KR102216001B1 - Organic light emitting display device - Google Patents

Abstract

The organic light emitting display device including a plurality of pixel regions having a first sub-pixel region, a second sub-pixel region, a third sub-pixel region, and a white sub-pixel region according to an exemplary embodiment of the present invention is A first electrode disposed, a second electrode disposed on the first electrode to face the first electrode, and a first organic light-emitting layer, a second organic light-emitting layer, and a third organic light-emitting layer disposed between the first electrode and the second electrode Including, the light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer are mixed to become white light, and the first organic emission layer is a white sub-pixel region in a pixel region among a plurality of pixel regions, And a first sub-pixel region in a pixel region adjacent to a certain pixel region, and the second organic emission layer is a white sub-pixel region in a pixel region and a white sub-pixel region in a pixel region or adjacent to a pixel region. And the third organic emission layer is commonly disposed in the white sub-pixel area and the third sub-pixel area in an arbitrary pixel area.

Description

Organic light emitting display device {ORGANIC LIGHT EMITTING DISPLAY DEVICE}

The present invention relates to an organic light-emitting display device, and more particularly, to an organic light-emitting display device in which a process margin area between sub-pixel areas is reduced to improve the aperture ratio of the entire display.

The organic light-emitting display device (OLED) is a self-emission type display device, and unlike a liquid crystal display device (LCD), it does not require a separate light source, and thus can be manufactured in a lightweight and thin form. In addition, organic light-emitting display devices are not only advantageous in terms of power consumption by low voltage driving, but also have excellent color realization, response speed, viewing angle, and contrast ratio (CR), and thus are being studied as a next-generation display.

In recent years, in order to improve the luminance while increasing the light efficiency of the organic light emitting display device, in addition to the red sub-pixel region, the green sub-pixel region, and the blue sub-pixel region, a white sub-pixel region capable of emitting white light has been added. Research on an organic light emitting diode display having a WRGB pixel structure is actively being conducted.

The organic light emitting display device having the WRGB pixel structure is manufactured by disposing different types of light emitting materials in each of the four types of sub-pixel regions using a patterned mask. Specifically, using a patterned mask, a red light-emitting material is applied to the red sub-pixel area, a green light-emitting material is applied to the green sub-pixel area, a blue light-emitting material is applied to the blue sub-pixel area, and a white light-emitting material is applied to the white sub-pixel area. It is manufactured by vapor deposition.

When the light-emitting material is deposited in the sub-pixel area using the patterned mask opening area, a problem of misalignment of the patterned mask may occur. Therefore, a minimum process margin area must exist between neighboring sub-pixel areas. However, as the high resolution of the organic light emitting display device progresses, the size of the sub-pixel area is getting smaller, and in order to secure the minimum process margin area as described above between the smaller sub-pixel areas, There is no choice but to reduce the size of the light emitting area.

The reduction of the light emitting area within the sub-pixel area has a problem of lowering the aperture ratio of the entire display. Accordingly, there is a demand for a new technology capable of improving the aperture ratio of the entire display while implementing a high resolution of the display.

[Related technical literature]

1. Display device and its sub-pixel arrangement (Patent Application No. 10-2011-0117613)

The inventors of the present invention invent a new structure of an organic light emitting display device capable of reducing a process margin area between sub-pixel areas in order to solve the problems occurring in the conventional organic light emitting display device having a WRGB pixel structure as described above. I did.

The problem to be solved by the present invention is to provide an organic light emitting display device in which a process margin area between sub-pixel areas is reduced.

Another problem to be solved by the present invention is to provide an organic light emitting display device having an improved aperture ratio of the entire display.

Another problem to be solved by the present invention is to provide an organic light emitting display device capable of reducing a process time and a process cost for forming a white sub-pixel region.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

Organic light emission including a plurality of pixel regions having a first sub-pixel region, a second sub-pixel region, a third sub-pixel region, and a white sub-pixel region according to an exemplary embodiment of the present invention for achieving the above object The display device includes a substrate, a first electrode disposed on the substrate, a second electrode disposed on the first electrode to face the first electrode, and a first organic light-emitting layer disposed between the first electrode and the second electrode, Including a second organic emission layer and a third organic emission layer, the light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light, and the first organic emission layer is any of a plurality of pixel areas. A white sub-pixel region in a pixel region of, and a first sub-pixel region in a pixel region adjacent to an arbitrary pixel region, and the second organic emission layer is a white sub-pixel region in a pixel region, and an arbitrary pixel A second sub-pixel region in the region or in another pixel region adjacent to a certain pixel region, and the third organic emission layer is commonly disposed in a white sub-pixel region and a third sub-pixel region in a certain pixel region. It features.

According to another feature of the present invention, each of the first organic emission layer, the second organic emission layer, and the third organic emission layer emits light of a different color, and may emit any one of red light, green light, and blue light. have.

According to another feature of the present invention, the first organic emission layer may not be commonly disposed in the white sub-pixel area and the first sub-pixel area in an arbitrary pixel area.

According to another feature of the present invention, in each of the first sub-pixel region, the second sub-pixel region, and the third sub-pixel region, at least two of the first organic emission layer, the second organic emission layer, and the third organic emission layer are overlapped. May not be deployed.

According to another feature of the present invention, a form in which a plurality of pixel regions are arranged may be a form in which a pixel region group consisting of a first pixel region and a second pixel region is repeatedly arranged.

According to another feature of the present invention, the first sub-pixel area, the second sub-pixel area, the white sub-pixel area, and the third sub-pixel area are arranged in a line in the first pixel area, and the white sub-pixel area is in the second pixel area. The region, the third sub-pixel region, the first sub-pixel region, and the second sub-pixel region may be arranged in a line.

According to another feature of the present invention, the length direction of the first organic emission layer and the length direction of the second organic emission layer are perpendicular to each other, the length direction of the first organic emission layer and the length direction of the third organic emission layer are perpendicular to each other, , The first organic emission layer may be commonly disposed over four or more pixel areas in the length direction.

According to still another feature of the present invention, the second organic emission layer may be commonly disposed in a white sub-pixel area and a second sub-pixel area in an arbitrary pixel area.

According to another feature of the present invention, in the first pixel area, a first sub-pixel area at an upper right, a second sub-pixel area at an upper left, a third sub-pixel area at the lower right, and a white sub-pixel area at the lower left Are arranged, and in the second pixel region, a first sub-pixel region at a lower right, a second sub-pixel region at a lower left, a third sub-pixel region at an upper right, and a white sub-pixel region at an upper left may be arranged.

According to another feature of the present invention, the length direction of the second organic emission layer and the length direction of the first organic emission layer are perpendicular to each other, the length direction of the second organic emission layer and the length direction of the third organic emission layer are perpendicular to each other, , The second organic emission layer may be commonly disposed over two or more pixel areas.

According to another feature of the present invention, each of the plurality of pixel areas may have a square shape.

According to another feature of the present invention, the arrangement of the plurality of pixel regions is a form in which a pixel region group consisting of a first pixel region, a second pixel region, a third pixel region, and a fourth pixel region is repeatedly arranged. I can.

According to another feature of the present invention, in the pixel region group, a first pixel region at an upper left, a second pixel region at an upper right, a third pixel region at a lower left, and a fourth pixel region at a lower right may be arranged. .

According to another feature of the present invention, in the first pixel area, a first sub-pixel area in the upper right, a second sub-pixel area in the upper left, a third sub-pixel area in the lower right, and a white sub-pixel area in the lower left And in the second pixel region, a first sub-pixel region is arranged at the lower left, a second sub-pixel region is at the lower right, a third sub-pixel region is at the upper left, and a white sub-pixel region is arranged at the upper right, and the third pixel In the area, a first sub-pixel area is arranged on the upper left, a second sub-pixel area is on the upper right, a third sub-pixel area is on the lower left, and a white sub-pixel area is arranged on the lower right. A 1 sub-pixel area, a second sub-pixel area at a lower left, a third sub-pixel area at an upper right, and a white sub-pixel area may be arranged at an upper left.

According to another feature of the present invention, the length direction of the third organic emission layer and the length direction of the first organic emission layer are perpendicular to each other, and the length direction of the third organic emission layer and the length of the second organic emission layer within a pixel area The directions are perpendicular to each other, and the second organic emission layer includes a white sub-pixel area and a second sub-pixel area in a pixel area, and a white sub-pixel area and a second sub-pixel area in another pixel area adjacent to the arbitrary pixel area. Can be placed in common.

According to another feature of the present invention, the second organic emission layer may have a square shape.

According to another feature of the present invention, each of the plurality of pixel areas may have a square shape.

According to another feature of the present invention, a charge generating layer disposed between the first organic emission layer, the second organic emission layer, and the third organic emission layer may be further included.

In order to achieve the above-described object, according to an embodiment of the present invention, an organic layer including a white sub-pixel area and a first sub-pixel area, a second sub-pixel area, and a third sub-pixel area adjacent to the white sub-pixel area. A light emitting display device includes a substrate and a first electrode disposed on the substrate; A second electrode disposed on the first electrode to face the first electrode, and a first organic light-emitting layer, a second organic light-emitting layer, and a third organic light-emitting layer disposed between the first electrode and the second electrode, and a first The light emitted from the organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light, the first organic emission layer is commonly disposed in the white sub-pixel area and the first sub-pixel area, and the second organic emission layer is The white sub-pixel region and the second sub-pixel region are commonly disposed, and the third organic emission layer is commonly disposed in the white sub-pixel region and the third sub-pixel region.

According to another feature of the present invention, each of the first organic emission layer, the second organic emission layer, and the third organic emission layer emits light of a different color, and may emit any one of red light, green light, and blue light. have.

According to another feature of the present invention, in each of the first sub-pixel region, the second sub-pixel region, and the third sub-pixel region, at least two of the first organic emission layer, the second organic emission layer, and the third organic emission layer are overlapped. May not be deployed.

According to another feature of the present invention, a first sub-pixel area and a third sub-pixel area are symmetrically adjacent to the white sub-pixel area, and two second sub-pixel areas are symmetrically adjacent to the white sub-pixel area. , The second organic emission layer may be commonly disposed over the white sub-pixel area and the two second sub-pixel areas.

According to another feature of the present invention, the first sub-pixel region and the second sub-pixel region are symmetrically adjacent to the white sub-pixel region, and the third sub-pixel region and another second sub-pixel region are in the white sub-pixel region. The adjacent, second organic emission layer may be commonly disposed over the white sub-pixel region, the second sub-pixel region, and another second sub-pixel region.

Details of other embodiments are included in the detailed description and drawings.

The present invention has an effect of expanding the light emitting area in the sub-pixel area by reducing the process margin area between the sub-pixel areas.

The present invention has an effect of further improving the aperture ratio in a display having the same resolution and size.

The present invention has the effect of reducing a process time and a process cost for manufacturing an organic light emitting display device including a white sub-pixel area.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1A is a schematic plan view of an organic light emitting diode display according to an exemplary embodiment of the present invention.
1B is a cross-sectional view of an organic light emitting diode display according to Ib-Ib' of FIG. 1A.
1C is a perspective view schematically illustrating only structures of a sub-pixel area and an organic emission layer of the organic light emitting display of FIG. 1B.
FIG. 1D is a plan view illustrating mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 1C.
2A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting display according to another exemplary embodiment of the present invention.
FIG. 2B is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light-emitting display device having the same structure as in FIG. 2A but having a different definition of a pixel area.
3A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting diode display according to another exemplary embodiment of the present invention.
3B is a plan view exemplarily showing mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 3A.
4A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting diode display according to another exemplary embodiment of the present invention.
FIG. 4B is a plan view illustrating mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 4A.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims.

The shapes, sizes, ratios, angles, numbers, etc. disclosed in the drawings for explaining the embodiments of the present invention are exemplary, and the present invention is not limited to the illustrated matters. The same reference numerals refer to the same components throughout the specification. In addition, in describing the present invention, when it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. When'include','have','consists of' and the like mentioned in the specification are used, other parts may be added unless'only' is used. In the case of expressing the constituent elements in the singular, it includes the case of including the plural unless specifically stated otherwise.

In interpreting the constituent elements, it is interpreted as including an error range even if there is no explicit description.

In the case of a description of the positional relationship, for example, if the positional relationship of two parts is described as'upper','upper of','lower of','next to','right' Alternatively, one or more other parts may be positioned between the two parts unless'direct' is used.

When an element or layer is referred to as “on” another element or layer, it includes all cases in which another layer or another element is interposed directly on or in the middle of another element.

Although the first, second, etc. are used to describe various elements, these elements are not limited by these terms. These terms are only used to distinguish one component from another component. Accordingly, the first component mentioned below may be a second component within the technical idea of the present invention.

The same reference numerals refer to the same components throughout the specification.

The size and thickness of each component shown in the drawings are illustrated for convenience of description, and the present invention is not limited to the size and thickness of the illustrated component.

Each of the features of the various embodiments of the present invention can be partially or entirely combined or combined with each other, technically various interlocking and driving are possible, and each of the embodiments can be implemented independently of each other or can be implemented together in a related relationship. May be.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1A is a schematic plan view of an organic light emitting diode display according to an exemplary embodiment of the present invention.

Referring to FIG. 1A, the organic light emitting display device 100 includes a first pixel area 110a and a second pixel area 110b as a plurality of pixel areas. Each of the plurality of pixel areas 110a and 110b may include a plurality of sub-pixel areas as areas for displaying one color. Each of the plurality of sub-pixel regions includes first sub-pixel regions 112a and 112b, second sub-pixel regions 114a and 114b, third sub-pixel regions 116a and 116b, and white sub-pixel regions 118a and 118b. Can include. Different colors of light are emitted from each of the first sub-pixel areas 112a and 112b, the second sub-pixel areas 114a and 114b, and the third sub-pixel areas 116a and 116b, and specifically red, green, and blue Any one of the lights is emitted. Meanwhile, white light is emitted in the white sub-pixel regions 118a and 118b.

As shown in FIG. 1A, each of the plurality of pixel areas 110a and 110b has a rectangular shape. Two rectangular pixel regions 110a and 110b form one pixel region group 102, and the pixel region groups 102 are repeatedly arranged in the organic light emitting diode display 100. In the first pixel region 110a in the pixel region group 102, the first sub-pixel region 112a, the second sub-pixel region 114a, the white sub-pixel region 118a, and the third sub-pixel region 116a are It is arranged in a line, and in the second pixel region 110b in the pixel region group 102, a white sub-pixel region 118b, a third sub-pixel region 116b, a first sub-pixel region 112b, and a second sub-pixel The regions 114b are arranged in a line.

As shown in FIG. 1A, the first sub-pixel region 112b, the second sub-pixel region 114a, and the third sub-pixel region 116a are adjacent to the white sub-pixel region 118a. In the structure shown in FIG. 1A, the second sub-pixel region 114a and the third sub-pixel region 116a adjacent to the white sub-pixel region 118a are arranged in a symmetrical manner.

A region indicated by a dotted line in FIG. 1A is a region in which a first organic emission layer, a second organic emission layer, and a third organic emission layer, which will be described later, are formed, and indicates a region capable of emitting light of a specific color. As shown in FIG. 1A, compared to the distance between the emission area of the first sub-pixel area 112a and the emission area of the second sub-pixel area 114a, the emission area of the second sub-pixel area 114a and the white sub The distance between the emission areas of the pixel area 118a and the distance between the emission area of the white sub-pixel area 118a and the emission area of the third sub-pixel area 116a are shorter.

1B is a cross-sectional view of an organic light emitting diode display according to Ib-Ib' of FIG. 1A. 1B is a cross-sectional view of a first sub-pixel region 112a, a second sub-pixel region 114a, a white sub-pixel region 118a, and a third sub-pixel region 116a of an organic light emitting diode display. Referring to FIG. 1B, the organic light emitting display device 100 includes a substrate 120, a buffer layer 124, a thin film transistor 128, a gate insulating layer 132, an interlayer insulating layer 136, an overcoat layer 140, The bank layers 144a, 144b, 144c, the first electrode 148, the first organic emission layers 152a, 152b, the second organic emission layer 156a, the third organic emission layer 160a, and the second electrode 164 are formed. Include.

The substrate 120 is a substrate for supporting various elements of the organic light emitting display device 100. The substrate 120 may be made of a material having transparency and flexibility.

A buffer layer 124 is formed on the substrate 120. The buffer layer 124 prevents penetration of moisture or impurities through the substrate 120 and flattens the upper portion of the substrate 120. However, the buffer layer 124 is not necessarily a necessary configuration. Whether to form the buffer layer 124 is determined based on the type of the substrate 120 or the type of the thin film transistor 128 used in the organic light emitting display device 100. In addition, the buffer layer 124 may be formed of a transparent material.

The thin film transistor 128 is connected to the first electrode 148 to drive the organic light emitting display device 100. The thin film transistor 128 includes an active layer formed on the buffer layer 124, a gate electrode formed on the gate insulating layer 132, and a source electrode and a drain electrode formed on the interlayer insulating layer 136.

An overcoat layer 140 is formed on the thin film transistor 128. The overcoat layer 140 is a layer that flattens the upper portion of the substrate 120 and functions as a planarization film. The overcoat layer 140 includes a contact hole for electrically connecting the source electrode of the thin film transistor 128 and the first electrode 148.

The first electrode 148 is disposed on the substrate 110 and serves to apply a voltage to the first organic emission layer 152a, the second organic emission layer 156a, and the third organic emission layer 160a. The first electrode 148 may be an anode or a cathode. In this regard, the second electrode 164 to be described later may be a cathode when the first electrode 148 is an anode, and may be an anode when the first electrode 148 is a cathode. Those skilled in the art will be able to easily change the upper and lower positions of the first electrode 148 and the second electrode 164, so in the following detailed description, the first electrode 148 is an anode, and the second electrode It is assumed that (160) is a cathode.

The first electrode 148 is an anode and may be formed of a transparent conductive material having a high work function. For example, the first electrode 148 may be made of Indium Tin Oxide (ITO), Indium Zinc Oxide (IZO), and Indium Tin Zinc Oxide (ITZO). As shown in FIG. 1B, the first electrode 148 is divided into a first sub-pixel region 112a, a second sub-pixel region 114a, a white sub-pixel region 118a, and a third sub-pixel region 116a. Can be formed. Also, as illustrated in FIG. 1B, when the organic light emitting display device 100 is a top emission type organic light emitting display device, the first electrode 148 may additionally include a reflective layer.

Bank layers 144a, 144b, and 144c are formed on the first electrode 148 and the overcoat layer 140. The bank layers 144a, 144b, and 144c serve to separate adjacent sub-pixel regions. 1B, the width of the bank layer 144a separating the first sub-pixel region 112a and the second sub-pixel region 114a is the second sub-pixel region 114a and the white sub-pixel region The widths of the bank layer 144b separating the 118a and the bank layer 144c separating the third sub-pixel region 116a and the white sub-pixel region 118a may be larger.

A first organic emission layer 152a, 152b, a second organic emission layer 156a, and a third organic emission layer 160a are formed on the first electrode 148 and the bank layers 144a, 144b, and 144c. The first organic emission layers 152a and 152b, the second organic emission layer 156a, and the third organic emission layer 160a are configured to emit light by applying voltage from the first electrode 148 and the second electrode 164. Plays a role. Light emitted from the first organic emission layers 152a and 152b, the second organic emission layer 156a, and the third organic emission layer 160a are mixed to form white light. Each of the first organic emission layers 152a and 152b, the second organic emission layer 156a, and the third organic emission layer 160a emit light of a different color, and specifically, any one of red, green, and blue light. Can emit light.

As shown in FIG. 1B, a first organic emission layer 152b is disposed in the first sub-pixel area 112a, a second organic emission layer 156a is disposed in the second sub-pixel area 114a, and the third The third organic emission layer 160a is disposed in the sub-pixel area 116a, and the first organic emission layer 152a, the second organic emission layer 156a, and the third organic emission layer 160a are disposed in the white sub-pixel area 118a. It is placed overlaid.

For detailed descriptions of the first organic emission layers 152a and 152b, the second organic emission layers 156a and 156b, and the third organic emission layers 160a and 160b, refer to FIG. 1C.

1C is a perspective view schematically illustrating only structures of a sub-pixel area and an organic emission layer of the organic light emitting display of FIG. 1B. In FIG. 1C, for convenience of illustration, a plurality of pixel areas are separately shown below. This drawing method is also commonly applied to FIGS. 2A, 3A and 4A.

1C, the length directions of the first organic emission layers 152a and 152b and the length directions of the second organic emission layers 156a and 156b are perpendicular to each other, and the length of the first organic emission layers 152a and 152b The direction and the length direction of the third organic emission layers 160a and 160b are perpendicular to each other.

As shown in FIG. 1C, in the present invention, an organic emission layer having a “-” shape, an organic emission layer having a “-” shape, and an organic emission layer having a “-” shape are overlapped on the white sub-pixel area in the pixel area. In the present specification, it may be understood that the description that a specific organic emission layer is perpendicular to other organic emission layers is intended to specify an organic emission layer having a "|" shape. For reference, in FIGS. 1A to 1C, the organic light-emitting layer having a “L” shape is a first organic light-emitting layer, and in FIGS. 2A and 3A, the organic light-emitting layer having a “L” shape is a second organic light-emitting layer, and The organic emission layer is a third organic emission layer.

As shown in FIG. 1C, the first organic emission layer 152a is a white pixel area 118a of the pixel area 110a and a first sub of a second pixel area 110b adjacent to the first pixel area 110a. It is commonly disposed in the pixel area 112b. In addition, the first organic emission layer 152a includes a white pixel region 118b of the second pixel region 110b and a first sub-pixel region 112a of the first pixel region 110a adjacent to the second pixel region 110b. ) Are placed in common. That is, the first organic emission layers 152a and 152b include the white sub-pixel regions 118a and 118b in one of the pixel regions 110a and 110b, and the pixel regions 118a adjacent to the one of the pixel regions 110a and 110b, It is commonly disposed in the first sub-pixel regions 112b and 112a of 118b).

However, as shown in FIG. 1C, the first organic emission layers 152a and 152b are white sub-pixel regions 118a and 118b and first sub-pixel regions 112a and 112b in any one of the pixel regions 110a and 110b. ) Are not placed in common. In this respect, the structure disclosed herein can be distinguished from a structure in which an organic light emitting layer is commonly formed on the entire surface of a substrate.

As shown in FIG. 1C, the second organic emission layer 156a is commonly disposed in the white pixel area 118a and the second sub-pixel area 114a of the first pixel area 110a. On the other hand, the second organic emission layer 156b has a white pixel area 118b of the second pixel area 110b and a second sub-pixel area 114c of the pixel area 110c adjacent to the second pixel area 110b. Are placed in common. That is, the second organic emission layers 156a and 156b are commonly disposed in the white sub-pixel region 118a and the second sub-pixel region 114a in one pixel region 110a, or one pixel region 110b It is disposed in common in the white sub-pixel region 118b and the second sub-pixel region 114c of another pixel region 110c adjacent to one pixel region 110b.

As shown in FIG. 1C, the third organic emission layer 160a is commonly disposed in the white pixel region 118a and the third sub-pixel region 116a of the first pixel region 110a. In addition, the third organic emission layer 160b is commonly disposed in the white pixel region 118b and the third sub-pixel region 116b of the second pixel region 110b. That is, the third organic emission layers 160a and 160b are commonly disposed in the white sub-pixel areas 118a and 118b and the third sub-pixel areas 116a and 116b in one pixel area 110a and 110b.

If the structure shown in FIG. 1C is excluded from the pixel area and only the sub-pixel area is examined, the white sub-pixel areas 118a and 118b and the first sub-pixel areas 112a and 112b adjacent to the white sub-pixel areas 118a and 118b ), the first organic emission layers 152a and 152b are commonly disposed, and in the second sub-pixel regions 114a and 114b adjacent to the white sub-pixel regions 118a and 118b and the white sub-pixel regions 118a and 118b. The second organic emission layers 156a and 156b are disposed in common, and the third sub-pixel regions 116a and 116b are adjacent to the white sub-pixel regions 118a and 118b and the white sub-pixel regions 118a and 118b. It can be seen that the organic emission layers 160a and 160b are disposed in common.

1C, the first organic emission layers 152a and 152b, the second organic emission layers 156a and 156b, and the third organic emission layers 160a and 160b are stacked together only in the white sub-pixel regions 118a and 118b. However, in the first sub-pixel regions 112a and 112b, the second sub-pixel regions 114a and 114b, and the third sub-pixel regions 116a and 116b, the first organic emission layers 152a and 152b, and the second organic emission layer Two or more of the 156a and 156b and the third organic emission layers 160a and 160b are not overlapped and disposed.

Referring back to FIG. 1B, each of the first organic emission layer 152b and the second organic emission layer 156a is independently disposed in the first sub-pixel area 112a and the second sub-pixel area 114a. In the case of such a structure, a patterned mask is misaligned between the first organic emission layer 152b of the first sub-pixel region 112a and the second organic emission layer 156a of the second sub-pixel region 114a. A process margin area M in consideration of the problem is formed.

However, referring to FIG. 1B, it can be seen that the process margin area is considerably reduced between the second sub-pixel area 114a, the white sub-pixel area 118a, and the third sub-pixel area 116a. That is, in the organic light emitting display device 100 according to the exemplary embodiment, the organic light emitting layer is commonly disposed in the white sub-pixel area and other sub-pixel areas adjacent thereto, so that between the white sub-pixel area and other sub-pixel areas. It is possible to reduce the existing process margin area.

When the process margin area existing between the sub-pixel areas is reduced in this way, the area in which light emits light in the sub-pixel area may be enlarged (as shown by the dotted line in FIG. 1A), according to an embodiment of the present invention. According to the organic light emitting display device according to the above, the aperture ratio can be greatly increased in the organic light emitting display device having the same substrate size and resolution.

In addition, by arranging the first organic emission layer, the second organic emission layer, and the third organic emission layer emitting different colors to overlap the white sub-pixel region, a separate layer for emitting white light is formed in the white sub-pixel region. Since the process can be omitted, it is possible to reduce a process time and process cost for manufacturing an organic light emitting display device including a white sub-pixel region.

FIG. 1D is a plan view illustrating mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 1C.

Specifically, a plurality of mask patterns 168 having a “L” shape for forming the first organic emission layer of FIG. 1C, and a plurality of mask patterns 172 having a “-” shape for forming the second organic emission layer of FIG. 1C , A plurality of mask patterns 176 having a “-” shape for forming the third organic emission layer of FIG. 1C are shown. The mask pattern 172 for forming the second organic emission layer is horizontally shifted to the right by one sub-pixel area compared to the mask pattern 176 for forming the third organic emission layer.

Meanwhile, referring again to FIG. 1B, the second electrode 164 is formed on the first organic emission layers 152a and 152b, the second organic emission layer 156a, and the third organic emission layer 160a. The second electrode 164 is disposed on the first electrode 148 so as to face the first electrode 148 so that the first organic emission layers 152a and 152b, the second organic emission layer 156a, and the third organic emission layer 160a ) To apply voltage. The second electrode 164 may be connected to a separate power supply voltage line to apply the same voltage to all sub-pixel areas, and may be formed to have a very thin thickness to be substantially transparent. The second electrode 164 is a metal material having a low work function as a cathode, such as silver (Ag), titanium (Ti), aluminum (Al), molybdenum (Mo), or an alloy of silver (Ag) and magnesium (Mg). It can be composed of.

Although not shown in FIG. 1B, between the first organic emission layer 152a and the second organic emission layer 156a overlapping the white sub-pixel region 118a, and the second organic emission layer 156a and the third organic emission layer ( A charge generation layer may be disposed between 160a). When a voltage is applied to the first electrode 148 and the second electrode 164, the charge generation layer generates electrons and holes therein to form the first organic emission layer 152a, the second organic emission layer 156a, and the third organic emission layer. It may serve to provide each of the light emitting layers 160a.

2A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting display according to another exemplary embodiment of the present invention.

The organic light emitting display device 200 of FIG. 2A differs only in the structure of the pixel region and the configuration of the organic emission layer compared to the organic light emitting display device 100 described in FIGS. 1A to 1C, and the other configurations are substantially the same. Is omitted.

Referring to FIG. 2A, the organic light emitting display device 200 includes a plurality of pixel regions 210a and 210b including a plurality of sub-pixel regions. Each of the plurality of sub-pixel regions includes first sub-pixel regions 212a and 212b, second sub-pixel regions 214a and 214b, third sub-pixel regions 216a and 216b, and white sub-pixel regions 218a and 218b. Include.

As shown in FIG. 2A, each of the plurality of pixel areas 210a and 210b has a square shape. Two square-shaped pixel regions 210a and 210b form one pixel region group 202, and the pixel region groups 202 are repeatedly arranged in the organic light emitting diode display 200. In the first pixel area 210a in the pixel area group 202, a first sub-pixel area 212a is at an upper right, a second sub-pixel area 214a is at an upper left, and a third sub-pixel area 216a is at a lower right. , A white sub-pixel area 218a is arranged at the lower left. In the second pixel area 210b in the pixel area group 202, a first sub-pixel area 212b is at the lower right, a second sub-pixel area 214b is at the lower left, and a third sub-pixel area 216b is at the upper right. , A white sub-pixel area 218b is arranged on the upper left.

As shown in FIG. 2A, the first sub-pixel area 212c, the second sub-pixel area 214a, and the third sub-pixel area 216a are adjacent to the white sub-pixel area 218a, and the first sub-pixel The region 212a, the second sub-pixel region 214b, and the third sub-pixel region 216b are adjacent to the white sub-pixel region 218b. In the structure shown in FIG. 2A, the first sub-pixel regions 212c and 212a and the third sub-pixel regions 216a and 216b adjacent to the white sub-pixel regions 218a and 218b are arranged in a symmetrical manner.

Meanwhile, as shown in FIG. 2A, when the first sub-pixel region, the second sub-pixel region, the second sub-pixel region, and the white pixel region are arranged in two rows and two columns within one pixel region, the pixel region is It does not have to be square. However, for convenience of explanation, in the following description, it is assumed that the pixel area having the above structure has a square shape.

As shown in FIG. 2A, the length directions of the second organic emission layers 256a and 256b and the length directions of the first organic emission layers 252a and 252b are perpendicular to each other, and the lengths of the second organic emission layers 256a and 256b The direction and the length direction of the third organic emission layers 260a and 260b are perpendicular to each other.

As illustrated in FIG. 2A, the first organic emission layer 252a includes a white pixel area 218a of the first pixel area 210a and a third pixel area 210c adjacent to the first pixel area 210a. It is commonly disposed in one sub-pixel area 212c. In addition, the first organic emission layer 252b includes a white pixel area 218b of the second pixel area 210b and a first sub-pixel area 212a of the first pixel area 210a adjacent to the second pixel area 210b. ) Are placed in common. However, the first organic emission layers 252a and 252b are not commonly disposed in the white sub-pixel regions 218a and 218b and the first sub-pixel regions 212a and 212b in any one of the pixel regions 210a and 210b.

As shown in FIG. 2A, the second organic emission layer 256a is commonly disposed in the white pixel area 218a and the second sub-pixel area 214a of the pixel area 210a. Also, the second organic emission layer 256b is commonly disposed in the white pixel area 218b and the second sub-pixel area 214b of the second pixel area 210b.

2A, but when the square pixel regions 210d and 210e are defined as in the organic light emitting display device 200b illustrated in FIG. 2B, the second organic emission layers 256a and 256b are one pixel. The white pixel regions 218d and 218e and the second sub-pixel regions 214d and 214e in the region may not be commonly disposed. However, for convenience of explanation, in the following description, it is assumed that in the organic light emitting display device having a square pixel area, the second organic emission layer is commonly disposed in the white pixel area and the second sub-pixel area of one pixel area. .

As shown in FIG. 2A, the third organic emission layer 260a is commonly disposed in the white pixel area 218a and the third sub-pixel area 216a of the pixel area 210a. In addition, the third organic emission layer 260b is commonly disposed in the white pixel area 218b and the third sub-pixel area 216b of the pixel area 210b.

If the structure shown in FIG. 2A is excluded from the pixel area and only the sub-pixel area is examined, the white sub-pixel areas 218a and 218b and the first sub-pixel areas 212a adjacent to the white sub-pixel areas 218a and 218b are described. 212b), the first organic emission layers 252a and 252b are commonly disposed, and the white sub-pixel regions 218a and 218b and the second sub-pixel regions 214a and 214b adjacent to the white sub-pixel regions 218a and 218b The second organic emission layers 256a and 256b are commonly disposed in the white sub-pixel regions 218a and 218b and the third sub-pixel regions 216a and 216b adjacent to the white sub-pixel regions 218a and 218b. 3 It can be seen that the organic emission layers 260a and 260b are disposed in common.

In the pixel arrangement structure shown in FIG. 2A, the mask pattern shown in FIG. 1D is the same as the pattern for forming the first organic emission layer and the pattern for forming the second organic emission layer in the mask pattern shown in FIG. 1D. It can be formed by using it.

3A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting diode display according to another exemplary embodiment of the present invention.

The organic light-emitting display device 300 of FIG. 3A differs only in the configuration of the second organic light-emitting layers 356a and 356b compared to the organic light-emitting display device 200 described in FIG. 2A, and the other configurations are substantially the same. Is omitted.

As shown in FIG. 3A, the second organic emission layer 356 is commonly disposed in the white sub-pixel areas 318a and 318d and the second sub-pixel areas 314a and 314d in one pixel area 310a and 310d. In addition, they are commonly disposed over two or more pixel areas 310a and 310d. That is, the second organic emission layer 356 is commonly disposed in the two second sub-pixel regions 314a and 314d adjacent to the white sub-pixel region 318a in a symmetrical manner.

3B is a plan view exemplarily showing mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 3A.

Specifically, a plurality of “-”-shaped mask patterns 368 for forming the first organic emission layer of FIG. 3A, and a plurality of “l”-shaped mask patterns 372 for forming the second organic emission layer of FIG. 3A , A plurality of mask patterns 376 having a “-” shape for forming the third organic emission layer of FIG. 3A are shown. The length of the mask pattern 372 for forming the second organic emission layer of FIG. 3A is at least twice the length of the mask pattern 168 for forming the first organic emission layer of FIG. 1C. The mask pattern 372 for forming the first organic emission layer is horizontally shifted to the left by one sub-pixel area compared to the mask pattern 376 for forming the third organic emission layer.

Meanwhile, the structure shown in FIG. 3A can be applied equally to FIG. 1C. That is, the first organic emission layers 152a and 152b perpendicular to the length direction of the second organic emission layers 156a and 156b and the length direction of the third organic emission layers 160a and 160b are common across four or more pixel areas. Can be placed.

The organic light emitting display device 300 according to another embodiment of the present invention further reduces the process margin area between the sub-pixel areas, thereby further increasing the aperture ratio in the organic light emitting display device having the same substrate size and resolution. It has the advantage of being able to.

4A is a perspective view schematically illustrating only a sub-pixel area and an organic emission layer of an organic light emitting diode display according to another exemplary embodiment of the present invention.

The organic light-emitting display device 400 of FIG. 4A differs only in the structure of the pixel region and the configuration of the organic light-emitting layer compared to the organic light-emitting display device 200 described in FIG. 2A, and the other configurations are substantially the same, so a duplicate description is omitted. do.

Referring to FIG. 4A, the organic light emitting display device 400 includes a plurality of pixel areas 410a, 410b, 410c, and 410d including a plurality of sub-pixel areas. Each of the plurality of sub-pixel regions includes a first sub-pixel region 412a, 412b, 412c, 412d, a second sub-pixel region 414a, 414b, 414c, 414d, and a third sub-pixel region 416a, 416b, 416c, 416d. ) And white sub-pixel regions 418a, 418b, 418c, 418d.

As shown in FIG. 4A, each of the plurality of pixel areas 410a, 410b, 410c, and 410d has a square shape. Four square-shaped pixel regions 410a, 410b, 410c, and 410d form one pixel region group 402, and the pixel region groups 402 are repeatedly arranged in the organic light emitting display device 400. In the pixel area group 402, a first pixel area 410a at the upper left, a second pixel area 410b at the upper right, a third pixel area 410c at the lower left, and a fourth pixel area 410d at the lower right Is arranged.

In the first pixel area 410a in the pixel area group 402, a first sub-pixel area 412a is at an upper right, a second sub-pixel area 414a is at an upper left, and a third sub-pixel area 416a is at a lower right. , A white sub-pixel area 418a is arranged in the lower left corner.

In the second pixel region 410b in the pixel region group 402, a first sub-pixel region 412b is at the lower left, a second sub-pixel region 414b is at the lower right, and a third sub-pixel region 416b is at the upper left. , A white sub-pixel area 418b is arranged on the upper right.

In the third pixel area 410c in the pixel area group 402, a first sub-pixel area 412c is at an upper left, a second sub-pixel area 414c is at an upper right, and a third sub-pixel area 416c is at a lower left. , A white sub-pixel region 418c is arranged at the lower right.

In the fourth pixel region 410d in the pixel region group 402, a first sub-pixel region 412d is at the lower right, a second sub-pixel region 414d is at the lower left, and a third sub-pixel region 416d is at the upper right. , A white sub-pixel area 418d is arranged in the upper left corner.

As shown in FIG. 4A, first sub-pixel regions 412c, 412e, 412f, 412b and second sub-pixel regions 414a, 414b, 414c, 414d are in white sub-pixel regions 418a, 418b, 418c, and 418d. ) Are adjacent to each other in a symmetrical shape, and the third sub-pixel regions 416a, 416b, 416c, 416d and another second sub-pixel regions 414g, 414h, and white sub-pixel regions 418a, 418b, 418c, 418d, 414d, 414c) are neighboring.

4A, the length directions of the third organic emission layers 460a, 460b, 460c, and 460d and the length directions of the first organic emission layers 452a, 452b, 452c, and 452d are perpendicular to each other. Since the second organic emission layers 456a, 456b, and 456c have a square shape, a length direction cannot be specified, but may have a length direction when viewed within one pixel area. In this sense, the length direction of the third organic emission layer 460a, 460b, 460c, 460d and the length direction of the second organic emission layer 456a, 456b, 456c within one pixel area 410a, 410b, 410c, 410d Are perpendicular to each other.

As shown in FIG. 4A, the first organic emission layer 452a is a white pixel area 418a of the first pixel area 410a and a first sub of the pixel area 410c adjacent to the first pixel area 410a. It is commonly disposed in the pixel area 412c. In addition, the first organic emission layer 452b is in the white pixel area 418b of the second pixel area 410b and the first sub-pixel area 412e of the pixel area 410e adjacent to the second pixel area 410b. They are arranged in common. In addition, the first organic emission layer 452c is commonly disposed in the white pixel area 418c of the pixel area 410c and the first sub-pixel area 412f of the pixel area 410f adjacent to the pixel area 410c. . In addition, the first organic emission layer 452d is commonly disposed in the white pixel area 418d of the pixel area 410d and the first sub-pixel area 412b of the pixel area 410b adjacent to the pixel area 410d. .

However, the first organic emission layers 452a, 452b, 452c, 452d are white sub-pixel regions 418a, 418b, 418c, 418d and first sub-pixel regions in any one of the pixel regions 410a, 410b, 410c, 410d. (412a, 412b, 412c, 412d) are not commonly assigned.

4A, the second organic emission layer 456a has a square structure, and the white pixel area 418a and the second sub-pixel area 414a of the first pixel area 410a, and the first pixel It is commonly disposed in the white pixel area 418g and the second sub-pixel area 414g of the pixel area 418g adjacent to the area 410a. In addition, the second organic emission layer 456b has a square structure and is adjacent to the white pixel region 418b and the second sub-pixel region 414b and the second pixel region 410b of the second pixel region 410b. It is commonly disposed in the white pixel area 418h and the second sub-pixel area 414h of the pixel area 418h. Further, the second organic emission layer 456c has a square structure, the white pixel area 418c and the second sub-pixel area 414c of the pixel area 410c, and a pixel area adjacent to the pixel area 410c ( It is commonly disposed in the white pixel area 418d and the second sub-pixel area 414d of 418d).

4A, the third organic emission layer 460a is commonly disposed in the white pixel area 418a and the third sub-pixel area 416a of the first pixel area 410a. In addition, the third organic emission layer 460b is commonly disposed in the white pixel area 418b and the third sub-pixel area 416b of the second pixel area 410b. Also, the third organic emission layer 460c is commonly disposed in the white pixel area 418c and the third sub-pixel area 416c of the pixel area 410c. Also, the third organic emission layer 460d is commonly disposed in the white pixel region 418d and the third sub-pixel region 416d of the pixel region 410d.

If the structure shown in FIG. 4A is excluded from the pixel area and only the sub-pixel area is examined, the white sub-pixel areas 418a, 418b, 418c, 418d and the white sub-pixel areas 418a, 418b, 418c, 418d are First organic emission layers 452a, 452b, 452c, 452d are commonly disposed in 1 sub-pixel areas 412c, 412e, 412f, 412b, white sub-pixel areas 418a, 418b, 418c, 418d, and white sub-pixels Second sub-pixel regions 414a, 414b, 414c, 414d adjacent to regions 418a, 418b, 418c, 418d, and another second sub-pixel neighboring white sub-pixel regions 418a, 418b, 418c, 418d Second organic in the regions 414g, 414h, 414d, 414c, and another white sub-pixel region 418g, 418h, 418d, 418c adjacent to another second sub-pixel region 414g, 414h, 414d, 414c The emission layers 456a, 456b, 456c are commonly disposed, and the white sub-pixel regions 418a, 418b, 418c, 418d and a third sub-pixel region adjacent to the white sub-pixel regions 418a, 418b, 418c, 418d It can be seen that the third organic emission layers 416a, 416b, 416c, and 416d are commonly disposed in (416a, 416b, 416c, 416d).

FIG. 4B is a plan view illustrating mask patterns for a first organic emission layer, a second organic emission layer, and a third organic emission layer for forming the organic light emitting display of FIG. 4A.

Specifically, a plurality of “l”-shaped mask patterns 468 for forming the first organic emission layer of FIG. 4A, and a plurality of “wh”-shaped mask patterns 472 for forming the second organic emission layer of FIG. 4A , A plurality of mask patterns 476 having a “-” shape for forming the third organic emission layer of FIG. 4A are shown. The mask pattern 472 for forming the second organic emission layer of FIG. 4A has a square shape, and its width is about twice or more than the width of the mask pattern 468 for forming the first organic emission layer.

The organic light emitting display device 400 according to another exemplary embodiment of the present invention further reduces the process margin area between the sub-pixel areas, thereby further increasing the aperture ratio in the organic light emitting display device having the same substrate size and resolution. It has the advantage of being able to.

In the above description, the convenience of description has been described for the top emission type organic light emitting display device, but it is noted that the pixel arrangement structure of the present invention can be equally applied to the bottom emission type organic light emitting display device.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention. . Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

100, 200, 200b, 300, 400: organic light emitting display device
102, 202, 402: pixel area group
110a, 210a, 310a, 410a: first pixel area
110b, 210b, 410b: second pixel area
110c, 210c, 310d, 410e, 410f, 410g, 410h: pixel area
112a, 112b, 212a, 212b, 212c, 412a, 412b, 412c, 412d, 412e, 412f: first sub-pixel area
114a, 114b, 114c, 214a, 214b, 314a, 314d, 414a, 414b, 414c, 414d, 414g, 414h: second sub-pixel area
116a, 116b, 216a, 216b, 416a, 416b, 416c, 416d: third sub-pixel area
118a, 118b, 218a, 218b, 318a, 318d, 418a, 418b, 418c, 418d, 418g, 418h: white sub-pixel area
120: substrate
124: buffer layer
128: thin film transistor
132: gate insulating layer
136: interlayer insulating layer
140: overcoat layer
144a, 144b, 144c: bank layer
148: first electrode
152a, 152b, 252a, 252b, 452a, 452b, 452c, 452d: first organic emission layer
156a, 156b, 256a, 256b, 356, 456a, 456b, 456c: second organic emission layer
160a, 160b, 260a, 260b, 460a, 460b, 460c, 460d: second organic emission layer
164: second electrode
168, 368, 468: mask pattern for forming the first organic emission layer
172, 372, 472: mask pattern for forming a second organic emission layer
176, 376, 476: a mask pattern for forming a third organic emission layer
410c: third pixel area
410d: fourth pixel area

Claims (23)

An organic light-emitting display device comprising a plurality of pixel regions including a first sub-pixel region, a second sub-pixel region, a third sub-pixel region, and a white sub-pixel region,
The arrangement of the plurality of pixel regions is a form in which a pixel region group consisting of a first pixel region and a second pixel region is repeatedly arranged,
A first sub-pixel region, a second sub-pixel region, a white sub-pixel region, and a third sub-pixel region are arranged in a line in the first pixel region, and a white sub-pixel region and a third sub-pixel region are in the second pixel region. , The first sub-pixel area and the second sub-pixel area are arranged in a line,
Board;
A first electrode disposed on the substrate;
A second electrode disposed on the first electrode to face the first electrode; And
A first organic emission layer, a second organic emission layer, and a third organic emission layer disposed between the first electrode and the second electrode,
The light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light,
The first organic emission layer is commonly disposed in a white sub-pixel region in a pixel region of the plurality of pixel regions and a first sub-pixel region in a pixel region adjacent to the pixel region,
The second organic emission layer is commonly disposed in a white sub-pixel area in the arbitrary pixel area, and a second sub-pixel area in the arbitrary pixel area or in another pixel area adjacent to the arbitrary pixel area,
The organic light-emitting display device, wherein the third organic emission layer is commonly disposed in a white sub-pixel area and a third sub-pixel area in the arbitrary pixel area. The method of claim 1,
Each of the first organic emission layer, the second organic emission layer, and the third organic emission layer emit light of a different color and emit any one of red light, green light, and blue light. Light-emitting display device. The method of claim 1,
Wherein the first organic emission layer is not commonly disposed in a white sub-pixel area and a first sub-pixel area in the arbitrary pixel area. The method of claim 1,
In each of the first sub-pixel region, the second sub-pixel region, and the third sub-pixel region, at least two of the first organic emission layer, the second organic emission layer, and the third organic emission layer are not overlapped and disposed. The organic light-emitting display device, characterized in that. delete delete The method of claim 1,
The length direction of the first organic emission layer and the length direction of the second organic emission layer are perpendicular to each other,
The length direction of the first organic emission layer and the length direction of the third organic emission layer are perpendicular to each other,
The organic light-emitting display device, wherein the first organic emission layer is disposed in common over four or more pixel areas in a length direction. delete An organic light-emitting display device comprising a plurality of pixel regions including a first sub-pixel region, a second sub-pixel region, a third sub-pixel region, and a white sub-pixel region,
The arrangement of the plurality of pixel regions is a form in which a pixel region group consisting of a first pixel region and a second pixel region is repeatedly arranged,
In the first pixel region, a first sub-pixel region is arranged in an upper right, a second sub-pixel region in an upper left, a third sub-pixel region in a lower right, and a white sub-pixel region in a lower left,
In the second pixel area, a first sub-pixel area is arranged at a lower right, a second sub-pixel area at a lower left, a third sub-pixel area at an upper right, and a white sub-pixel area at an upper left,
Board;
A first electrode disposed on the substrate;
A second electrode disposed on the first electrode to face the first electrode; And
A first organic emission layer, a second organic emission layer, and a third organic emission layer disposed between the first electrode and the second electrode,
The light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light,
The first organic emission layer is commonly disposed in a white sub-pixel region in a pixel region of the plurality of pixel regions and a first sub-pixel region in a pixel region adjacent to the pixel region,
The second organic emission layer is commonly disposed in a white sub-pixel region in the arbitrary pixel region, and a second sub-pixel region in the arbitrary pixel region or in another pixel region adjacent to the arbitrary pixel region,
The organic light-emitting display device, wherein the third organic emission layer is commonly disposed in a white sub-pixel area and a third sub-pixel area in the arbitrary pixel area. The method of claim 9,
The length direction of the second organic emission layer and the length direction of the first organic emission layer are perpendicular to each other,
The length direction of the second organic emission layer and the length direction of the third organic emission layer are perpendicular to each other,
The organic light-emitting display device, wherein the second organic emission layer is disposed in common over at least two pixel areas. The method of claim 9,
Each of the plurality of pixel areas has a square shape. delete An organic light-emitting display device comprising a plurality of pixel regions including a first sub-pixel region, a second sub-pixel region, a third sub-pixel region, and a white sub-pixel region,
The plurality of pixel regions are arranged in a form in which a pixel region group consisting of a first pixel region, a second pixel region, a third pixel region, and a fourth pixel region is repeatedly arranged,
In the pixel region group, a first pixel region is arranged at an upper left, a second pixel region at an upper right, a third pixel region at a lower left, and a fourth pixel region at a lower right,
Board;
A first electrode disposed on the substrate;
A second electrode disposed on the first electrode to face the first electrode; And
A first organic emission layer, a second organic emission layer, and a third organic emission layer disposed between the first electrode and the second electrode,
The light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light,
The first organic emission layer is commonly disposed in a white sub-pixel region in a pixel region of the plurality of pixel regions and a first sub-pixel region in a pixel region adjacent to the pixel region,
The second organic emission layer is commonly disposed in a white sub-pixel area in the arbitrary pixel area, and a second sub-pixel area in the arbitrary pixel area or in another pixel area adjacent to the arbitrary pixel area,
The organic light-emitting display device, wherein the third organic emission layer is commonly disposed in a white sub-pixel area and a third sub-pixel area in the arbitrary pixel area. The method of claim 13,
In the first pixel region, a first sub-pixel region is arranged in an upper right, a second sub-pixel region in an upper left, a third sub-pixel region in a lower right, and a white sub-pixel region in a lower left,
In the second pixel region, a first sub-pixel region is arranged at a lower left, a second sub-pixel region at a lower right, a third sub-pixel region at an upper left, and a white sub-pixel region at an upper right,
In the third pixel area, a first sub-pixel area is arranged at an upper left, a second sub-pixel area at an upper right, a third sub-pixel area at a lower left, and a white sub-pixel area at a lower right,
In the fourth pixel region, a first sub-pixel region is arranged at a lower right, a second sub-pixel region at a lower left, a third sub-pixel region at an upper right, and a white sub-pixel region at an upper left of the fourth pixel region. Display device. The method of claim 14,
The length direction of the third organic emission layer and the length direction of the first organic emission layer are perpendicular to each other,
The length direction of the third organic emission layer and the length direction of the second organic emission layer are perpendicular to each other in the arbitrary pixel area,
The second organic emission layer is commonly disposed in a white sub-pixel area and a second sub-pixel area in the arbitrary pixel area, and a white sub-pixel area and a second sub-pixel area in another pixel area adjacent to the arbitrary pixel area. Organic light emitting display device, characterized in that the. The method of claim 15,
The organic light-emitting display device, wherein the second organic emission layer has a square shape. The method of claim 14,
Each of the plurality of pixel areas has a square shape. delete An organic light emitting diode display comprising a white sub-pixel region and a first sub-pixel region, a second sub-pixel region, and a third sub-pixel region adjacent to the white sub-pixel region,
The first sub-pixel area and the third sub-pixel area are symmetrically adjacent to the white sub-pixel area,
Two second sub-pixel regions are symmetrically adjacent to the white sub-pixel region,
Board;
A first electrode disposed on the substrate;
A second electrode disposed on the first electrode to face the first electrode; And
A first organic emission layer, a second organic emission layer, and a third organic emission layer disposed between the first electrode and the second electrode,
The light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light,
The first organic emission layer is commonly disposed in the white sub-pixel area and the first sub-pixel area,
The second organic emission layer is commonly disposed over the white sub-pixel area and the two second sub-pixel areas,
The organic light emitting display device according to claim 1, wherein the third organic emission layer is commonly disposed in the white sub-pixel area and the third sub-pixel area. The method of claim 19,
Each of the first organic emission layer, the second organic emission layer, and the third organic emission layer emit light of a different color and emit any one of red light, green light, and blue light. Light-emitting display device. The method of claim 19,
In each of the first sub-pixel region, the second sub-pixel region, and the third sub-pixel region, at least two of the first organic emission layer, the second organic emission layer, and the third organic emission layer are not disposed to overlap each other. The organic light-emitting display device, characterized in that. delete An organic light emitting diode display comprising a white sub-pixel region and a first sub-pixel region, a second sub-pixel region, and a third sub-pixel region adjacent to the white sub-pixel region,
The first sub-pixel region and the second sub-pixel region are symmetrically adjacent to the white sub-pixel region,
The third sub-pixel area and another second sub-pixel area are adjacent to the white sub-pixel area,
Board;
A first electrode disposed on the substrate;
A second electrode disposed on the first electrode to face the first electrode; And
A first organic emission layer, a second organic emission layer, and a third organic emission layer disposed between the first electrode and the second electrode,
The light emitted from the first organic emission layer, the second organic emission layer, and the third organic emission layer is mixed to form white light,
The first organic emission layer is commonly disposed in the white sub-pixel area and the first sub-pixel area,
The second organic emission layer is commonly disposed over the white sub-pixel region, the second sub-pixel region, and the another second sub-pixel region,
The organic light emitting display device according to claim 1, wherein the third organic emission layer is commonly disposed in the white sub-pixel area and the third sub-pixel area.

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