrate 100 may also have other shapes.
- the conduction line may include a second conduction line 2122.
- a second conduction line 2122 is provided between the two second-color sub-pixels 021 and 022 in the second-color sub-pixel 020 pair.
- the orthographic projection of each second color sub-pixel 021 and 022 on the substrate 100 and the orthographic projection of the second conductive line 2122 on the substrate 100 do not overlap.
- the second conducting wire 2122 extends in a linear shape along the first direction F1.
- the shape of the body portion 413 in the second color sub-pixels 021 and 022 is approximately a pentagon, and the symmetry axis of the pentagon is approximately parallel to the second direction.
- the embodiments of the present disclosure include but are not limited thereto.
- the shape of the main body portion 413 and the implementation of the second conducting wire 2122 may also be other shapes.
- the third color sub-pixel 030 for the third color sub-pixel 030 and the second color sub-pixel pair 020 in the same repeating unit 001, the third color sub-pixel 030
- the main body part 413 overlaps the orthographic projection of the substrate 100 along the first conductive line 2121 and the second conductive line 2122 disposed between the two second color sub-pixels 021 and 022 in the second color sub-pixel pair 020.
- the first direction F1 extends substantially on the same straight line.
- the conduction line may include a third conduction line 2123; the first color sub-pixel 010 and the adjacent repeating unit group 002
- a third conduction line 2123 is provided between the third color sub-pixel 030 nearest to the first color sub-pixel 010 in the unit group 002.
- the third conductive line 2123 is located on the side of the main portion 413 of the corresponding third color sub-pixel 030 away from the auxiliary portion 423.
- the orthographic projection of the main body portion 411 in the first color sub-pixel 010 on the substrate 100 and the orthographic projection of the main body portion 413 in the third color sub-pixel 030 on the substrate 100 are the same as those of the third conducting line 2123 on the substrate 100.
- the projections do not overlap.
- the third conducting line 2123 may be at least one of a broken line shape and a curved shape.
- the embodiments of the present disclosure include but are not limited to this, and the above-mentioned implementation of the third conducting wire 2123 may also have other shapes.
- the third conductive line 2123 may include: a first conductive portion 2123-1 and a second conductive portion 2123 that are electrically connected to each other. 2; Wherein, the first conductive portion 2123-1 extends along the first direction F1, and the second conductive portion 2123-2 extends along the direction crossing the first direction F1. Moreover, the extension direction of the second conductive portion 2123-2 is not perpendicular to the extension direction of the first conductive portion 2123-1, and may be 45°, for example.
- the orthographic projection of the main body portion 411 on the substrate 100 intersects the nearest sub-power line 211
- the size of the stack is less than 80% of the width of the sub power line 211 in the first direction F1.
- the overlap size of the orthographic projection of the main body portion 411 on the substrate 100 with the nearest neighboring sub power line 211 is less than 70%, 50%, and 20% of the width of the sub power line 211 in the first direction F1.
- the orthographic projection area of the main body portion 411 on the substrate 100 is smaller than that of the main body portion 411. 10%.
- the area of the orthographic projection of the main body portion 411 on the substrate 100 is smaller than one of 8%, 5%, and 2% of the area of the main body portion 411.
- the orthographic projection of the main body portion 411 on the substrate 100 and the first power line 210 on the substrate 100 do not overlap. That is, the orthographic projection of the main body portion 411 on the substrate 100 and the orthographic projection of the sub-power line 211 on the substrate 100 do not overlap, and the orthographic projection of the main body portion 411 on the substrate 100 and the orthographic projection of the conductive lines 212 on the substrate 100 do not overlap. .
- the main body portion 411 can be made as flat as possible, especially the main body portion 411 in the effective light-emitting area is as flat as possible, thereby improving the asymmetry of the effective light-emitting area of the first color sub-pixel 010, and even eliminates the problem of the effective light-emitting area.
- the asymmetry of light emission can improve or even eliminate the color shift of the display panel.
- the main body portion 411 in the first color sub-pixel 010 may have a third symmetry axis along the second direction F2.
- the shape of the main body portion 411 in the first color sub-pixel 010 is approximately a hexagon or an ellipse, and the long axis of symmetry of the hexagon or the long axis of the ellipse is approximately parallel to the second direction F2, and the The long axis of symmetry of the hexagon or the long axis of the ellipse serves as the third axis of symmetry.
- the embodiments of the present disclosure include but are not limited to this.
- the sub power line 211 of the main body portion 411 in the nearest neighboring first color sub-pixel 010 is orthographically projected
- the sub power line 211 that has the first width W1 and is located in the third color sub-pixel 030 by the orthographic projection of the main body portion 413 has a second width W2; the first width W1 is smaller than the second width W2.
- the sub power line 211 of the orthographic projection nearest to the main body portion 411 can have the first width W1, so that the sub power line 211 can be avoided to be arranged around the main body portion 411, so that the main body portion 411 is not disposed underneath.
- the sub power line 211 makes the main body part 411 as flat as possible, thereby improving or even eliminating the color shift of the display panel.
- the width of the sub power line 211 here can be made as wide as possible to further reduce the resistance.
- the widths of the sub power lines 211 located on both sides of the long axis of the main body portion 411 of the first color sub pixel 010 are different, and The width of the sub power line 211 nearest to the first color sub pixel 010 is smaller than the width of the other side sub power line.
- the orthographic projection of the main part on the substrate overlaps with the nearest sub-power line
- the size of is less than 80% of the width of the sub power line in the first direction.
- the overlap size of the main body portion 4121 in the second color sub-pixel 021 on the substrate 100 with the nearest neighboring sub power line 211 is less than 80% of the width of the sub power line 211 in the first direction F1.
- the overlap size of the orthographic projection of the main body portion 4121 on the substrate 100 and the nearest neighboring sub power line 211 is smaller than one of 70%, 50%, and 20% of the width of the sub power line 211 in the first direction F1.
- the overlap size of the main body portion 4122 of the second color sub-pixel 022 on the substrate 100 with the nearest neighboring sub power line 211 is less than 80% of the width of the sub power line 211 in the first direction F1.
- the overlap size of the orthographic projection of the main body portion 4122 on the substrate 100 with the nearest neighboring sub power line 211 is smaller than one of 70%, 50%, and 20% of the width of the sub power line 211 in the first direction F1.
- the orthographic projection of the main body portion on the substrate is less than 10% of the area of the main body portion.
- the orthographic projection of the main body portion 4121 in the second color sub-pixel 021 on the substrate 100 is less than 10% of the area of the main body portion 4121.
- the area of the orthographic projection of the main body portion 4121 on the substrate 100 is smaller than one of 8%, 5%, and 2% of the area of the main body portion 4121.
- the area of the orthographic projection of the main body portion 4122 on the substrate 100 is less than one of 8%, 5%, and 2% of the area of the main body portion 4122.
- the orthographic projection of the main body on the substrate and the orthographic projection of the first power line on the substrate do not overlap.
- the orthographic projection of the main body portion 4121 in the second color sub-pixel 021 on the substrate 100 and the orthographic projection of each sub-power line 211 on the substrate 100 do not overlap, and the orthographic projection of the main body portion 4121 on the substrate 100 and each guide The orthographic projection of the via 212 on the substrate 100 does not overlap. This can make the body portion 4121 as flat as possible, especially the body portion 4121 located in the effective light-emitting area as flat as possible.
- the asymmetry of light emission can improve or even eliminate the color shift of the display panel.
- the orthographic projection of the main body 4122 on the substrate 100 and the orthographic projection of the sub-power lines 211 on the substrate 100 do not overlap, and the orthographic projection of the main body 4122 on the substrate 100 and the conductive lines 212 The orthographic projections on the substrate 100 do not overlap.
- the asymmetry of light emission can improve or even eliminate the color shift of the display panel.
- the orthographic projection of the main part of the third color sub-pixel on the substrate and the orthographic projection of the first power line on the substrate may not overlap.
- the orthographic projection of the main part of the second color sub-pixel on the substrate and the orthographic projection of the first power line on the substrate do not overlap.
- the orthographic projection of the main part of the third color sub-pixel on the substrate and the orthographic projection of the first power line on the substrate do not overlap. In this way, in each sub-pixel, the orthographic projection of the main part on the substrate and the orthographic projection of the second conductive layer on the substrate do not overlap. In this way, each main body part can be made as flat as possible, thereby improving or even eliminating the color shift of the display panel.
- At least part of the sub power lines of the orthographic projection of the main body part in the nearest neighboring second color sub-pixel has a third width
- the third The width is smaller than the second width.
- at least a part of the sub power lines 211 on the side of the main body portion 4121 that is in the orthographic projection nearest to the second color sub-pixel 021 has a third width W3, and W3 ⁇ W2.
- the sub-power supply line 211 on the orthographic projection side surrounding the main body portion 4121 of the second color sub-pixel 021 has a third width W3.
- the sub power cord 211 can be avoided to be arranged around the main body portion 4121, so that no sub power cord 211 is placed under the main body portion 4121, and the main body portion 4121 is as flat as possible, thereby improving or even eliminating the color shift of the display panel.
- the width of the sub power line 211 here can be made as wide as possible to further reduce the resistance.
- the sub power lines 211 on the side of the main body part 4122 in the orthographic projection nearest to the second color sub-pixel 022 has the third width W3, and W3 ⁇ W2.
- the sub-power line 211 on the orthographic projection side surrounding the main body portion 4122 in the second color sub-pixel 022 has the third width W3.
- the sub power cord 211 can be avoided to surround the main body 4122, so that no sub power cord 211 is placed under the main body 4122, and the main body 4122 is as flat as possible, thereby improving or even eliminating the color shift of the display panel.
- the width of the sub power line 211 here can be made as wide as possible to further reduce the resistance.
- via holes are provided in the insulating layer to avoid the influence of the via holes on the main body.
- the orthographic projection of the main body portion on the substrate and the orthographic projection of the first via 310 on the substrate 100 do not overlap.
- the orthographic projection of the effective part of the main body portion on the substrate and the orthographic projection of the first via 310 on the substrate 100 may not overlap, and the orthographic projection of the peripheral area of the main body on the substrate and the first via 310
- the orthographic projection of the substrate 100 overlaps, and the area of the overlapped area may be 30% of the area of the main body portion.
- the orthographic projection of the effective light-emitting regions 90-010 of the first color sub-pixel 010 on the substrate and the orthographic projection of the first via 310 on the substrate 100 may not overlap. It is also possible that the orthographic projection of the effective light-emitting regions 90-030 of the third color sub-pixel 030 on the substrate and the orthographic projection of the first via 310 on the substrate 100 do not overlap. It is also possible that the orthographic projection of the effective light-emitting regions 90-021 of the second color sub-pixel 021 on the substrate and the orthographic projection of the first via 310 on the substrate 100 do not overlap. It is also possible that the orthographic projection of the effective light-emitting regions 90-022 of the second color sub-pixel 022 on the substrate and the orthographic projection of the first via 310 on the substrate 100 do not overlap.
- the orthographic projection of the second via 520 on the substrate 100 and The orthographic projection of the first via 310 on the substrate 100 does not overlap. In this way, the problem that the anode cannot be electrically connected to the second connection line due to the too deep via hole can be avoided.
- the orthographic projection of the effective portion of the second via 520 on the substrate and the orthographic projection of the first via 310 on the substrate 100 may not overlap, and the orthographic projection of the peripheral area of the second via 520 on the substrate may be
- the peripheral area of the first via 310 overlaps in the orthographic projection of the substrate 100, and the area of the overlap area may be 30% of the area of the first via 310 or the second via 520.
- the orthographic projection of the first via 310 on the substrate 100 is approximately close to the main portion 413 on the substrate 100. projection.
- the orthographic projection of the second via 520 on the substrate 100 is located on the orthographic projection of the first via 310 on the substrate 100 away from the main body 413 on the orthographic projection of the substrate 100.
- the first via 310 and the second via 520 are located at the lower left of the main body portion 413, and the second via 520 is located below the first via 310.
- the auxiliary part 423 in the third color sub-pixel 030 in one repeating unit group and the main part 411 in the first color sub-pixel 010 in the adjacent repeating unit group that are nearest to the third color sub-pixel 030 can be avoided from short-circuiting. , Which can reduce the short-circuit phenomenon of the display panel.
- the orthographic projection of the first via hole 310 on the substrate 100 is substantially away from the main portion 411 on the substrate. 100 orthographic projection.
- the orthographic projection of the second via 520 on the substrate 100 is located between the orthographic projection of the first via 310 on the substrate 100 and the orthographic projection of the main body portion 411 on the substrate 100.
- the first via 310 and the second via 520 are located at the lower right of the main body portion 411, and the first via 310 is located under the second via 520.
- the first via 310 of the first second color subpixel 021 in the second color subpixel 020 pair is in the substrate
- the orthographic projection of 100 is approximately close to the orthographic projection of the main body portion 4121 on the substrate 100, and in the second direction F2, the orthographic projection of the second via 520 on the substrate 100 is located away from the orthographic projection of the first via 310 on the substrate 100.
- 4121 is on the orthographic projection side of the substrate 100.
- the first via hole 310 and the second via hole 520 are located at the upper left of the main body portion 4121, and the first via hole 310 is located below the second via hole 520.
- the first via 310 of the second second color subpixel 022 in the second color subpixel 020 pair is in the substrate
- the orthographic projection of 100 is substantially away from the orthographic projection of the main body part 4122 on the substrate 100, and in the second direction F2, the orthographic projection of the second via 520 on the substrate 100 is located between the orthographic projection of the first via 310 on the substrate 100 and the main body part. 4122 is between the orthographic projection of the substrate.
- the first via hole 310 and the second via hole 520 are located at the lower left of the main body portion 4122, and the first via hole 310 is located under the second via hole 520.
- the first via 310 and the second via 310 of the first color sub-pixel 010 in the repeating unit group 002 is arranged on the same straight line along the first direction F1.
- the first via 310 of the first color sub-pixel 010 in the second row of the repeating unit group 002, the first via 310 of the second second color sub-pixel 022, and the repeating unit of the third row The first vias 310 of the first second color sub-pixel 021 in the group 002, the three first vias 310 are arranged on the same straight line along the first direction F1, so as to reduce the preparation of the three first vias 310 Difficulty in design of the mask used at the time.
- the first via 310 of the first color sub-pixel 010 and the second color sub-pixel pair 020 are arranged on the same straight line along the first direction F1.
- FIG. 9 only illustrates the implementation of the main part, the auxiliary part, and the two sub-power lines in the third color sub-pixel 030.
- FIG. 9 only illustrates the implementation of the remaining film layers, please refer to the above-mentioned embodiments, which will not be repeated here.
- the orthographic projection of the main body portion 413 on the substrate 100 and at least two sub-power lines 211 on the substrate are arranged in parallel and at equal intervals.
- the main body portion 413 has a second axis of symmetry along the second direction F2.
- the third color sub-pixel 030 at least two sub power lines 211 that overlap the orthographic projection of the main body portion 413 on the substrate 100 are located relative to the first
- the two symmetry axes are substantially axisymmetrically arranged on both sides of the center of the main body portion 413.
- the orthographic projection of the main body part 413 on the substrate 100 covers the orthographic projection of the two sub power lines 211 on the substrate 100. In this way, the first insulating layer is supported by the sub power line 211, so that the main body 413 is as flat as possible, and the asymmetry of the main body 413 can be reduced.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the embodiments of the present disclosure also provide some structural schematic diagrams of electroluminescent display panels, as shown in FIGS. 11 to 10, which are modified with respect to the foregoing embodiments. The following only describes the differences between this embodiment and the above-mentioned embodiments, and the similarities are not repeated here.
- the third direction F3 may be the same as the second direction F2, and the fourth direction F4 may be the same as the first direction F1.
- the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2, and the body portion 411 of the first color sub-pixel 010 is in the first direction.
- the size in one direction F1 is larger than the size in the second direction F2 of the main portion 411 of the first color sub-pixel 010.
- the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1 is smaller than the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1.
- the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 is smaller than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2.
- the embodiments of the present disclosure include but are not limited thereto, and the relationship between the above-mentioned dimensions may also be in other forms.
- the orthographic projection of the main body portion 411 on the substrate 100 overlaps the orthographic projection of the at least two sub-power lines 211 on the substrate 100 , And at least two sub power lines 211 overlapping with the orthographic projection of the main body portion 411 on the substrate 100 are arranged in parallel and at equal intervals.
- the main body portion 411 has a third symmetry axis along the second direction F2, and in the first color sub-pixel 010, at least two sub power lines 211 that overlap with the orthographic projection of the main body portion 411 on the substrate 100 are located relative to
- the third symmetry axis is substantially axisymmetrically arranged on both sides of the center of the main body portion 411.
- the orthographic projection of the main body portion 411 on the substrate 100 overlaps the orthographic projection of the two sub power lines 211 on the substrate 100. In this way, the first insulating layer is supported by the sub power line 211, so that the main body portion 411 is as flat as possible, and the asymmetry of the main body portion 411 can be reduced.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the orthographic projection of the main body portion 413 on the substrate 100 overlaps the orthographic projection of the at least two sub-power lines 211 on the substrate 100 , And at least two sub power lines 211 overlapping with the orthographic projection of the main body 413 on the substrate 100 are arranged in parallel and at equal intervals. Further, the main body portion 413 has a second axis of symmetry along the second direction F2.
- the third color sub-pixel 030 at least two sub power lines 211 that overlap the orthographic projection of the main body portion 413 on the substrate 100 are located relative to the first
- the two symmetry axes are substantially axisymmetrically arranged on both sides of the center of the main body portion 413.
- the orthographic projection of the main body part 413 on the substrate 100 overlaps the orthographic projection of the two sub power lines 211 on the substrate 100.
- the first insulating layer is supported by the sub power line 211, so that the main body portion 413 is as flat as possible, and the asymmetry of the main body portion 413 can be reduced.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the orthographic projection of the first via 310 on the substrate 100 is substantially away from the orthographic projection of the main portion 413 on the substrate 100, and The orthographic projection of the second via 520 on the substrate 100 is located within the orthographic projection of the main body portion 413 on the substrate 100.
- the first via 310 and the second via 520 of the third color sub-pixel 030 are arranged on the same straight line along the second direction F2. It should be noted that FIG. 12 only illustrates the positional relationship of the main part 410, the first via 310, and the second via 520 in each color sub-pixel. For the implementation of the remaining layers, please refer to other embodiments of the present disclosure. I won't repeat them here.
- the orthographic projection of the first via 310 on the substrate 100 is substantially away from the orthographic projection of the main body portion 411 on the substrate 100; and
- the orthographic projection of the second via 520 on the substrate 400 is located within the orthographic projection of the main body portion 411 on the substrate 100.
- the first via 310 and the second via 520 of the first color sub-pixel 010 are arranged on the same straight line along the second direction F2.
- the orthographic projection of the first via 310 of the first second color subpixel 021 in the second color subpixel 020 pair on the substrate 100 is approximately close to The orthographic projection of the main body portion 4121 on the substrate 100, and in the second direction F2, the orthographic projection of the second via 520 on the substrate 100 is located at the orthographic projection of the first via 310 on the substrate 100 away from the orthographic projection of the main portion 4121 on the substrate 100 Projection side.
- the first via 310 and the second via 520 of the first second color sub-pixel 021 are located at the upper left corner of the main body portion 4121, that is, the first via 310 and the second via 520 in the dashed frame 04121 .
- the orthographic projection of the first via 310 of the second second color sub-pixel 022 in the second color sub-pixel 020 pair on the substrate 100 is approximately close to The orthographic projection of the main body portion 4122 on the substrate 100, and in the second direction F2, the orthographic projection of the second via 520 on the substrate 100 is located at the orthographic projection of the first via 310 on the substrate 100 away from the orthographic projection of the main portion 4122 on the substrate 100 Projection side.
- the first via 310 and the second via 520 of the second second color sub-pixel 022 are located at the upper right corner of the main body portion 4122, that is, the first via 310 and the second via 520 in the dashed frame 04122 .
- the first via 310 and the second color of the first color sub-pixel 010 in the same row of repeating units are arranged on the same straight line along the first direction F1.
- the three first vias 310 are arranged on the same straight line along the first direction F1, so as to reduce the design difficulty of the mask used when preparing the three first vias 310.
- the first via 310 of the third color sub-pixel 030 in the same row of repeating units are arranged on the same straight line along the first direction F1.
- the first via 310 and the second color of the first color sub-pixel 010 in the same row of repeating units are arranged on the same straight line along the first direction F1.
- the three first vias 310 are arranged on the same straight line along the first direction F1, so as to reduce the design difficulty of the mask used when preparing the three first vias 310.
- the first via 310 of the third color sub-pixel 030 in the same row of repeating units are arranged on the same straight line along the first direction F1.
- the first via 310 of the first-color sub-pixel 010 and the second via 520 of the third-color sub-pixel 030 are arranged on the same straight line along the first direction F1.
- FIG. 11 only illustrates the embodiment of the main part and the sub-power supply line in each color sub-pixel, and the implementation of the remaining film layers can be referred to the above-mentioned embodiment, which will not be repeated here.
- Fig. 12 only illustrates the implementation of the main part, the first via hole and the second via in each color sub-pixel.
- the remaining film layers please refer to the above-mentioned embodiments, which will not be repeated here.
- the data line and the power line can be prepared on the driving circuit before the anode is prepared, then the flat layer is prepared, and then the anode is prepared.
- the thickness of the signal line made of the source and drain metal layer is relatively large, and the flat layer on the signal line made of the source and drain metal layer cannot be completely flattened, resulting in unevenness of the anode on the flat layer and the light-emitting layer on the anode , Resulting in asymmetric protrusions on the anode and the light-emitting layer on the anode, resulting in color shift when viewed from the left and right sides of the normal line of the display panel at the same angle as the normal line of the display panel.
- the embodiments of the present disclosure provide some electroluminescent display panels, as shown in FIG. 13 and FIG. 14, which may include a plurality of repeating units 001, each repeating unit 001 includes a plurality of sub-pixels, and each sub-pixel may include: The first conductive layer 200 on the substrate 100, the first insulating layer 300 on the first conductive layer 200, and the anode 400 on the first insulating layer 300. Also, the first insulating layer 300 includes a first via 310, and the anode 400 includes a main portion 410 and an auxiliary portion 420 electrically connected to each other.
- the first via 310 exposes a part of the first conductive layer 200, and the auxiliary portion 420 is electrically connected to the first conductive layer 200 through the first via 310.
- at least one of the multiple repeating units may include: a first color sub-pixel 010, a second color sub-pixel, and a third color sub-pixel 030; wherein, the area of the main part 413 of the third color sub-pixel 030 is larger than that of the second color sub-pixel 030.
- the overlapping area of the body portion 413 of the third color subpixel 030 and the first conductive layer 200 is larger than the overlapping area of the body portion of the second color subpixel and the first conductive layer 200, and the body portion of the third color subpixel 030
- the overlapping area of 413 and the first conductive layer 200 is larger than the overlapping area of the body portion 411 of the first color sub-pixel 010 and the first conductive layer 200.
- the first conductive layer 200 may have a hollow pattern, and the part of the hollow pattern overlapping with the orthographic projection of the main body portion 410 on the substrate 100 is configured such that at least the central area AA of the main body portion 410 is substantially flat.
- FIG. 13 only shows the main part of each sub-pixel.
- the auxiliary part please refer to the above-mentioned embodiment, and the above is only the third color sub-pixel for illustration. By analogy, I won’t repeat them here.
- the embodiment of the present disclosure provides an electroluminescent display panel, by making the first conductive layer that overlaps the front projection of the main body portion on the substrate substantially axisymmetric along at least one symmetry axis.
- the main body part can have symmetrical protrusions, so that the areas of the main body part on both sides of the symmetry axis are symmetrically arranged, thereby reducing the asymmetry of the main body part.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the first conductive layer 200 includes: a first bridge line, a first connection line 710, and a plurality of signal line groups arranged at intervals along the first direction 720; wherein, in each sub-pixel, the auxiliary portion 420 is electrically connected to the first connection line 710 through the first via 310; each signal line group 720 includes at least two different signal lines 721, 722, the signal lines 721, 722 along The second direction F2 extends; the first direction F1 is different from the second direction F2.
- the orthographic projection of the main body part on the substrate overlaps the orthographic projection of the at least one signal line group 720 on the substrate; and, the signal line in the signal line group that overlaps the orthographic projection of the main part on the substrate
- the center line along the second direction is approximately axisymmetric with respect to the symmetry axis of the main body portion along the second direction.
- the first connection line may be electrically connected to the drain of the transistor in the driving circuit to realize signal transmission.
- the first bridge line is configured to electrically connect at least two electrodes among the source, drain, and gate lines of some transistors in the driving circuit to realize signal transmission. It should be noted that FIG. 13 only illustrates the embodiment of the main part and the signal line group in each color sub-pixel, and the implementation of the remaining film layers can be referred to the above-mentioned embodiments, which will not be repeated here.
- each signal line group 720 may include two signal lines 721 and 722.
- the signal line group 720 may include a data line 721 configured to transmit a data signal and a power line 722 configured to transmit a driving voltage.
- the embodiments of the present disclosure include but are not limited to this.
- the number of signal lines that can be included in the above-mentioned signal line group can also be other numbers.
- each of the multiple repeating units 001 may include: one first color sub-pixel 010 and one second color sub-pixel arranged along the third direction F3 Pixel pair 020 and a third color sub-pixel 030.
- the second color sub-pixel pair 020 may include two second-color sub-pixels 021 and 022 arranged along the fourth direction F4.
- the first color sub-pixel 010 is configured to emit light of the first color
- the second color sub-pixels 021 and 022 are configured to emit light of the second color
- the third color sub-pixel is configured to emit light of the third color.
- the first color, the second color, and the third color can be selected from red, green, and blue.
- the first color is blue, the second color is green, and the third color is red; or, the first color is red, the second color is green, and the third color is blue.
- the repeating unit 001 is an arrangement structure of red, green and blue sub-pixels.
- the embodiments of the present disclosure include but are not limited to this.
- the aforementioned first color, second color, and third color may also be other colors.
- the third direction F3 is the same as the first direction F1
- the fourth direction F4 is the same as the second direction F2
- the main part 413 of the third color sub-pixel 030 The size in the second direction F2 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1; the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 is larger than the size of the first color The size of the body portion 411 of the sub-pixel 010 in the first direction F1.
- the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1.
- the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 is smaller than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2.
- the first color may be blue
- the second color may be green
- the third color may be red.
- the main body is set in a regular shape.
- the main body portion 411 in the first color sub-pixel 010 has a third symmetry axis along the second direction F2, and the main body portion 411 may be axisymmetric about the third symmetry axis.
- the shape of the body portion 411 in the first color sub-pixel 010 is approximately a hexagon or an ellipse, and the long axis of symmetry of the hexagon or the long axis of the ellipse is approximately parallel to the second direction F2.
- the long axis of symmetry of the shape or the long axis of the ellipse serves as the third axis of symmetry of the main body portion 411.
- the body portion 4121 of the second color sub-pixel 021 and the body portion 4122 of the second color sub-pixel 022 in the same second color sub-pixel pair 022 are approximately axisymmetric through the fourth axis of symmetry along the second direction F2 . That is, the main body portion 4121 and the main body portion 4122 in the same second color sub-pixel pair 022 are axisymmetric about the fourth symmetry axis.
- the shape of the body portions 4121, 4122 in the second color sub-pixels 021, 022 is approximately a pentagon, and the symmetry axis of the pentagon is approximately parallel to the second direction F2.
- the body portion 413 of the third color sub-pixel 030 has a second axis of symmetry along the second direction F2, and the body portion 413 may be axisymmetric with respect to the second axis of symmetry.
- the shape of the body portion 413 in the third color sub-pixel 030 is approximately a hexagon or an ellipse, and the long axis of symmetry of the hexagon or the long axis of the ellipse is approximately parallel to the second direction F2.
- the long axis of symmetry of the shape or the long axis of the ellipse serves as the second axis of symmetry of the main body 413.
- the orthographic projection of the main body portion 411 on the substrate 100 and at least one signal line group 720 on the front of the substrate 100 overlap.
- the signal lines in the signal line group 200 that overlap the orthographic projection of the main body portion 411 on the substrate 100 are substantially axisymmetric about the third symmetry axis along the center line of the second direction F2.
- the orthographic projection of the main body portion 411 on the substrate 100 overlaps the orthographic projection of a signal line group 720 on the substrate 100.
- the signal lines 721 and 722 in the signal line group 200 that overlap the orthographic projection of the main body portion 411 on the substrate 100 are approximately axisymmetric about the first symmetry axis.
- the main body portion 411 can have two symmetrical protrusions, so that the areas of the main body portion 411 on both sides of the first symmetry axis are symmetrically arranged, thereby reducing the asymmetry of the main body portion 411.
- the asymmetry of light emission in the effective light-emitting area 90 can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the data line and the power line in a signal line group can be The distance is smaller than the distance between two adjacent signal line groups.
- the distance between the data line and the power line in a signal line group and the distance between two adjacent signal line groups can be designed and determined according to the actual application environment, which is not limited here.
- the orthographic projection of the main body portion 413 on the substrate 100 and the orthographic projection of the nearest neighbor signal line group 200 on the substrate 100 The overlapping area is less than 10% of the area of the main body portion 413.
- the overlapping area of the orthographic projection of the main body portion 413 on the substrate 100 and the orthographic projection of the nearest signal line group 200 on the substrate 100 is less than one of 8%, 5%, and 2% of the area of the main body portion 413.
- the orthographic projection of the main body portion 413 on the substrate 100 and the orthographic projection of the signal line group 200 on the substrate 100 do not overlap.
- the signal lines 721 and 722 are not provided under the main body 413, and the main body 413 is as flat as possible.
- the asymmetry of light emission in the effective light-emitting area can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- via holes are provided in the insulating layer to avoid the influence of the via holes on the main body.
- the orthographic projection of the main body portion 410 on the substrate 100 and the orthographic projection of the first via 310 on the substrate 100 do not overlap .
- the orthographic projection of the main body portion 411 in the first color sub-pixel 010 on the substrate 100 and the orthographic projection of the first via 310 on the substrate 100 do not overlap.
- the orthographic projection of the main body portions 4121 and 4122 in the second color sub-pixels 021 and 022 on the substrate 100 and the orthographic projection of the first via 310 on the substrate 100 do not overlap.
- the orthographic projection of the main body portion 413 in the third color sub-pixel 030 on the substrate 100 and the orthographic projection of the first via 310 on the substrate 100 do not overlap.
- the first via 310 and the second color subpixel 020 of the third color subpixel 030 in the repeating unit group are centered
- the first via 310 of the second second color sub-pixel 022 and the first via 310 of the first second color sub-pixel 021 in the second color sub-pixel pair 020 adjacent to the repeating unit group The first direction F1 is arranged on the same straight line.
- the first via 310 of the third color sub-pixel 030 in the repeating unit group 002 of the first row, the first via 310 of the second second color sub-pixel 022, and the repeating unit of the second row The first vias 310 of the first second color sub-pixel 021 in the group 002, the three first vias 310 are arranged on the same straight line along the first direction F1, so as to reduce the preparation of the three first vias 310 Difficulty in design of the mask used at the time.
- the embodiments of the present disclosure also provide some structural schematic diagrams of electroluminescent display panels, as shown in FIG. 15, which are modified with respect to the foregoing embodiments. The following only describes the differences between this embodiment and the above-mentioned embodiments, and the similarities are not repeated here.
- the first conductive layer 200 includes: a first bridge line 230, a first connection line 710, and a plurality of signal line groups 720 arranged at intervals along the first direction; Among them, in each sub-pixel, the auxiliary part 420 is electrically connected to the first connection line 710 through the first via 310; each signal line group 720 includes at least two signal lines 721 and 722, and the signal lines 721 and 722 are along the second direction F2 Extension; the first direction F1 is different from the second direction F2.
- the first connection line may be electrically connected to the drain of the transistor in the driving circuit to realize signal transmission.
- the first bridge connection 230 is configured to electrically connect at least two electrodes among the source, drain, and gate lines of some transistors in the driving circuit to realize signal transmission. It should be noted that FIG. 15 only illustrates the embodiment of the main part, the signal line group, and the first bridge wire 230 in each color sub-pixel. The other film layers are the embodiments of the embodiment, which is not repeated here.
- the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1 is larger than that of the body portion 413 of the first color sub-pixel 010 in the first direction.
- the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2 is smaller than the size of the body portion 413 of the first color sub-pixel 010 in the second direction F2.
- the first color may be red
- the second color may be green
- the third color may be blue.
- the orthographic projection of the main body portion 411 on the substrate 100 and the orthographic projection of the at least one signal line group 720 on the substrate Overlapped and in the first color sub-pixel 010, the signal lines in the signal line group 200 that overlap the orthographic projection of the main body portion 411 on the substrate 100 are along the second direction F2.
- the third axis of symmetry is roughly axisymmetric.
- the orthographic projection of the main body portion 411 on the substrate 100 overlaps the orthographic projection of a signal line group 720 on the substrate, and the signal lines 721 and 722 that overlap the orthographic projection of the main body portion 411 on the substrate 100 are about the third symmetry axis. It is roughly axisymmetric.
- the main body portion 411 can have two symmetrical protrusions, so that the areas of the main body portion 411 on both sides of the third symmetry axis are symmetrically arranged, so that the asymmetry of the main body portion 411 can be reduced.
- the asymmetry of light emission in the effective light-emitting area 90 can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, thereby improving or even eliminating the color shift of the display panel.
- the orthographic projection of the main body portion 413 on the substrate 100 and at least one signal line group 720 on the front of the substrate 100 The projection and the orthographic projection of the at least one first bridge line 230 on the substrate 100 overlap.
- the signal line in the signal line group 200 that overlaps the orthographic projection of the main body portion 413 on the substrate 100 along the center line of the second direction F2 and the first bridge line 230 along the second direction F2 The center line is approximately axisymmetric with respect to the second axis of symmetry of the body portion 413 along the second direction F2.
- the effective light-emitting area of the main body portion 413 may also have two symmetrical protrusions, so that the areas of the main body portion 413 on both sides of the second symmetry axis are symmetrically arranged, thereby reducing the asymmetry of the main body portion 413.
- the asymmetry of light emission in the effective light-emitting area 90 can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the embodiments of the present disclosure also provide some structural schematic diagrams of electroluminescent display panels, as shown in FIG. 17, which are modified with respect to the foregoing embodiments. The following only describes the differences between this embodiment and the above-mentioned embodiments, and the similarities are not repeated here.
- the third direction F3 may be the same as the second direction F2, and the fourth direction F4 may be the same as the first direction F1; the third color sub-pixel 030
- the size of the body portion 413 in the first direction F1 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2, and the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1 is larger than The size of the body portion 411 of the first color sub-pixel 010 in the second direction F2.
- the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 is smaller than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2.
- the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1 is larger than the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1.
- the first color may be red
- the second color may be green
- the third color may be blue.
- the size of the body portion 411 of the first color sub-pixel 010 in the second direction F2 may also be larger than the size of the body portion 413 of the third color sub-pixel 030 in the second direction F2.
- the size of the body portion 411 of the first color sub-pixel 010 in the first direction F1 may also be smaller than the size of the body portion 413 of the third color sub-pixel 030 in the first direction F1.
- the first color may be blue
- the second color may be green
- the third color may be red.
- the orthographic projection of the main body portion 411 on the substrate 100 and the two adjacent signal line groups 720 on the front of the substrate 100 Projections overlap; and in the first color sub-pixel 010, the position of the two signal line groups 720 that overlap the orthographic projection of the main body portion 411 on the substrate 100 is approximately about the third symmetry axis of the main body portion 411 along the second direction F2. Axisymmetric.
- the main body portion 411 can have two protrusions approximately symmetrical about the third symmetry axis, so that the areas of the main body portion 411 on both sides of the third symmetry axis are symmetrically arranged, thereby reducing the asymmetry of the main body portion 411.
- the asymmetry of light emission in the effective light-emitting area 90 can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the orthographic projection of the main body portion 413 on the substrate 100 and the two adjacent signal line groups 720 on the front of the substrate 110 Projections overlap; and in the third color sub-pixel 030, the position of the two signal line groups 720 that overlap the orthographic projection of the main body portion 413 on the substrate 100 is approximately about the second symmetry axis of the main body portion 413 along the second direction F2. Axisymmetric.
- the main body portion 413 can have two protrusions approximately symmetrical about the second symmetry axis, so that the areas of the main body portion 413 on both sides of the second symmetry axis are symmetrically arranged, and the main body portion 413 is supported so that the main body portion 413 is exhausted. Probably flat. Thereby, the asymmetry of the main body part 413 can be reduced. As a result, the asymmetry of light emission in the effective light-emitting area 90 can be improved, and even the asymmetry of light emission in the effective light-emitting area can be eliminated, so that the color shift phenomenon of the display panel can be improved or even eliminated.
- the orthographic projection of the main body portion 413 on the substrate 100 covers a first bridge line 230 on the substrate 100.
- Orthographic projection; and the first bridge line 230 that overlaps the orthographic projection of the main body portion 413 on the substrate 100 is approximately axisymmetric about the second symmetry axis of the main body portion 413 along the second direction F2.
- the main body portion 413 can be supported by the first bridge wire 230 and the signal line group 720, so that the main body portion 413 is as flat as possible, thereby improving the asymmetry of the effective light-emitting area 90, and even eliminates the light emission of the effective light-emitting area.
- the asymmetry can improve or even eliminate the color cast of the display panel.
- the orthographic projection of the main body portion 4121 on the substrate 100 and a signal line group 720 on the front of the substrate 100 overlap.
- the orthographic projection of the main body portion 4122 on the substrate 100 overlaps the orthographic projection of a signal line group 720 on the substrate 100.
- two signal line groups 720 overlapping with two second-color sub-pixels 021 and 022 of the same second-color sub-pixel pair 020 are adjacent to each other. That is, the signal line group 720 overlapping the orthographic projection of the main body portion 4121 on the substrate 100 is adjacent to the signal line group 720 overlapping the orthographic projection of the main body portion 4122 on the substrate 100.
- the second color sub-pixel pair 022 has a fourth axis of symmetry along the second direction F2. That is, the main body portion 4121 and the main body portion 4122 in the same second color sub-pixel pair 022 are approximately axisymmetric about the fourth symmetry axis.
- the two signal line groups 720 overlapping the two second-color sub-pixels 021 and 022 of the pair of second-color sub-pixels 020 by orthographic projection are approximately axisymmetrical about the fourth axis of symmetry.
- the signal line group 720 whose orthographic projection overlaps with the main portion 4121 and the signal line group 720 whose orthographic projection overlaps with the main portion 4122 are approximately axisymmetric about the fourth axis of symmetry.
- the first via hole of the first color sub-pixel 010 of one repeating unit in the repeating unit group 310, the first via 310 of the first second color sub-pixel 021 in the second color sub-pixel 020 pair, the first via 310 of the second second color sub-pixel 020, and the first via 310 adjacent to the repeating unit The first via holes 310 of the three-color sub-pixels 030 are arranged on the same straight line along the first direction F1. By arranging the four first via holes 310 on the same straight line along the first direction F1, the design difficulty of the mask used when preparing the four first via holes 310 is reduced.
- the first via 310 and the second via 310 of the first color sub-pixel 010 in the same row of repeating unit 001 are arranged on the same straight line along the first direction F1. This can also reduce the design difficulty of the mask used when preparing the three first via holes 310 in the display panel.
- the first via 310 of the third color sub-pixel 030 in the repeating unit 001 in the same row runs along the first The direction F1 is arranged on the same straight line. This can also reduce the design difficulty of the mask used when preparing the three first via holes 310 in the display panel.
- the first via 310 and the second via 310 of the first color sub-pixel 010 in the same row of repeating unit 001 The first via 310 of the first second color sub-pixel 021 and the first via 310 of the second second color sub-pixel 022 in the color sub-pixel pair 020 are arranged on the same straight line along the first direction F1. This can also reduce the design difficulty of the mask used when preparing the three first via holes 310 in the display panel.
- the first via 310 of the third color sub-pixel 030 in the same row of repeating unit 001 is along the first The direction F1 is arranged on the same straight line. This can also reduce the design difficulty of the mask used when preparing the three first via holes 310 in the display panel.
- FIG. 17 only illustrates the implementation of the signal line group and the main part of each sub-pixel, and the implementation of the remaining film layers can refer to the above-mentioned embodiments, which will not be repeated here.
- FIG. 18 only illustrates the embodiment of the main part, the auxiliary part and the first via 310 in each sub-pixel, and the other film layers are the embodiments, which can be referred to the above-mentioned embodiments, which will not be repeated here.
- the embodiments of the present disclosure also provide a display device, including the above-mentioned electroluminescent display panel provided by the embodiments of the present disclosure.
- the display device can be any product or component with a display function, such as a mobile phone, a tablet computer, a television, a monitor, a notebook computer, a digital photo frame, a navigator, etc.
- the other indispensable components of the display device are understood by those of ordinary skill in the art, and will not be repeated here, nor should they be used as a limitation to the present disclosure.
- the implementation of the display device can refer to the embodiment of the electroluminescent display panel described above, and the repetition is not repeated here.
- the embodiments of the present disclosure provide an electroluminescent display panel and a display device, which can eliminate the asymmetry of light emission, thereby improving or even eliminating the color shift of the display panel.
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Abstract
本公开公开的电致发光显示面板及显示装置,包括:多个重复单元,第一导电层,包括第一过孔的第一绝缘层,包括相互电连接的主体部分和辅助部分的阳极。第一过孔暴露第一导电层的一部分,辅助部分通过第一过孔与第一导电层电连接;多个重复单元中的至少一个包括:第一颜色子像素、第二颜色子像素以及第三颜色子像素;第三颜色子像素的主体部分的面积大于第二颜色子像素的主体部分的面积和第一颜色子像素的主体部分的面积;第三颜色子像素的主体部分与第一导电层交叠的面积大于第二颜色子像素的主体部分与第一导电层交叠的面积,第三颜色子像素的主体部分与第一导电层交叠的面积大于第一颜色子像素的主体部分与第一导电层交叠的面积。
Description
本公开实施例涉及显示技术领域,特别涉及电致发光显示面板及显示装置。
随着显示技术的不断发展,有机发光二极管(Organic Light Emitting Diode,OLED)显示面板因其自发光、广视角、高对比度、低功耗、高反应速度等优点已经越来越多地被应用于各种电子设备中。随着人们对于OLED显示面板的要求的提高,为了实现显示面板中的高分辨率设计,OLED显示面板通常会采用SPR像素排列,即像素借用的方式。
发明内容
本公开实施例提供的电致发光显示面板,包括:
多个重复单元,各所述重复单元包括多个子像素,各所述子像素包括:
第一导电层,位于基板上方;
第一绝缘层,位于所述第一导电层上方,并且包括第一过孔,所述第一过孔暴露所述第一导电层的一部分;
阳极,位于所述第一绝缘层上,并且包括相互电连接的主体部分和辅助部分;所述辅助部分通过所述第一过孔与所述第一导电层电连接;
所述多个重复单元中的至少一个包括:第一颜色子像素、第二颜色子像素以及第三颜色子像素;
所述第三颜色子像素的主体部分的面积大于所述第二颜色子像素的主体部分的面积和所述第一颜色子像素的主体部分的面积;
所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述 第二颜色子像素的主体部分与所述第一导电层交叠的面积,且所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述第一颜色子像素的主体部分与所述第一导电层交叠的面积。
可选地,在本公开实施例中,所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述第二颜色子像素的主体部分与所述第一导电层交叠的面积与所述第一颜色子像素的主体部分与所述第一导电层交叠的面积之和。
可选地,在本公开实施例中,至少一个所述子像素的所述主体部分具有至少一个对称轴,所述主体部分在所述基板的正投影与所述第一导电层在所述基板的正投影交叠;
与所述至少一个所述子像素的所述主体部分在所述基板的正投影交叠的第一导电层位于所述至少一个对称轴两侧的面积比值在1±0.1范围内。
可选地,在本公开实施例中,与所述至少一个所述子像素的所述主体部分在所述基板的正投影交叠的第一导电层沿所述至少一个对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第一导电层包括:相互间隔设置的第一电源线和第一连接线;其中,各所述子像素中,所述辅助部分通过所述第一过孔与所述第一连接线电连接。
可选地,在本公开实施例中,所述多个重复单元中的每个包括:沿第三方向排列的一个所述第一颜色子像素、一个所述第二颜色子像素对以及一个所述第三颜色子像素;其中,所述第二颜色子像素对包括沿第四方向排列的两个所述第二颜色子像素;
所述多个重复单元沿所述第三方向排列形成重复单元组,所述重复单元组沿所述第四方向排列,且相邻两个所述重复单元组中的重复单元错位排列。
可选地,在本公开实施例中,至少一个子像素中,所述主体部分在所述第四方向上的尺寸与所述主体部分在所述第三方向上的尺寸的比值为γ1,γ1的取值范围为1.2~3。
可选地,在本公开实施例中,所述电致发光显示面板还包括:位于所述第一导电层与所述基板之间的第二绝缘层以及位于所述第二绝缘层与所述基板之间的第二导电层;其中,所述第二导电层包括:间隔设置的第二电源线和第二连接线;
所述第二绝缘层具有暴露所述第二连接线的第二过孔以及暴露所述第二电源线的一部分的第三过孔;
所述第一电源线通过所述第三过孔与所述第二电源线彼此电连接;
所述第一连接线通过所述第二过孔与所述第二连接线彼此电连接。
可选地,在本公开实施例中,针对相互电连接的所述第一连接线和所述第二连接线,所述第一连接线在所述基板的正投影与所述第二连接线在所述基板的正投影至少部分交叠;
所述第一电源线在所述基板的正投影与所述第二电源线在所述基板的正投影至少部分交叠。
可选地,在本公开实施例中,所述第一电源线包括:沿第一方向排列且沿第二方向延伸的多个子电源线,以及电连接各个所述子电源线的导通线;其中,所述第一方向与所述第二方向不同。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与所述第一电源线在所述基板的正投影交叠;所述主体部分具有沿所述第一方向的第一对称轴;
所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的第一电源线沿所述第一对称轴大致呈轴对称,并且与所述主体部分在所述基板的正投影交叠的所述第一电源线的中心与所述主体部分的中心大致重叠。
可选地,在本公开实施例中,所述导通线包括第一导通线;所述第三颜色子像素中,所述主体部分在所述基板的正投影覆盖至少一条所述子电源线与至少两条第一导通线在所述基板的正投影。
可选地,在本公开实施例中,所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的子电源线沿所述第一对称轴大致呈轴对称,且与 所述主体部分在所述基板的正投影交叠的子电源线覆盖所述主体部分的中心;
所述第三颜色子像素中,所述主体部分具有沿所述第二方向的第二对称轴,与所述主体部分在所述基板的正投影交叠的至少两条第一导通线沿所述第二对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述子电源线和所述第一导通线采用十字型、米字型、井字型、Ⅰ字型、Ⅱ字型以及Ⅲ字型中的一种设置。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与至少两条子电源线在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线平行且等间距设置。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分具有沿所述第二方向的第二对称轴;与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线所在的位置关于所述第二对称轴大致呈轴对称设置于所述主体部分的中心的两侧。
可选地,在本公开实施例中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第三颜色子像素的主体部分在所述第二方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸;所述第一颜色子像素的主体部分在所述第二方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸。
可选地,在本公开实施例中,所述第三颜色子像素中的主体部分在所述基板的正投影与第一连接线在所述基板的正投影不交叠。
可选地,在本公开实施例中,所述导通线包括第二导通线;所述第二颜色子像素对中的两个所述第二颜色子像素之间设置一条第二导通线。
可选地,在本公开实施例中,所述第二导通线沿所述第一方向延伸为直线形。
可选地,在本公开实施例中,针对同一重复单元中的第三颜色子像素和 第二颜色子像素对,所述第三颜色子像素的主体部分在所述基板的正投影交叠的第一导通线和设置于所述第二颜色子像素对中的两个第二颜色子像素之间的第二导通线沿所述第一方向大致延伸于同一直线上。
可选地,在本公开实施例中,所述导通线包括第三导通线;一个重复单元组中的第一颜色子像素和相邻重复单元组中且与所述第一颜色子像素最近邻的第三颜色子像素之间设置一条第三导通线;且所述第三导通线位于对应的所述第三颜色子像素的主体部分背离辅助部分一侧。
可选地,在本公开实施例中,所述第三导通线为折线形与曲线形中的至少一种。
可选地,在本公开实施例中,所述第三导通线包括:相互电连接的第一导通部分和第二导通部分;
所述第一导通部分沿所述第一方向延伸,所述第二导通部分沿与所述第一方向交叉的方向延伸。
可选地,在本公开实施例中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与最近邻的子电源线交叠的尺寸小于所述子电源线在所述第一方向上的宽度的80%。
可选地,在本公开实施例中,所述第一颜色子像素中,所述主体部分在所述基板的正投影的面积小于所述主体部分的面积的10%。
可选地,在本公开实施例中,正投影最近邻所述第一颜色子像素中主体部分正投影的子电源线中的至少部分具有第一宽度,正投影位于所述第三颜色子像素中主体部分正投影覆盖的子电源线具有第二宽度;所述第一宽度小于所述第二宽度。
可选地,在本公开实施例中,位于所述第一颜色子像素的主体部分的长轴两侧的子电源线的宽度不同,且最近邻所述第一颜色子像素的子电源线的宽度小于另一侧子电源线的宽度。
可选地,在本公开实施例中,所述第二颜色子像素中,所述主体部分在所述基板的正投影与最近邻的子电源线交叠的尺寸小于所述子电源线在所述 第一方向上的宽度的80%。
可选地,在本公开实施例中,所述第二颜色子像素中,所述主体部分在所述基板的正投影小于所述主体部分的面积的10%。
可选地,在本公开实施例中,正投影最近邻所述第二颜色子像素中主体部分正投影的子电源线中的至少部分具有第三宽度,正投影位于所述第三颜色子像素中主体部分正投影覆盖的子电源线具有第二宽度;所述第三宽度小于所述第二宽度。
可选地,在本公开实施例中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;
所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第二方向上的尺寸;所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第二方向上的尺寸。
可选地,在本公开实施例中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少两条子电源线在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线平行且等间距设置。
可选地,在本公开实施例中,所述第一颜色子像素中,所述主体部分具有沿所述第二方向的第三对称轴;与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线所在的位置关于所述第三对称轴大致呈轴对称设置于所述主体部分的中心两侧。
可选地,在本公开实施例中,同一所述子像素中,所述主体部分在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
可选地,在本公开实施例中,同一所述子像素中,所述第二过孔在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
可选地,在本公开实施例中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第二颜色子像素对包括:第一个第二颜 色子像素和第二个第二颜色子像素;
同一所述重复单元组中,所述第一颜色子像素的第一过孔、所述第二颜色子像素对中的第二个第二颜色子像素的第一过孔以及所述第三颜色子像素的第二过孔沿所述第一方向排列于同一直线上。
可选地,在本公开实施例中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;所述第二颜色子像素对包括:第一个第二颜色子像素和第二个第二颜色子像素;
奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第一颜色子像素的第一过孔、所述第二颜色子像素对中的两个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上;
奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第三颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
可选地,在本公开实施例中,所述第一电源线被配置为传输驱动电压的电源线。
可选地,在本公开实施例中,所述第一导电层包括:第一桥接线、第一连接线以及沿第一方向间隔排列多个信号线组;其中,各所述子像素中,所述辅助部分通过所述第一过孔与所述第一连接线电连接;
各所述信号线组包括至少两条不同的信号线,各所述信号线沿所述第二方向延伸;
至少一个子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述主体部分沿所述第二方向的对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第三颜色子像素的主体部分在所述第二方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸; 所述第一颜色子像素的主体部分在所述第二方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸。
可选地,在本公开实施例中,所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸;
所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;所述主体部分具有沿所述第二方向的第三对称轴;并且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述第二对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与最近邻的所述信号线组在所述基板的正投影的交叠面积小于所述主体部分的面积的10%。
可选地,在本公开实施例中,所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸;
所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;所述第一颜色子像素的主体部分具有沿所述第二方向的第三对称轴;且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述第三对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影以及至少一个所述第一桥接线在所述基板的正投影交叠;
所述第三颜色子像素的主体部分具有沿所述第二方向的第二对称轴;且所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线与所述第一桥接线沿所述第二方 向的中心线关于所述第二对称轴大致呈轴对称。
可选地,在本公开实施例中,同一所述子像素中,所述主体部分在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
可选地,在本公开实施例中,针对一个所述重复单元组,所述重复单元组中的所述第三颜色子像素的第一过孔、所述第二颜色子像素对中的第二个第二颜色子像素的第一过孔以及与所述重复单元组相邻的第二颜色子像素对中的第一个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
可选地,在本公开实施例中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第二方向上的尺寸;所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第二方向上的尺寸。
可选地,在本公开实施例中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与相邻的两个所述信号线组在所述基板的正投影交叠;所述第一颜色子像素的主体部分具有沿所述第二方向的第三对称轴;且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的两个所述信号线组所在的位置关于所述第三对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与相邻的两个所述信号线组在所述基板的正投影交叠;所述第三颜色子像素的主体部分具有沿所述第二方向的第二对称轴;且所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的两个所述信号线组所在的位置关于所述第二对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第三颜色子像素中,所述主体部分在所述基板的正投影覆盖一个所述第一桥接线在所述基板的正投影;且与所述主体部分在所述基板的正投影交叠的所述第一桥接线关于所述第二对称轴大致呈轴对称。
可选地,在本公开实施例中,所述第二颜色子像素中,所述主体部分在 所述基板的正投影与一个所述信号线组在所述基板的正投影交叠;与所述第二颜色子像素对的两个所述第二颜色子像素交叠的两个所述信号线组相邻。
可选地,在本公开实施例中,所述第二颜色子像素对的两个所述第二颜色子像素中的主体部分沿第四对称轴大致呈轴对称;
正投影与所述第二颜色子像素对的两个所述第二颜色子像素交叠的两个所述信号线组关于所述第四对称轴大致呈轴对称。
可选地,在本公开实施例中,奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第一颜色子像素的第一过孔、所述第二颜色子像素对中的第一个第二颜色子像素的第一过孔以及第二个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上;
并且,奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第三颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
可选地,在本公开实施例中,各所述信号线组包括被配置为传输数据信号的数据线和被配置为传输驱动电压的电源线。
本公开实施例还提供了显示装置,包括上述电致发光显示面板。
图1为相关的电致发光显示面板的结构示意图之一;
图2为图1中的电致发光显示面板沿AA’方向的剖视结构示意图;
图3为本公开实施例提供的电致发光显示面板的结构示意图之一;
图4a为本公开实施例提供的阳极的俯视结构示意图;
图4b为本公开实施例提供的第一导电层的俯视结构示意图;
图5a为图3所示的电致发光显示面板沿AA’方向的剖视结构示意图;
图5b为图3所示的电致发光显示面板沿BB’方向的剖视结构示意图;
图6为图3所示的电致发光显示面板沿CC’方向的剖视结构示意图;
图7a为图3所示的电致发光显示面板沿DD’方向的剖视结构示意图;
图7b为图3所示的电致发光显示面板沿FF’方向的剖视结构示意图;
图8a为图3所示的电致发光显示面板沿EE’方向的剖视结构示意图;
图8b为图3所示的电致发光显示面板沿GG’方向的剖视结构示意图;
图9为本公开实施例提供的电致发光显示面板的结构示意图之二;
图10为图9所示的电致发光显示面板沿AA’方向的剖视结构示意图;
图11为本公开实施例提供的电致发光显示面板的结构示意图之三;
图12为本公开实施例提供的电致发光显示面板的结构示意图之四;
图13为本公开实施例提供的电致发光显示面板的结构示意图之五;
图14a为图13所示的电致发光显示面板沿AA’方向的剖视结构示意图;
图14b为图13所示的电致发光显示面板中第三颜色子像素的剖视结构示意图;
图15为本公开实施例提供的电致发光显示面板的结构示意图之六;
图16为图15所示的电致发光显示面板中第一颜色子像素的剖视结构示意图;
图17为本公开实施例提供的电致发光显示面板的结构示意图之七;
图18为本公开实施例提供的电致发光显示面板的结构示意图之八。
为使本公开实施例的目的、技术方案和优点更加清楚,下面将结合本公开实施例的附图,对本公开实施例的技术方案进行清楚、完整地描述。显然,所描述的实施例是本公开的一部分实施例,而不是全部的实施例。基于所描述的本公开的实施例,本领域普通技术人员在无需创造性劳动的前提下所获得的所有其他实施例,都属于本公开保护的范围。
除非另外定义,本公开使用的技术术语或者科学术语应当为本公开所属领域内具有一般技能的人士所理解的通常意义。本公开中使用的“第一”、“第二”以及类似的词语并不表示任何顺序、数量或者重要性,而只是用来区分不同的组成部分。“包括”或者“包含”等类似的词语意指出现该词前面的元 件或者物件涵盖出现在该词后面列举的元件或者物件及其等同,而不排除其他元件或者物件。“连接”或者“相连”等类似的词语并非限定于物理的或者机械的连接,而是可以包括电性的连接,不管是直接的还是间接的。
通常的OLED显示面板包括衬底基板、设置在衬底基板上的驱动电路、设置在驱动电路远离衬底基板的一侧的平坦层、设置在平坦层远离衬底基板一侧的阳极、设置在阳极远离衬底基板一侧的发光层以及设置在发光层远离衬底基板一侧的阴极。
衬底基板上的驱动电路通常包括使用源漏金属层制作的信号线,例如,用于传输或写入数据的数据线(Data line)和用于传输驱动电压的电源线(VDD line)。在驱动电路远离衬底基板的一侧制备阳极之前,需要在驱动电路上制备数据线(Data line)和一个电源线(VDD line),之后制备绝缘层,在绝缘层上再制备另一电源线(VDD line),然后在该另一电源线(VDD line)上制备平坦层(PLN),之后在平坦层(PLN)上制备阳极,从而使得后续制备的阳极具有较高的平坦度。其中,使这两条电源线(VDD line)通过绝缘层中的过孔相互电连接,以降低电源线(VDD line)的电阻。然而,由于源漏金属层制作的信号线厚度较大,而源漏金属层制作的信号线上的平坦层无法使其完全平坦化,从而导致平坦层上的阳极和阳极上的发光层不平整,阳极和阳极上的发光层出现不对称凸起,从而导致从该显示面板的法线的左右两侧以与显示面板的法线呈相同的角度观察时会产生色偏现象。
图1为一些OLED显示面板的俯视结构示意图。图2为图一种OLED显示面板中一个子像素的剖面示意图。如图1和2所示,该OLED显示面板包括:衬底基板10、驱动电路20、平坦层30、阳极40、发光层50、阴极60以及像素限定层80;像素限定层80具有开口,以通过开口限定出有效发光区90。其中,例如,像素限定层80对蓝色子像素中的阳极41作用,以限定出蓝色有效发光区91,像素限定层80对红色子像素中的阳极42作用,以限定出红色有效发光区92,像素限定层80对绿色子像素中的阳极43作用,以限定出绿色有效发光区93。驱动电路20包括使用源漏金属层制作的另一电源线 25。图1示出另一电源线25和阳极40的位置关系。如图1与图2所示,由于另一电源线25厚度较大,覆盖另一电源线25的平坦层30无法使该显示面板完全平坦化,从而导致平坦层30上的阳极40和阳极40上的发光层50不平整,从而使得阳极40和阳极40上的发光层50出现不对称凸起70。该不对称凸起70是相对于阳极40沿另一电源线25的延伸方向上的对称轴不对称的,使得该不对称凸起70向该显示面板的法线的左右两侧发出的光不同,从而导致从该显示面板的法线的左右两侧以与显示面板的法线呈相同的角度观察时会产生色偏现象。例如,从该显示面板的法线的左侧以与显示面板的法线呈30度的角度观察该显示面板的颜色与从该显示面板的法线的右侧以与显示面板的法线呈30度的角度观察该显示面板的颜色不同,从而导致上述的色偏现象。
有鉴于此,本公开实施例提供电致发光显示面板及显示装置,其中,电致发光显示面板可以包括:多个重复单元,各重复单元包括多个子像素,各子像素包括:位于基板上方的第一导电层,位于第一导电层上方的第一绝缘层,位于第一绝缘层上的阳极。并且,第一绝缘层包括第一过孔,阳极包括相互电连接的主体部分和辅助部分。该第一过孔暴露第一导电层的一部分,并且辅助部分通过第一过孔与第一导电层电连接。多个重复单元中的至少一个包括:第一颜色子像素、第二颜色子像素以及第三颜色子像素;第三颜色子像素的主体部分的面积大于第二颜色子像素的主体部分的面积和第一颜色子像素的主体部分的面积;第三颜色子像素的主体部分与第一导电层交叠的面积大于第二颜色子像素的主体部分与第一导电层交叠的面积,且第三颜色子像素的主体部分与第一导电层交叠的面积大于第一颜色子像素的主体部分与第一导电层交叠的面积。这样至少可以消除中心区域的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
下面结合具体实施例,对本公开进行详细说明。需要说明的是,本实施例中是为了更好的解释本公开,但不限制本公开。
本公开实施例提供的一些电致发光显示面板,如图3至图8b所示,可以 包括:多个重复单元001,各重复单元001包括多个子像素,各子像素可以包括:位于基板100上方的第一导电层200,位于第一导电层200上方的第一绝缘层300,位于第一绝缘层300上的阳极400。并且,第一绝缘层300包括第一过孔310,阳极400包括相互电连接的主体部分410和辅助部分420。该第一过孔310暴露第一导电层200的一部分,并且辅助部分420通过第一过孔310与第一导电层200电连接。并且,多个重复单元中的至少一个可以包括:第一颜色子像素010、第二颜色子像素以及第三颜色子像素030;其中,第三颜色子像素030的主体部分413的面积大于第二颜色子像素的主体部分的面积和第一颜色子像素010的主体部分400的面积。第三颜色子像素030的主体部分413与第一导电层200交叠的面积大于第二颜色子像素的主体部分与第一导电层200交叠的面积,且第三颜色子像素030的主体部分413与第一导电层200交叠的面积大于第一颜色子像素010的主体部分411与第一导电层200交叠的面积。这样可以使第一导电层200具有镂空图案,与主体部分410在基板100的正投影交叠的镂空图案的部分被配置为使得主体部分410的至少中心区域AA大致平坦。
在具体实施时,在本公开实施例中,如图3a至图8c所示,同一子像素中的主体部分和辅助部分是一体结构。例如,采用一次构图工艺形成同一子像素中的主体部分和辅助部分。
需要说明的是,结合图3与图4a所示,第一导电层200中的阴影区域为限定出镂空图案的实体部分,由第一导电层200中的阴影区域围绕而成的空白部分形成了镂空图案。其中,与该实体部分在基板的正投影交叠的第一绝缘层300与该实体部分之间间隔有第一导电层,与该空白部分在基板的正投影交叠的第一绝缘层300直接设置在基板上,也可以说是与该空白部分在基板的正投影交叠的第一绝缘层300直接设置在基板上的绝缘层上。
在具体实施时,在本公开实施例中,如图3、图4a以及图5a所示,各子像素还可以包括位于阳极400背离基板100一侧的像素界定层80,位于阳极400背离基板100一侧的发光层50,以及位于阳极背离发光层50一侧的阴极 60。其中,像素限定层80具有开口,且开口暴露阳极400的主体部分410的至少部分区域,发光层50位于开口内且与开口暴露的主体部分410的区域接触,则开口中的发光层50所处于的区域用于发光,从而可以通过开口限定出有效发光区90。也就是说,像素限定层80的开口与阳极400的主体部分410交叠的部分区域为各子像素的有效发光区90。示例性地,第三颜色子像素030中的像素限定层80的开口与阳极400的主体部分413交叠的部分区域为第三颜色子像素030的有效发光区90-030。第一颜色子像素010中的像素限定层80的开口与阳极400的主体部分411交叠的部分区域为第一颜色子像素010的有效发光区90-010。第二颜色子像素021中的像素限定层80的开口与阳极400的主体部分4121交叠的部分区域为第二颜色子像素021的有效发光区90-021。第二颜色子像素022中的像素限定层80的开口与阳极400的主体部分4122交叠的部分区域为第二颜色子像素022的有效发光区90-022。
需要说明的是,在本公开的实施例中,每个发光层可以包括电致发光层本身以及位于电致发光层两侧的其他公共层,例如,空穴注入层、空穴传输层、电子注入层以及电子传输层等等,但是在本公开的附图中,仅示出了发光层中的电致发光层,而没有示出其他公共层。示例性地,电致发光层的材料可以包括:有机电致发光材料,这样可以使电致发光显示面板为OLED显示面板。或者,电致发光层的材料也可以包括:量子点电致发光材料,这样可以使电致发光显示面板为量子点发光二极管(Quantum Dot Light Emitting Diodes,QLED)显示面板。
需要说明的是,主体部分410的中心区域AA可以为由像素限定层的开口限定出的有效发光区。这样可以使整个有效发光区向主体部分410边缘形成过渡缓坡,以使有效发光区大概平坦,从而可改善,甚至消除显示面板的色偏现象。或者,主体部分410的中心区域AA小于由像素限定层限定出的有效发光区,例如主体部分410的中心区域AA可以为由像素限定层限定出的有效发光区的中心所在的区域。这样可以使主体部分410的中心区域AA向主体部分410边缘形成过渡缓坡,以使主体部分410的中心区域AA大概 平坦,从而可改善,甚至消除显示面板的色偏现象。
当然,与主体部分在基板的正投影交叠的镂空图案的部分被配置为使得主体部分大致平坦,这样可以使整个主体部分大改平坦,从而进一步改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图3所示,第三颜色子像素030的主体部分413与第一导电层200交叠的面积大于第二颜色子像素的主体部分与第一导电层200交叠的面积与第一颜色子像素010的主体部分411与第一导电层200交叠的面积之和。
在具体实施时,在本公开实施例中,如图3与图4a所示,至少一个子像素中的主体部分400可以具有至少一个对称轴,并且主体部分400在基板100的正投影与第一导电层200在基板100的正投影交叠。并且,与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200位于至少一个对称轴两侧的面积比值在1±0.1范围内。示例性地,与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200位于至少一个对称轴两侧的面积比值可以为1.1。与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200位于至少一个对称轴两侧的面积比值也可以为0.9。与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200位于至少一个对称轴两侧的面积比值也可以为1.05或1。
在具体实施时,在本公开实施例中,如图3与图4a所示,与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200沿至少一个对称轴大致呈轴对称。也就是说,与至少一个子像素的主体部分400在基板100的正投影交叠的第一导电层200位于至少一个对称轴两侧的面积比值大致为1。由于工艺条件限制,因此上述比值并不能绝对为1,因此大概满足上述条件即可。示例性地,如图3与图4a所示,以一个子像素中的主体部分413为例,主体部分413可以具有沿第一方向F1延伸的第一对称轴,与主体部分413在基板100的正投影交叠的第一导电层200可以沿该第一对称轴大致呈轴对称设置。和/或,主体部分413可以具有沿第二方向F2延伸的第二对称轴, 与主体部分413在基板100的正投影交叠的第一导电层200可以沿该第二对称轴大致呈轴对称设置。这样可以使至少主体部分413的中心区域AA具有凸起,第一对称轴两侧的主体部分413的区域对称设置和/或第二对称轴两侧的主体部分413的区域对称设置,,从而可以降低主体部分413的不对称性。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图3与图4a所示,第一导电层200可以包括:相互间隔设置的第一电源线210和第一连接线220;其中,各子像素中,辅助部分420通过第一过孔310与第一连接线220电连接。进一步地,第一电源线210可以被配置为传输驱动电压的电源线。需要说明的是,图3中仅示出了一个第三颜色子像素030中的第一连接线220,其余子像素中的第一连接线可以根据实际应用环境来设计确定,在此不作赘述。
一般在显示领域,一个像素通常包括多个可分别显示单色(例如红色、绿色或蓝色)的子像素,通过控制不同颜色的子像素的比例以实现显示不同的颜色,因此上述子像素可以为单色子像素。在具体实施时,在本公开实施例中,如图3与图4a所示,多个重复单元001中的每个可以包括:沿第三方向F3排列的一个第一颜色子像素010、一个第二颜色子像素对020以及一个第三颜色子像素030。其中,第二颜色子像素对020可以包括沿第四方向F4排列的两个第二颜色子像素021、022。其中,第一颜色子像素010被配置为发第一颜色的光,第二颜色子像素021、022被配置为发第二颜色的光,第三颜色子像素被配置为发第三颜色的光。在一些示例中,第一颜色、第二颜色以及第三颜色可以从红色、绿色以及蓝色中进行选取。例如,第一颜色为红色、第二颜色为绿色、第三颜色为蓝色。由此,该重复单元001为红绿蓝子像素的排列结构。当然,本公开实施例包括但不限于此。上述的第一颜色、第二颜色和第三颜色还可为其他颜色。
或者,例如,相邻重复单元组中的重复单元沿第三方向F3是彼此错开的,也就是说,相邻的重复单元组中的相邻的重复单元沿第三方向F3有一定的偏 移量。因此,相邻重复单元组中相同颜色的子像素在第三方向F3上并不是对齐的。在一些示例中,相邻重复单元组中的相同颜色子像素在第三方向F3上的偏移量可以为重复单元在第三方向F3上的尺寸的一半。例如,重复单元在第三方向F3上的尺寸可以为重复单元在第三方向F3上的节距。
在具体实施时,在本公开实施例中,如图3与图4a所示,由于第二颜色子像素对020可以包括沿第四方向F4排列的两个第二颜色子像素021、022,在采用FMM蒸镀工艺制备发光层时,可将每个第二颜色子像素对020中的两个第二颜色子像素021、022的发光层连起来,通过FMM的一个蒸镀孔来形成每个第二颜色子像素对020中的两个第二颜色子像素021、022的发光层。在第二颜色为绿色时,可以在一定程度上降低制备绿色子像素的发光层的工艺难度。
此外,虽然在附图中的各子像素的主体部分的形状包括严格的由两条线段形成的角,但在一些实施例中,各个子像素的有效发光区的形状可以均为圆角图形。也就是说,在上述各种图形形状的基础上,各个子像素的有效发光区的角被倒圆。例如,对于发光层通过掩模版进行蒸镀的情况下,发光层位于角落处的部分则可能会自然形成圆角形状。
在一些示例中,如图3和图4a所示,第一颜色子像素010和第三颜色子像素030的主体部分的形状可以均为六边形,该六边形的三组对边均平行。每个第二颜色子像素021、022的主体部分的形状可以为五边形,该五边形包括非直角交叉的两条边、一组平行的对边以及一条垂直边,垂直边与一组平行的对边垂直,非直角交叉的两条边连接于一组平行的对边之间;其中,每个第二颜色子像素对020中的第二颜色子像素021、022中的垂直边相邻设置。
在一些示例中,如图3和图4a所示,第一颜色子像素010的主体部分中一组较长的平行对边和第三颜色子像素030的主体部分中一组较长的平行对边,分别与第二颜色子像素021、022中的主体部分的一组平行的对边平行。进一步地,示例性地,第一颜色子像素010的有效发光区90-010中一组较长的平行对边和第三颜色子像素030的有效发光区90-030中一组较长的平行对 边,分别与第二颜色子像素021、022的有效发光区90-021、90-022中的一组平行的对边平行。
在一些示例中,如图3和图4a所示,第一颜色子像素010的面积大于一个第二颜色子像素020的面积,第三颜色子像素030的面积大于一个第二颜色子像素020的面积。例如,第一颜色子像素010的有效发光区90-010的面积大于一个第二颜色子像素020的有效发光区90-021、90-022的面积,第三颜色子像素030的有效发光区90-030的面积大于一个第二颜色子像素020的有效发光区90-021、90-022的面积。
在具体实施时,在本公开实施例中,如图3与图4a所示,在第四方向F4上相邻的两个重复单元在第三方向F3上的交错距离大于从第一颜色子像素010的最大跨度、第二颜色子像素021的最大跨度、第二颜色子像素022的最大跨度以及第三颜色子像素030的最大跨度中的一个或其结合。例如,在第二方向F1上相邻的两个重复单元在第三方向F3上的交错距离大于从第一颜色子像素010的有效发光区90-010的最大跨度d010、第二颜色子像素021的有效发光区90-021的最大跨度d020、第二颜色子像素022的有效发光区90-022的最大跨度d020以及第三颜色子像素030的有效发光区90-030的最大跨度d030中的一个或其结合。
在具体实施时,在本公开实施例中,如图3与图4a所示,在一个重复单元001中,第二颜色子像素对020中的第二颜色子像素021与第二颜色子像素022在第四方向F4上的最远距离大于第一颜色子像素010的任意两点在第四方向F4上的最远距离。例如,在一个重复单元001中,第二颜色子像素对020中的第二颜色子像素021的有效发光区90-021与第二颜色子像素022的有效发光区90-022在第四方向F4上的最远距离大于第一颜色子像素010的有效发光区90-010的任意两点在第四方向F4上的最远距离。
在具体实施时,在本公开实施例中,如图3与图4a所示,在一个重复单元001中,第二颜色子像素对020中的第二颜色子像素021与第二颜色子像素022在第四方向F4上的最远距离大于第三颜色子像素030的任意两点在第 四方向F4上的最远距离。例如,在一个重复单元001中,第二颜色子像素对020中的第二颜色子像素021的有效发光区90-021与第二颜色子像素022的有效发光区90-022在第四方向F4上的最远距离大于第三颜色子像素030的有效发光区90-030的任意两点在第四方向F4上的最远距离。
在具体实施时,在本公开实施例中,如图3与图4a所示,第一颜色子像素的相邻子像素不包括第一颜色子像素010,第二颜色子像素对020的相邻子像素不包括第二颜色子像素,第三颜色子像素030的相邻子像素不包括第三颜色子像素030。
在具体实施时,在本公开实施例中,如图3与图4a所示,在第三方向F3和第四方向F4上,两个第一颜色子像素010由除第一颜色子像素之外的其他子像素分割,两个第三颜色子像素030由除第三颜色子像素之外的其他子像素分割,两个第二颜色子像素对由除第二颜色子像素之外的其他子像素分割。
在具体实施时,在本公开实施例中,如图3与图4a所示,以第二方向F1上的两个相邻的重复单元排列为一个重复组。示例性地,同一个重复组中,一个重复单元中的第二颜色子像素对020在另一个重复单元中的一个第一颜色子像素010和一个第三颜色子像素030在第三方向F3上的最大跨度之间。例如,同一个重复组中,一个重复单元中的第二颜色子像素对020的有效发光区在另一个重复单元中的一个第一颜色子像素010的有效发光区和一个第三颜色子像素030的有效发光区在第三方向F3上的最大跨度之间。
在具体实施时,在本公开实施例中,如图3与图4a所示,以第四方向F4上的两个相邻的重复单元排列为一个重复组。示例性地,同一个重复组中,一个重复单元中的第一颜色子像素010在另一个重复单元中的一个第二颜色子像素对020和一个第三颜色子像素030在第三方向F3上的最大跨度之间。例如,同一个重复组中,一个重复单元中的第一颜色子像素010的有效发光区在另一个重复单元中的一个第二颜色子像素对020的有效发光区和一个第三颜色子像素030的有效发光区在第三方向F3上的最大跨度之间。
在具体实施时,在本公开实施例中,如图3与图4a所示,以第三方向F3 上的两个相邻的重复单元排列为一个重复组。示例性地,同一个重复组中,一个重复单元中的第三颜色子像素030在另一个重复单元中的一个第二颜色子像素对020和一个第一颜色子像素010在第三方向F3上的最大跨度之间。例如,同一个重复组中,一个重复单元中的第三颜色子像素030的有效发光区在另一个重复单元中的一个第二颜色子像素对020的有效发光区和一个第一颜色子像素010的有效发光区在第三方向F3上的最大跨度之间。
在具体实施时,在本公开实施例中,如图3与图4a所示,同一个重复单元001中,同一第二颜色子像素对020中的两个第二颜色子像素021、022在第四方向F4上的最小距离小于一个第一颜色子像素010在第四方向F4上的最大跨度。例如,同一个重复单元001中,同一第二颜色子像素对020中的第二颜色子像素021的有效发光区90-021与第二颜色子像素022的有效发光区90-022在第四方向F4上的最小距离小于一个第一颜色子像素010的有效发光区90-010在第四方向F4上的最大跨度d010。
在具体实施时,在本公开实施例中,如图3与图4a所示,同一个重复单元001中,同一第二颜色子像素对020中的两个第二颜色子像素021、022在第四方向F4上的最小距离小于一个第三颜色子像素030在第四方向F4上的最大跨度。例如,同一个重复单元001中,同一第二颜色子像素对020中的第二颜色子像素021的有效发光区90-021与第二颜色子像素022的有效发光区90-022在第四方向F4上的最小距离小于一个第三颜色子像素030的有效发光区90-030在第四方向F4上的最大跨度d030。
在具体实施时,在本公开实施例中,如图3与图4a所示,奇数列重复单元组中重复单元中的子像素排列方式相同,偶数列重复单元组中重复单元中的子像素排列方式相同。例如,除了在基板的显示区的边缘部分之外,每个重复单元中两个绿色子像素的中心连线位于相邻的重复单元组中两个相邻的红色和蓝色子像素的中心之间。此外,上述两个绿色子像素的边缘在上述两个相邻的红色和蓝色子像素的外侧边缘的内侧,这里的外侧边缘是指两个子像素的沿第四方向F4上彼此相对的边缘。也就是说,在第四方向F4上,一 个绿色子像素对在第四方向F4上的延伸的范围不大于上述两个相邻的红色和蓝色子像素在第四方向F4上的延伸的范围。另外,在本公开的实施例中,如果没有特别说明,子像素的“中心”是指子像素(例如:第一颜色子像素、第二颜色子像素或第三颜色子像素)的形状的几何中心。
需要说明的是,在对子像素排列结构进行设计时,子像素一般会设计为规则的形状,比如,六边形、五边形、梯形或其他形状。在进行设计时,子像素的中心可以是上述规则形状的几何中心。然而,在实际制造工艺中,所形成的子像素的形状一般会与上述设计的规则形状有一定的偏差。例如,上述规则的形状的各个角可能会变成圆角,因此,子像素的形状可以为圆角图形。此外,实际制造的子像素的形状还可能会与设计的形状有其他的变化。例如,设计为六边形的子像素的形状在实际制造中可能变成近似椭圆形。因此,子像素的中心也可能并非制作形成的子像素的不规则形状的严格的几何中心。在本公开的实施例中,子像素的中心可以与子像素的形状的几何中心有一定的偏移量。子像素的中心是指从子像素的几何中心出发到子像素的边缘各点的辐射线段上的特定点所围成的区域内的任一点,该辐射线段上的特定点在距离该几何中心1/3该辐射线段的长度处。该子像素中心的定义适用于规则形状的子像素形状的中心,也适用于不规则形状的子像素的中心。
在具体实施时,在本公开实施例中,如图3与图4a所示,在每相邻的三个重复单元组中,该三个相邻列沿着列方向(即第四方向F4)依次包括第一行、第二行和第三行,第二行中第二颜色子像素020对中的两个第二颜色子像素021、022的中心在行方向上的最短距离小于第一行中第一颜色子像素010的中心与第三行中第一颜色子像素010的中心在行方向上的最小距离。
在具体实施时,在本公开实施例中,如图3与图4a所示,第一颜色子像素010在第三方向F3上的边与第三颜色子像素030在第三方向F3上的边平行排列。
在具体实施时,在本公开实施例中,如图3与图4a所示,每个重复单元001中,第一颜色子像素010、第二颜色子像素对020以及第三颜色子像素030 的排列顺序相同。
在具体实施时,在本公开实施例中,如图3与图4a所示,至少一个子像素中,主体部分400在第四方向F4上的尺寸与主体部分400在第三方向F3上的尺寸的比值为γ1,γ1的取值范围为1.2~3。示例性地,蓝色子像素的γ1可以为1.5~1.7,例如,蓝色子像素的γ1可以为1.5、1.6或1.7。示例性地,红色子像素的γ1可以为2.2~2.6。例如,红色子像素的γ1可以为2.2、2.3、2.4、2.5或2.6。当然,在实际应用中,上述子像素的γ1也可以根据实际应用环境进行设计确定,在此不作限定。
在具体实施时,在本公开实施例中,如图3至图5a所示,电致发光显示面板还可以包括:位于第一导电层200与基板100之间的第二绝缘层500以及位于第二绝缘层500与基板100之间的第二导电层600;其中,第二导电层600可以包括:间隔设置的第二电源线610和第二连接线620。其中,第二绝缘层500具有暴露第二连接线620的第二过孔520以及暴露第二电源线610的一部分的第三过孔530。并且,第一电源线210通过第三过孔530与第二电源线610彼此电连接,以实现降低电阻的效果。第一连接线220通过第二过孔520与第二连接线620彼此电连接,第二连接线620与驱动电路中的晶体管的漏极电连接,以实现信号的传输。需要说明的是,上述仅是以第三颜色子像素为例进行说明,其余子像素中的设置以此类推,在此不作赘述。
在具体实施时,在本公开实施例中,如图3、图5a、图6、图7b以及图8b所示,针对相互电连接的第一连接线220和第二连接线620,第一连接线220在基板100的正投影与第二连接线620在基板100的正投影至少部分交叠。可选地,第一连接线220在基板100的正投影与第二连接线620在基板100的正投影重叠。可选地,第一连接线220在基板100的正投影与第二连接线620在基板100的正投影部分交叠。这样可以提高相互电连接的效果。
在具体实施时,在本公开实施例中,如图3与图4b所示,第一电源线210可以包括:沿第一方向F1排列且沿第二方向F2延伸的多个子电源线211,以及电连接各个子电源线211的导通线212;其中,第一方向F1与第二方向F2 不同。示例性地,第一方向F1与第二方向F2垂直。
在具体实施时,在本公开实施例中,如图3与图4a所示,可以使第三方向F3与第一方向F1相同,第四方向F4与第二方向F2相同。并且,第三颜色子像素030的主体部分413在第二方向F2上的尺寸大于第三颜色子像素030的主体部分413在第一方向F1上的尺寸;第一颜色子像素010的主体部分411在第二方向F2上的尺寸大于第一颜色子像素010的主体部分411在第一方向F1上的尺寸。示例性地,第三颜色子像素030的主体部分413在第一方向F1上的尺寸大于第一颜色子像素010的主体部分411在第一方向F1上的尺寸。第一颜色子像素010的主体部分411在第二方向F2上的尺寸大于第三颜色子像素030的主体部分413在第二方向F2上的尺寸。当然,本公开实施例包括但不限于此,上述的各尺寸之间的关系还可为其他形式。
在具体实施时,在本公开实施例中,如图3与图4a所示,多个重复单元001沿第三方向F3排列形成重复单元组002,重复单元组002沿第四方向F4排列,且相邻两个重复单元组002中的重复单元001错位排列。示例性地,相邻两个重复单元组002中的重复单元001相差1/2个重复单元001的尺寸。需要说明的是,上述的一个重复单元001的尺寸可以为:第三方向F3上相邻两个重复单元001中的相同颜色子像素的中心之间的距离。例如上述的一个重复单元001的尺寸可以为:第三方向F3上相邻两个重复单元001中的第一颜色子像素010的中心之间的距离。
在具体实施时,在本公开实施例中,如图3与图4a所示,第三颜色子像素030中的主体部分413在基板100的正投影与第一连接线220在基板100的正投影不交叠。第三颜色子像素030中的主体部分413在基板100的正投影与第一电源线210在基板100的正投影交叠。并且,第三颜色子像素030中的主体部分413可以具有沿第一方向F1的第一对称轴。示例性地,第三颜色子像素030中的主体部分413的形状大致为六边形或椭圆形,六边形的短对称轴或椭圆形的短轴与第一方向F1大致平行,六边形的长对称轴或椭圆形的长轴与第二方向F2大致平行,则可以将六边形的短对称轴或椭圆形的短轴 作为第一对称轴。在一些实施例中,第三颜色子像素030中,与主体部分413在基板100的正投影交叠的第一电源线210沿第一对称轴大致呈轴对称,并且与主体部分413在基板100的正投影交叠的第一电源线210的中心与主体部分413的中心大致重叠。这样可以使主体部分413具有沿第一对称轴对称的凸起,以使第一对称轴两侧的主体部分413的区域对称设置,从而可以降低主体部分413的不对称性,使主体部分413的中心区域平坦。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图3与图4b所示,导通线可以包括第一导通线2121。在第三颜色子像素030中,主体部分413在基板100的正投影覆盖至少一条子电源线211与至少两条第一导通线2121在基板100的正投影。进一步地,第三颜色子像素030中,与主体部分413在基板100的正投影交叠的子电源线211沿第一对称轴大致呈轴对称,且与主体部分413在基板100的正投影交叠的子电源线211覆盖主体部分413的中心。并且,第三颜色子像素030中,主体部分413具有沿第二方向F2的第二对称轴,可以将六边形的长对称轴或椭圆形的长轴作为第二对称轴。其中,与主体部分413在基板100的正投影交叠的至少两条第一导通线2121沿第二对称轴大致呈轴对称。这样可以通过子电源线211和第一导通线2121将第一绝缘层整个抬高,在降低主体部分413的不对称性的基础上,进一步使主体部分413大致平坦,从而使发光层大致平坦,改善,甚至消除显示面板的色偏现象。需要说明的是,本公开中的中心可以为相应结构的几何中心。
在具体实施时,在本公开实施例中,如图3至图4b所示,第三颜色子像素030中,与主体部分413在基板100的正投影交叠的子电源线211和第一导通线2121可以采用十字型设置。并且,正投影中的子电源线211和第一导通线2121形成的十字型结构的中心与主体部分413的中心重叠。示例性地,与主体部分413在基板100的正投影交叠的子电源线211和第一导通线2121还可以采用米字型、井字型、Ⅰ字型、Ⅱ字型以及Ⅲ字型中的一种设置。当 然,本公开实施例包括但不限于此,上述的与主体部分413在基板100的正投影交叠的子电源线211和第一导通线2121还可为其他形状。
在具体实施时,在本公开实施例中,如图3至图4b所示,导通线可以包括第二导通线2122。其中,第二颜色子像素020对中的两个第二颜色子像素021、022之间设置一条第二导通线2122。并且,各第二颜色子像素021、022在基板100的正投影与第二导通线2122在基板100的正投影不交叠。示例性地,第二导通线2122沿第一方向F1延伸为直线形。进一步地,第二颜色子像素021、022中的主体部分413的形状大致为五边形,并且该五边形的对称轴与第二方向大致平行。当然,本公开实施例包括但不限于此,上述主体部分413的形状、第二导通线2122的实施方式还可以为其他形状。
在具体实施时,在本公开实施例中,如图3至图4b所示,针对同一重复单元001中的第三颜色子像素030和第二颜色子像素对020,第三颜色子像素030的主体部分413在基板100的正投影交叠的第一导通线2121和设置于第二颜色子像素对020中的两个第二颜色子像素021、022之间的第二导通线2122沿第一方向F1大致延伸于同一直线上。
在具体实施时,在本公开实施例中,如图3至图4b所示,导通线可以包括第三导通线2123;一个重复单元组002中的第一颜色子像素010和相邻重复单元组002中且与第一颜色子像素010最近邻的第三颜色子像素030之间设置一条第三导通线2123。且第三导通线2123位于对应的第三颜色子像素030的主体部分413背离辅助部分423一侧。并且,第一颜色子像素010中的主体部分411在基板100的正投影和第三颜色子像素030中的主体部分413在基板100的正投影均与第三导通线2123在基板100的正投影不交叠。示例性地,第三导通线2123可以为折线形与曲线形中的至少一种。当然,本公开实施例包括但不限于此,上述第三导通线2123的实施方式还可以为其他形状。
在具体实施时,在本公开实施例中,如图3至图4b所示,第三导通线2123可以包括:相互电连接的第一导通部分2123-1和第二导通部分2123-2;其中,第一导通部分2123-1沿第一方向F1延伸,第二导通部分2123-2沿与第一方 向F1交叉的方向延伸。且第二导通部分2123-2的延伸方向与第一导通部分2123-1的延伸方向不垂直,例如可以为45°。
在具体实施时,在本公开实施例中,如图3至图4b以及图6所示,第一颜色子像素010中,主体部分411在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的80%。示例性地,进一步地,主体部分411在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的70%、50%以及20%中的一个。
在具体实施时,在本公开实施例中,如图3至图4b以及图6所示,第一颜色子像素010中,主体部分411在基板100的正投影的面积小于主体部分411的面积的10%。示例性地,进一步地,主体部分411在基板100的正投影的面积小于主体部分411的面积的8%、5%以及2%中的一个。
在具体实施时,在本公开实施例中,如图3至图4b以及图6所示,第一颜色子像素010中,主体部分411在基板100的正投影与第一电源线210在基板100的正投影不交叠。即主体部分411在基板100的正投影与子电源线211在基板100的正投影不交叠,以及主体部分411在基板100的正投影与各导通线212在基板100的正投影不交叠。这样可以使主体部分411尽可能平坦,尤其是位于有效发光区中的主体部分411尽可能平坦,从而可以改善第一颜色子像素010的有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。、
在具体实施时,在本公开实施例中,如图3至图4b所示,第一颜色子像素010中的主体部分411可以具有沿第二方向F2的第三对称轴。示例性地,第一颜色子像素010中的主体部分411的形状大致为六边形或椭圆形,六边形的长对称轴或椭圆形的长轴与第二方向F2大致平行,则可以将六边形的长对称轴或椭圆形的长轴作为第三对称轴。当然,本公开实施例包括但不限于此。
在具体实施时,在本公开实施例中,如图3至图4b以及图6所示,正投 影最近邻第一颜色子像素010中的主体部分411正投影的子电源线211中的至少部分具有第一宽度W1,正投影位于第三颜色子像素030中主体部分413正投影覆盖的子电源线211具有第二宽度W2;第一宽度W1小于第二宽度W2。示例性地,可以使正投影最近邻主体部分411正投影的子电源线211具有第一宽度W1,这样可以使子电源线211避让,以围绕主体部分411设置,从而使主体部分411下方不设置子电源线211,从而使主体部分411尽可能平坦,从而可改善,甚至消除显示面板的色偏现象。并且,还可以使此处的子电源线211的宽度可以尽量加宽,进一步减低电阻。
在具体实施时,在本公开实施例中,如图3至图4b以及图6所示,位于第一颜色子像素010的主体部分411的长轴两侧的子电源线211的宽度不同,且最近邻第一颜色子像素010的子电源线211的宽度小于另一侧子电源线的宽度。
在具体实施时,在本公开实施例中,如图3至图4b以及图7a、图8a所示,第二颜色子像素中,主体部分在基板的正投影与最近邻的子电源线交叠的尺寸小于子电源线在第一方向上的宽度的80%。示例性地,第二颜色子像素021中的主体部分4121在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的80%。例如,主体部分4121在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的70%、50%以及20%中的一个。示例性地,第二颜色子像素022中的主体部分4122在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的80%。例如,主体部分4122在基板100的正投影与最近邻的子电源线211交叠的尺寸小于子电源线211在第一方向F1上的宽度的70%、50%以及20%中的一个。
在具体实施时,在本公开实施例中,如图3至图4b以及图7a、图8a所示,第二颜色子像素中,主体部分在基板的正投影小于主体部分的面积的10%。示例性地,第二颜色子像素021中的主体部分4121在基板100的正投影小于主体部分4121的面积的10%。例如,主体部分4121在基板100的正投影的 面积小于主体部分4121的面积的8%、5%以及2%中的一个。示例性地,主体部分4122在基板100的正投影的面积小于主体部分4122的面积的8%、5%以及2%中的一个。
在具体实施时,在本公开实施例中,如图3至图4b以及图7a、图8a所示,第二颜色子像素中,主体部分在基板的正投影与第一电源线在基板的正投影不交叠。示例性地,第二颜色子像素021中的主体部分4121在基板100的正投影与各子电源线211在基板100的正投影不交叠,并且主体部分4121在基板100的正投影与各导通线212在基板100的正投影不交叠。这样可以使主体部分4121尽可能平坦,尤其是位于有效发光区中的主体部分4121尽可能平坦,这样可以改善第二颜色子像素021的有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。以及第二颜色子像素022中的主体部分4122在基板100的正投影与各子电源线211在基板100的正投影不交叠,并且主体部分4122在基板100的正投影与各导通线212在基板100的正投影不交叠。这样可以使主体部分4122尽可能平坦,尤其是位于有效发光区中的主体部分4122尽可能平坦,这样可以改善第二颜色子像素022的有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
当然,还可以使第三颜色子像素中的主体部分在基板的正投影与第一电源线在基板的正投影不交叠。并且,第二颜色子像素中的主体部分在基板的正投影与第一电源线在基板的正投影不交叠。以及第三颜色子像素中的主体部分在基板的正投影与第一电源线在基板的正投影不交叠。这样可以使各子像素中,主体部分在基板的正投影与第二导电层在基板的正投影不交叠。从而可以使每一个主体部分尽可能的平坦,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图3至图4b所示,正投影最近邻第二颜色子像素中主体部分正投影的子电源线中的至少部分具有第三宽度,第三宽度小于第二宽度。示例性地,正投影最近邻第二颜色子像素021中主 体部分4121正投影一侧的至少部分子电源线211具有第三宽度W3,并且,W3<W2。例如,正投影围绕第二颜色子像素021中的主体部分4121正投影一侧的子电源线211具有第三宽度W3。这样可以使子电源线211避让,以围绕主体部分4121设置,从而使主体部分4121下方不设置任何子电源线211,使主体部分4121尽可能平坦,从而可改善,甚至消除显示面板的色偏现象。并且,还可以使此处的子电源线211的宽度可以尽量加宽,进一步减低电阻。
以及,正投影最近邻第二颜色子像素022中主体部分4122正投影一侧的至少部分子电源线211具有第三宽度W3,并且,W3<W2。例如,正投影围绕第二颜色子像素022中的主体部分4122正投影一侧的子电源线211具有第三宽度W3。这样可以使子电源线211避让,以围绕主体部分4122设置,从而使主体部分4122下方不设置任何子电源线211,使主体部分4122尽可能平坦,从而可改善,甚至消除显示面板的色偏现象。并且,还可以使此处的子电源线211的宽度可以尽量加宽,进一步减低电阻。
一般绝缘层中会设置过孔,为了避免过孔对主体部分的影响。在具体实施时,在本公开实施例中,如图3与图4a所示,同一子像素中,主体部分在基板的正投影与第一过孔310在基板100的正投影不交叠。例如,可以使主体部分中有效的部分在基板的正投影与第一过孔310在基板100的正投影不交叠,而使主体部分的外围区域在基板的正投影与第一过孔310在基板100的正投影交叠,其交叠区域的面积可以为主体部分的面积的30%。
示例性地,可以使第一颜色子像素010的有效发光区90-010在基板的正投影与第一过孔310在基板100的正投影不交叠。也可以使第三颜色子像素030的有效发光区90-030在基板的正投影与第一过孔310在基板100的正投影不交叠。也可以使第二颜色子像素021的有效发光区90-021在基板的正投影与第一过孔310在基板100的正投影不交叠。也可以使第二颜色子像素022的有效发光区90-022在基板的正投影与第一过孔310在基板100的正投影不交叠。
示例性地,结合图3、图4a以及图6所示,第一颜色子像素010中,主 体部分411在基板100的正投影与第一过孔310在基板100的正投影不交叠。结合图3、图4a以及图5a所示,第三颜色子像素030中,主体部分413在基板100的正投影与第一过孔310在基板100的正投影不交叠。结合图3、图4a以及图7b所示,第二颜色子像素021中,主体部分4121在基板100的正投影与第一过孔310在基板100的正投影不交叠。结合图3、图4a以及图8b所示,第二颜色子像素022中,主体部分4122在基板100的正投影与第一过孔310在基板100的正投影不交叠。
在具体实施时,在本公开实施例中,如图3、图4a、图5a、图6、图7b以及图8b所示,同一子像素中,第二过孔520在基板100的正投影与第一过孔310在基板100的正投影不交叠。这样可以避免由于过孔过深导致阳极不能与第二连接线电连接的问题。例如,可以使第二过孔520中有效的部分在基板的正投影与第一过孔310在基板100的正投影不交叠,而使第二过孔520的外围区域在基板的正投影与第一过孔310的外围区域在基板100的正投影交叠,其交叠区域的面积可以为第一过孔310或第二过孔520的面积的30%。
在具体实施时,在本公开实施例中,结合图3至图5a所示,第三颜色子像素030中,第一过孔310在基板100的正投影大致靠近主体部分413在基板100的正投影。并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影背离主体部分413在基板100的正投影一侧。示例性地,第一过孔310和第二过孔520位于主体部分413的左下方,第二过孔520位于第一过孔310的下方。这样可以避免一个重复单元组中的第三颜色子像素030中的辅助部分423和相邻重复单元组中且与第三颜色子像素030最近邻的第一颜色子像素010中的主体部分411短路,从而可以降低显示面板出现短路现象。
在具体实施时,在本公开实施例中,结合图3至图4b以及图6所示,第一颜色子像素010中,第一过孔310在基板100的正投影大致远离主体部分411在基板100的正投影。并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影与主体部分411在基板100 的正投影之间。示例性地,第一过孔310和第二过孔520位于主体部分411的右下方,第一过孔310位于第二过孔520的下方。
在具体实施时,在本公开实施例中,结合图3至图4b以及图7b所示,第二颜色子像素020对中的第一个第二颜色子像素021的第一过孔310在基板100的正投影大致靠近主体部分4121在基板100的正投影,并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影背离主体部分4121在基板100的正投影一侧。示例性地,第一过孔310和第二过孔520位于主体部分4121的左上方,第一过孔310位于第二过孔520的下方。
在具体实施时,在本公开实施例中,结合图3至图4b以及图8b所示,第二颜色子像素020对中的第二个第二颜色子像素022的第一过孔310在基板100的正投影大致远离主体部分4122在基板100的正投影,并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影与主体部分4122在基板的正投影之间。示例性地,第一过孔310和第二过孔520位于主体部分4122的左下方,第一过孔310位于第二过孔520的下方。
在具体实施时,在本公开实施例中,结合图3至图4b所示,针对一个重复单元组002,该重复单元组002中的第一颜色子像素010的第一过孔310、第二颜色子像素对020中的第二个第二颜色子像素022的第一过孔310以及与重复单元组相邻的第二颜色子像素对020中的第一个第二颜色子像素021的第一过孔310沿第一方向F1排列于同一直线上。示例性地,第二行的重复单元组002中的第一颜色子像素010的第一过孔310、第二个第二颜色子像素022的第一过孔310,以及第三行的重复单元组002中的第一个第二颜色子像素021的第一过孔310,这三个第一过孔310沿第一方向F1排列于同一直线上,以降低制备这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
在具体实施时,在本公开实施例中,结合图3至图4b所示,同一重复单元组002中,第一颜色子像素010的第一过孔310、第二颜色子像素对020中 的第二个第二颜色子像素022的第一过孔310以及第三颜色子像素030的第二过孔520沿第一方向F1排列于同一直线上。
本公开实施例又提供了一些电致发光显示面板的结构示意图,如图9与图10所示,其针对上述实施方式进行了变形。下面仅说明本实施例与上述实施例的区别之处,其相同之处在此不作赘述。需要说明的是,图9仅是示意出第三颜色子像素030中的主体部分、辅助部分以及两条子电源线的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。
在具体实施时,在本公开实施例中,结合图4a、图9以及图10所示,第三颜色子像素030中,主体部分413在基板100的正投影与至少两条子电源线211在基板100的正投影交叠,并且与主体部413在基板100的正投影交叠的至少两条子电源线211平行且等间距设置。进一步地,主体部分413具有沿第二方向F2的第二对称轴,第三颜色子像素030中,与主体部分413在基板100的正投影交叠的至少两条子电源线211所在的位置关于第二对称轴大致呈轴对称设置于主体部分413的中心的两侧。示例性地,主体部分413在基板100的正投影覆盖两条子电源线211在基板100的正投影。这样通过子电源线211对第一绝缘层支撑,以使主体部分413尽可能平坦,可以降低主体部分413的不对称性。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
本公开实施例又提供了一些电致发光显示面板的结构示意图,如图11至图10所示,其针对上述实施方式进行了变形。下面仅说明本实施例与上述实施例的区别之处,其相同之处在此不作赘述。
在具体实施时,在本公开实施例中,如图11所示,也可以使第三方向F3与第二方向F2相同,第四方向F4与第一方向F1相同。第三颜色子像素030的主体部分413在第一方向F1上的尺寸大于第三颜色子像素030的主体部分413在第二方向F2上的尺寸,第一颜色子像素010的主体部分411在第一方向F1上的尺寸大于第一颜色子像素010的主体部分411在第二方向F2上的 尺寸。示例性地,第三颜色子像素030的主体部分413在第一方向F1上的尺寸小于第一颜色子像素010的主体部分411在第一方向F1上的尺寸。第一颜色子像素010的主体部分411在第二方向F2上的尺寸小于第三颜色子像素030的主体部分413在第二方向F2上的尺寸。当然,本公开实施例包括但不限于此,上述的各尺寸之间的关系还可为其他形式。
在具体实施时,在本公开实施例中,如图11所示,第一颜色子像素010中,主体部分411在基板100的正投影与至少两条子电源线211在基板100的正投影交叠,并且与主体部分411在基板100的正投影交叠的至少两条子电源线211平行且等间距设置。示例性地,主体部分411具有沿第二方向F2的第三对称轴,第一颜色子像素010中,与主体部分411在基板100的正投影交叠的至少两条子电源线211所在的位置关于第三对称轴大致呈轴对称设置于主体部分411的中心的两侧。示例性地,主体部分411在基板100的正投影与两条子电源线211在基板100的正投影交叠。这样通过子电源线211对第一绝缘层支撑,以使主体部分411尽可能平坦,可以降低主体部分411的不对称性。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图11所示,第三颜色子像素030中,主体部分413在基板100的正投影与至少两条子电源线211在基板100的正投影交叠,并且与主体部413在基板100的正投影交叠的至少两条子电源线211平行且等间距设置。进一步地,主体部分413具有沿第二方向F2的第二对称轴,第三颜色子像素030中,与主体部分413在基板100的正投影交叠的至少两条子电源线211所在的位置关于第二对称轴大致呈轴对称设置于主体部分413的中心的两侧。示例性地,主体部分413在基板100的正投影与两条子电源线211在基板100的正投影交叠。这样通过子电源线211对第一绝缘层支撑,以使主体部分413尽可能平坦,可以降低主体部分413的不对称性。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图12所示,第三颜色子像素030中,第一过孔310在基板100的正投影大致远离主体部分413在基板100的正投影,并且第二过孔520在基板100的正投影位于主体部分413在基板100的正投影内。示例性地,第三颜色子像素030的第一过孔310和第二过孔520沿第二方向F2排列于同一直线上。需要说明的是,图12仅是示意出了各颜色子像素中的主体部分410、第一过孔310以及第二过孔520的位置关系,其余层的实施方式可以参见本公开其他实施例,在此不作赘述。
在具体实施时,在本公开实施例中,如图12所示,第一颜色子像素010中,第一过孔310在基板100的正投影大致远离主体部分411在基板100的正投影;并且第二过孔520在基板400的正投影位于主体部分411在基板100的正投影内。示例性地,第一颜色子像素010的第一过孔310和第二过孔520沿第二方向F2排列于同一直线上。
在具体实施时,在本公开实施例中,如图12所示,第二颜色子像素020对中的第一个第二颜色子像素021的第一过孔310在基板100的正投影大致靠近主体部分4121在基板100的正投影,并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影背离主体部分4121在基板100的正投影一侧。示例性地,第一个第二颜色子像素021的第一过孔310和第二过孔520位于主体部分4121的左上角,即虚线框04121中的第一过孔310和第二过孔520。
在具体实施时,在本公开实施例中,如图12所示,第二颜色子像素020对中的第二个第二颜色子像素022的第一过孔310在基板100的正投影大致靠近主体部分4122在基板100的正投影,并且在第二方向F2上,第二过孔520在基板100的正投影位于第一过孔310在基板100的正投影背离主体部分4122在基板100的正投影一侧。示例性地,第二个第二颜色子像素022的第一过孔310和第二过孔520位于主体部分4122的右上角,即虚线框04122中的第一过孔310和第二过孔520。
在具体实施时,在本公开实施例中,如图11与图12所示,同一重复单 元001中,第一颜色子像素010的第一过孔310、第二颜色子像素对020中的两个第二颜色子像素021、022的第一过孔320沿第一方向F1排列于同一直线上。
在具体实施时,在本公开实施例中,如图11与图12所示,奇数类重复单元组中,同一行重复单元中的第一颜色子像素010的第一过孔310、第二颜色子像素对020中的两个第二颜色子像素021、022的第一过孔310沿第一方向F1排列于同一直线上。这样这三个第一过孔310沿第一方向F1排列于同一直线上,以降低制备这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
可选地,在具体实施时,在本公开实施例中,如图11与图12所示,奇数类重复单元组中,同一行重复单元中的第三颜色子像素030的第一过孔310沿第一方向F1排列于同一直线上。
在具体实施时,在本公开实施例中,如图11与图12所示,偶数类重复单元组中,同一行重复单元中的第一颜色子像素010的第一过孔310、第二颜色子像素对020中的两个第二颜色子像素022的第一过孔310沿第一方向F1排列于同一直线上。这样这三个第一过孔310沿第一方向F1排列于同一直线上,以降低制备这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
可选地,在具体实施时,在本公开实施例中,如图11与图12所示,偶数类重复单元组中,同一行重复单元中的第三颜色子像素030的第一过孔310沿第一方向F1排列于同一直线上。
在具体实施时,在本公开实施例中,如图11与图12所示,针对一个重复单元组中的第一颜色子像素010和相邻重复单元组中且与第一颜色子像素010最近邻的第三颜色子像素030,该第一颜色子像素010的第一过孔310和第三颜色子像素030的第二过孔520沿第一方向F1排列于同一直线上。
需要说明的是,图11仅是示意出各颜色子像素中的主体部分与子电源线的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。图12仅是示意出各颜色子像素中的主体部分、第一过孔以及第二过孔的实施方 式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。
一般为了降低膜层厚度,可以在制备阳极之前,在驱动电路上制备数据线(Data line)和电源线(VDD line),之后制备平坦层,然后再制备阳极。然而,由于源漏金属层制作的信号线厚度较大,而源漏金属层制作的信号线上的平坦层无法使其完全平坦化,从而导致平坦层上的阳极和阳极上的发光层不平整,导致阳极和阳极上的发光层出现不对称凸起,从而导致从该显示面板的法线的左右两侧以与显示面板的法线呈相同的角度观察时会产生色偏现象。因此,本公开实施例又提供了一些电致发光显示面板,如图13与图14所示,可以包括:多个重复单元001,各重复单元001包括多个子像素,各子像素可以包括:位于基板100上方的第一导电层200,位于第一导电层200上方的第一绝缘层300,位于第一绝缘层300上的阳极400。并且,第一绝缘层300包括第一过孔310,阳极400包括相互电连接的主体部分410和辅助部分420。该第一过孔310暴露第一导电层200的一部分,并且辅助部分420通过第一过孔310与第一导电层200电连接。并且,多个重复单元中的至少一个可以包括:第一颜色子像素010、第二颜色子像素以及第三颜色子像素030;其中,第三颜色子像素030的主体部分413的面积大于第二颜色子像素的主体部分的面积和第一颜色子像素010的主体部分400的面积。第三颜色子像素030的主体部分413与第一导电层200交叠的面积大于第二颜色子像素的主体部分与第一导电层200交叠的面积,且第三颜色子像素030的主体部分413与第一导电层200交叠的面积大于第一颜色子像素010的主体部分411与第一导电层200交叠的面积。这样可以使第一导电层200具有镂空图案,与主体部分410在基板100的正投影交叠的镂空图案的部分被配置为使得主体部分410的至少中心区域AA大致平坦。需要说明的是,图13仅示出了各子像素中的主体部分,辅助部分的实施方式可以参见上述实施例,并且上述仅是以第三颜色子像素为了进行说明,其余子像素中的设置以此类推,在此不作赘述。
本公开实施例提供电致发光显示面板,通过使与主体部分在基板的正投 影交叠的第一导电层沿至少一个对称轴大致呈轴对称。这样可以使该主体部分具有对称的凸起,以使该对称轴两侧的主体部分的区域对称设置,从而可以降低主体部分的不对称性。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图13至图14b所示,第一导电层200包括:第一桥接线、第一连接线710以及沿第一方向间隔排列多个信号线组720;其中,各子像素中,辅助部分420通过第一过孔310与第一连接线710电连接;各信号线组720包括至少两条不同的信号线721、722,信号线721、722沿第二方向F2延伸;第一方向F1与第二方向F2不同。并且,至少一个子像素中,主体部分在基板的正投影与至少一个信号线组720在基板的正投影交叠;并且,与主体部分在基板的正投影交叠的信号线组中的信号线沿第二方向的中心线关于主体部分沿第二方向的对称轴大致呈轴对称。
示例性地,第一连接线可以与驱动电路中的晶体管的漏极电连接,以实现信号的传输。示例性地,第一桥接线被配置为将驱动电路中的部分晶体管的源极、漏极以及栅线中的至少两个电极进行电连接,以实现信号的传输。需要说明的是,图13仅是示意出各颜色子像素中的主体部分与信号线组的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。
示例性地,各信号线组720可以包括两条信号线721、722。例如,信号线组720可以包括被配置为传输数据信号的数据线721和被配置为传输驱动电压的电源线722。当然,本公开实施例包括但不限于此。上述的信号线组可以包括的信号线的数量还可为其他数量。
一般在显示领域,一个像素通常包括多个可分别显示单色(例如红色、绿色或蓝色)的子像素,通过控制不同颜色的子像素的比例以实现显示不同的颜色,因此上述子像素可以为单色子像素。在具体实施时,在本公开实施例中,如图13所示,多个重复单元001中的每个可以包括:沿第三方向F3排列的一个第一颜色子像素010、一个第二颜色子像素对020以及一个第三颜 色子像素030。其中,第二颜色子像素对020可以包括沿第四方向F4排列的两个第二颜色子像素021、022。其中,第一颜色子像素010被配置为发第一颜色的光,第二颜色子像素021、022被配置为发第二颜色的光,第三颜色子像素被配置为发第三颜色的光。在一些示例中,第一颜色、第二颜色以及第三颜色可以从红色、绿色以及蓝色中进行选取。例如,第一颜色为蓝色、第二颜色为绿色、第三颜色为红色;或者,第一颜色为红色、第二颜色为绿色、第三颜色为蓝色。由此,该重复单元001为红绿蓝子像素的排列结构。当然,本公开实施例包括但不限于此。上述的第一颜色、第二颜色和第三颜色还可为其他颜色。
在具体实施时,在本公开实施例中,如图13所示,第三方向F3与第一方向F1相同,第四方向F4与第二方向F2相同;第三颜色子像素030的主体部分413在第二方向F2上的尺寸大于第三颜色子像素030的主体部分413在第一方向F1上的尺寸;第一颜色子像素010的主体部分411在第二方向F2上的尺寸大于第一颜色子像素010的主体部分411在第一方向F1上的尺寸。示例性地,第一颜色子像素010的主体部分411在第一方向F1上的尺寸大于第三颜色子像素030的主体部分413在第一方向F1上的尺寸。第一颜色子像素010的主体部分411在第二方向F2上的尺寸小于第三颜色子像素030的主体部分413在第二方向F2上的尺寸。并且,示例性地,可以使第一颜色为蓝色、第二颜色为绿色、第三颜色为红色。
一般主体部分设置为规则形状。示例性地,第一颜色子像素010中的主体部分411具有沿第二方向F2的第三对称轴,可以使主体部分411关于第三对称轴呈轴对称。例如,第一颜色子像素010中的主体部分411的形状大致为六边形或椭圆形,六边形的长对称轴或椭圆形的长轴与第二方向F2大致平行,则可以将六边形的长对称轴或椭圆形的长轴作为主体部分411的第三对称轴。
示例性地,同一第二颜色子像素对022中的第二颜色子像素021的主体部分4121和第二颜色子像素022的主体部分4122通过沿第二方向F2的第四 对称轴大致呈轴对称。即同一第二颜色子像素对022中的主体部分4121和主体部分4122关于第四对称轴呈轴对称。第二颜色子像素021、022中的主体部分4121、4122的形状大致为五边形,该五边形的对称轴与第二方向F2大致平行。
示例性地,第三颜色子像素030的主体部分413具有沿第二方向F2的第二对称轴,可以使主体部分413关于第二对称轴呈轴对称。例如,第三颜色子像素030中的主体部分413的形状大致为六边形或椭圆形,六边形的长对称轴或椭圆形的长轴与第二方向F2大致平行,则可以将六边形的长对称轴或椭圆形的长轴作为主体部分413的第二对称轴。
在具体实施时,在本公开实施例中,如图13与图14a所示,第一颜色子像素010中,主体部分411在基板100的正投影与至少一个信号线组720在基板100的正投影交叠。并且第一颜色子像素010中,与主体部分411在基板100的正投影交叠的信号线组200中的信号线沿第二方向F2的中心线关于第三对称轴大致呈轴对称。示例性地,主体部分411在基板100的正投影与一个信号线组720在基板100的正投影交叠。并且第一颜色子像素010中,与主体部分411在基板100的正投影交叠的信号线组200中的信号线721和722关于第一对称轴大致呈轴对称。这样可以使该主体部分411具有两个对称的凸起,以使该第一对称轴两侧的主体部分411的区域对称设置,从而可以降低主体部分411的不对称性。从而可以改善有效发光区90的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
为了使主体部分411与信号线组交叠设置的效果较好,在具体实施时,在本公开实施例中,如图13所示,可以使一个信号线组中的数据线和电源线之间的距离小于相邻的两个信号线组之间的距离。当然,一个信号线组中的数据线和电源线之间的距离以及相邻的两个信号线组之间的距离可以根据实际应用环境来设计确定,在此不作限定。
在具体实施时,在本公开实施例中,如图13所示,第三颜色子像素030 中,主体部分413在基板100的正投影与最近邻的信号线组200在基板100的正投影的交叠面积小于主体部分413的面积的10%。示例性地,主体部分413在基板100的正投影与最近邻的信号线组200在基板100的正投影的交叠面积小于主体部分413的面积的8%、5%以及2%中的一个。
在具体实施时,在本公开实施例中,如图13所示,第三颜色子像素030中,主体部分413在基板100的正投影与信号线组200在基板100的正投影不交叠。这样可以使主体部分413下方不设置信号线721、722,使主体部分413尽可能平坦。从而可以改善有效发光区的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
一般绝缘层中会设置过孔,为了避免过孔对主体部分的影响。在具体实施时,在本公开实施例中,如图13与图14b所示,同一子像素中,主体部分410在基板100的正投影与第一过孔310在基板100的正投影不交叠。示例性地,第一颜色子像素010中的主体部分411在基板100的正投影与第一过孔310在基板100的正投影不交叠。第二颜色子像素021、022中的主体部分4121、4122在基板100的正投影与第一过孔310在基板100的正投影不交叠。第三颜色子像素030中的主体部分413在基板100的正投影与第一过孔310在基板100的正投影不交叠。
在具体实施时,在本公开实施例中,如图13所示,针对一个重复单元组,重复单元组中的第三颜色子像素030的第一过孔310、第二颜色子像素020对中的第二个第二颜色子像素022的第一过孔310以及与该重复单元组相邻的第二颜色子像素对020中的第一个第二颜色子像素021的第一过孔310沿第一方向F1排列于同一直线上。示例性地,第一行的重复单元组002中的第三颜色子像素030的第一过孔310、第二个第二颜色子像素022的第一过孔310,以及第二行的重复单元组002中的第一个第二颜色子像素021的第一过孔310,这三个第一过孔310沿第一方向F1排列于同一直线上,以降低制备这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
本公开实施例又提供了一些电致发光显示面板的结构示意图,如图15所 示,其针对上述实施方式进行了变形。下面仅说明本实施例与上述实施例的区别之处,其相同之处在此不作赘述。
在具体实施时,在本公开实施例中,如图15所示,第一导电层200包括:第一桥接线230、第一连接线710以及沿第一方向间隔排列多个信号线组720;其中,各子像素中,辅助部分420通过第一过孔310与第一连接线710电连接;各信号线组720包括至少两条信号线721、722,信号线721、722沿第二方向F2延伸;第一方向F1与第二方向F2不同。示例性地,第一连接线可以与驱动电路中的晶体管的漏极电连接,以实现信号的传输。示例性地,第一桥接线230被配置为将驱动电路中的部分晶体管的源极、漏极以及栅线中的至少两个电极进行电连接,以实现信号的传输。需要说明的是,图15仅是示意出各颜色子像素中的主体部分、信号线组以及第一桥接线230的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。
在具体实施时,在本公开实施例中,如图15所示,第三颜色子像素030的主体部分413在第一方向F1上的尺寸大于第一颜色子像素010的主体部分413在第一方向F1上的尺寸。第三颜色子像素030的主体部分413在第二方向F2上的尺寸小于第一颜色子像素010的主体部分413在第二方向F2上的尺寸。并且,示例性地,可以使第一颜色为红色、第二颜色为绿色、第三颜色为蓝色。
在具体实施时,在本公开实施例中,如图15与图16所示,第一颜色子像素010中,主体部分411在基板100的正投影与至少一个信号线组720在基板的正投影交叠,且第一颜色子像素010中,与主体部分411在基板100的正投影交叠的信号线组200中的信号线沿第二方向F2的中心线关于主体部分411沿第二方向F2的第三对称轴大致呈轴对称。示例性地,主体部分411在基板100的正投影与一个信号线组720在基板的正投影交叠,与主体部分411在基板100的正投影交叠的信号线721、722关于第三对称轴大致呈轴对称。这样可以使该主体部分411具有两个对称的凸起,以使该第三对称轴两侧的主体部分411的区域对称设置,从而可以降低主体部分411的不对称性。 从而可以改善有效发光区90的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图15与图16所示,第三颜色子像素030中,主体部分413在基板100的正投影与至少一个信号线组720在基板100的正投影以及至少一个第一桥接线230在基板100的正投影交叠。且第三颜色子像素030中,与主体部分413在基板100的正投影交叠的信号线组200中的信号线沿第二方向F2的中心线与第一桥接线230沿第二方向F2的中心线关于主体部分413沿第二方向F2的第二对称轴大致呈轴对称。这样也可以使该主体部分413的有效发光区中具有两个对称的凸起,以使该第二对称轴两侧的主体部分413的区域对称设置,从而可以降低主体部分413的不对称性。从而可以改善有效发光区90的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
本公开实施例又提供了一些电致发光显示面板的结构示意图,如图17所示,其针对上述实施方式进行了变形。下面仅说明本实施例与上述实施例的区别之处,其相同之处在此不作赘述。
在具体实施时,在本公开实施例中,如图17所示,也可以使第三方向F3与第二方向F2相同,第四方向F4与第一方向F1相同;第三颜色子像素030的主体部分413在第一方向F1上的尺寸大于第三颜色子像素030的主体部分413在第二方向F2上的尺寸,第一颜色子像素010的主体部分411在第一方向F1上的尺寸大于第一颜色子像素010的主体部分411在第二方向F2上的尺寸。示例性地,第一颜色子像素010的主体部分411在第二方向F2上的尺寸小于第三颜色子像素030的主体部分413在第二方向F2上的尺寸。第一颜色子像素010的主体部分411在第一方向F1上的尺寸大于第三颜色子像素030的主体部分413在第一方向F1上的尺寸。并且,示例性地,可以使第一颜色为红色、第二颜色为绿色、第三颜色为蓝色。或者,第一颜色子像素010的主体部分411在第二方向F2上的尺寸也可以大于第三颜色子像素030的主体部分413在第二方向F2上的尺寸。第一颜色子像素010的主体部分411在第 一方向F1上的尺寸也可以小于第三颜色子像素030的主体部分413在第一方向F1上的尺寸。并且,示例性地,可以使第一颜色为蓝色、第二颜色为绿色、第三颜色为红色。
在具体实施时,在本公开实施例中,如图17所示,第一颜色子像素010中,主体部分411在基板100的正投影与相邻的两个信号线组720在基板100的正投影交叠;且第一颜色子像素010中,与主体部分411在基板100的正投影交叠的两个信号线组720所在的位置关于主体部分411沿第二方向F2的第三对称轴大致呈轴对称。这样可以使该主体部分411具有两个关于第三对称轴大致对称的凸起,以使该第三对称轴两侧的主体部分411的区域对称设置,从而可以降低主体部分411的不对称性。从而可以改善有效发光区90的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
在具体实施时,在本公开实施例中,如图17所示,第三颜色子像素030中,主体部分413在基板100的正投影与相邻的两个信号线组720在基板110的正投影交叠;且第三颜色子像素030中,与主体部分413在基板100的正投影交叠的两个信号线组720所在的位置关于主体部分413沿第二方向F2的第二对称轴大致呈轴对称。这样可以使该主体部分413具有两个关于第二对称轴大致对称的凸起,以使该第二对称轴两侧的主体部分413的区域对称设置,以及支撑主体部分413,使主体部分413尽可能平坦。从而可以降低主体部分413的不对称性。从而可以改善有效发光区90的发光不对称性,甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
可选地,在具体实施时,在本公开实施例中,如图17所示,第三颜色子像素030中,主体部分413在基板100的正投影覆盖一个第一桥接线230在基板100的正投影;且与主体部分413在基板100的正投影交叠的第一桥接线230关于主体部分413沿第二方向F2的第二对称轴大致呈轴对称。这样可以使该主体部分413通过第一桥接线230以及信号线组720进行支撑,从而使主体部分413尽可能平坦,从而可以改善有效发光区90的发光不对称性, 甚至消除有效发光区的发光不对称性,从而可改善,甚至消除显示面板的色偏现象。
可选地,在具体实施时,在本公开实施例中,如图17所示,第二颜色子像素021中,主体部分4121在基板100的正投影与一个信号线组720在基板100的正投影交叠。第二颜色子像素022中,主体部分4122在基板100的正投影与一个信号线组720在基板100的正投影交叠。并且,与同一第二颜色子像素对020的两个第二颜色子像素021、022交叠的两个信号线组720相邻。即与主体部分4121在基板100的正投影交叠的信号线组720和与主体部分4122在基板100的正投影交叠的信号线组720相邻。
示例性地,在具体实施时,在本公开实施例中,如图17所示,第二颜色子像素对022具有沿第二方向F2的第四对称轴。即同一第二颜色子像素对022中的主体部分4121和主体部分4122关于第四对称轴大致呈轴对称。并且正投影与第二颜色子像素020对的两个第二颜色子像素021、022交叠的两个信号线组720关于第四对称轴大致呈轴对称。即同一第二颜色子像素对022中,正投影与主体部分4121交叠的信号线组720和正投影与主体部分4122交叠的信号线组720关于第四对称轴大致呈轴对称。
示例性地,在具体实施时,在本公开实施例中,如图17与图18所示,针对一个重复单元组,重复单元组中一个重复单元的第一颜色子像素010的第一过孔310、第二颜色子像素020对中的第一个第二颜色子像素021的第一过孔310、第二个第二颜色子像素020的第一过孔310以及与重复单元相邻的第三颜色子像素030的第一过孔310沿第一方向F1排列于同一直线上。通过使这四个第一过孔310沿第一方向F1排列于同一直线上,以降低制备这四个第一过孔310时使用的掩膜版(Mask)的设计难度。
在具体实施时,在本公开实施例中,如图17与图18所示,奇数类重复单元组中,同一行重复单元001中的第一颜色子像素010的第一过孔310、第二颜色子像素对020中的第一个第二颜色子像素021的第一过孔310以及第二个第二颜色子像素022的第一过孔310沿第一方向F1排列于同一直线上。 这样也可以降低制备显示面板中的这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
在具体实施时,在本公开实施例中,如图17与图18所示,奇数类重复单元组中,同一行重复单元001中的第三颜色子像素030的第一过孔310沿第一方向F1排列于同一直线上。这样也可以降低制备显示面板中的这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
在具体实施时,在本公开实施例中,如图17与图18所示,偶数类重复单元组中,同一行重复单元001中的第一颜色子像素010的第一过孔310、第二颜色子像素对020中的第一个第二颜色子像素021的第一过孔310以及第二个第二颜色子像素022的第一过孔310沿第一方向F1排列于同一直线上。这样也可以降低制备显示面板中的这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
在具体实施时,在本公开实施例中,如图17与图18所示,偶数类重复单元组中,同一行重复单元001中的第三颜色子像素030的第一过孔310沿第一方向F1排列于同一直线上。这样也可以降低制备显示面板中的这三个第一过孔310时使用的掩膜版(Mask)的设计难度。
需要说明的是,图17仅是示意出信号线组和各子像素中的主体部分的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。图18仅是示意出各子像素中的主体部分、辅助部分以及第一过孔310的实施方式,其余膜层是实施方式可以参见上述实施例,在此不作赘述。
基于同一发明构思,本公开实施例还提供了显示装置,包括本公开实施例提供的上述电致发光显示面板。该显示装置可以为:手机、平板电脑、电视机、显示器、笔记本电脑、数码相框、导航仪等任何具有显示功能的产品或部件。对于该显示装置的其它必不可少的组成部分均为本领域的普通技术人员应该理解具有的,在此不做赘述,也不应作为对本公开的限制。该显示装置的实施可以参见上述电致发光显示面板的实施例,重复之处不再赘述。
本公开实施例提供电致发光显示面板及显示装置,可以消除发光不对称 性,从而可改善,甚至消除显示面板的色偏现象。
显然,本领域的技术人员可以对本公开实施例进行各种改动和变型而不脱离本公开实施例的精神和范围。这样,倘若本公开实施例的这些修改和变型属于本公开权利要求及其等同技术的范围之内,则本公开也意图包含这些改动和变型在内。
Claims (56)
- 一种电致发光显示面板,其中,包括:多个重复单元,各所述重复单元包括多个子像素,各所述子像素包括:第一导电层,位于基板上方;第一绝缘层,位于所述第一导电层上方,并且包括第一过孔,所述第一过孔暴露所述第一导电层的一部分;阳极,位于所述第一绝缘层上,并且包括相互电连接的主体部分和辅助部分;所述辅助部分通过所述第一过孔与所述第一导电层电连接;所述多个重复单元中的至少一个包括:第一颜色子像素、第二颜色子像素以及第三颜色子像素;所述第三颜色子像素的主体部分的面积大于所述第二颜色子像素的主体部分的面积和所述第一颜色子像素的主体部分的面积;所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述第二颜色子像素的主体部分与所述第一导电层交叠的面积,且所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述第一颜色子像素的主体部分与所述第一导电层交叠的面积。
- 如权利要求1所述的电致发光显示面板,其中,所述第三颜色子像素的主体部分与所述第一导电层交叠的面积大于所述第二颜色子像素的主体部分与所述第一导电层交叠的面积与所述第一颜色子像素的主体部分与所述第一导电层交叠的面积之和。
- 如权利要求1或2所述的电致发光显示面板,其中,至少一个所述子像素的所述主体部分具有至少一个对称轴,所述主体部分在所述基板的正投影与所述第一导电层在所述基板的正投影交叠;与所述至少一个所述子像素的所述主体部分在所述基板的正投影交叠的第一导电层位于所述至少一个对称轴两侧的面积比值在1±0.1范围内。
- 如权利要求3所述的电致发光显示面板,其中,与所述至少一个所述 子像素的所述主体部分在所述基板的正投影交叠的第一导电层沿所述至少一个对称轴大致呈轴对称。
- 如权利要求4所述的电致发光显示面板,其中,所述第一导电层包括:相互间隔设置的第一电源线和第一连接线;其中,各所述子像素中,所述辅助部分通过所述第一过孔与所述第一连接线电连接。
- 如权利要求5所述的电致发光显示面板,其中,所述多个重复单元中的每个包括:沿第三方向排列的一个所述第一颜色子像素、一个所述第二颜色子像素对以及一个所述第三颜色子像素;其中,所述第二颜色子像素对包括沿第四方向排列的两个所述第二颜色子像素;所述多个重复单元沿所述第三方向排列形成重复单元组,所述重复单元组沿所述第四方向排列,且相邻两个所述重复单元组中的重复单元错位排列。
- 如权利要求6所述的电致发光显示面板,其中,至少一个子像素中,所述主体部分在所述第四方向上的尺寸与所述主体部分在所述第三方向上的尺寸的比值为γ1,γ1的取值范围为1.2~3。
- 如权利要求6或7所述的电致发光显示面板,其中,所述电致发光显示面板还包括:位于所述第一导电层与所述基板之间的第二绝缘层以及位于所述第二绝缘层与所述基板之间的第二导电层;其中,所述第二导电层包括:间隔设置的第二电源线和第二连接线;所述第二绝缘层具有暴露所述第二连接线的第二过孔以及暴露所述第二电源线的一部分的第三过孔;所述第一电源线通过所述第三过孔与所述第二电源线彼此电连接;所述第一连接线通过所述第二过孔与所述第二连接线彼此电连接。
- 如权利要求8所述的电致发光显示面板,其中,针对相互电连接的所述第一连接线和所述第二连接线,所述第一连接线在所述基板的正投影与所述第二连接线在所述基板的正投影至少部分交叠;所述第一电源线在所述基板的正投影与所述第二电源线在所述基板的正投影至少部分交叠。
- 如权利要求8或9所述的电致发光显示面板,其中,所述第一电源线包括:沿第一方向排列且沿第二方向延伸的多个子电源线,以及电连接各个所述子电源线的导通线;其中,所述第一方向与所述第二方向不同。
- 如权利要求10所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与所述第一电源线在所述基板的正投影交叠;所述主体部分具有沿所述第一方向的第一对称轴;所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的第一电源线沿所述第一对称轴大致呈轴对称,并且与所述主体部分在所述基板的正投影交叠的所述第一电源线的中心与所述主体部分的中心大致重叠。
- 如权利要求10或11所述的电致发光显示面板,其中,所述导通线包括第一导通线;所述第三颜色子像素中,所述主体部分在所述基板的正投影覆盖至少一条所述子电源线与至少两条第一导通线在所述基板的正投影。
- 如权利要求12所述的电致发光显示面板,其中,所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的子电源线沿所述第一对称轴大致呈轴对称,且与所述主体部分在所述基板的正投影交叠的子电源线覆盖所述主体部分的中心;所述第三颜色子像素中,所述主体部分具有沿所述第二方向的第二对称轴,与所述主体部分在所述基板的正投影交叠的至少两条第一导通线沿所述第二对称轴大致呈轴对称。
- 如权利要求13所述的电致发光显示面板,其中,所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述子电源线和所述第一导通线采用十字型、米字型、井字型、Ⅰ字型、Ⅱ字型以及Ⅲ字型中的一种设置。
- 如权利要求10所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与至少两条子电源线在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线平行且等间距设置。
- 如权利要求15所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分具有沿所述第二方向的第二对称轴;与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线所在的位置关于所述第二对称轴大致呈轴对称设置于所述主体部分的中心的两侧。
- 如权利要求6-16任一项所述的电致发光显示面板,其中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第三颜色子像素的主体部分在所述第二方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸;所述第一颜色子像素的主体部分在所述第二方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸。
- 如权利要求17所述的电致发光显示面板,其中,所述第三颜色子像素中的主体部分在所述基板的正投影与第一连接线在所述基板的正投影不交叠。
- 如权利要求10-18任一项所述的电致发光显示面板,其中,所述导通线包括第二导通线;所述第二颜色子像素对中的两个所述第二颜色子像素之间设置一条第二导通线。
- 如权利要求19所述的电致发光显示面板,其中,所述第二导通线沿所述第一方向延伸为直线形。
- 如权利要求20所述的电致发光显示面板,其中,针对同一重复单元中的第三颜色子像素和第二颜色子像素对,所述第三颜色子像素的主体部分在所述基板的正投影交叠的第一导通线和设置于所述第二颜色子像素对中的两个第二颜色子像素之间的第二导通线沿所述第一方向大致延伸于同一直线上。
- 如权利要求10-21任一项所述的电致发光显示面板,其中,所述导通线包括第三导通线;一个重复单元组中的第一颜色子像素和相邻重复单元组中且与所述第一颜色子像素最近邻的第三颜色子像素之间设置一条第三导通线;且所述第三导通线位于对应的所述第三颜色子像素的主体部分背离辅助 部分一侧。
- 如权利要求22所述的电致发光显示面板,其中,所述第三导通线为折线形与曲线形中的至少一种。
- 如权利要求23所述的电致发光显示面板,其中,所述第三导通线包括:相互电连接的第一导通部分和第二导通部分;所述第一导通部分沿所述第一方向延伸,所述第二导通部分沿与所述第一方向交叉的方向延伸。
- 如权利要求8-24任一项所述的电致发光显示面板,其中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与最近邻的子电源线交叠的尺寸小于所述子电源线在所述第一方向上的宽度的80%。
- 如权利要求8-24任一项所述的电致发光显示面板,其中,所述第一颜色子像素中,所述主体部分在所述基板的正投影的面积小于所述主体部分的面积的10%。
- 如权利要求25或26所述的电致发光显示面板,其中,正投影最近邻所述第一颜色子像素中主体部分正投影的子电源线中的至少部分具有第一宽度,正投影位于所述第三颜色子像素中主体部分正投影覆盖的子电源线具有第二宽度;所述第一宽度小于所述第二宽度。
- 如权利要求27所述的电致发光显示面板,其中,位于所述第一颜色子像素的主体部分的长轴两侧的子电源线的宽度不同,且最近邻所述第一颜色子像素的子电源线的宽度小于另一侧子电源线的宽度。
- 如权利要求25-28任一项所述的电致发光显示面板,其中,所述第二颜色子像素中,所述主体部分在所述基板的正投影与最近邻的子电源线交叠的尺寸小于所述子电源线在所述第一方向上的宽度的80%。
- 如权利要求25-28任一项所述的电致发光显示面板,其中,所述第二颜色子像素中,所述主体部分在所述基板的正投影小于所述主体部分的面积的10%。
- 如权利要求29或30所述的电致发光显示面板,其中,正投影最近 邻所述第二颜色子像素中主体部分正投影的子电源线中的至少部分具有第三宽度,正投影位于所述第三颜色子像素中主体部分正投影覆盖的子电源线具有第二宽度;所述第三宽度小于所述第二宽度。
- 如权利要求6-16任一项所述的电致发光显示面板,其中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第二方向上的尺寸;所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第二方向上的尺寸。
- 如权利要求32所述的电致发光显示面板,其中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少两条子电源线在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线平行且等间距设置。
- 如权利要求33所述的电致发光显示面板,其中,所述第一颜色子像素中,所述主体部分具有沿所述第二方向的第三对称轴;与所述主体部分在所述基板的正投影交叠的所述至少两条子电源线所在的位置关于所述第三对称轴大致呈轴对称设置于所述主体部分的中心两侧。
- 如权利要求8-34任一项所述的电致发光显示面板,其中,同一所述子像素中,所述主体部分在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
- 如权利要求35所述的电致发光显示面板,其中,同一所述子像素中,所述第二过孔在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
- 如权利要求8-31任一项所述的电致发光显示面板,其中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第二颜色子像素对包括:第一个第二颜色子像素和第二个第二颜色子像素;同一所述重复单元组中,所述第一颜色子像素的第一过孔、所述第二颜 色子像素对中的第二个第二颜色子像素的第一过孔以及所述第三颜色子像素的第二过孔沿所述第一方向排列于同一直线上。
- 如权利要求32-36任一项所述的电致发光显示面板,其中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;所述第二颜色子像素对包括:第一个第二颜色子像素和第二个第二颜色子像素;奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第一颜色子像素的第一过孔、所述第二颜色子像素对中的两个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上;奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第三颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
- 如权利要求8-38任一项所述的电致发光显示面板,其中,所述第一电源线被配置为传输驱动电压的电源线。
- 如权利要求6所述的电致发光显示面板,其中,所述第一导电层包括:第一桥接线、第一连接线以及沿第一方向间隔排列多个信号线组;其中,各所述子像素中,所述辅助部分通过所述第一过孔与所述第一连接线电连接;各所述信号线组包括至少两条不同的信号线,各所述信号线沿所述第二方向延伸;至少一个子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;并且与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述主体部分沿所述第二方向的对称轴大致呈轴对称。
- 如权利要求40所述的电致发光显示面板,其中,所述第三方向与所述第一方向相同,所述第四方向与所述第二方向相同;所述第三颜色子像素的主体部分在所述第二方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸;所述第一颜色子像素的主体部分在所述第二方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸。
- 如权利要求41所述的电致发光显示面板,其中,所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第一方向上的尺寸;所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;所述主体部分具有沿所述第二方向的第三对称轴;并且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述第二对称轴大致呈轴对称。
- 如权利要求42所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与最近邻的所述信号线组在所述基板的正投影的交叠面积小于所述主体部分的面积的10%。
- 如权利要求41所述的电致发光显示面板,其中,所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第一方向上的尺寸;所述第一颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影交叠;所述第一颜色子像素的主体部分具有沿所述第二方向的第三对称轴;且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线关于所述第三对称轴大致呈轴对称。
- 如权利要求44所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与至少一个所述信号线组在所述基板的正投影以及至少一个所述第一桥接线在所述基板的正投影交叠;所述第三颜色子像素的主体部分具有沿所述第二方向的第二对称轴;且所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的所述信号线组中的信号线沿所述第二方向的中心线与所述第一桥接线沿所述第二方向的中心线关于所述第二对称轴大致呈轴对称。
- 如权利要求40-45任一项所述的电致发光显示面板,其中,同一所述 子像素中,所述主体部分在所述基板的正投影与所述第一过孔在所述基板的正投影不交叠。
- 如权利要求46所述的电致发光显示面板,其中,针对一个所述重复单元组,所述重复单元组中的所述第三颜色子像素的第一过孔、所述第二颜色子像素对中的第二个第二颜色子像素的第一过孔以及与所述重复单元组相邻的第二颜色子像素对中的第一个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
- 如权利要求40所述的电致发光显示面板,其中,所述第三方向与所述第二方向相同,所述第四方向与所述第一方向相同;所述第三颜色子像素的主体部分在所述第一方向上的尺寸大于所述第三颜色子像素的主体部分在所述第二方向上的尺寸;所述第一颜色子像素的主体部分在所述第一方向上的尺寸大于所述第一颜色子像素的主体部分在所述第二方向上的尺寸。
- 如权利要求48所述的电致发光显示面板,其中,所述第一颜色子像素中,所述主体部分在所述基板的正投影与相邻的两个所述信号线组在所述基板的正投影交叠;所述第一颜色子像素的主体部分具有沿所述第二方向的第三对称轴;且所述第一颜色子像素中,与所述主体部分在所述基板的正投影交叠的两个所述信号线组所在的位置关于所述第三对称轴大致呈轴对称。
- 如权利要求49所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影与相邻的两个所述信号线组在所述基板的正投影交叠;所述第三颜色子像素的主体部分具有沿所述第二方向的第二对称轴;且所述第三颜色子像素中,与所述主体部分在所述基板的正投影交叠的两个所述信号线组所在的位置关于所述第二对称轴大致呈轴对称。
- 如权利要求50所述的电致发光显示面板,其中,所述第三颜色子像素中,所述主体部分在所述基板的正投影覆盖一个所述第一桥接线在所述基板的正投影;且与所述主体部分在所述基板的正投影交叠的所述第一桥接线关于所述第二对称轴大致呈轴对称。
- 如权利要求51所述的电致发光显示面板,其中,所述第二颜色子像 素中,所述主体部分在所述基板的正投影与一个所述信号线组在所述基板的正投影交叠;与所述第二颜色子像素对的两个所述第二颜色子像素交叠的两个所述信号线组相邻。
- 如权利要求52所述的电致发光显示面板,其中,所述第二颜色子像素对的两个所述第二颜色子像素中的主体部分沿第四对称轴大致呈轴对称;正投影与所述第二颜色子像素对的两个所述第二颜色子像素交叠的两个所述信号线组关于所述第四对称轴大致呈轴对称。
- 如权利要求48-53任一项所述的电致发光显示面板,其中,奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第一颜色子像素的第一过孔、所述第二颜色子像素对中的第一个第二颜色子像素的第一过孔以及第二个第二颜色子像素的第一过孔沿所述第一方向排列于同一直线上;并且,奇数类重复单元组和偶数类重复单元组中的至少一类重复单元组中,同一行重复单元中的所述第三颜色子像素的第一过孔沿所述第一方向排列于同一直线上。
- 如权利要求40-54任一项所述的电致发光显示面板,其中,各所述信号线组包括被配置为传输数据信号的数据线和被配置为传输驱动电压的电源线。
- 一种显示装置,其中,包括如权利要求1-55任一项所述的电致发光显示面板。
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US11950466B2 (en) * | 2020-08-31 | 2024-04-02 | Chengdu Boe Optoelectronics Technology Co., Ltd. | Display substrate, method of manufacturing the same, and display apparatus |
CN113745304B (zh) * | 2021-09-06 | 2024-10-08 | 厦门天马显示科技有限公司 | 显示面板以及显示装置 |
CN114497154A (zh) * | 2022-01-26 | 2022-05-13 | 京东方科技集团股份有限公司 | 显示面板及其制作方法、显示装置 |
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CN112133709B (zh) * | 2017-02-15 | 2023-05-19 | 朱夏青 | 显示装置 |
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- 2019-07-31 US US16/959,376 patent/US11587983B2/en active Active
- 2019-07-31 EP EP19932235.5A patent/EP4006981A4/en active Pending
- 2019-07-31 WO PCT/CN2019/098738 patent/WO2021016962A1/zh unknown
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CN113178463A (zh) * | 2021-04-07 | 2021-07-27 | 深圳市华星光电半导体显示技术有限公司 | 显示面板及其制作方法 |
Also Published As
Publication number | Publication date |
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EP4006981A1 (en) | 2022-06-01 |
EP4006981A4 (en) | 2023-04-12 |
CN112673477A (zh) | 2021-04-16 |
US20210408153A1 (en) | 2021-12-30 |
CN112673477B (zh) | 2024-06-28 |
US11587983B2 (en) | 2023-02-21 |
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