CN2784976Y - In-plane switching liquid crystal display device - Google Patents

Abstract

The utility model provides a plane inner switching type liquid crystal display device including an upper basal plate, a lower basal plate which is corresponding to the upper basal plate, a liquid crystal layer, two polarizing plates, two alignment films, many pixel electrodes and a common electrode. The liquid crystal layer is equipped between the upper basal plate and the lower basal plate. Two polarizing plates are respectively equipped on the upper basal plate and the lower basal plate. Two alignment films are respectively equipped at the inner sides of the upper basal plate and the lower basal plate. The friction direction of the upper alignment film and the lower alignment film is vertical. Many pixel electrodes and a common electrode are formed on the lower basal plate. The liquid crystal layer is a twisted nematic mode liquid crystal. The pixel electrode and the common electrode are at least provided with two parts at different directions. When the plane inner switching type liquid crystal display device is forced with the voltage, the pixel electrode and the common electrode create an electric field which is provided with at least two directions.

Description

Plane inner switching type liquid crystal displaying apparatus

[technical field]

The utility model relates to a kind of liquid crystal indicator, relates in particular to a kind of plane inner switching type liquid crystal displaying apparatus (In-Plane Switching LiquidCrystal Display, IPS LCD).

[background technology]

Liquid crystal indicator is a kind of in the flat display apparatus, and it not only is used widely in the notebook field through in decades development, also occupies increasing share in monitor, TV and desktop PC field.

In order to overcome in the prior art the little defective in visual angle in the liquid crystal indicator, many companies all develop relevant wide viewing angle technology, and plane inner switching type liquid crystal displaying apparatus is wherein have much advantage a kind of.

The common planar switching in image type LCD device comprises the two upper and lower substrates that relatively are provided with, and is clipped in the liquid crystal layer between two substrates and is arranged on a plurality of pixel electrodes and public electrode on the infrabasal plate.Because pixel electrode and public electrode are arranged on the same substrate, it utilizes the transverse electric field that is parallel to substrate that produces between pixel electrode and public electrode to impel liquid crystal molecule to rotate in same plane, has the advantage of wide viewing angle, high-luminous-efficiency and high-contrast.

Seeing also Fig. 1, is a kind of schematic perspective view of prior art plane inner switching type liquid crystal displaying apparatus.This plane inner switching type liquid crystal displaying apparatus 10 comprises an infrabasal plate 12, one upper substrates 11 and is clipped in wherein a liquid crystal layer 13.On one polaroid 14 and once polaroid 15 be separately positioned on this upper substrate 11 and infrabasal plate 12 outsides.One pixel electrode 16 and a public electrode 17 are arranged on the inboard of this infrabasal plate 12, and wherein this pixel electrode 16 is transparency electrodes of strip with public electrode 17, are parallel to each other and are spaced.Alignment film on one (figure do not show) and once alignment film (figure does not show) be separately positioned on the inboard of this upper substrate 11 and infrabasal plate 12, this time alignment film covers this pixel electrode 16 and public electrode 17, wherein, the frictional direction of upper and lower alignment film is identical, and liquid crystal molecule 18 major axis at close this two alignment films place are roughly parallel to upper and lower substrate 11 and 12.Last polaroid 14 is orthogonal with the polarization axle of following polaroid 15, when not applying voltage, the major axis of liquid crystal molecule 18 and pixel electrode 16 and public electrode 17 have an angle, after the light that backlight (figure does not show) sends passes through liquid crystal layer 13, its polarization state and polarization direction do not change, light is absorbed and can not pass through by last polaroid 14, so this plane inner switching type liquid crystal displaying apparatus 10 shows dark attitude.

See also Fig. 2, when when pixel electrode 16 and 17 of public electrodes apply voltage, will produce an electric field E1 who is parallel to infrabasal plate 12, the direction of this electric field E1 is perpendicular to pixel electrode 16 and public electrode 17.Under the effect of this electric field E1, the major axis of liquid crystal molecule 18 is towards the direction deflection that is parallel to electric field E1, the optical delay of liquid crystal layer 13 changes, after the linearly polarized light that descends polaroid 15 outgoing is by liquid crystal layer 13, be transformed into elliptically polarized light or circularly polarized light, so light can pass polaroid 14, this moment, this plane inner switching type liquid crystal displaying apparatus 10 showed bright attitude, thereby realized the purpose that image shows.

But, because liquid crystal molecule 18 is not arranged along same direction when applying voltage, each liquid crystal molecule 18 all needs the identical amplitude of deflection after applying voltage, to reach the state parallel with electric field E1, cause the response speed of this plane inner switching type liquid crystal displaying apparatus 10 slow, thereby influence image display effect.In addition, because this plane inner switching type liquid crystal displaying apparatus 10 is to utilize the birefringence principle of liquid crystal molecule 18 to realize showing purpose, when the thickness of liquid crystal layer 13 changes, its phase delay also changes, influence light by the polarization state behind the liquid crystal layer 13, thereby influence the display effect of this plane inner switching type liquid crystal displaying apparatus 10.That is to say that the thickness error allowed band of liquid crystal layer 13 is less, in panel manufacturing process, processing procedure is had relatively high expectations, thereby it is low to cause producing yield.And because pixel electrode 16 and public electrode 17 all are rectangular transparent type electrodes, when therefore adding voltage, the direction of an electric field of pixel electrode 16 and 17 generations of public electrode is unique, thereby just defines visible angle, and its viewing angle characteristic is not good.

[utility model content]

Slow for overcoming prior art midplane switching in image type LCD device response speed, produce the low and relatively poor problem of viewing angle characteristic of yield, the utility model provides a kind of response speed fast, produces liquid crystal indicator in the plane that yield is high and viewing angle characteristic is better.

Corresponding above-mentioned purpose, the utility model provides a kind of plane inner switching type liquid crystal displaying apparatus, and it comprises: a upper substrate and one and the infrabasal plate that is oppositely arranged of upper substrate; One liquid crystal layer, it is arranged between upper substrate and the infrabasal plate; The two last polaroids that are separately positioned on upper substrate and the infrabasal plate reach polaroid down; The two last alignment films that are separately positioned on upper substrate and infrabasal plate inboard reach alignment film down, and alignment film is vertical with the frictional direction of following alignment film on this; A plurality of pixel electrode and public electrodes that are formed on the infrabasal plate; Wherein, this liquid crystal layer is a twisted nematic liquid crystals, and this pixel electrode and public electrode have the part of two different directions at least.

Compared with prior art, because this liquid crystal indicator adopts twisted nematic liquid crystals, on, the frictional direction of following alignment film is vertical, thereby the liquid crystal layer of this liquid crystal indicator becomes 90 ° of aligned twisted, when applying voltage, the liquid crystal deflecting element of liquid crystal layer is during to direction of an electric field, its deflection period is shorter, the thickness of liquid crystal layer also can allow to have bigger error, and because pixel electrode and public electrode comprise the part of two different directions at least, therefore when applying voltage, produce the electric field of both direction at least between pixel electrode and public electrode, promptly direction of an electric field is not unique.Produce a pair of territory or multiple domain electric field between pixel electrode and public electrode, liquid crystal molecule can be along both direction or a plurality of direction deflection under this electric field action, make this pixel on display effect, be divided into two or more zones, the aberration that these two or more zones cause can compensate mutually, therefore, this plane inner switching type liquid crystal displaying apparatus contrast on all directions strengthens, thereby viewing angle characteristic is better.

[description of drawings]

Fig. 1 is a kind of schematic perspective view of prior art plane inner switching type liquid crystal displaying apparatus.

Fig. 2 is the schematic perspective view of prior art plane inner switching type liquid crystal displaying apparatus when applying voltage.

Fig. 3 is the diagrammatic cross-section of plane inner switching type liquid crystal displaying apparatus first embodiment of the present utility model.

Fig. 4 is the electrode structure synoptic diagram of plane inner switching type liquid crystal displaying apparatus first embodiment of the present utility model.

Fig. 5 is the electrode structure synoptic diagram of plane inner switching type liquid crystal displaying apparatus second embodiment of the present utility model.

Fig. 6 is plane inner switching type liquid crystal displaying apparatus second embodiment of the present utility model electrode structure enlarged diagram when applying voltage.

[embodiment]

Seeing also Fig. 3, is the diagrammatic cross-section of plane inner switching type liquid crystal displaying apparatus first embodiment of the present utility model.Plane inner switching type liquid crystal displaying apparatus 100 of the present utility model comprise a upper substrate 110 and one and the infrabasal plate 120, that is oppositely arranged of upper substrate be arranged on the liquid crystal layer 130 of 110,120 of substrates, this liquid crystal layer 130 adopts twisted nematic liquid crystals molecule 1s 80.

Once polaroid 121 is arranged on the outside of infrabasal plate 120, a plurality of public electrodes 170 are formed on the infrabasal plate 120, one insulation course 122 covers this public electrode 170, a plurality of pixel electrodes 160 are formed on this insulation course 122 with data line 140, one passivation layer 123 covers on pixel electrode 160 and the data line 140, and once alignment film 124 is formed on this passivation layer 123 and with liquid crystal layer 130 and contacts.These insulation course 122 materials are silicon dioxide (SiO2) or silicon nitride (SiNx), and these passivation layer 123 materials are silicon dioxide (SiO2) or silicon nitride (SiNx).

Polaroid 111 is arranged on the outside of upper substrate 110 on one, and alignment film 114 is arranged on the inboard of upper substrate 110 and contacts with liquid crystal layer 130 on one.

It is very little with the pre-dumping angle of following alignment film 124 to go up alignment film 114, generally is 0 °～10 °, and liquid crystal molecule 180 major axis of liquid crystal layer 130 are roughly parallel to substrate 110,120 planes.Wherein, last alignment film 114 roughly becomes 90 ° with the frictional direction of following alignment film 124, and upper substrate 110 becomes 90 ° of aligned twisted with the liquid crystal molecule 180 of 120 of infrabasal plates when not applying voltage, with the liquid crystal layer 130 that forms a twisted nematic.The material that should go up alignment film 114 and following alignment film 124 is polyvinyl alcohol (PVA) (PolyvinylAlcohol), and wherein the grasp of 124 pairs of liquid crystal molecules 180 of this time alignment film energy (Anchoring Strength) is much larger than the grasp energy of 114 pairs of liquid crystal molecules 180 of last alignment film.

The polarization axis direction that should go up polaroid 111 is vertical with the frictional direction of last alignment film 114, so, vertical near liquid crystal molecule 180 long axis directions that should go up alignment film 114 with the polarization direction of last polaroid 111.The polarization axis direction of this time polaroid 121 is parallel with the frictional direction of following alignment film 124, and is therefore, parallel with the polarization direction of following polaroid 121 near liquid crystal molecule 180 long axis directions of this time alignment film 124.

Seeing also Fig. 4, is the electrode structure synoptic diagram of plane inner switching type liquid crystal displaying apparatus first embodiment of the present utility model.The gate line 150 of multi-ribbon shape is formed on the infrabasal plate 120 and horizontal expansion, and the data line 140 of multi-ribbon shape is formed on longitudinal extension on the infrabasal plate 120.Orthogonal gate line 150 forms a pixel region with data line 140, each pixel region comprises that at least one is positioned at the thin film transistor (TFT) 190 of gate line 150 and data line 140 infalls, this thin film transistor (TFT) 190 comprises a grid 191, one source pole 193 and a drain electrode 192, wherein, the grid 191 of this thin film transistor (TFT) 190 is electrically connected mutually with gate line 150, source electrode 193 is electrically connected with data line 140, and drain electrode 192 is electrically connected with pixel electrode 160.This pixel electrode 160 all is "＞" shape band electrode and parallel interval setting with public electrode 170, and the two all is that transparent conductive material is made, as tin indium oxide (IndiumTin Oxide, ITO) or indium zinc oxide (Indium Zinc Oxide, IZO).This pixel electrode 160 also can be made by conductive metallic material with public electrode 170.

Because this liquid crystal indicator 100 adopts twisted nematic liquid crystal layer 130, because last alignment film 114 roughly becomes 90 ° with the frictional direction of following alignment film 124, liquid crystal molecule 180 in the liquid crystal layer 130 is 90 ° of aligned twisted, when when pixel electrode 160 and 170 of public electrodes apply voltage, liquid crystal molecule should be towards direction of an electric field deflection, thereby, all liquid crystal molecules 180 are under electric field action in this liquid crystal layer 130, needed deflection period is shorter than the deflection period of liquid crystal molecule in the prior art, therefore, these liquid crystal indicator 100 response speeds are faster.Because utilizing, this liquid crystal indicator 100 goes up the different 180 one-tenth 90 ° of aligned twisted of liquid crystal molecule that make in the liquid crystal layer 130 of alignment film 114 with the frictional direction of following alignment film 124, thereby, the thickness of 100 pairs of liquid crystal layers 130 of this liquid crystal indicator does not have strict demand, and the thickness of this liquid crystal layer 130 can have bigger scale error.And because pixel electrode 160 all is "＞" shape band electrode and parallel interval setting with public electrode 170, therefore, when applying voltage, produce two electric field E11 and the E12 that are parallel to substrate 170 of pixel electrode 160 and public electrodes, this electric field E11 is different with electric field E12 direction.Liquid crystal molecule 180 rotates under this two electric fields E11 and E12 effect and makes the long axis direction of liquid crystal molecule 180 be parallel to electric field E11 and E12 respectively.Because each liquid crystal molecule 180 is not arranged inconsistent when applying voltage, under electric field E11 and E12 effect, time required when the major axis of liquid crystal molecule 180 is parallel to electric field E11 and E12 direction is short, therefore, the utility model plane inner switching type liquid crystal displaying apparatus 100 has the fast advantage of response speed.In addition, the polarization direction that the utility model plane inner switching type liquid crystal displaying apparatus 100 utilizes the liquid crystal molecule 180 of aligned twisted to change the light by liquid crystal layer 130 shows purpose to realize image, therefore can allow liquid crystal layer 130 thickness to have bigger error range, requirement to processing procedure is not so good as the prior art height, so can improve the production yield.In addition, owing to should with public electrode 170 and liquid crystal molecule 180 pixel be divided into two zoness of different by the banded pixel electrode 160 of "＞" shape, these two different zones have different viewing angle characteristics, the aberration that two zones cause can compensate mutually, therefore, this plane inner switching type liquid crystal displaying apparatus 100 contrast on all directions strengthens, and viewing angle characteristic is better.

Seeing also Fig. 5, is the electrode structure synoptic diagram of plane inner switching type liquid crystal displaying apparatus second embodiment of the present utility model.This plane inner switching type liquid crystal displaying apparatus 200 is with the difference of plane inner switching type liquid crystal displaying apparatus 100, this pixel electrode 260 comprises first sweep 261, second sweep 262 and the 3rd sweep 263, this sweep all is "＞" shape banded structures, this public electrode 270 and pixel electrode 260 corresponding and parallel interval settings.

Seeing also Fig. 6, is plane inner switching type liquid crystal displaying apparatus second embodiment of the present utility model electrode structure enlarged diagram when applying voltage.First sweep 261, second sweep 262 and the 3rd sweep 263 of this pixel electrode 260 comprise first side 2611,2621,2631 and second side 2612,2622,2632 respectively. First side 2611,2621,2631 and second side 2612,2622,2632 join end to end and form three bending angle.This first side 2611,2621,2631 inclines towards each other to be provided with and is not parallel to each other, and second side 2612,2622,2632 inclines towards each other to be provided with and is not parallel to each other.When pixel electrode 260 and 270 of public electrodes apply voltage, 270 generations of pixel electrode 260 and public electrode are parallel to electric field E21, E22, E23, E24, E25, the E26 of substrate.The direction difference of this each electric field, the liquid crystal molecule 280 of each pixel is arranged along six direction, and each pixel is divided into six zones, and each zone has different viewing angle characteristics, thereby can improve the visual angle and the contrast at each visual angle is strengthened, thereby improve display quality.

Claims (9)

1. plane inner switching type liquid crystal displaying apparatus, it comprises: a upper substrate, one and the upper substrate infrabasal plate, a liquid crystal layer, two polaroids, two alignment films and a plurality of pixel electrode and the public electrode that are oppositely arranged, this liquid crystal layer is arranged between upper substrate and the infrabasal plate, two polaroids are separately positioned on upper substrate and the infrabasal plate, two alignment films are separately positioned on this upper substrate and infrabasal plate inboard, last alignment film is vertical with the frictional direction of following alignment film, and a plurality of pixel electrodes and public electrode are formed on the infrabasal plate; It is characterized in that: this liquid crystal layer is a twisted nematic liquid crystals, and this pixel electrode and public electrode have the part of two different directions at least.

2. plane inner switching type liquid crystal displaying apparatus as claimed in claim 1 is characterized in that: this pixel electrode and public electrode adopt "〉" the shape banded structure.

3. plane inner switching type liquid crystal displaying apparatus as claimed in claim 2 is characterized in that: the grasp of this time alignment film can be greater than the grasp energy of last alignment film.

4. plane inner switching type liquid crystal displaying apparatus as claimed in claim 3 is characterized in that: the polarization axis direction of this time polaroid is parallel to the long axis of liquid crystal molecule near this time alignment film surface.

5. plane inner switching type liquid crystal displaying apparatus as claimed in claim 4 is characterized in that: when not applying voltage, polarization axis direction of polaroid is perpendicular to the close long axis of liquid crystal molecule of alignment film surface down on this.

6. plane inner switching type liquid crystal displaying apparatus as claimed in claim 1 is characterized in that: this pixel electrode and public electrode are by a plurality of "〉" shape banded structure formation.

7. plane inner switching type liquid crystal displaying apparatus as claimed in claim 6 is characterized in that: the grasp of this time alignment film can be greater than the grasp energy of last alignment film.

8. plane inner switching type liquid crystal displaying apparatus as claimed in claim 7 is characterized in that: the polarization axis direction of this time polaroid is parallel to the long axis of liquid crystal molecule near this time alignment film surface.

9. plane inner switching type liquid crystal displaying apparatus as claimed in claim 8 is characterized in that: when not applying voltage, polarization axis direction of polaroid is perpendicular to the close long axis of liquid crystal molecule of alignment film surface down on this.

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