CN106647056A - Array substrate and LED display - Google Patents

Abstract

The invention discloses an array substrate and an LED display. The array substrate comprises multiple pixel electrodes. Each pixel electrode comprises a first trunk electrode and several branch electrodes. The first trunk electrode divides the pixel electrodes into alignment areas located at two sides of the first trunk electrode. Multiple branch electrodes are arranged in the alignment areas respectively, and are inclined to the first trunk electrode. The pixel electrodes can be further divided into yellow pixel electrodes and white pixel electrodes. The inclination angle between the branch electrodes of primary color light pixel electrodes and the first trunk electrode of the first color pixel electrodes where the branch electrodes of primary color light pixel electrodes is located is different from a second inclination angle which is defined by branch electrodes of white light pixel electrodes and the first trunk electrode of white light pixel electrodes where the branch electrodes of white light pixel electrodes is located. Through the technical scheme, the array substrate and the LED display can reduce the color shift phenomenon of the product.

Description

A kind of array base palte and liquid crystal display

Technical field

The present invention relates to field of liquid crystal display, more particularly to a kind of array base palte and liquid crystal display.

Background technology

Contrast RGBW (Red Green Blue White, four colour pattern pixels) and RGB (Red Green Blue, trichroism Pixel) product, because the brightness of W sub-pixel is added, when same picture is shown, R/G/B sub-pixels contribution in RGBW products GTG can than RGB product in it is low, as can be seen that R/G/B is in low GTG during big visual angle in big visual angle gamma (Gamma) figure Colour cast it is more serious.

The content of the invention

The invention mainly solves the technical problem of providing a kind of array base palte and liquid crystal display, product can be improved Color offset phenomenon.

To solve above-mentioned technical problem, one aspect of the present invention is：A kind of array base palte, array base are provided Plate includes multiple pixel electrodes, and each pixel electrode includes the first main electrode and multiple branch electrodes, the first main electrode Pixel electrode is divided into into the orientation region positioned at the first main electrode both sides, multiple branch electrodes are respectively arranged at orientation region It is interior and relative to the first main electrode incline, wherein pixel electrode be further divided into primary lights pixel electrode and white light pixel electricity Between first main electrode of pole, the branch electrodes of primary lights pixel electrode and its primary lights pixel electrode being located first inclines Rake angle is different between the branch electrodes of white light pixel electrode and the first main electrode of its white light pixel electrode being located Second angle of inclination.

Wherein, array base palte further includes scan line that is arranged substantially perpendicular to each other and insulating and data wire, wherein the first master Dry electrode be arranged in parallel with scan line.

Wherein, the first main electrode is arranged along the width of pixel electrode.

Wherein, the first angle of inclination and the second angle of inclination are respectively acute angle, and the first angle of inclination is less than the second inclination angle Degree, and the difference between the second angle of inclination and the first angle of inclination is 10 ± 5 degree.

Wherein, the first angle of inclination is 35 ± 5 degree, and the second angle of inclination is 45 ± 5 degree.

Wherein, the first angle of inclination is 35 degree, and the second angle of inclination is 45 degree.

Wherein, array base palte further includes the second trunk electricity that is arranged substantially perpendicular to each other with the first main electrode and being connected Pixel electrode is divided into four orientation regions by pole, the first main electrode and the second main electrode, and multiple branch electrodes set respectively Four orientation regions are placed in, and are connected with the first main electrode or the second main electrode.

Wherein, primary lights pixel electrode is further divided into ruddiness pixel electrode, blue light pixel electrode and green glow pixel First angle of inclination of electrode, wherein ruddiness pixel electrode, blue light pixel electrode and green glow pixel electrode is mutually the same or not Together.

Wherein, under default oblique view angle, when the primary colours that branch electrodes and its of primary lights pixel electrode are located When angle of inclination between first main electrode of light pixel electrode is the first angle of inclination, corresponding to primary lights pixel electrode Pixel gamma curve compared to the of the primary lights pixel electrode that is located with it of branch electrodes when primary lights pixel electrode The gamma of the pixel when angle of inclination between one main electrode is the second angle of inclination corresponding to primary lights pixel electrode is bent Line is closer to default positive visual angle gamma curve.

To solve above-mentioned technical problem, another technical solution used in the present invention is：A kind of liquid crystal display is provided, should Liquid crystal display includes the opposite substrate that is oppositely arranged of above-mentioned array base palte and array base palte and is held on array base palte and right To the liquid crystal layer between substrate.

By above scheme, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode, and then while the penetrance of pixel is lifted, effectively change The color offset phenomenon of kind product.

Description of the drawings

Fig. 1 is the structural representation of the first embodiment of array base palte of the present invention；

Fig. 2 is the structural representation of second embodiment of array base palte of the present invention；

Fig. 3 is the structural representation of the third embodiment of array base palte of the present invention；

Fig. 4 is the structural representation of 4th kind of embodiment of array base palte of the present invention；

Fig. 5 is the gamma curve schematic diagram of array base palte of the present invention；

Fig. 6 is the structural representation of the embodiment of liquid crystal display of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawings the present invention is described in detail with embodiment.

Fig. 1 is referred to, Fig. 1 is the structural representation of the first embodiment of array base palte of the present invention.As shown in figure 1, this The pixel electrode of embodiment is divided into primary lights pixel electrode 11 and white light pixel electrode 12, wherein primary lights pixel electrode 11 Including the first main electrode 111 and the second main electrode 112.First main electrode 111 and the second main electrode 112 are perpendicular to one another Arrange and be electrically connected with, and then divided the primary lights pixel electrode 11 by the first main electrode 111 and the second main electrode 112 Into positioned at four orientation regions of the first main electrode 111 and the both sides of the second main electrode 112.Primary lights pixel electrode 11 enters one Step includes the multiple branch electrodes 113 being respectively arranged in four orientation regions.Wherein, the branch electrodes in each orientation region 113 are connected with the first main electrode 111 or the second main electrode 113.In the present embodiment, the branch in each orientation region Electrode 113 is set parallel to each other, and then keeps identical tilt angle alpha with the first main electrode 111.However, in other enforcements In mode, the branch electrodes 113 in each orientation region can also as needed take other modes to arrange, now each orientation The tilt angle alpha between the main electrode 111 of branch electrodes 113 and first in region is likely to have differences.

Similar, wherein white light pixel electrode 12 includes the first main electrode 121 and the second main electrode 122.First master The arranged substantially perpendicular to each other and electric connection of 121 and second main electrode of dry electrode 122, and then by the first main electrode 121 and second Main electrode 122 is divided into the white light pixel electrode 12 positioned at the first main electrode 121 and the both sides of the second main electrode 122 Four orientation regions.White light pixel electrode 12 further includes the multiple branch electrodes being respectively arranged in four orientation regions 123.Wherein, the branch electrodes 123 in each orientation region are connected with the first main electrode 121 or the second main electrode 123. In present embodiment, the branch electrodes 123 in each orientation region are set parallel to each other, and then protect with the first main electrode 121 Hold identical inclination angle beta.However, in other embodiments, the branch electrodes 123 in each orientation region can also basis Need to take other modes to arrange, now inclining between the main electrode 121 of branch electrodes 123 and first in each orientation region Rake angle β is likely to have differences.

Herein, need it should be noted that tilt angle alpha and β are by branch electrodes 113,123 and the first main electrode 111st, the formed acute angle between 121 is indicated.

Wherein, tilt angle alpha and β are respectively the first angle of inclination and the second angle of inclination, and are all acute angles.

Wherein, the first main electrode 111 and 121 is arranged along the width of pixel electrode 11 and 12.

Wherein, the first tilt angle alpha is less than the second inclination angle beta.

Alternatively, the difference between the second inclination angle beta and the first tilt angle alpha is 10 ± 5 degree, that is to say α<β, β-α =10 ± 5 degree.

Alternatively, the first tilt angle alpha is 35 ± 5 degree, and the second inclination angle beta is 45 ± 5 degree.

Alternatively, the first angle of inclination is 35 degree for α, and the second angle of inclination is 45 degree for β.

Alternatively, primary lights pixel electrode and white light pixel electrode can only have the first main electrode.Now, above-mentioned pixel Electrode is divided into positioned at two orientation regions of its both sides by the first main electrode, branch electrodes of primary lights pixel electrode and white The branch electrodes of light pixel electrode incline certain angle relative to the first main electrode, and equally meet above-mentioned relation.

Alternatively, primary lights pixel electrode and white light pixel electrode can also arrange more than one second main electrode.

In present embodiment, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode, and then while the penetrance of pixel is lifted, can be effective Ground improves the color offset phenomenon of product.

Fig. 2 is referred to, Fig. 2 is the structural representation of second embodiment of array base palte of the present invention.As shown in Fig. 2 this The pixel electrode structure 20 of invention includes：Data wire 21, scan line 22, primary lights pixel electrode 23, the and of white light pixel electrode 24 Thin film transistor (TFT) (Thin Film Transisitor, be TFT) 25.

Wherein, data wire 21 and scan line 22 are perpendicular to one another and insulate, wherein the first main electrode 111 and 121 and scanning Line 22 is parallel, and the second main electrode 112 and 122 is parallel with data wire 21.

The grid of TFT 25 connects with scan line 22, and the source electrode of TFT 25 is connected with data wire 21；The drain electrode of TFT 25 It is connected with pixel electrode 23 or 24.The function of TFT 25 is exactly a switching tube, using the scanning signal applied in scan line 22 The grid voltage of control TFT 25, can control the conducting and cut-off of TFT 25, and then the data voltage on data wire 21 is applied To on corresponding pixel electrode 23 or 24.

Alternatively, primary lights pixel electrode and white light pixel electrode can only have the first main electrode.Now, primary lights picture The branch electrodes of plain electrode and the branch electrodes of white light pixel electrode incline certain angle relative to the first main electrode.

Alternatively, primary lights pixel electrode and white light pixel electrode can also include more than one second main electrode.

In present embodiment, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode, and then while the penetrance of pixel is lifted, can be effective Ground improves the color offset phenomenon of product.

Fig. 3 is referred to, Fig. 3 is the structural representation of the third embodiment of array base palte of the present invention.As shown in figure 3, this The pixel electrode structure 30 of invention includes：Ruddiness pixel electrode 31, blue light pixel electrode 32, green glow pixel electrode 33 and white picture Plain electrode 34.

Wherein, the structure of ruddiness pixel electrode 31, blue light pixel electrode 32 and green glow pixel electrode 33 is above-mentioned embodiment party Any one structure of primary lights pixel electrode in formula；White pixel electrode 34 is the white light pixel electricity in above-mentioned embodiment Any one structure of pole.

Alternatively, ruddiness pixel electrode, blue light pixel electrode, green glow pixel electrode and white pixel electrode can be only One main electrode.

Alternatively, in the present embodiment, ruddiness pixel electrode 41, blue light pixel electrode 42 and green glow pixel electrode 43 The first angle of inclination it is mutually the same.

Alternatively, the difference between the first angle of inclination and the second angle of inclination is 10 ± 5 degree.

Alternatively, the first angle of inclination is 35 ± 5 degree, and the second angle of inclination is 45 ± 5 degree.

Alternatively, the first angle of inclination is 35 degree, and the second angle of inclination is 45 degree.

In present embodiment, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode, and then while the penetrance of pixel is lifted, can be effective Ground improves the color offset phenomenon of product.

Fig. 4 is referred to, Fig. 4 is the structural representation of 4th kind of embodiment of array base palte of the present invention.As shown in figure 4, this The pixel electrode structure 40 of invention includes：Data wire 41, scan line 42, ruddiness pixel electrode 43, blue light pixel electrode 44, green glow Pixel electrode 45 and white pixel electrode 46 and TFT 47.

Wherein, data wire 41 and scan line 42 are perpendicular to one another and insulate, wherein the first main electrode is parallel with scan line 42, Second main electrode is parallel with data wire 41.

Wherein, the grid of TFT 47 connects with scan line 42, and the source electrode of TFT 47 is connected with data wire 41, the leakage of TFT 47 Pole is connected with pixel electrode.TFT 47 can selectively conducting and the cut-off under the control of the scanning signal of scan line 42.

Alternatively, in the present embodiment, ruddiness pixel electrode 41, blue light pixel electrode 42 and green glow pixel electrode 43 The first angle of inclination it is different from each other.

In present embodiment, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode, and then while the penetrance of pixel is lifted, can be effective Ground improves the color offset phenomenon of product.

Fig. 5 is referred to, Fig. 5 is the gamma curve schematic diagram of array base palte of the present invention.As shown in figure 5, array base of the present invention The gamma curve of plate illustrates Figure 50 to include：The gamma curve of red pixel electrode illustrates the gamma of Figure 51, green pixel electrode bent Line illustrates Figure 52, the gamma curve of blue pixel electrode to illustrate Figure 53.

Wherein, the gamma curve in red pixel electrode is illustrated in Figure 51, and curve 511 represents hot coloured light pixel electrode When angle of inclination between first main electrode of branch electrodes and its red light pixel electrode being located is 45 degree, red picture The gamma curve of plain electrode；Curve 512 represents the red light pixel electricity that the branch electrodes of hot coloured light pixel electrode are located with it When angle of inclination between first main electrode of pole is 35 degree, the gamma curve of red pixel electrode；Curve 513 represents pre- If positive visual angle gamma curve.

Wherein, the gamma curve in green pixel electrode is illustrated in Figure 51, and curve 511 is represented when green light pixel electrode When angle of inclination between first main electrode of branch electrodes and its green light pixel electrode being located is 45 degree, green picture The gamma curve of plain electrode；Curve 512 represents the green light pixel electricity being located with it when the branch electrodes of green light pixel electrode When angle of inclination between first main electrode of pole is 35 degree, the gamma curve of green pixel electrode；Curve 513 represents pre- If positive visual angle gamma curve.

Wherein, the gamma curve in blue pixel electrode is illustrated in Figure 51, and curve 511 is represented when blue light pixel electrode When angle of inclination between first main electrode of branch electrodes and its blue light pixel electrode being located is 45 degree, blue picture The gamma curve of plain electrode；Curve 512 represents the blue light pixel electricity being located with it when the branch electrodes of blue light pixel electrode When angle of inclination between first main electrode of pole is 35 degree, the gamma curve of blue pixel electrode；Curve 513 represents pre- If positive visual angle gamma curve.

It can be seen that the of the primary lights pixel electrode being located with it when the branch electrodes of primary lights pixel electrode Angle of inclination between one main electrode from be changed into 35 degree for 45 degree when, the big visual angle gamma curve of each primary colours is all closer to default Positive visual angle gamma curve.

In present embodiment, the first of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it The first angle of inclination between main electrode is configured differently than the white light picture that the branch electrodes of white light pixel electrode are located with it The second angle of inclination between first main electrode of plain electrode so that the gamma curve of primary colours light pixel closer to it is default just Visual angle gamma curve, and then while the penetrance of pixel is lifted, can effectively improve the color offset phenomenon of product.

Fig. 6 is referred to, Fig. 6 is the structural representation of the embodiment of liquid crystal display of the present invention.As shown in fig. 6, this Bright liquid crystal display device structure 60 includes：Array base palte 61, liquid crystal layer 62 and opposite substrate 63.

Wherein, array base palte 61 is any one structure of array base palte in above-mentioned embodiment.

Wherein, opposite substrate 63 is arranged relative to array base palte 61.

Wherein, liquid crystal layer 62 is held between array base palte 61 and opposite substrate 63.

In present embodiment, in the array base palte of liquid crystal display, the branch electrodes of primary lights pixel electrode are located with it Primary lights pixel electrode the first main electrode between the first angle of inclination be configured to be different from white light pixel electrode The second angle of inclination between first main electrode of branch electrodes and its white light pixel electrode being located, can cause primary lights picture Element gamma curve closer to default positive visual angle gamma curve, and then lifted pixel penetrance while, can be effective Ground improves the color offset phenomenon of product.

Embodiments of the present invention are the foregoing is only, the scope of the claims of the present invention is not thereby limited, it is every using this Equivalent structure or equivalent flow conversion that description of the invention and accompanying drawing content are made, or directly or indirectly it is used in other correlations Technical field, is included within the scope of the present invention.

Claims (10)

1. a kind of array base palte, it is characterised in that the array base palte includes multiple pixel electrodes, each pixel electrode bag The first main electrode and multiple branch electrodes are included, first main electrode is divided into the pixel electrode positioned at described The orientation region of one main electrode both sides, the plurality of branch electrodes are respectively arranged in the orientation region and relative to described First main electrode is inclined, wherein the pixel electrode is further divided into primary lights pixel electrode and white light pixel electrode, institute State first main electrode of the primary lights pixel electrode that the branch electrodes of primary lights pixel electrode are located with it Between the first angle of inclination be different from the white light pixel that is located with it of the branch electrodes of the white light pixel electrode The second angle of inclination between first main electrode of electrode.

2. array base palte according to claim 1, it is characterised in that the array base palte further includes perpendicular to one another setting The scan line put and insulate and data wire, wherein first main electrode be arranged in parallel with the scan line.

3. array base palte according to claim 1, it is characterised in that first main electrode is along the pixel electrode Width is arranged.

4. array base palte according to claim 1, it is characterised in that first angle of inclination and second inclination angle Degree is respectively acute angle, and first angle of inclination is less than second angle of inclination, and second angle of inclination and described the Difference between one angle of inclination is 10 ± 5 degree.

5. array base palte according to claim 4, it is characterised in that first angle of inclination is 35 ± 5 degree, described the Two angles of inclination are 45 ± 5 degree.

6. array base palte according to claim 5, it is characterised in that first angle of inclination is 35 degree, described second Angle of inclination is 45 degree.

7. array base palte according to claim 1, it is characterised in that the array base palte is further included and described first Main electrode is arranged substantially perpendicular to each other and the second main electrode for connecting, and first main electrode and second main electrode will The pixel electrode is divided into four orientation regions, and the plurality of branch electrodes are respectively arranged at four orientation regions, and It is connected with first main electrode or second main electrode.

8. array base palte according to claim 1, it is characterised in that the primary lights pixel electrode is further divided into red Light pixel electrode, blue light pixel electrode and green glow pixel electrode, wherein the ruddiness pixel electrode, the blue light pixel electrode And the first angle of inclination of the green glow pixel electrode is same to each other or different to each other.

9. array base palte according to claim 1, it is characterised in that under default oblique view angle, when the base First main electrode of the primary lights pixel electrode that the branch electrodes and its of coloured light pixel electrode is located it Between angle of inclination be first angle of inclination when, the gamma curve of the pixel corresponding to the primary lights pixel electrode is compared Lead with described the first of the primary lights pixel electrode that it is located in the branch electrodes when the primary lights pixel electrode The gal of pixel of the angle of inclination between dry electrode when being second angle of inclination corresponding to the primary lights pixel electrode Horse curve is closer to default positive visual angle gamma curve.

10. a kind of liquid crystal display, it is characterised in that the liquid crystal display is included as described in claim 1-9 any one Opposite substrate and be held on the array base palte and the opposite substrate that array base palte and the array base palte are oppositely arranged Between liquid crystal layer.