CN110262149A - Display panel - Google Patents

Abstract

The present invention discloses a kind of display panel.Display panel includes substrate, transistor unit, the first insulating layer, common electrode, second insulating layer, the first pixel electrode and the second pixel electrode.Scan line is located on substrate.Transistor unit is located on substrate, and is controlled by scan line.First insulating layer is located on substrate.Common electrode is located on the first insulating layer, and common electrode has a first through hole.Second insulating layer covers common electrode and partial first through hole.First pixel electrode is located in second insulating layer, and the first pixel electrode passes through first through hole and is electrically connected to transistor unit.Second pixel electrode is located in second insulating layer, and adjacent first pixel electrode of the second pixel electrode.Scan line and the second pixel electrode are least partially overlapped, and scan line and the first pixel electrode be not be overlapped.

Description

Display panel

The application be Chinese invention patent application (application number: 201510074956.0, the applying date: on February 12nd, 2015, Denomination of invention: display panel) divisional application.

Technical field

The present invention relates to a kind of display panels, and have high-resolution display panel more particularly to one kind.

Background technique

Liquid crystal display has been widely used in various electronic product, as mobile phone, notebook computer (notebook) and Tablet computer (Tablet PC) etc., and with the fast development in large scale flat-panel screens market, have lightweight with it is slim The liquid crystal display for changing characteristic is even more to play considerable role, and then gradually replace cathode-ray tube (CRT) display As the market mainstream.

Also, have become trend set at present with high-resolution liquid crystal display.However, being based on high-resolution Introduced new technology, the problem of being also easy with deriving new problem, and influencing display quality.Therefore, how one kind is provided With good display quality and there is high-resolution liquid crystal display panel, one of the project made great efforts for correlation dealer.

Summary of the invention

The purpose of the present invention is to provide a kind of display panels.In embodiment, the adjacent first pixel electricity of the second pixel electrode A part of the first through hole of pole and the second pixel electrode overlapping common electrode, in this way, which pixel electrode can effectively shorten The distance between, so that the pixel electrode of greater number can be set in unit area, thus it can effectively promote display panel Per inch pixel value (ppi).

In order to achieve the above object, an embodiment according to the present invention, proposes a kind of display panel.Display panel includes one first Substrate, a transistor unit, one first insulating layer, community electrode, a second insulating layer, one first pixel electrode and 1 Two pixel electrodes.Scan line is located on first substrate.Transistor unit is located on first substrate, and is controlled by scan line.The One insulating layer is located on first substrate.Common electrode is located on the first insulating layer, and common electrode has a first through hole.Second Insulating layer covers common electrode and partial first through hole.First pixel electrode is located in second insulating layer, and the first pixel electricity Pole passes through first through hole and is electrically connected to transistor unit.Second pixel electrode is located in second insulating layer, and the second pixel electricity Extremely adjacent first pixel electrode.Scan line and the second pixel electrode are least partially overlapped, and scan line is not weighed with the first pixel electrode It is folded.

More preferably understand to have to above-mentioned and other aspect of the invention, preferred embodiment is cited below particularly, and cooperates institute Attached attached drawing, is described in detail below:

Detailed description of the invention

Figure 1A is the top view of the display panel of one embodiment of the invention；

Cross-sectional view of the display panel along hatching 1B-1B ' that Figure 1B is Figure 1A；

Fig. 2A is the top view of the display panel of another embodiment of the present invention；

Cross-sectional view of the display panel along hatching 2B-2B ' that Fig. 2 B is Fig. 2A；

Fig. 3 A is the top view of the display panel of yet another embodiment of the invention；

Cross-sectional view of the display panel along hatching 3B-3B ' that Fig. 3 B is Fig. 3 A；

Fig. 4 is the top view of the display panel of further embodiment of this invention.

Symbol description

100,200,300,400: display panel

110: first substrate

120: the first insulating layers

130: common electrode

130a: first through hole

140: second insulating layer

140a: the second through-hole

150: the first pixel electrodes

160: the second pixel electrodes

160a: slit

170: liquid crystal layer

180: the second substrate

181,183,185,187: insulating layer

189: semiconductor layer

190: first crystal tube elements

191: second transistor element

A1: the first area

A2: second area

BM: black matrix"

D1: first distance

D2: second distance

D3: third distance

DL: data line

1B-1B ', 2B-2B ', 3B-3B ': hatching

M1: scan line

M1-1: the first scan line

M1-2: the second scan line

M2: metal layer

Specific embodiment

According to an embodiment of the invention, proposing a kind of display panel.In embodiment, adjacent first pixel of the second pixel electrode Electrode and the second pixel electrode overlapping common electrode first through hole a part, in this way, can effectively shorten pixel electricity The distance between pole so that the pixel electrode of greater number can be set in unit area, thus can effectively promote display surface The per inch pixel value (ppi) of plate.However, embodiment only to illustrate as example, can't limit what the present invention to be protected Range.In addition, the element that the attached drawing clipped in embodiment is wanted, to clearly show that technical characterstic of the invention.

Figure 1A is painted the top view of display panel 100 according to an embodiment of the invention.Figure 1B is painted the display surface of Figure 1A Cross-sectional view of the plate 100 along hatching 1B-1B '.As shown in Figure 1A~Figure 1B, display panel 100 includes a first substrate 110, one First insulating layer 120, community electrode 130, a second insulating layer 140, one first pixel electrode 150 and one second pixel electricity Pole 160.First insulating layer 120 is located on first substrate 110.Common electrode 130 is located on the first insulating layer 120, and common electricity Pole 130 has a first through hole 130a.The first through hole 130a of second insulating layer 140 covering common electrode 130 and part.First Pixel electrode 150 is located in second insulating layer 140, and the first pixel electrode 150 passes through first through hole 130a.Second pixel electrode 160 are located in second insulating layer 140, and adjacent first pixel electrode 150 of the second pixel electrode 160.Second pixel electrode, 160 weight A part of folded first through hole 130a.

According to an embodiment of the invention, adjacent first pixel electrode 150 of the second pixel electrode 160 and the second pixel electrode A part of 160 overlapping first through hole 130a, in this way, the distance between pixel electrode can effectively shorten, so that unit The pixel electrode of greater number can be set in area, that is, more pixel unit can be set, thus can effectively mention Rise the per inch pixel value (ppi) of display panel 100.

In embodiment, common electrode 130 comprehensively covers the knot below of the first insulating layer 120 in a pixel unit Structure exposes the structure under common electrode 130 only with first through hole 130a.

In embodiment, first substrate 110 is, for example, glass substrate or plastic substrate, and the first insulating layer 120 is for example including having Machine insulating materials.The material of common electrode 130, the first pixel electrode 150 and the second pixel electrode 160 can for example respectively include Bright conductive material, e.g. indium tin oxide (ITO).

In embodiment, as shown in Figure 1A~Figure 1B, the first pixel electrode 150 and the second pixel electrode 160 are separated by one first Distance D1, the second pixel electrode 160 extend a second distance D2 into first through hole 130a, and first distance D1 is, for example, to be greater than the Two distance D2.

Due to the trend that the per inch pixel value (ppi) of display panel now gradually improves, so that the size of pixel unit Reduce, the area that pixel electrode overlaps each other with common electrode is also reduced, thus there may be the doubts that storage capacitance reduces.Root According to the embodiment of the present invention, as shown in Figure 1B, the second pixel electrode 160 extends a second distance D2 into first through hole 130a, In other words, common electrode 130 is completely covered in the second pixel electrode 160.Furthermore as shown in Figure 1B, the first pixel electrode 150 is also complete All standing common electrode 130.First pixel electrode, 150/ second pixel electrode 160 and common electrode 130 according to the present invention Design, the area that common electrode 130 can be made Chong Die with 150/ second pixel electrode 160 of the first pixel electrode maximize and press from both sides There is second insulating layer 140 in wherein, in this way, can effectively improve the pixel electrode area Chong Die with common electrode, in turn It can achieve the per inch pixel value (ppi) for improving display panel while also effectively improving storage capacitance.

Furthermore according to an embodiment of the invention, the second pixel electrode 160 extends a second distance into first through hole 130a D2, that is to say, that the second pixel electrode 160 extends and is more than common electrode 130 and the first through hole 130a of covering a part, can To effectively prevent because the error of manufacture craft causes offset of second pixel electrode 160 relative to the position of common electrode 130. In other words, the second pixel electrode 160 extends and can provide the buffering in manufacture craft more than the edge of common electrode 130, makes The product that must be finally completed can have the faying surface of 150/ second pixel electrode 160 of common electrode 130 and the first pixel electrode The structure of product maximization.

In embodiment, first distance D1 is, for example, 2.0~5.0 microns (μm), and second distance is, for example, 0.1~1.0 micron.

As shown in Figure 1A, in embodiment, the second pixel electrode 160 can have an at least slit 160a, slit 160a and It is, for example, to be greater than second distance D2 that one through-hole 130a, which is separated by third a distance D3, third distance D3,.

In embodiment, third distance D3 is, for example, 2.0~5.0 microns.

As shown in Figure 1A, in embodiment, the first pixel electrode 150 one first area A1 Chong Die with first through hole 130a Such as it is greater than the second pixel electrode 160 second area A2 Chong Die with first through hole 130a.

In embodiment, display panel 100 may also include scan line M1.As shown in Figure 1A~Figure 1B, in the present embodiment, sweep It is, for example, Chong Die with a part of the second pixel electrode 160 for retouching line M1.

As shown in Figure 1A, in embodiment, there is the first insulating layer 140 one second through-hole 140a, the second through-hole 140a to be located at Among first through hole 130a, and the second through-hole 140a is, for example, to be less than first through hole 130a.

In embodiment, as shown in Figure 1B, display panel 100 may also include a metal layer M2.First pixel electrode 150 passes through Second through-hole 140a is electrically connected metal layer M2.

In embodiment, the first pixel electrode 150 can be electrically connected to drain/source via metal layer M2.

In embodiment, as shown in Figure 1A, display panel 100 may also include a data line DL.Metal layer M2 may be electrically connected to Data line DL.In other words, the first pixel electrode 150 can be electrically connected metal layer M2 and is electrically connected to by the second through-hole 140a Data line DL.

In embodiment, as shown in Figure 1B, display panel 100 may also include a second substrate 180 and a liquid crystal layer 170. 180 pairs of groups of first substrate 110 and the second substrate, liquid crystal layer 170 is between first substrate 110 and the second substrate 180.Embodiment In, the second substrate 180 is, for example, colorized optical filtering laminar substrate.

In embodiment, as shown in Figure 1B, display panel 100 may also include a black matrix" BM.Black matrix" BM is located at the On two substrates 180, and the first through hole 130a of corresponding common electrode 130.But in other embodiments, black matrix" BM can also On first substrate 110, using as BOA (Black matrix on array) framework.

In embodiment, as shown in Figure 1B, display panel 100 may also include insulating layer 181,183,185 and 187 and partly lead Body layer 189.Scan line M1 is located on insulating layer 185, and semiconductor layer 189 is located on insulating layer 187.Insulating layer 181,183,185 The combination that silicon nitride, silica or both can for example be respectively included with 187.Semiconductor layer 189 for example may include polysilicon (polysilicon), low temperature polycrystalline silicon (LTPS) or amorphous phase silicon (amorphous silicon).

According to an embodiment of the invention, common electrode 130, the first pixel electrode 150 and the second pixel electrode 160 are respectively positioned on The same side of liquid crystal layer 170, and be spaced with second insulating layer 140 between common electrode 130 and pixel electrode 150/160, And these electrodes are all located on the first substrate 110 of transistor unit side, display panel 100 is, for example, fringe field switch type (fringe field switching, FFS) liquid crystal display panel.

Fig. 2A is painted the top view of display panel 200 according to another embodiment of the present invention.Fig. 2 B is painted the display of Fig. 2A Cross-sectional view of the panel 200 along hatching 2B-2B '.It is continued to use equally in the present embodiment with the same or similar element of previous embodiment Or similar element numbers, and the related description of same or similar element please refers to aforementioned, details are not described herein.

As shown in Fig. 2A~Fig. 2 B, in the present embodiment, the scan line M1 of display panel 200 is, for example, to be located at the first pixel electricity Between pole 150 and the second pixel electrode 160.Scan line M1 not with 160 weight of the first pixel electrode 150 or the second pixel electrode It is folded.

Fig. 3 A is painted the top view of display panel according to yet another embodiment of the invention.Fig. 3 B is painted the display panel of Fig. 3 A Along the cross-sectional view of hatching 3B-3B '.It continues to use in the present embodiment with the same or similar element of previous embodiment same or like Element numbers, and the related description of same or similar element please refers to aforementioned, details are not described herein.

As shown in Fig. 3 A~Fig. 3 B, in the present embodiment, the scan line M1 of display panel 300 can simultaneously with the first pixel electrode A part overlapping of 150 a part and the second pixel electrode 150.

Fig. 4 is painted the top view of the display panel 400 of another embodiment according to the present invention.In the present embodiment with aforementioned implementation Before the same or similar element of example continues to use same or like element numbers, and the related description of same or similar element please refers to It states, details are not described herein.

As shown in figure 4, display panel 400 may also include a first crystal tube elements 190, one first scan line M1-1, one Second transistor element 191 and one second scan line M1-2.Referring to Figure 1A~Figure 1B and Fig. 4, first crystal tube elements 190, the first scan line M1-1, second transistor element 191 and the second scan line M1-2 are located on first substrate 110.First is brilliant Body tube elements 190 are controlled by the first scan line M1-1, and first crystal tube elements 190 are electrically connected to the first pixel electrode 150.The Two-transistor element 191 is controlled by the second scan line M1-2, and second transistor element 191 is electrically connected to the second pixel electrode 160.The adjacent first scan line M1-1 of second scan line M1-2, and the first insulating layer 120 covering first crystal tube elements 190 and the Two-transistor element 191.

Although disclosing the present invention in conjunction with preferred embodiment above, it is not intended to limit the invention.Institute of the present invention Belong in technical field and have usually intellectual, without departing from the spirit and scope of the present invention, can be used for a variety of modifications and variations. Therefore, protection scope of the present invention should be subject to what the appended claims were defined.

Claims (10)

1. a kind of display panel characterized by comprising

First substrate；

Scan line is located on the first substrate；

Transistor unit is located on the first substrate, and is controlled by the scan line；

First insulating layer is located on the first substrate；

Common electrode is located on first insulating layer, has first through hole；

Second insulating layer covers the common electrode and the partial first through hole；

First pixel electrode is located in the second insulating layer, which passes through the first through hole and be electrically connected to this Transistor unit；

Second pixel electrode is located in the second insulating layer, adjacent first pixel electrode of second pixel electrode；

Wherein, the scan line and second pixel electrode are least partially overlapped, and the scan line and first pixel electrode be not be overlapped.

2. display panel as described in claim 1, wherein first pixel electrode has slit, the slit and the first through hole Overlapping.

3. display panel as claimed in claim 2, wherein the distance of the side of the slit to the first through hole be less than this first Pixel electrode to relative to the first through hole the side an other side distance.

4. display panel as claimed in claim 2, wherein first insulating layer has the second through-hole, and second through-hole is narrow with this Seam is not overlapped.

5. display panel as claimed in claim 4, further includes:

Metal layer, wherein first pixel electrode is electrically connected the metal layer by second through-hole.

6. display panel as described in claim 1, wherein the scan line is Chong Die with a part of the first through hole.

7. display panel as described in claim 1, wherein second pixel electrode has an another slit, the scan line with should Another slit overlapping.

8. display panel as described in claim 1 further includes third insulating layer, the third insulating layer be located at the first substrate with Between the scan line.

9. display panel as described in claim 1, wherein second pixel electrode is Chong Die with a part of the first through hole.

10. display panel as claimed in claim 9, wherein first pixel electrode, first area Chong Die with the first through hole The second area Chong Die with the first through hole greater than second pixel electrode.