CN101004494A - Structure of pixels, and liquid crystal display faceplate - Google Patents

Structure of pixels, and liquid crystal display faceplate Download PDF

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Publication number
CN101004494A
CN101004494A CN 200610001666 CN200610001666A CN101004494A CN 101004494 A CN101004494 A CN 101004494A CN 200610001666 CN200610001666 CN 200610001666 CN 200610001666 A CN200610001666 A CN 200610001666A CN 101004494 A CN101004494 A CN 101004494A
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China
Prior art keywords
electrode
transition
display panels
dot structure
base board
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CN 200610001666
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Chinese (zh)
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田浩廷
潘建霖
胡冠群
许朝栋
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Chunghwa Picture Tubes Ltd
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Chunghwa Picture Tubes Ltd
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Priority to CN 200610001666 priority Critical patent/CN101004494A/en
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Abstract

A pixel structure is prepared for electric-connecting active element to scan line and data line as well as pixel electrode to active element, setting electrode insulation layer above scan line and data line as well as pixel electrode, setting transfer electrode above electrode insulation layer and generating horizontal electric field between transfer electrode and pixel electrode.

Description

Dot structure and display panels
Technical field
The present invention relates to a kind of dot structure and display panel, and be particularly related to a kind of dot structure and display panels with transition electrode (transition electrode).
Background technology
Because the demand of display hurriedly increased with day, so industry drops into the development of related display with all strength.Wherein, (cathode ray tube CRT) because of having excellent display quality and technology maturation, therefore monopolizes the monitor market all the year round with cathode-ray tube (CRT) again.Yet, recently because the rise of environmental protection notion, the big and bigger characteristic of generation radiant quantity of energy resource consumption based on cathode-ray tube (CRT), cathode-ray tube (CRT) adds that its product flattening space is limited, so can't satisfy the market trend of market for light, thin, short, little, U.S. and low consumpting power.Therefore, have that high image quality, space utilization efficient are good, (thin film transistorliquid crystal display TFT-LCD) becomes the main flow in market to the Thin Film Transistor-LCD of low consumpting power, advantageous characteristic such as radiationless gradually.
LCD is provided with the different numerous species that are distinguished into of position etc. according to employed liquid crystal kind, type of drive and light source.Wherein, optical compensation birefringence LCD (opticallycompensated birefringence liquid crystal display, OCB LCD) has (response) speed of replying that is exceedingly fast, can provide computing machine in playing animation or film etc. fast during the continuous pictures of variation, the picture of smoothness shows more, is very suitable for the application of high-order LCD.But optical compensation birefringence LCD just can enter holding state after must allowing the part liquid crystal molecule become commentaries on classics bending status (bend state) via spreading status (splay state), and the work performance of rapid answer is provided.
Figure 1A is in the synoptic diagram of spreading status for liquid crystal molecule in the display panels.Figure 1B is in synoptic diagram for bending status for liquid crystal molecule in the display panels.Please be simultaneously with reference to Figure 1A and Figure 1B, in optical compensation birefringence type liquid crystal display panel 10, liquid crystal layer 11 is arranged between upper substrate 12 and the infrabasal plate 13.Wherein, its alignment direction of alignment film (alignment layers) (rubbing direction) that is positioned on upper substrate 12 and the infrabasal plate 13 is parallel to each other.Liquid crystal molecule in liquid crystal layer 11 is not subjected to extra electric field and does the time spent, arranges in the spreading status mode.And when optical compensation birefringence LCD was desired to enter holding state, the electric field that must apply vertical upper substrate 12 was on liquid crystal molecule, so that the part liquid crystal molecule changes bending status gradually into.In the known optical compensation birefringence LCD, pixel needs several minutes time to carry out this transfer process if want driven, promptly before entering holding state, needs soaking out (warm up).But, this for LCD the characteristic with opening i.e. usefulness that should possess very unfavorable.Therefore, allow optical compensation birefringence LCD is easier to be accepted by the consumer, conversion (fast transition) is necessary fast.
For the liquid crystal molecule in the optical compensation birefringence type liquid crystal display panel is transformed into bending status from spreading status quickly, a kind of known technology is to utilize the mode that increases voltage to produce stronger electric field, makes liquid crystal molecule be converted to bending status fast from spreading status.Yet, can bear high-tension suitable chip for driving difficulty search out, make relevant research and development and volume production be difficult for carrying out.Another kind of common methods in the known technology is to add polymkeric substance in liquid crystal layer, when liquid crystal molecule is in bending status, with UV-irradiation on polymkeric substance so that it forms polymeric wall, so then can keep Liquid Crystal Molecules Alignment to become bending status.Though this kind mode is simple, can cause the light leakage phenomena of optical compensation birefringence type liquid crystal display panel.In addition, known technology still has other method, for example by special pixel design (pixel design), in the structure that forms slit (slit) on the pixel electrode or above pixel electrode, form ridge (bump), make the liquid crystal molecule of subregion change arrangement mode, to quicken it by the transfer process of spreading status to bending status.
Summary of the invention
In view of the foregoing, purpose of the present invention just provides a kind of dot structure, and it can make the liquid crystal molecule in the optical compensation birefringence type liquid crystal display panel be transformed into bending status from spreading status quickly.
A further object of the present invention provides the short display panels of a kind of response time.
Based on above-mentioned purpose and other purpose, the present invention proposes a kind of dot structure, is suitable for driving by sweep trace and data line, and this dot structure comprises active member, pixel electrode, electrode dielectric layer and transition electrode.Wherein, active member and sweep trace and data line are electrical connected.Pixel electrode and active member are electrical connected.Electrode dielectric layer is arranged on sweep trace, data line and the pixel electrode.The transition electrode is arranged on the electrode dielectric layer, and the transition electrode can produce transverse electric field with pixel electrode.
According to one embodiment of the invention, the material of above-mentioned transition electrode comprises transparent or opaque conductive material.The material of this transition electrode can comprise indium tin oxide, indium-zinc oxide (indium zinc oxide, IZO) or metal.
According to one embodiment of the invention, above-mentioned transition electrode is positioned at the pixel electrode top.
According to one embodiment of the invention, above-mentioned transition electrode is positioned at the sweep trace top.
According to one embodiment of the invention, above-mentioned transition electrode provides the first common voltage V 1, pixel electrode provides driving voltage V d, the first common voltage V 1With driving voltage V dBetween the pressure reduction absolute value between 3 volts to 7 volts.
According to one embodiment of the invention, dot structure also comprises the orientation rete, be arranged on electrode dielectric layer and the transition electrode, and the orientation rete has alignment direction.In addition, this alignment direction is different from the direction of transverse electric field.
According to one embodiment of the invention, dot structure also comprises capacitance electrode, is arranged at side under the pixel electrode.
According to one embodiment of the invention, above-mentioned transition electrode is positioned on the electrode dielectric layer of capacitance electrode top.
The present invention proposes a kind of display panels in addition, and this display panels comprises active component array base board, colored optical filtering substrates and liquid crystal layer.Colored optical filtering substrates is arranged at the active component array base board top, and liquid crystal layer is arranged between active component array base board and the colored optical filtering substrates.Wherein, active component array base board comprises first substrate, multi-strip scanning line, many data lines and a plurality of dot structure.Sweep trace and data line all are arranged on first substrate.Dot structure is arranged on first substrate, and drives by these sweep traces and data line respectively, and each dot structure comprises active member, pixel electrode, electrode dielectric layer and transition electrode.Active member is electrical connected with corresponding sweep trace and data line.Pixel electrode and active member are electrical connected.Electrode dielectric layer is arranged on sweep trace, data line and the pixel electrode.The transition electrode is arranged on the electrode dielectric layer, and can produce transverse electric field with pixel electrode.Colored optical filtering substrates comprises second substrate, common electrode and colored light filter membrane layer.Common electrode is arranged on second substrate.Colored light filter membrane layer is arranged between second substrate and the common electrode.
According to one embodiment of the invention, wherein the material of the transition electrode of active component array base board comprises transparent or opaque conductive material.Yet the material of these transition electrodes can comprise indium tin oxide, indium-zinc oxide or metal.
According to one embodiment of the invention, the transition electrode of above-mentioned active component array base board lays respectively at the pixel electrode top.
According to one embodiment of the invention, the transition electrode of above-mentioned active component array base board lays respectively at the sweep trace top of correspondence.
According to one embodiment of the invention, the transition electrode of above-mentioned active component array base board provides the first common voltage V 1, pixel electrode provides driving voltage V d, the first common voltage V 1With driving voltage V dBetween the pressure reduction absolute value between 3 volts to 7 volts.
According to one embodiment of the invention, above-mentioned active component array base board also comprises the orientation rete, be arranged on electrode dielectric layer and the transition electrode, and the orientation rete has alignment direction.In addition, this alignment direction is different from the direction of transverse electric field.
According to one embodiment of the invention, each dot structure of above-mentioned active component array base board also comprises capacitance electrode, is arranged at side under the pixel electrode.
According to one embodiment of the invention, the transition electrode of above-mentioned active component array base board lays respectively on the electrode dielectric layer of capacitance electrode top.
According to one embodiment of the invention, the transition electrode of above-mentioned active component array base board provides the first common voltage V 1, the common electrode of colored optical filtering substrates provides the second common voltage V 2, first common-battery is pressed V 1With the second common voltage V 2Between the pressure reduction absolute value greater than 15 volts.In another embodiment, first common-battery is pressed V 1With the second common voltage V 2Between the pressure reduction absolute value between 15 volts to 32 volts.
In sum, in the present invention's dot structure, transition electrode and pixel electrode can produce transverse electric field.Use this dot structure in display panels, then can change the arrangement mode of the liquid crystal molecule of subregion earlier.When display panels display frame, remaining liquid crystal molecule can be converted to bending status fast and shorten the response time of display panels.In addition, in display panels, the pressure reduction between the common electrode of transition electrode and colored optical filtering substrates also can be adjusted, and to change the intensity of transverse electric field, makes display panels can present the quicker work performance of replying.
State with other purpose, feature and advantage and can become apparent on the present invention for allowing, preferred embodiment cited below particularly, and conjunction with figs. are described in detail below.
Description of drawings
Figure 1A is in the synoptic diagram of spreading status for liquid crystal molecule in the display panels.
Figure 1B is in synoptic diagram for bending status for liquid crystal molecule in the display panels.
Fig. 2 A is the cross-sectional view of the display panels of preferred embodiment of the present invention.
Fig. 2 B is the vertical view of active component array base board in the display panels of Fig. 2 A.
Fig. 2 C to Fig. 2 G represents the dot structure of different embodiment respectively.
The main element description of symbols
10: optical compensation birefringence type liquid crystal display panel
11: liquid crystal layer
12: upper substrate
13: infrabasal plate
100: liquid crystal layer
200: colored optical filtering substrates
210: the second substrates
220: common electrode
230: colored light filter membrane layer
300,500,600,700,800,900: active component array base board
310: the first substrates
320: sweep trace
330: data line
340,540,640,740,840,940: dot structure
400: display panels
20: active member
21: grid
22: source electrode
23: drain electrode
24: channel layer
25: ohmic contact layer
30: pixel electrode
40: electrode dielectric layer
50,510,610,710,810,910: the transition electrode
52: transverse electric field
60a, 60b: orientation rete
62: alignment direction
70: capacitance electrode
Embodiment
Fig. 2 A is the cross-sectional view of the display panels of preferred embodiment of the present invention, and Fig. 2 B is the vertical view of active component array base board in the display panels of Fig. 2 A, and wherein Fig. 2 A is the diagrammatic cross-section of Fig. 2 B along profile line A-A '.Please refer to Fig. 2 A and Fig. 2 B, display panels 400 is an optical compensation birefringence type liquid crystal display panel, and this display panels comprises active component array base board 300, colored optical filtering substrates 200 and liquid crystal layer 100.Colored optical filtering substrates 200 is arranged at the top of active component array base board 300, and liquid crystal layer 100 is arranged between colored optical filtering substrates 200 and the active component array base board 300.
Active component array base board 300 comprises first substrate 310, multi-strip scanning line 320, many data lines 330 and a plurality of dot structure 340.Wherein, first substrate 310 for example is the substrate of glass substrate, quartz base plate or other suitable material.Sweep trace 320 can be aluminium alloy conductor or the formed lead of other suitable conductor material, and these sweep traces 320 are arranged on first substrate 310.Data line 224 can be chromium plain conductor, aluminium alloy conductor or the formed lead of other suitable conductor material, and these data lines 224 also are arranged on first substrate 310.Dot structure 340 is arranged on first substrate 310, and passes through the sweep trace 320 and data line 330 drivings of correspondence respectively, and each dot structure 340 comprises active member 20, pixel electrode 30, electrode dielectric layer 40 and transition electrode 50.Wherein, active member 20 is for example for thin film transistor (TFT), the on-off element with three terminals or other suitable element, and itself and sweep trace 320 and data line 330 are electrical connected.In the present embodiment, active member 20 is expressed as thin film transistor (TFT), and this active member 20 has grid 21, source electrode 22, drain electrode 23, channel layer 24 and ohmic contact layer 25 (shown in Fig. 2 A).Pixel electrode 30 is electrical connected with active member 20, this pixel electrode 30 for example is transparency electrode (transmissive electrode), reflecting electrode (reflective electrode) or semi-penetration semi-reflective electrode (transflectiveelectrode), and the material of pixel electrode 30 can be indium tin oxide, indium-zinc oxide, metal or other transparent or opaque conductive material.Electrode dielectric layer 40 is arranged on sweep trace 320, data line 330 and the pixel electrode 30, the material of this electrode dielectric layer 40 for example is organic photoresist, silicon nitride, silicon oxynitride or other appropriate insulation material, and electrode dielectric layer 40 is the structural sheet of planarization.Transition electrode 50 is arranged on the electrode dielectric layer 40, and transition electrode 50 can produce transverse electric field 52 with pixel electrode 30.Be noted that transverse electric field 52 herein is meant from (or ending at) transition electrode 50 and end at the electric field of (or from) pixel electrode 30, and the direction of this transverse electric field 52 changes to some extent along with the difference of the position of transition electrode 50, shape.
Colored optical filtering substrates 200 comprises second substrate 210, common electrode 220 and colored light filter membrane layer 230.Second substrate 210 for example is the substrate of glass substrate, quartz base plate or other suitable material.The material of common electrode 220 for example is indium tin oxide, indium-zinc oxide or other suitable conductive material, and common electrode 220 is arranged on second substrate 210.230 of colored light filter membrane layer are arranged between second substrate 210 and the common electrode 220.
In the embodiment of Fig. 2 B, transition electrode 50 is the strip electrode, and the transition electrode 50 that is arranged on same row dot structure 340 is for being connected with each other.The material of transition electrode 50 for example is indium tin oxide, indium-zinc oxide, metal, other is transparent or opaque conductive material, and transition electrode 50 is positioned on the pixel electrode 30.In addition, dot structure 340 also comprises orientation rete 60a and capacitance electrode 70.The material of orientation rete 60a for example is that (polyimide resin, PI) or other suitable material, it is arranged on electrode dielectric layer 40 and the transition electrode 50 polyimide resin, and this orientation rete 60a has alignment direction 62.The material of capacitance electrode 70 for example is metal, alloy or other suitable conductive material, and it is arranged at the below of pixel electrode 30.Transition electrode 50 is positioned on the electrode dielectric layer 40 of capacitance electrode 70 tops.What deserves to be mentioned is that above-mentioned alignment direction 62 is different from the direction of transverse electric field 52.In the dot structure 340 of present embodiment, the setting of transition electrode 50 is through design, so that the transverse electric field 52 of each position is as far as possible perpendicular to alignment direction 62.In addition, also comprise on the common electrode 220 of colored optical filtering substrates 200 being provided with one deck orientation rete 60b, and the alignment direction of this orientation rete 60b is identical or parallel with the alignment direction 62 of orientation rete 60a.
In display panels 400, the design of this kind dot structure 340 can change the arrangement mode of the liquid crystal molecule of subregion in advance.Usually at this liquid crystal panel 400 not before the display frame, the transition electrode 50 of dot structure 340 provides the first common voltage V 1, pixel electrode 30 then provides driving voltage V dThe first common voltage V 1Be fixed value, and driving voltage V dThen change according to wanting picture displayed thereupon.It should be noted that the first common voltage V 1With driving voltage V dBetween the pressure reduction absolute value preferably between 3 volts to 7 volts.So, transition electrode 50 can produce transverse electric field 52 with pixel electrode 30.In liquid crystal layer 100, the part liquid crystal molecule that originally was in spreading status can change bending status earlier under the effect of transverse electric field.When display panels 400 display frames, vertical electric field can put on liquid crystal layer 100.Because the part liquid crystal molecule is to be in bending status, therefore to compare with the situation that whole liquid crystal molecules all are in spreading status, all the other liquid crystal molecules in the present embodiment can convert bending status more quickly to.In other words, display panels 400 can present the work performance of rapid answer under normal display driver.
From the above, in display panels 400, the common electrode 220 of colored optical filtering substrates 200 provides the second common voltage V 2First common-battery is pressed V 1With the second common voltage V 2Between the pressure reduction absolute value greater than 15 volts.For example, when the initial state of display panels 400 at warming-up, first common-battery is pressed V 1With the second common voltage V 2Between the pressure reduction absolute value between 15 volts to 32 volts, and about 1 to 2 second of time of keeping.By 220 pressure reduction between the common electrode of adjusting transition electrode 50 and colored optical filtering substrates 200, the intensity of transverse electric field can be changed.So, before the display frame, more liquid crystal molecule can not be in bending status to display panels 400.After display panels 400 began to show normal pictures, first common-battery was pressed V 1With the second common voltage V 2Between the pressure reduction absolute value between 2 volts to 7 volts.At this moment, liquid crystal molecule can be converted to bending status by spreading status quickly.So, display panels can present the quicker work performance of replying.
In the embodiment shown in Fig. 2 B, transition electrode 50 is the strip electrode, and transition electrode 50 is positioned on the electrode dielectric layer 40 of capacitance electrode 70 tops.Yet in the present invention, transition electrode 50 is not defined as the strip electrode, and transition electrode 50 does not also limit on the electrode dielectric layer 40 that is positioned at capacitance electrode 70 tops.
Shown in Fig. 2 C, it is the active component array base board 500 of another embodiment, and wherein the transition electrode 510 of dot structure 540 is positioned at pixel electrode 40 tops, but underlapped in the top of capacitance electrode 70.And in the embodiment of Fig. 2 C, transition electrode 510 preferably adopts transparent conductive material.
In addition, the transition electrode can also be arranged on the top of sweep trace, shown in Fig. 2 D to Fig. 2 G.In the active component array base board 600,700,800,900 of these embodiment, the transition electrode 610,710,810,910 of dot structure 640,740,840,940 all is positioned at the top of sweep trace 320, and shape is not to be simple strip.And because transition electrode the 610,710,810, the 910th, be positioned at sweep trace 320 tops, so transition electrode 610,710,810,910 can adopt transparent conductive material, can also adopt opaque conductive material.Dot structure 540,640,740,840,940 shown in Fig. 2 C to Fig. 2 G all has the effect that is same as above-mentioned dot structure 340, just, the transition electrode 510,610,710,810,910 in these dot structures 540,640,740,840,940 all can produce transverse electric field with its pixel electrode 40.Using display panels (not shown) that these dot structures 540,640,740,840,940 produce also has and replys performance fast.
What deserves to be mentioned is, can also be arranged at the top (positions at transition electrode 50 places shown in Fig. 2 B) of capacitance electrode 70 in the structure (non-simple strip electrode shape) of the transition electrode 610,710,810,910 shown in Fig. 2 D to Fig. 2 G, or be arranged at pixel electrode 40 tops, but underlapped top (positions at transition electrode 510 places shown in Fig. 2 C) in capacitance electrode 70.
In sum, in the present invention's dot structure, transition electrode and pixel electrode can produce transverse electric field.This dot structure is applied to display panels, then can changes the arrangement mode of the liquid crystal molecule of subregion earlier.When display panels display frame, liquid crystal molecule can be converted to bending status fast and shorten the response time of display panels.In addition, in display panels, the pressure reduction between the common electrode of transition electrode and colored optical filtering substrates also can be adjusted, and to change the intensity of transverse electric field, when making display panels display frame, liquid crystal molecule can be converted to bending status by spreading status quickly.In other words, display panels can present the quicker work performance of replying.
Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; any person of ordinary skill in the field; without departing from the spirit and scope of the invention; when can doing a little change and improvement, so the present invention's protection domain is as the criterion when looking the claim person of defining.

Claims (22)

1. a dot structure is suitable for driving by sweep trace and data line, it is characterized in that this dot structure comprises:
Active member is electrical connected with this sweep trace and this data line;
Pixel electrode is electrical connected with this active member;
Electrode dielectric layer is arranged on this sweep trace, this data line and this pixel electrode; And
The transition electrode is arranged on this electrode dielectric layer, and this transition electrode can produce transverse electric field with this pixel electrode.
2. the dot structure according to claim 1 is characterized in that the material of this transition electrode comprises transparent or opaque conductive material.
3. the dot structure according to claim 2 is characterized in that the material of this transition electrode comprises indium tin oxide, indium-zinc oxide or metal.
4. the dot structure according to claim 1 is characterized in that this transition electrode is positioned at this pixel electrode top.
5. the dot structure according to claim 1 is characterized in that this transition electrode is positioned at this sweep trace top.
6. the dot structure according to claim 1 is characterized in that this transition electrode provides the first common voltage V 1, this pixel electrode provides driving voltage V d, this first common voltage V 1With this driving voltage V dBetween the pressure reduction absolute value between 3 volts to 7 volts.
7. the dot structure according to claim 1 is characterized in that also comprising the orientation rete, be arranged on this electrode dielectric layer and this transition electrode, and this orientation rete has alignment direction.
8. the dot structure according to claim 7 is characterized in that this alignment direction is different from the direction of this transverse electric field.
9. the dot structure according to claim 1 is characterized in that also comprising capacitance electrode, is arranged at side under this pixel electrode.
10. the dot structure according to claim 9 is characterized in that this transition electrode is positioned on this electrode dielectric layer of this capacitance electrode top.
11. a display panels is characterized in that comprising:
Active component array base board comprises:
First substrate;
The multi-strip scanning line is arranged on this first substrate;
Many data lines are arranged on this first substrate;
A plurality of dot structures are arranged on this first substrate, and drive by above-mentioned these sweep traces and above-mentioned these data lines respectively, and each dot structure comprises:
Active member is electrical connected with corresponding this sweep trace and this data line;
Pixel electrode is electrical connected with this active member;
Electrode dielectric layer is arranged on this sweep trace, this data line and this pixel electrode;
The transition electrode is arranged on this electrode dielectric layer, and can produce transverse electric field with this pixel electrode;
Colored optical filtering substrates be arranged at this active component array base board top, and this colored optical filtering substrates comprises:
Second substrate;
Common electrode is arranged on this second substrate;
Colored light filter membrane layer is arranged between this second substrate and this common electrode; And liquid crystal layer, be arranged between this active component array base board and this colored optical filtering substrates.
12. the display panels according to claim 11 is characterized in that the material of stating these transition electrodes on this active component array base board comprises transparent or opaque conductive material.
13. the display panels according to claim 12 is characterized in that the material of above-mentioned these transition electrodes comprises indium tin oxide, indium-zinc oxide or metal.
14. the display panels according to claim 11 is characterized in that stating on this active component array base board these transition electrodes and lays respectively at above-mentioned these pixel electrode tops.
15. the display panels according to claim 11 is characterized in that stating on this active component array base board these transition electrodes and lays respectively at and state these sweep traces top on the correspondence.
16. the display panels according to claim 11, it is characterized in that stating on this active component array base board these transition electrodes provides the first common voltage V 1, above-mentioned these pixel electrodes provide driving voltage V d, this first common voltage V 1With this driving voltage V dBetween the pressure reduction absolute value between 3 volts to 7 volts.
17. the display panels according to claim 11 is characterized in that this active component array base board also comprises the orientation rete, be arranged on above-mentioned these electrode dielectric layers and above-mentioned these transition electrodes, and this orientation rete has alignment direction.
18. the display panels according to claim 17 is characterized in that this alignment direction is different from the direction of this transverse electric field.
19. the display panels according to claim 11 is characterized in that each dot structure of this active component array base board also comprises capacitance electrode, is arranged at side under this pixel electrode.
20. the display panels according to claim 19 is characterized in that stating on this active component array base board on this electrode dielectric layer that these transition electrodes lay respectively at above-mentioned these capacitance electrodes tops.
21. the display panels according to claim 11, it is characterized in that stating on this active component array base board these transition electrodes provides the first common voltage V 1, this common electrode of this colored optical filtering substrates provides the second common voltage V 2, this first common-battery is pressed V 1With this second common voltage V 2Between the pressure reduction absolute value greater than 15 volts.
22. the display panels according to claim 21 is characterized in that this first common-battery pressure V 1With this second common voltage V 2Between the pressure reduction absolute value between 15 volts to 32 volts.
CN 200610001666 2006-01-20 2006-01-20 Structure of pixels, and liquid crystal display faceplate Pending CN101004494A (en)

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Application Number Priority Date Filing Date Title
CN 200610001666 CN101004494A (en) 2006-01-20 2006-01-20 Structure of pixels, and liquid crystal display faceplate

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Application Number Priority Date Filing Date Title
CN 200610001666 CN101004494A (en) 2006-01-20 2006-01-20 Structure of pixels, and liquid crystal display faceplate

Publications (1)

Publication Number Publication Date
CN101004494A true CN101004494A (en) 2007-07-25

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102110685A (en) * 2010-11-05 2011-06-29 友达光电股份有限公司 Pixel structure and display panel
CN106205386A (en) * 2014-12-19 2016-12-07 财团法人工业技术研究院 Perspective display panel

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102110685A (en) * 2010-11-05 2011-06-29 友达光电股份有限公司 Pixel structure and display panel
CN102110685B (en) * 2010-11-05 2013-07-10 友达光电股份有限公司 Pixel structure and display panel
CN106205386A (en) * 2014-12-19 2016-12-07 财团法人工业技术研究院 Perspective display panel

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