CN204028528U - Display panel and display device - Google Patents

Display panel and display device Download PDF

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Publication number
CN204028528U
CN204028528U CN201420454852.3U CN201420454852U CN204028528U CN 204028528 U CN204028528 U CN 204028528U CN 201420454852 U CN201420454852 U CN 201420454852U CN 204028528 U CN204028528 U CN 204028528U
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China
Prior art keywords
pixel
angle
substrate
display panel
shaped electric
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Expired - Lifetime
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CN201420454852.3U
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Chinese (zh)
Inventor
陈政雄
王兆祥
陈奕静
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Innolux Corp
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Innolux Display Corp
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Priority to CN201420454852.3U priority Critical patent/CN204028528U/en
Priority to JP2014004862U priority patent/JP3194456U/en
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Publication of CN204028528U publication Critical patent/CN204028528U/en
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Abstract

The utility model provides a kind of display panel and display device.Display panel comprises a first substrate and and the second substrate established and multiple pixel relative with first substrate.These pixel arrangement are between first substrate and second substrate, these pixels have one first electrode layer and an insulation course respectively, first electrode layer to be arranged on insulation course and to have one first strip shaped electric poles, is defined as the first pixel and the second pixel respectively in these pixels along wantonly two neighbors of a first direction arrangement; Wherein, the first strip shaped electric poles in first pixel has the first side and second side that are separated by, and first side than second side near the second pixel, first side and second side form one first angle and one second angle respectively with surface of insulating layer, the second angle is greater than the first angle.The utility model can make display panel and display device more not easily produce the phenomenon of cross-talk, also has preferably display quality, can satisfy the demands of consumers.

Description

Display panel and display device
Technical field
The utility model about a kind of display panel and display device, especially in regard to a kind of display panel and display device of horizontal drive formula.
Background technology
Along with the progress of science and technology, flat display apparatus is used in various field widely, especially liquid crystal indicator, because having that build is frivolous, low power consumption and the advantageous characteristic such as radiationless, gradually replace conventional cathode ray tube display device, and be applied in the electronic product of numerous species, such as mobile phone, portable multimedia device, notebook computer, LCD TV and LCD screen etc.
A kind of liquid crystal indicator of the prior art mainly comprises a display panels (LCD Panel) and a backlight module (Backlight Module), and both are oppositely arranged.Display panels comprises a colored optical filtering substrates, a thin film transistor base plate and is located in liquid crystal layer between two substrates, and colored optical filtering substrates and thin film transistor base plate and liquid crystal layer can form the pixel cell of multiple array configurations.Backlight module can emit beam through display panels, and forms an image via each pixel cell display color of display panels.
For the various demands in response to different consumer, each dealer ceaselessly researches and develops new display panel and display device, to provide consumer better display quality.Therefore, how to provide a kind of novel display panel and display device, can have preferably display quality, to satisfy the demands of consumers, real is one of current important problem.
Utility model content
The purpose of this utility model for providing a kind of display panel and display device of better display quality, to satisfy the demands of consumers.Compared with prior art, display panel of the present utility model and display device more not easily produce the phenomenon of cross-talk, also have preferably optical effect.
The utility model provides a kind of display panel, and this display panel comprises a first substrate and and the second substrate established and multiple pixel relative with first substrate.These pixel arrangement are between first substrate and second substrate, these pixels have one first electrode layer and an insulation course respectively, first electrode layer to be arranged on insulation course and to have one first strip shaped electric poles, the first pixel and the second pixel is defined as respectively along wantonly two neighbors of a first direction arrangement in these pixels, and contiguous second pixel of the first strip shaped electric poles of the first pixel; Wherein, first strip shaped electric poles of the first pixel has the first side and a second side that are separated by, second side is than first side near the second pixel, and first side and second side form one first angle and one second angle respectively with surface of insulating layer, the second angle is greater than the first angle.
In one embodiment, the difference of this second angle and this first angle is more than or equal to 5 degree, is less than or equal to 20 degree.
In one embodiment, this second angle is less than or equal to 80 degree.
In one embodiment, this first strip shaped electric poles extends along a second direction, and this first direction and this second direction shape have angle.
In one embodiment, this display panel also comprises: a liquid crystal layer between this first substrate and this second substrate, described pixel also has a second electrode lay respectively, this insulation course is folded between this first electrode layer and this second electrode lay, and this first electrode layer is arranged between this liquid crystal layer and this insulation course.
The utility model also provides a kind of display device, and this display device comprises a display panel.Display panel has a first substrate and and the second substrate established and multiple pixel relative with first substrate.These pixel arrangement are between first substrate and second substrate, these pixels have one first electrode layer and an insulation course respectively, first electrode layer to be arranged on insulation course and to have one first strip shaped electric poles, the first pixel and the second pixel is defined as respectively along wantonly two neighbors of a first direction arrangement in these pixels, and contiguous second pixel of the first strip shaped electric poles of the first pixel; Wherein, first strip shaped electric poles of the first pixel has the first side and a second side that are separated by, second side is than first side near the second pixel, and first side and second side form one first angle and one second angle respectively with surface of insulating layer, the second angle is greater than the first angle.
In one embodiment, the difference of the second angle and the first angle is more than or equal to 5 degree, is less than or equal to 20 degree.
In one embodiment, the second angle is less than or equal to 80 degree.
In one embodiment, the first strip shaped electric poles extends along a second direction, and first direction and second direction shape have angle.
In one embodiment, this display panel also comprises a liquid crystal layer between this first substrate and this second substrate, these pixels also have a second electrode lay respectively, and insulation course is folded between the first electrode layer and the second electrode lay, and the first electrode layer is arranged between liquid crystal layer and insulation course.
From the above, because complying with in display panel of the present utility model and display device, first electrode layer to be arranged on insulation course and to have the first strip shaped electric poles, and be defined as the first pixel and the second pixel respectively along wantonly two neighbors of first direction arrangement in these pixels, and contiguous second pixel of the first strip shaped electric poles of the first pixel; Wherein the first strip shaped electric poles of the first pixel has the first side and second side that are separated by, second side than first side near the second pixel, first side and second side form one first angle and one second angle respectively with surface of insulating layer, and the second angle is greater than the first angle.Whereby, compared with prior art, display panel and display device can be made more not easily to produce the phenomenon of cross-talk, also there is preferably optical effect.Therefore, display panel of the present utility model and display device have preferably display quality, can satisfy the demands of consumers.
Accompanying drawing explanation
Fig. 1 is the cross-sectional schematic of a kind of display panel of preferred embodiment of the present utility model.
Fig. 2 is in the display panel that shows of Fig. 1, the schematic top plan view of the first electrode layer of two pixels.
Fig. 3 A and Fig. 3 B is respectively the schematic diagram that difference of the present utility model implements the first electrode layer of aspect.
Fig. 4 is the schematic diagram of a kind of display device of preferred embodiment of the present utility model.
Embodiment
Hereinafter with reference to correlative type, the display panel according to preferred embodiment of the present utility model and display device are described, wherein identical element is illustrated with identical component symbol.
Please refer to shown in Fig. 1 and Fig. 2, wherein, Fig. 1 is the cross-sectional schematic of a kind of display panel 1 of preferred embodiment of the present utility model, and in the display panel 1 that Fig. 2 is Fig. 1 to be shown, the schematic top plan view of first electrode layer 141 of two pixel P1 adjacent one another are, P2.
The display panel 1 of the present embodiment is for example and without limitation to a fringe field and switches (fringe field switching, FFS) formula display panels, or is the display panels of other horizontal drive formulas.In addition, present embodiment shows that a first direction X, a second direction Y and a third direction Z, first direction X, second direction Y and third direction Z are mutually vertical in fact between two.Wherein, first direction X can be substantial parallel with the bearing of trend of sweep trace, and second direction Y can be substantial parallel with the bearing of trend of data line D, and third direction Z can be respectively the other direction of vertical first direction X and second direction Y.In addition, Fig. 2 only shows first electrode layer 141 of two pixel P1, P2, does not show first substrate 11, second substrate 12 and other rete, element, but Fig. 1 comprises in fact the cross-sectional schematic of the straight line A-A of Fig. 2.
As shown in Figures 1 and 2, display panel 1 comprises first substrate 11, second substrate 12 and a liquid crystal layer 13.First substrate 11 is relative with second substrate 12 and establish, and liquid crystal layer 13 is then located between first substrate 11 and second substrate 12.Wherein, first substrate 11 and second substrate 12 made by light-transmitting materials, and are such as a glass substrate, a quartz base plate or a plastic base, do not limit.Display panel 1 also comprises a pel array, and pel array can be formed by a colour filter array and thin film transistor (TFT) array cooperation.Substantially, pel array is formed rectangular, and is folded between first substrate 11 and second substrate 12.Wherein, pel array comprises multiple pixel (or claiming time pixel (sub-pixel)), and in this, showing two neighbors P1, P2 is example.In addition, the display panel 1 of the present embodiment also can comprise multiple sweep trace (figure does not show) and multiple data line D, and these sweep traces and these data lines D are crisscross arranged to define the region of these pixels.
In the present embodiment, the thin film transistor (TFT) array in these pixel P1, P2 to be configured on first substrate 11 and to comprise one first electrode layer 141, insulation course 142 and a second electrode lay 143 respectively.The second electrode lay 143, insulation course 142 and the first electrode layer 141 are from bottom to top sequentially arranged at the side of first substrate 11 towards second substrate 12.Wherein, insulation course 142 covers on the second electrode lay 143, and the first electrode layer 141 is arranged on insulation course 142, insulation course 142 is folded between the first electrode layer 141 and the second electrode lay 143, and the first electrode layer 141 is folded between liquid crystal layer 13 and insulation course 142.In addition, data line D is also arranged on first substrate 11, and pixel P1 also can have another insulation course 145 and is covered on data line D, and the second electrode lay 143 is arranged on insulation course 145, avoids the second electrode lay 143 to produce short circuit with data line D and the first electrode layer 141.Wherein, the material of insulation course 142 and insulation course 145 can such as but not limited to comprising monox (SiOx) or silicon nitride (SiNx), or other isolation material.In addition, the first electrode layer 141 and the second electrode lay 143 are respectively a transparency conducting layer, and its material is for example and without limitation to indium tin oxide (indium-tin oxide, ITO) or indium-zinc oxide (indium-zinc oxide, IZO).In the present embodiment, the first electrode layer 141 is a pixel electrode (pixel electrode), and is electrically connected with data line D, and the second electrode lay 143 is community electrode (common electrode).But, in other examples, the first electrode layer 141 also can be common electrode, and the second electrode lay 143 can be pixel electrode.
Display panel 1 also can comprise a black matrix" BM and a filter layer (figure does not show), and black matrix" BM is arranged on first substrate 11 or second substrate 12, and correspondingly with data line D arranges.Black matrix" BM is light tight material, such as, be metal or resin, and metal such as can be chromium, chromium oxide or nitrogen oxygen chromium compound.In the present embodiment, black matrix" BM is arranged at the side of second substrate 12 in the face of first substrate 11, and is positioned at the top of data line D along third direction Z, therefore when overlooking display panel 1, black matrix" BM can cover data line D.In addition, filter layer (figure does not show) is arranged on the side of first substrate 11 faced by second substrate 12 and black matrix" BM, or is arranged on first substrate 11.Because black matrix" BM is light tight material, therefore can form lighttight region on second substrate 12, and then define the region of light-permeable.Black matrix" BM has multiple shading section, and has at least one shading section between two adjacent filter units.The black matrix" BM of the present embodiment and filter layer are arranged on second substrate 12 respectively, but, in other enforcement aspect, black matrix" BM or filter layer also can be arranged on first substrate 11 respectively, become a BOA (BM on array) substrate, or become a COA (color filter on array) substrate, do not limit.In addition, display panel 1 also can comprise a protective seam (being such as that over-coating, figure do not show), and protective seam can cover black matrix" BM and filter layer.Wherein, the material of protective seam can be Other substrate materials, resin material or inorganic material (such as SiOx/SiNx) etc., is not destroyed in order to protect black matrix" BM and filter layer by the impact of subsequent technique.In addition, display panel 1 also can comprise two both alignment layers (figure do not show), and a both alignment layers arranges and is covered on the first electrode layer 141, and another both alignment layers is arranged at black matrix" BM and filter layer towards on the side of first substrate 11.
Shown in Fig. 2, pixel P1, P2 are the pixels of arranged adjacent, and the first electrode layer 141 in pixel has multiple strip shaped electric poles (S1, S2, S3) respectively, and the strip shaped electric poles being defined in contiguous neighbor in a pixel is the first strip shaped electric poles (namely strip shaped electric poles S1, S3 can be described as the first strip shaped electric poles); In addition, in more detail, because in the present embodiment, the first electrode layer 141 is pixel electrodes, so at least one through hole O also can be had, and the first electrode layer 141 is electrically connected by a thin film transistor (TFT) of through hole O and corresponding pixel (thin film transistor (TFT) array one of them, figure does not show).In this, the gray scale voltage of pixel P1 (or P2) can input to the first electrode layer 141 via the source electrode of thin film transistor (TFT), drain electrode.
In addition, these strip shaped electric poles (comprising the first strip shaped electric poles) extend along second direction Y and are spaced along first direction X.In the present embodiment, the quantity of strip shaped electric poles was 3 (representing with S1, S2, S3), and these strip shaped electric poles S1, S2, S3 are spaced a distance, and be arranged in parallel along first direction X.But, in various embodiments, strip shaped electric poles is also varying number, such as two, four or other quantity (as shown in Fig. 3 A, Fig. 3 B).
Hold, the thin film transistor (TFT) conducting of each pixel that each sweep trace is corresponding can be made respectively when these sweep traces of display panel 1 receive one scan signal, and a data-signal of every for correspondence one-row pixels is sent to the pixel electrode of these corresponding pixels by these data lines D, make display panel 1 can display frame.In the present embodiment, gray scale voltage can be sent to the first electrode layer 141 (pixel electrode) of each pixel by each data line D, make to form an electric field between the first electrode layer 141 and the second electrode lay 143, the plane formed in first direction X and second direction Y with the liquid crystal molecule ordering about liquid crystal layer 13 rotates, and then can light be modulated and make display panel 1 show image.
In addition, wherein the one outermost strip shaped electric poles (i.e. the first strip shaped electric poles) of first electrode layer 141 of these pixel P1 wherein has the first side away from neighbor P2 and the second side close to neighbor P2, and this first side and this second side form one first angle θ 1 and one second angle θ 2 respectively with insulation course 142.In the present embodiment, as shown in Figure 1, a wherein outermost strip shaped electric poles S3 (the first strip shaped electric poles) of pixel P1 (also can be described as the first pixel) has away from the first side S31 of pixel P2 (also can be described as the second pixel) and the second side S32 close to pixel P2, and the angle on first side S31 and insulation course 142 surface is the first angle θ 1, and the angle on second side S32 and insulation course 142 surface is the second angle θ 2.Wherein, second angle θ 2 is greater than the first angle θ 1 (θ 2 > θ 1), and the difference of the second angle θ 2 and the first angle θ 1 can be more than or equal to 5 degree, be less than or equal to 20 degree (5 °≤(θ 2-θ 1)≤20 °).
In like manner, in the pixel P2 of the present embodiment, outermost strip shaped electric poles S1 (i.e. the first strip shaped electric poles) equally has the first side S11 away from pixel P1 and the second side S12 close to pixel P1, and first side S11 and second side S12 is also the first angle θ 1 and the second angle θ 2 (θ 2 > θ 1) respectively with the angle on insulation course 142 surface.
Further, non-ly in pixel be positioned at outermost strip shaped electric poles S2, the angle between two side and insulation course 142 surface, be goodly the 3rd identical angle θ 3, and the 3rd angle θ 3 is identical with the first angle θ 1 preferably, to make the Electric Field Distribution in each pixel more even.
In one embodiment, the first angle θ 1 is such as 47 °, and the second angle θ 2 is such as 68 °.In another embodiment, the first angle θ 1 is such as 60 °, and the second angle θ 2 is such as 68 °.In another embodiment, the first angle θ 1 is such as 32 °, and the second angle θ 2 is such as 40 °.In addition, all pixels in the present embodiment all can have the technical characteristic of the strip shaped electric poles S1 ~ S3 of first electrode layer 141 of pixel P1 (or P2), or in another embodiment, also partial pixel can be only had to have the technical characteristic of the strip shaped electric poles S1 ~ S3 of first electrode layer 141 of pixel P1 (or P2), and the utility model does not limit.
What illustrate is again, the second angle θ 2 of the present embodiment is greater than the first angle θ 1 following advantage: when the second angle θ 2 is larger (θ 2 > θ 1), represent the side steeper that two adjacent stripe-like electrode (i.e. the strip shaped electric poles S3 (the first strip shaped electric poles) of pixel P1 and the strip shaped electric poles S1 (the first strip shaped electric poles) of pixel P2) of adjacent two pixels are more close, electric field between first electrode layer 141 and the second electrode lay 143 is comparatively restrained, therefore more not easily produces the phenomenon of cross-talk (crosstalk).Therefore, two pixel P1, P2 can design comparatively close, relatively can promote the resolution of display panel 1, maybe can increase the light-emitting area of pixel.In addition, time first angle θ 1 less (less than the second angle θ 2), represent the electric field comparatively level between strip shaped electric poles in same pixel and the second electrode lay 143, the uniformity coefficient of liquid crystal pretilt angle can be made better and have better control to liquid crystal, display panel 1 therefore can be made to present preferably optical effect.
In addition, the practice that the second angle θ 2 is greater than the first angle θ 1 can such as use the technology of twice mask to reach.Wherein, the etching parameters by controlling twice mask respectively (such as controls etching time, gas ... Deng) obtain the first different angle θ 1 and the second angle θ 2; Or the technology of many gray level masks also can be used to make the first different angle θ 1 and the second angle θ 2.Wherein, many gray level masks technology can comprise gray scale mask (gray-tone mask, and half mode mask (half-tone mask GTM), HTM) technology, can in a mask, just can obtain the photoresist of two kinds of different-thickness by same exposure technology, whereby in the etching gradient that the upper generation of strip shaped electric poles S1, S3 two kinds is different, and then obtain the first angle θ 1 and the second angle θ 2 of different angles.In addition, such as, although the second angle θ 2 is greater than the first angle θ 1, second angle θ 2 also too greatly, can not be less than 80 degree (θ 2≤80 °) for good.Because, first electrode layer 141 there is one deck both alignment layers, if when the second angle θ 2 is too large, represent that the side of the second angle θ 2 of strip shaped electric poles S3 is more precipitous, the thinner thickness of the both alignment layers of this side may be made in time forming both alignment layers, even may break and not have both alignment layers, make both alignment layers have uneven phenomenon, this will affect the orientation of liquid crystal molecule.
In addition, please refer to shown in Fig. 3 A to Fig. 3 B, it is respectively the schematic diagram that the utility model difference implements first electrode layer 141a ~ 141b of aspect.First illustrate, the pattern just citing of the first electrode layer 141a ~ 141b of Fig. 3 A to Fig. 3 B, unavailable to limit the utility model.
As Fig. 3 A, main different of first electrode layer 141 of first electrode layer 141a and Fig. 2 are, the first electrode layer 141a only has two strip shaped electric poles S1, S3 (being the first strip shaped electric poles).
In addition, as shown in Figure 3 B, main different of first electrode layer 141 of first electrode layer 141b and Fig. 2 are, in the first electrode layer 141b, second direction Y is still substantial parallel with the bearing of trend of data line D and have four strip shaped electric poles S1, S2, S3, S4, but first direction X and second direction Y are not mutually vertical, but sandwiched one angle (acute angle), make pixel approximately present the shape of a parallelogram.In addition, each strip shaped electric poles S1, S2, S3, S4 of the first electrode layer 141b have two turnovers respectively.Wherein, strip shaped electric poles S1, S4 is the first strip shaped electric poles.
In addition, please refer to shown in Fig. 4, it is the schematic diagram of a kind of display device 2 of the utility model preferred embodiment.
Display device 2 comprises display panel 3 and a backlight module 4 (Backlight Module), and display panel 3 and backlight module 4 are oppositely arranged.Wherein, display panel 3 can be above-mentioned display panel 1, and the first electrode layer of the pixel of display panel 1 can be above-mentioned the first electrode layer 141,141a or 141b, or its change aspect, and much more no longer its structure and details thereof can refer to above-mentioned, to explain.When the light E that backlight module 4 sends is through display panel 3, form image by each pixel display color of display panel 3.
In sum, because complying with in display panel of the present utility model and display device, first electrode layer to be arranged on insulation course and to have the first strip shaped electric poles, and be defined as the first pixel and the second pixel respectively along wantonly two neighbors of first direction arrangement in these pixels, and contiguous second pixel of the first strip shaped electric poles of the first pixel; Wherein the first strip shaped electric poles of the first pixel has the first side and second side that are separated by, second side than first side near the second pixel, first side and second side form one first angle and one second angle respectively with surface of insulating layer, and the second angle is greater than the first angle.By this, compare with prior art, display panel and display device can be made more not easily to produce the phenomenon of cross-talk, also there is preferably optical effect.Therefore, display panel of the present utility model and display device have preferably display quality, can satisfy the demands of consumers.
The foregoing is only illustrative, but not be restricted person.Anyly do not depart from spirit of the present utility model and category, and to its equivalent modifications of carrying out or change, all should be contained in claim.

Claims (10)

1. a display panel, is characterized in that, described display panel comprises:
One first substrate;
One second substrate is relative with this first substrate and establish; And
Multiple pixel, array configurations is between this first substrate and this second substrate, described pixel has one first electrode layer and an insulation course respectively, this first electrode layer to be arranged on this insulation course and to have one first strip shaped electric poles, the first pixel and the second pixel is defined as respectively along wantonly two neighbors of a first direction arrangement in described pixel, and this first strip shaped electric poles of this first pixel this second pixel contiguous
Wherein, this first strip shaped electric poles of this first pixel has the first side and a second side that are separated by, this second side than this first side near this second pixel, this first side and this second side form one first angle and one second angle respectively with this surface of insulating layer, this second angle is greater than this first angle.
2. display panel as claimed in claim 1, it is characterized in that, the difference of this second angle and this first angle is more than or equal to 5 degree, is less than or equal to 20 degree.
3. display panel as claimed in claim 1, it is characterized in that, this second angle is less than or equal to 80 degree.
4. display panel as claimed in claim 1, it is characterized in that, this first strip shaped electric poles extends along a second direction, and this first direction and this second direction shape have angle.
5. display panel as claimed in claim 1, it is characterized in that, described display panel also comprises:
One liquid crystal layer between this first substrate and this second substrate, described pixel also has a second electrode lay respectively, this insulation course is folded between this first electrode layer and this second electrode lay, and this first electrode layer is arranged between this liquid crystal layer and this insulation course.
6. a display device, is characterized in that, described display device comprises:
One display panel, there is a first substrate, one second substrate and multiple pixel, this first substrate is relative with this second substrate and establish, described pixel array configuration is between this first substrate and this second substrate, described pixel has one first electrode layer and an insulation course respectively, this first electrode layer to be arranged on this insulation course and to have one first strip shaped electric poles, the first pixel and the second pixel is defined as respectively along wantonly two neighbors of a first direction arrangement in described pixel, and this first strip shaped electric poles of this first pixel this second pixel contiguous, wherein, this first strip shaped electric poles of this first pixel has the first side and a second side that are separated by, this second side than this first side near this second pixel, this first side and this second side form one first angle and one second angle respectively with this surface of insulating layer, this second angle is greater than this first angle.
7. display device as claimed in claim 6, it is characterized in that, the difference of this second angle and this first angle is more than or equal to 5 degree, is less than or equal to 20 degree.
8. display device as claimed in claim 6, it is characterized in that, this second angle is less than or equal to 80 degree.
9. display device as claimed in claim 6, it is characterized in that, this first strip shaped electric poles extends along a second direction, and this first direction and this second direction shape have angle.
10. display device as claimed in claim 6, it is characterized in that, this display panel also has a liquid crystal layer between this first substrate and this second substrate, described pixel also has a second electrode lay respectively, this insulation course is folded between this first electrode layer and this second electrode lay, and this first electrode layer is arranged between this liquid crystal layer and this insulation course.
CN201420454852.3U 2014-08-13 2014-08-13 Display panel and display device Expired - Lifetime CN204028528U (en)

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CN201420454852.3U CN204028528U (en) 2014-08-13 2014-08-13 Display panel and display device
JP2014004862U JP3194456U (en) 2014-08-13 2014-09-11 Display panel and display device

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110412807A (en) * 2015-04-02 2019-11-05 群创光电股份有限公司 Show equipment
US11526054B2 (en) 2015-04-02 2022-12-13 Innolux Corporation Display device

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP6892575B2 (en) 2016-03-01 2021-06-23 天馬微電子有限公司 Liquid crystal display device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110412807A (en) * 2015-04-02 2019-11-05 群创光电股份有限公司 Show equipment
US11526054B2 (en) 2015-04-02 2022-12-13 Innolux Corporation Display device

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