CN101308302A - Liquid crystal device and electronic apparatus - Google Patents
Liquid crystal device and electronic apparatus Download PDFInfo
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- CN101308302A CN101308302A CNA2008100999316A CN200810099931A CN101308302A CN 101308302 A CN101308302 A CN 101308302A CN A2008100999316 A CNA2008100999316 A CN A2008100999316A CN 200810099931 A CN200810099931 A CN 200810099931A CN 101308302 A CN101308302 A CN 101308302A
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Abstract
This invention provides a vertically aligned liquid crystal device capable of reducing disturbance in alignment of liquid crystal molecules in a display part and performing a high-quality display, and provides an electronic apparatus using the liquid crystal device. The liquid crystal device having an over-layer structure is provided with: a data line on the element substrate side; a switching element such as TFD connected with the data line; an insulating film formed on the data line and switching element; a pixel electrode formed on the insulating film; and a contact hole which connects the switching element to the pixel electrode. The pixel electrode is constituted with a plurality of sub-pixel electrodes whose planar shape has a polygonal shape or a substantially circular shape and the contact hole is formed on a position which does not superimpose the pixel electrode in a sub-pixel electrode region. Liquid crystal in the effective display region which corresponds to the position of the sub-pixel electrodes and becomes the display part is hardly affected by disturbance in alignment of liquid crystal occurring in the part of the contact hole and can prevent the disturbance in alignment of liquid crystal in the effective display region from occurring.
Description
The application be that April 30, application number in 2005 are 200510069483.1 the applying date, invention and created name divides an application for the Chinese patent application of " liquid-crystal apparatus and electronic equipment ".
Technical field
The present invention relates to the liquid-crystal apparatus of vertical orientation mode, relate to the technology of the orientation disorder of the liquid crystal that reduces the display part.
Background technology
Known orientation by the control liquid crystal molecule is improved view angle dependency, is realized the liquid-crystal apparatus of the vertical orientation mode of wide visual angleization.In the liquid-crystal apparatus of vertical orientation mode, use to have the anisotropic liquid crystal of negative dielectric coefficient, apply under the state of voltage not giving between device substrate and the counter substrate, liquid crystal molecule be oriented to the vertical substantially direction of relative substrate.Be provided with on the device substrate of TFT or TFD as on-off element, forming it and constitute the pixel electrode that contains circular substantially or polygonal a plurality of pixel electrodes.In addition, on counter substrate, on the position relative, form slit or protuberance (projection) etc. with the substantial middle position of each pixel electrode.When between device substrate and counter substrate, applying voltage, though on the liquid crystal layer between substrate, form the electric field corresponding with voltage, but, because pixel electrode is formed circle or polygon etc. substantially, and, be formed with slit or protuberance etc. on the electrode of counter substrate one side on the other side, to be that the center is radial so the state of orientation of liquid crystal molecule is controlled so as to substantial middle with pixel electrode.By means of this, just can suppress view angle dependency, just can realize wide visual angleization.In addition.In patent documentation 1, put down in writing the example of the liquid-crystal apparatus of vertical orientation mode.
Patent documentation 1: the spy opens the 2003-43525 communique
Summary of the invention
The present invention finishes in view of above-mentioned problem, purpose be to provide the orientation disorder of the liquid crystal that can reduce the display part etc. and can carry out high-quality demonstration vertical orientation mode liquid-crystal apparatus and use the electronic equipment of this liquid-crystal apparatus.
In a viewpoint of the present invention, a kind of constituting clips the liquid-crystal apparatus with negative anisotropic liquid crystal layer of dielectric coefficient between a pair of substrate, and a side substrate possesses in the above-mentioned a pair of substrate: data line; Be connected to the on-off element on the above-mentioned data line; The dielectric film that on above-mentioned data line and above-mentioned on-off element, forms; The pixel electrode that on this dielectric film, forms; Contact hole with the wiring that is connected above-mentioned on-off element and extends out from pixel electrodes.In preferred example, above-mentioned contact hole can be in pixel region, for example, with R (red), G (green), B (indigo plant) in the zone of any one pixel electrode that is provided with accordingly in (below, also be called " in the subpixel area "), on distance pixel electrodes position farthest, form.In addition, above-mentioned contact hole also can for example form on the corner positions of subpixel area at pixel region.
Above-mentioned liquid-crystal apparatus can preferably constitute the liquid-crystal apparatus of so-called vertical orientation mode, between a pair of substrate, clip and have the anisotropic liquid crystal layer of negative dielectric coefficient, when not applying voltage, the long axis direction of the liquid crystal molecule in the above-mentioned liquid crystal layer is oriented to vertical substantially with respect to aforesaid substrate.A side substrate possesses in a pair of substrate: the on-off element of data line, TFD or TFT etc., the dielectric film that forms on data line and on-off element, the pixel electrode that forms on this dielectric film and be connected on-off element and the contact hole of the wiring that extends out from pixel electrode have formed so-called overlayer structure.In preferred example, pixel electrode and wiring are formed on on one deck.Wiring forms with same material (for example, ITO etc.) with pixel electrode, and this is routed in the subpixel area position that always extends to contact hole from the neighboring of the pixel electrode that is positioned at the lower side, and this wiring is connected with the position of on-off element at this contact hole.Therefore contact hole be arranged on inevitably with the nonoverlapping position of pixel electrode on.Therefore, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole of the corresponding liquid crystal that becomes effective viewing area of display part with the position of pixel electrode can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, can prevent to show inhomogeneous, after image or burn and, can obtain high-quality display image the generation of reduction of the response speed of drive controlling etc.In addition and since with contact hole be formed on the nonoverlapping position of pixel electrode on, so can prevent the reduction of aperture opening ratio.
In a form of above-mentioned liquid-crystal apparatus, in above-mentioned a pair of substrate on either party substrate, with above-mentioned contact hole position overlapped on have photomask.By means of this, on the position of contact hole, just can get up the regional occlusion of the orientation disorder of the liquid crystal that produces at this contact hole place.Therefore, can improve the contrast of display degree.
In another viewpoint of the present invention, a kind of constituting clips the liquid-crystal apparatus with negative anisotropic liquid crystal layer of dielectric coefficient between a pair of substrate, and a side substrate possesses in the above-mentioned a pair of substrate: data line; Be connected to the on-off element on the above-mentioned data line; The dielectric film that on above-mentioned data line and above-mentioned on-off element, forms; With the contact hole of the pixel electrode that is connected above-mentioned on-off element and on this dielectric film, forms, wherein, possess photomask on either party substrate in above-mentioned a pair of substrate, above-mentioned contact hole be formed on above-mentioned photomask position overlapped on.
Above-mentioned liquid-crystal apparatus can preferably constitute the liquid-crystal apparatus of so-called vertical orientation mode, between a pair of substrate, clip and have the anisotropic liquid crystal layer of negative dielectric coefficient, when not applying voltage, the long axis direction of the liquid crystal molecule in the above-mentioned liquid crystal layer is oriented to vertical substantially with respect to aforesaid substrate.The substrate of a side in a pair of substrate possesses: the on-off element of data line, TFD or TFT etc., the dielectric film that forms on data line and on-off element, be connected on-off element and the contact hole of the pixel electrode that forms on dielectric film, in addition, possess photomask in a pair of substrate any one, formed so-called overlayer structure.
In preferred example, photomask is corresponding with the position between subpixel area, is formed in a pair of substrate on any one.In addition, contact hole a side substrate one side be formed on this photomask position overlapped on.Therefore, corresponding with the position of pixel electrode and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, can prevent to show inhomogeneous, after image or burn and, can obtain high-quality display image the generation of reduction of the response speed of drive controlling etc.In addition and since contact hole be formed on the photomask position overlapped on, so pixel electrode be formed on the nonoverlapping position of contact hole on.Therefore, can prevent the reduction of aperture opening ratio.
In a form of above-mentioned liquid-crystal apparatus, pixel electrodes has a plurality of pixel electrodes; Each pixel electrode in the above-mentioned pixel electrode all is electrically connected and is arranged on the bearing of trend of above-mentioned data line; Above-mentioned contact hole on the bearing of trend of above-mentioned data line, is formed between a pixel electrode and another pixel electrode adjacent with this pixel electrode.
According to this form, then pixel electrode for example can form polygon or circular substantially a plurality of pixel electrodes formations with flat shape.In addition, each in the pixel electrode all is electrically connected under the state that is arranged on the bearing of trend of data line.Forming the reason of a plurality of pixel electrodes in a subpixel area, is because each pixel electrode hour is easy to control the state of orientation of liquid crystal molecule.That is, be because with the situation that constitutes 1 pixel with 1 big pixel electrode under comparison, be easy to correctly to control the cause of the orientation of liquid crystal molecule.
Particularly, in the liquid-crystal apparatus of this form, contact hole is formed between a pixel electrode and another pixel electrode adjacent with this pixel electrode on the bearing of trend of data line.Therefore, can make the distance between this pixel electrode and another pixel electrode and the contact hole leave far as much as possible.By means of this, corresponding with the position of pixel electrode and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, can prevent to show inhomogeneous, after image or burn and, can obtain high-quality display image the generation of reduction of the response speed of drive controlling etc.In addition and since with pixel electrode be formed on the nonoverlapping position of contact hole on, so can prevent the reduction of aperture opening ratio.
In other 1 form of above-mentioned liquid-crystal apparatus, in above-mentioned a pair of substrate, on the opposing party's the substrate, on the correspondence position of above-mentioned contact hole, has black light-blocking film.Thus, on the position of contact hole, the zone that produces the liquid crystal aligning disorder in this contact hole is become to cannot see by means of photomask.Therefore, can improve the contrast of display degree.
In another form of above-mentioned liquid-crystal apparatus, on above-mentioned the opposing party's substrate, on the position corresponding, be formed with opening or projection with the substantial middle of above-mentioned pixel electrode.In this form, in the zone that opening that forms on the position relative with the substantial middle of pixel electrode or protuberance and polygon or circular substantially pixel electrode dispose relatively, the orientation of liquid crystal molecule is controlled so as to radial.So, can realize wide visual angleization by vertical orientation mode.
In another form of above-mentioned liquid-crystal apparatus, above-mentioned data line with under the overlapping state of above-mentioned contact hole be not formed on an above-mentioned side's the substrate.In preferred example, can form near circuitous walking around contact hole to data line in a side substrate top.Therefore, can prevent contacting of data line and contact hole.
In addition, can constitute the electronic equipment that possesses above-mentioned liquid-crystal apparatus.
Description of drawings
Fig. 1 shows the block diagram of the electric structure of using liquid crystal indicator of the present invention;
Fig. 2 shows the skeleton view of the formation of liquid crystal indicator;
Fig. 3 is the partial sectional view on the directions X of liquid crystal indicator;
Fig. 4 shows the planimetric map of formation of the pixel electrode of the 1st embodiment;
Fig. 5 is near the cut-open view of contact hole of the 1st embodiment;
Fig. 6 is the cut-open view of pixel electrode of the 1st embodiment etc.;
Fig. 7 shows the planimetric map of formation of the pixel electrode of the 2nd embodiment;
Fig. 8 shows the planimetric map of formation of the pixel electrode of the 3rd embodiment;
Fig. 9 shows the planimetric map of formation of the pixel electrode of the 4th embodiment;
Figure 10 shows the cut-open view of the other example of on-off element;
Figure 11 shows the block diagram of the circuit configuration example of the electronic equipment of using liquid crystal indicator;
Figure 12 shows the example of electronic equipment.
Symbol description:
100: liquid crystal indicator 110: pixel 160: liquid crystal 200,300: substrate 214: sweep trace 314: data line 320:TFD 346: contact hole 347: black light-blocking film 348: pixel electrode 348c: coupling part 349: subpixel area
Embodiment
[the 1st embodiment]
(formation of liquid crystal indicator)
At first, the electric structure to the liquid crystal indicator of the vertical orientation mode of embodiments of the present invention describes.The block diagram of Fig. 1 shows the electric structure of this display device.As shown in the drawing, in liquid crystal indicator 100, many (m) sweep traces (shared wiring) 214 are formed on (X) direction of being expert at and extend, many (3n) data lines (segmentation wiring) 314 then are formed on row (Y) direction and extend, simultaneously, intersect with each of sweep trace 214 and data line 314 and be formed with pixel 110 accordingly.This pixel 110 be with R (red), G (green), B (indigo plant) in corresponding pixel any of the same colour, constitute 1 point 120 by these 3 pixels 110 of RGB adjacent on directions X.
Here, pixel 110 is connected in series and constitutes by liquid crystal capacitance 162 with as the TFD (thin film diode) 320 of an example of two-terminal type on-off element.Wherein, liquid crystal capacitance 162 as described later, constitutes the liquid crystal as an example of electro-optical substance is clipped between the sweep trace 214 and pixel electrode that plays a role as opposite electrode.In addition, TFD320 at one end is connected on the data line 314, and the other end then is connected on the pixel electrode, carries out ON, OFF (break-make) control by means of the potential difference (PD) between sweep trace 214 and the data line 314.In addition, in this display device, for ease of explanation, though be as the sum of sweep trace 214 is made as the m bar, the sum of data line 314 is made as the 3n bar, putting the explanation that 120 array display devices that are arranged in the capable n row of m (being the capable 3n row of m) in pixel 110 carry out, be not the meaning that will be defined in application of the present invention this still.
Secondly, Y driver 251,253 is commonly referred to as scan line drive circuit.Wherein, Y driver 251 bear in Fig. 1 begin from the top several odd numbers (1,3,5 ..., m-1) driving of sweep trace 214 of bar, 253 of Y drivers bear in Fig. 1 begin from the top several even numbers (2,4,6 ..., m) driving of sweep trace 214 of bar.Promptly, become and be such formation: by means of Y driver 251,253, in 1 vertical scanning period exclusively each successively each ground (alternately item by item) select the 1st row, the 2nd row, the 3rd row ..., sweep trace 214 that m is capable, simultaneously, supply with the sweep signal of selecting voltage to selecteed sweep trace 214, and supply with the sweep signal of non-selection voltage to other non-selected sweep trace 214.In addition, for ease of explanation, in general being expressed as Yj for the sweep signal of the sweep trace 214 of going toward j (j is the integer that satisfies 1≤j≤m).
In addition, X driver 350 is commonly referred to as data line drive circuit, for being arranged in by 3n pixel 110 on any one selected sweep trace 214 of Y driver 251,253, respectively by corresponding data line 314 supply with data-signal X1B, the X1G corresponding, X1R, X2B, X2G, X2R with displaying contents ..., XnB, XnG, XnR.In addition, in the point 120 of i (i is the integer that satisfies 1≤i≤n) row, the data-signal for toward the data line 314 of dual-purpose in the pixel 110 of B, G, R is expressed as XiB, XiG, XiR respectively in general.
Secondly, the physical construction to liquid crystal indicator 100 describes.The skeleton view of Fig. 2 shows the surface structure of this liquid crystal indicator 100.In addition, in the figure, for the distributing in the easy to understand liquid crystal indicator 100, in the drawings the viewed observation side of observer's (usually) as the inboard, the rear side that can not observe the observer usually is as towards the front side.In addition, Fig. 3 cuts formation under the situation of this liquid crystal indicator 100 open for the directions X in Fig. 2, observing the partial sectional view of side as upside.Therefore, please be careful more like this: the upper and lower relation of Fig. 2 and Fig. 3 has been put upside down each other and has been come.
As shown in these figures, constituting of liquid crystal indicator 100: by means of there is dual-purpose to do the encapsulant 110 of the electroconductive particle 114 of separation pad with suitable ratios diverge, make to be positioned at the substrate 300 of observing side and to be positioned at its rear side and to paste and maintain constant gap betwixt than the substrate 200 that the substrate 300 little of observing side encloses, simultaneously, inclosure for example has the anisotropic liquid crystal 160 of negative dielectric coefficient in this gap.Here, though encapsulant 110 is the inner peripheral formation along substrate 200,, in order to enclose liquid crystal 160, its part forms opening.Therefore, after having enclosed liquid crystal 160, this opening portion is encapsulated with material for sealing 112.
Overleaf on the substrate 200 of side relative with the substrate 300 of observing side to forward surface on, on directions X, be formed extended at both sides m bar sweep trace 214, and observe on the substrate 300 of side substrate 200 with rear side relative to forward surface on, on Y (row) direction, be formed extended at both sides 3n bar data line 314.In the sweep trace 214 on being formed at substrate 200, the sweep trace 214 of odd-numbered line extends in the formation zone of encapsulant 110 always and is set among Fig. 2 till the left side, and the sweep trace 214 of even number line is extended in the formation zone of encapsulant 110 and is set to extend among Fig. 2 till the right side always.In addition, on substrate 300, with sweep trace 214 wiring 372 is set one to one correspondingly, and in the formation zone of encapsulant 110, it is mutually opposed to be formed an end that makes it with corresponding scanning line 214.
Here, electroconductive particle 114 is to exist the ratio more than 1 to be dispersed in the encapsulant 110 at least in the opposed part of an end of an end of sweep trace 214 and wiring 372.Therefore, the sweep trace 214 that constitutes in formation on the substrate 200 is connected to by electroconductive particle 114 in the wiring 372 that forms on the substrate 300.In addition, this wiring 372 is because of by making the identical layer of the 2nd metal film with TFD320 described later and identical layer patternization forms stromatolithic structure with pixel electrode 348, thereby suppresses its cloth line resistance lower.In such wiring 372, be connected to wiring 372 on the sweep trace 214 of odd-numbered line extend in outside sweep 90 degree backs, the formation zone of encapsulant 100, along the Y direction always be set to stretch out zone 302 till.In addition, this wiring 372 is engaged on the outgoing side projection (バ Application プ) of Y driver 251 in stretching out zone 302.Equally, be connected to wiring 372 on the sweep trace 214 of even number line extend in outside sweep 90 degree backs, the formation zone of encapsulant 100, along the Y direction always be set to stretch out zone 302 till, and be engaged on the outgoing side projection of Y driver 253.
On the other hand, data line 314 narrows down in the formation zone of encapsulant 100 olo, and extends to be set to always and stretch out till the zone 302.In addition, this data line 314 is engaged on the outgoing side projection of X driver 350 in stretching out zone 302.In addition, also constitute: FPC (flexible PCB) substrate 150 arranged stretching out to engage on the zone 302, to supply with clock signal or control signal etc. to the input side projection of Y driver 251,253 and X driver 350 from the external circuit (not shown).In addition, form wiring 384 in the zone 302 stretching out of substrate 300, the one end is connected on the input side projection of Y driver 251,253 and X driver 350, and the other end then is connected with the wiring of FPC substrate 150.
In addition, in Fig. 2, what illustrate is preferentially and easily the bar of sweep trace 214 to be counted m for the understanding that makes explanation to be set at 8, the bar of data line 314 is counted 3n be set at 18 situation.In addition, stretching out on the zone 302, though be provided with the terminal 217,219,319 of checking usefulness,, will illustrate in the back for these terminals.
(inner formation)
Secondly, the inside formation to the viewing area in the liquid crystal indicator 100 describes.As shown in Figure 3, at first, on the outside of the substrate 300 of observing side, be pasted with polarizer 133 and polaroid 131.In addition, in Fig. 2, be omitted not shown as for these polarizers 133 and polaroid 131 for simplification.In addition, on the inner face of substrate 300, be formed extended at both sides the data line 314 that constitutes by chromium etc. along Y direction (being the paper vertical direction) in Fig. 3.In addition, in the surperficial top of data line 314 and the inner face top of substrate 300, be formed with by dielectric coefficient, promptly be formed with overlayer 309 than the dielectric film that liquid crystal 160 low resin materials constitute.In addition, on the inner face of overlayer 309, be formed with pixel electrode 348 and black light-blocking film 347 that the transparent conductivity material by ITO (tin indium oxide) etc. constitutes.Black light-blocking film 347 forms around each pixel electrode 348, and each pixel electrode 348 is divided into the district by black light-blocking film 347.In addition, in this liquid crystal indicator 100, form black light-blocking film 347 though become in substrate 300 these sides,, be not limited to this, also can become substrate 200 these sides with corresponding position around each pixel electrode 348 on formation black light-blocking film 347.In addition, the detailed formation as for data line 314 and pixel electrode 348 etc. will illustrate in the back.On the surface of pixel electrode 348, be formed with vertical alignment layer 308 here.In addition owing to do not need vertical alignment layer 308 in viewing area outside, so near the formation zone of encapsulant 110 and the outside be not provided with.
Then, the substrate 200 to rear side describes.On the outside of substrate 200, be pasted with polarizer 123 and polaroid 121, in addition, in Fig. 2, also omit for these polarizers 123 and polaroid 121.On the other hand.On the inner face of substrate 200, be formed with the scattering resin bed 203 that has formed fluctuating.This scattering resin bed 203 is by to for example heat-treating so that the end of this photoresist is softening etc. forms at the patterned photoresist in the surperficial top of substrate 200 point-like ground.
Secondly, on the relief of scattering resin bed 203, be formed with the reflectance coating 204 that the reflective metal by aluminium or silver etc. constitutes.Therefore, because the surface of reflectance coating 204 is also because of the fluctuating of reflection scattering resin bed 203 rises and falls,, the light of going into to shine from the observation side moderately carries out scattering so carrying out reflex time at the film 204 that is reflected.In addition, not only also play a role as infiltration type as reflection-type in order to make liquid crystal indicator 100, reflectance coating 204 is provided with the peristome 209 that is used for making light transmission.In addition, also can become such formation: the thickness of the metal with light reflective of for example aluminium etc. is formed relatively thinner (20nm~50nm) is so that see through from the part of the incident light of rear side, and such peristome 209 is not set.
In addition, on the surface of reflectance coating 204, and the opposed zone between pixel electrode 348 and the sweep trace 214 is respectively arranged with the color filter 205G and the blue color filter 205B of red color filter 205R, green accordingly with predetermined arrangement.In addition, the arrangement of color filter 205R, 205G, 205B in the present embodiment, becomes to being suitable for the band arrangement of data presentation.
Secondly, on the surface of color filter 205R, 205G of all kinds, 205B, the planarization film 207 that is made of insulating material is set, makes the fluctuating planarization of the difference of height of this color filter or reflectance coating 204 etc.In addition, on by means of the face after planarization film 207 planarizations, form mutually opposed at the sweep trace 214 that handle on the directions X is made of transparent conductivity materials such as ITO with the pixel electrode 348 that on the substrate 300 of observation side, forms.In addition, on the surface of sweep trace 214, be formed with the vertical alignment layer 208 that constitutes by polyimide etc.In addition, on this vertical alignment layer 208, before pasting, on the direction of regulation, implement friction and handle with the substrate 300 of observing side.In addition owing to outside the viewing area, do not need color filter 205R, 205G of all kinds, 205B, planarization film 207 and vertical alignment layer 208, so near the zone of encapsulant 110 and the outside less than setting.
(pixel formation)
Then, referring to Fig. 4 and Fig. 5, the formation of the pixel in the liquid crystal indicator 100 is described.The part plan of Fig. 4 illustrates the layout of a plurality of pixel electrodes 348.Fig. 5 is the cut-open view of the A-A ' line in Fig. 4, i.e. near cut-open view the contact hole 346.In addition, Fig. 4 is because what illustrate is to see formation under the situation of observing side from rear side, so front side in Fig. 4 and the upside among Fig. 5 are rear side.In addition, in Fig. 4, for convenience's sake, represent TFD320 and data line 314 with solid line respectively.In addition, in Fig. 4 and Fig. 5, for convenience's sake, be omitted in the black light-blocking film 347 of 349 formation of subpixel area.
As shown in the figure, pixel electrode 348 has the shape that a plurality of (being 3 in this example) polygonal transparency electrode part (below, be called " pixel electrode 348u ") is coupled together.In addition, 1 pixel electrode 348 (in hatched area) in the subpixel area 349 of correspondence forms.In vertical orientation mode, owing on pixel electrode 348u, make liquid crystal molecule orientation radially substantially, so each pixel electrode 348u it is desirable to the outer rim of electrodes such as polygon or circle or periphery apart from the roughly equidistant shape of central point.In the embodiment of Fig. 4,3 pixel electrode 348u in series dispose.In addition, form the reason of a plurality of pixel electrode 348u in 1 subpixel area 349, be because the little state of orientation that is easy to control liquid crystal molecule to a certain degree time of each pixel electrode 348u.That is, be because with the situation comparison that constitutes 1 pixel with 1 big pixel electrode, be easy to correctly to control the cause of the orientation of liquid crystal molecule.
TFD320 is made of 1TFD320a and 2TFD320b2TFD320b.1TFD320a and 2TFD320b have: the 1st metal film 322 of the island that is made of tantalum tungsten etc., dielectric film 323 that forms by the surperficial anodic oxidation that makes the 1st metal film 322 and the 2nd metal film 316,336 that is formed on this surface and is spaced apart from each other.Wherein, the 2nd metal film the 316, the 336th makes the same conductive film figureization of chromium etc. and the metal film that forms, the former the 2nd metal film 316 can use from the metal film of data line 314 with T word shape branch, and the latter's the 2nd metal film 336 is to go up and use for the coupling part 348c that is connected to the pixel electrode 348 that ITO etc. constitutes.
Here, in TFD320,1TFD320a sees from data line 314 these sides and comprises the 2nd metal film 316/ dielectric film 323/ the 1st metal film 322 successively, because what adopt is the structure of metal/insulator/metal, so that its I-E characteristic is all on positive and negative both direction is non-linear.On the other hand, 2TFD320b sees from data line 314 these sides and comprises the 1st metal film 322/ dielectric film 323/ the 2nd metal film 336 successively, employing be and the backward structure of 1TFD320a.Therefore, just to become with the initial point be the point-symmetric I-E characteristic of I-E characteristic of center and 1TFD320a to the I-E characteristic of 2TFD320b.Consequently TFD320 owing to have makes the form that the contrary each other direction of 2 TFD ground is connected in series, thus with the situation of 1 element of use under compare, the nonlinear characteristic of current-voltage is symmetrization on positive and negative both direction.
In the liquid-crystal apparatus of the vertical orientation mode with overlayer structure, as shown in Figure 5, under the liquid crystal initial orientation state when not applying voltage, liquid crystal molecule 160a is oriented to vertical direction.But, be positioned at the liquid crystal molecule 160a of the top of contact hole 349, as shown in the drawing, owing to be subjected to the influence of the dip plane of contact hole 346, in this part, will produce the orientation disorder of liquid crystal.Therefore if in effective viewing area of pixel electrode 348, promptly form under the situation of contact hole 346 in the position corresponding or near it with pixel electrode 348u, because the orientation disorder of the liquid crystal that produces at the part place of this contact hole 346 impacts the liquid crystal of this effective viewing area, and may produce show inhomogeneous, after image is burnt and to the reduction of the response speed of drive controlling etc.Therefore, in order to prevent the generation of such problem, it is desirable in subpixel area 349, with on pixel electrode 348 position overlapped do not forming contact hole 346.Even more ideal ground, can pixel region in, promptly subpixel area 349 on distance pixel electrode 348 position farthest formation contact hole 346.
Shown in the planimetric map of Fig. 4, in the liquid crystal indicator 100 of the 1st embodiment of the present invention, as mentioned above, coupling part 348c extends to the position of contact hole 346 from the neighboring of the pixel electrode 348u that is positioned at the lower side always in subpixel area 349 till, this coupling part 348c and TFD320 couple together in the position of this contact hole 346.Therefore, contact hole 346 to be arranged on inevitably with pixel electrode 348 nonoverlapping positions on.In preferred example, in the liquid crystal indicator 100 of the 1st embodiment of the present invention, contact hole 346 is formed in the subpixel area 349 apart from pixel electrode 348 position farthest, promptly on the corner positions of subpixel area 349.In addition, contact hole 346 forms on the position of the black light-blocking film 347 that is arranged on 349 of subpixel area.By means of this, just can make contact hole 346 and leave a little further as much as possible as the distance between the pixel electrode 348u of effective viewing area.Therefore, corresponding with the position of pixel electrode 348u and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that the part at contact hole 346 produces can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, that liquid crystal indicator 100 of the present invention can prevent to show is inhomogeneous, after image or burn and to the reduction of the response speed of drive controlling, can obtain high-quality display image.In addition, owing to on pixel electrode 348 position overlapped be not formed with contact hole 346, so can prevent the reduction of aperture opening ratio.
In addition, as mentioned above, liquid crystal indicator 100 of the present invention is the liquid crystal indicators with normality black mode.Therefore, even if without black light-blocking film 347 part of contact hole 346 is covered, this part also will show black in the initial orientation state of liquid crystal.But contrast but might reduce because of the orientation disorder at the liquid crystal at contact hole 346 places.So, in the present embodiment, as mentioned above, on the position corresponding, form black light-blocking film 347 (in Fig. 4, only showing its position for convenience's sake) with this contact hole 346 in substrate 200 these sides.By means of this,, just can get up the regional occlusion of the orientation disorder of the liquid crystal that produces at these contact hole 346 places in the position of contact hole 346.Therefore, can improve the contrast of display degree.
In addition, in the formation of pixel of the present invention, just as understandable, make data line 314 under the situation of extending that maintains the original state on the Y direction (straight line), carrying out the overlapping problem that couples together with contact hole 346 thereby will produce data line 314 referring to Fig. 4 institute.So, in the present invention, data line 314 is being made a circulation near the contact hole 346 on the position, that is, with under the overlapping state of contact hole 346 do not forming data line 314 in the inner face top of substrate 300 as shown in the figure.By means of this, just can prevent contacting of data line 314 and contact hole 346.
Secondly, referring to Fig. 6 near the formation of the section 1 pixel electrode 348u is described.In addition, in Fig. 6, also show the formation of opposed substrate 200 those sides.In addition, in Fig. 6, upside is a rear side, and downside is to observe side (that is, the upper and lower relation of substrate is identical with Fig. 4, is opposite with Fig. 3).
Fig. 6 (a) is the pattern cut-open view of the B-B ' in Fig. 4.As shown in the figure, on the inner face of the substrate 300 of a side that forms TFD320, form data line 314 in the top of the 1st metal film 312 and dielectric film 313.And, forming overlayer 309 on the inner face of substrate 300 and on the surface of data line 314.In addition, on the inner face of this overlayer 309, form pixel electrode 348u.In addition, forming vertical alignment layer 308 (, in Fig. 6 (a), omitting not shown) on the inner face of overlayer 309 and on the surface of pixel electrode 348u referring to Fig. 3.
On the other hand, on the inner face of the substrate 200 of opposite side, form resin scattering film 203, on this resin scattering film 203, form reflectance coating 204 (referring to Fig. 3, omission is not shown among Fig. 6 (a)).In addition, on the inner face of reflectance coating 204, form color filter 205.In addition, on the inner face of color filter 205, form planarization film 207, on this planarization film 207, form sweep trace 214.
On sweep trace 214, on the position corresponding, be formed with opening 214a (referring to Fig. 4) here, with the approximate centre of each pixel electrode 348u.When applying voltage between to substrate,, on this part, produce oblique electric field E (referring to the arrow among the figure) by means of the interaction of opening 214a and pixel electrode 348u, thus the toppling direction of regulation liquid crystal molecule 1 60a.Therefore, just can be controlled to be radial according to the state of orientation of the big wisp liquid crystal molecule 160a that will impose on the voltage between substrate.Therefore, can form the zone that liquid crystal molecule 60a is orientated radially.
In addition, in Fig. 6 (b), on sweep trace 214, be formed with projection on the position corresponding with the approximate centre of each pixel electrode 348u, promptly protuberance 400.By means of this, in the initial orientation state of liquid crystal, liquid crystal molecule 160a just can be orientated along the dip plane of this protuberance 400.The toppling direction of regulation/restriction liquid crystal molecule 160a thus.Therefore, just can be controlled to be radial according to the state of orientation of the big wisp liquid crystal molecule 160a that imposes on the voltage between substrate.In addition,, on the corresponding position of the approximate centre with each pixel electrode 348u of sweep trace 214, form opening 214a or protuberance 400 though become at Fig. 6 (a) or in the example (b),, be not limited to this.That is, in the present invention, also can become as required and on sweep trace 214, to form these both.
[the 2nd embodiment]
Secondly, referring to Fig. 7 the 2nd embodiment is described.Fig. 7 shows the formation of the pixel of the 2nd embodiment, shows the planimetric map of the layout of a plurality of pixel electrodes 348.The formation of the liquid crystal indicator 100 of the liquid crystal indicator of the 2nd embodiment and the 1st embodiment is same substantially, below, give same numeral and omit its explanation for the inscape identical with the liquid crystal indicator 100 of the 1st embodiment.
At first, especially the 2nd embodiment and the 1st embodiment difference are described.In the liquid crystal indicator of the 2nd embodiment, the formation of pixel has some different with the 1st embodiment.That is, in the above-described first embodiment, in subpixel area 349, form the pixel electrode 348 that constitutes by 3 pixel electrode 348u.Relative therewith, in the 2nd embodiment, but form the pixel electrode 48 that constitutes with 2 pixel electrode 348v.In addition, the shape of 1 of the 2nd embodiment pixel electrode 348v is formed bigger than 1 pixel electrode 348u of the 1st embodiment.
In addition, in the 1st embodiment, be set on the sweep trace 214 of substrate 200 these sides, on the position of the substantial middle of each pixel electrode 348u, form the circular substantially opening 214a of plan view.Relative therewith, in the 2nd embodiment, on the sweep trace 214 of substrate 200 these sides, on the position of the substantial middle of each pixel electrode 348v, be formed with the plan view opening 214c of cross shape substantially.
In addition, on the Y direction, on the position, as shown in the figure, be provided with separation pad 373 near between 1 pixel electrode 348v and adjacent with it another pixel electrode 348v.Therefore, just can remain the cell gap in each subpixel area 349 constant.In addition, on substrate 200 these sides, on the position corresponding, be formed with black light-blocking film 347 with this separation pad 373.By means of this, just can prevent to result from that the light of separation pad 373 leaks.In addition, in the liquid crystal indicator 100 of above-mentioned the 1st embodiment,, also separation pad 373 can be set in this zone in subpixel area 349 though separation pad 373 is not set.But, in this case,, must on the corresponding position of substrate 200 sides and this separation pad 373, black light-blocking film 347 be set for the light that prevents to be caused by separation pad 373 leaks.
Secondly, the 2nd embodiment and the 1st embodiment something in common are described.Become feature of the present invention contact hole 346 the position is set and above-mentioned the 1st embodiment is common.That is, in the 2nd embodiment, as shown in Figure 7, on the corner positions of subpixel area 49, be formed with contact hole 346.Therefore, the liquid crystal indicator of the 2nd embodiment just can obtain the effect same with the liquid crystal indicator 100 of above-mentioned the 1st embodiment.So, with on pixel electrode 348 position overlapped contact hole 346 be not set if become in subpixel area 349, then the formation of pixel can be carried out various distortion.
Therefore, in the 2nd embodiment, corresponding with the position of pixel electrode 348v and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole 346 can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, that the liquid crystal indicator of the 2nd embodiment of the present invention can prevent to show is inhomogeneous, after image or burn and to the generation of reduction of the response speed of drive controlling etc., can obtain high-quality display image.In addition and since contact hole 346 with pixel electrode 348 nonoverlapping positions on form, so can prevent the reduction of aperture opening ratio.
[the 3rd embodiment]
Secondly, referring to Fig. 8, the 3rd embodiment is described.Fig. 8 shows the formation of the pixel of the 3rd embodiment, shows the planimetric map of the layout of a plurality of pixel 348u.The formation of the liquid crystal indicator 100 of the liquid crystal indicator of the 3rd embodiment and the 1st embodiment is same substantially, below, give same numeral and omit its explanation for the inscape identical with the liquid crystal indicator 100 of the 1st embodiment.
In the liquid crystal indicator of the 3rd embodiment, the formation of pixel, the desired location of contact hole 346 that particularly becomes feature of the present invention is different with the 1st embodiment.That is, in the 1st embodiment, be set in subpixel area 349, specifically on the position in the bight of subpixel area 349, form contact hole 346 apart from pixel electrode 348 position farthest.Relative therewith, in the 3rd embodiment, in subpixel area 349,, specifically, between 1 pixel electrode 348u and adjacent with it another pixel electrode 348u, forming contact hole 346 on the bearing of trend of data line 314 in distance pixel electrode 348 position farthest.
By means of this, just can make the distance between contact hole 346 and this 1 pixel electrode 348u and adjacent with it another pixel electrode 348u leave a little further as much as possible.Therefore, the liquid crystal indicator of the 3rd embodiment just can obtain the effect same with the liquid crystal indicator 100 of the 1st embodiment.As mentioned above, with on pixel electrode 348 position overlapped contact hole 346 be not set if become in subpixel area 349, then the formation of pixel can be carried out various distortion.
Therefore, in the 3rd embodiment, corresponding with the position of pixel electrode 348u and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole 346 can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, that the liquid crystal indicator of the 3rd embodiment of the present invention just can prevent to show is inhomogeneous, after image or burn and to the reduction of the response speed of drive controlling, can obtain high-quality display image.In addition, because with on pixel electrode 348 position overlapped not forming contact hole 346, so can prevent the reduction of aperture opening ratio.
[the 4th embodiment]
Secondly, referring to Fig. 9 the 4th embodiment is described.Fig. 9 shows the formation of the pixel of the 4th embodiment, shows the planimetric map of the layout of a plurality of pixels 348.The formation of the liquid crystal indicator 100 of the liquid crystal indicator of the 4th embodiment and the 1st embodiment is same substantially, below, give same numeral and omit its explanation for the inscape identical with the liquid crystal indicator 100 of the 1st embodiment.
At first, especially the 4th embodiment and the 1st embodiment difference are described.In the liquid crystal indicator of the 4th embodiment, the shape of pixel electrode 348 is different with the shape of the pixel electrode of the 1st embodiment.That is, in above-mentioned the 1st embodiment, be set in subpixel area 349, form the pixel electrode 348 that constitutes with 3 pixel electrode 348u.Relative therewith, in the 4th embodiment, be set in subpixel area 349, form 1 pixel electrode 348 of elliptical shape substantially.
Secondly, the 4th embodiment and the 1st embodiment something in common are described.The position that is provided with as the contact hole 346 of feature of the present invention is identical with above-mentioned the 1st embodiment.Therefore, the liquid crystal indicator of the 4th embodiment just can obtain the effect same with the liquid crystal indicator 100 of above-mentioned the 1st embodiment.So, with on pixel electrode 348 position overlapped contact hole 346 be not set if become in subpixel area 349, then the formation of pixel can be carried out various distortion.
Therefore, in the 4th embodiment, corresponding with the position of pixel electrode 348 and become the liquid crystal of effective viewing area of display part, just the become influence of the orientation disorder that is difficult to be subjected to the liquid crystal that produces on the part of contact hole 346 can prevent the generation of orientation disorder of the liquid crystal of this effective viewing area.Therefore, that the liquid crystal indicator of the 4th embodiment of the present invention just can prevent to show is inhomogeneous, after image or burn and to the reduction of the response speed of drive controlling, can obtain high-quality display image.In addition, because with on pixel electrode 348 position overlapped not forming contact hole 346, so can prevent the reduction of aperture opening ratio.
[variation]
In above-mentioned each embodiment, though be the explanation of using the example of thin film transistor (TFT) (TFD) element to carry out to as on-off element,, application of the present invention is not limited to this.Show the cut-open view of amorphous (amorphous) TFT as another example Figure 10 of on-off element.In Figure 10, the gate electrode 402 that TFT450 comes out from not shown next gate line branch is provided with gate insulating film 403 so that gate electrode 402 is covered.Overlap onto on the gate electrode 402 on the gate insulating film 403 a-Si layer 405 being set at.It is 2 n that a-Si layer 405 is provided with disjunction
+-a-Si layer 406a, 406b.In addition, at n
+-a-Si layer 406a goes up the source electrode 408 that is provided with to come out from not shown next source electrode line branch, at n
+-a-Si layer 406b is provided with drain electrode 409.In the mode that these layers covering got up diaphragm 411 is set, on diaphragm 411, pixel electrode 410 is set to partly overlap onto on the drain electrode 409 from the plane.Drain electrode 409 is electrically connected by contact hole 416 with pixel electrode 410.
The present invention as on-off element, also can use in the drain electrode 409 of amorphous TFT as described above and the coupling part between the pixel electrode 410.Promptly can be used as the wiring portion corresponding to drain electrode 409 and use the present invention with the 2nd metal film 336 in above-mentioned each embodiment.
In addition, in the above-described embodiment,, also can replace the liquid crystal of use TN (twisted-nematic) type etc. though what use is to have the anisotropic liquid crystal of negative dielectric coefficient.
[electronic equipment]
Secondly, the embodiment under the situation of the display device that liquid crystal indicator 100 of the present invention is used as electronic equipment is described.
The summary pie graph of Figure 11 shows all formations of present embodiment.The electronic equipment here has above-mentioned liquid crystal indicator 100 and to its control device of controlling 610.Here, the driving circuit 602 that conceptually liquid crystal indicator 100 is divided into panel structure body 603 and constitutes with semiconducter IC etc.In addition, control device 610 has display message output source 611, display message treatment circuit 612, power circuit 613 and timing generator 614.
Display message output source 611 constitutes: the storage unit that possess the storer that is made of ROM and RAM etc., is made of disk or CD etc. and the tuned circuit of tuning output digital image signal, and according to the various clock signals that produce by timing generator 614, with the forms such as picture signal of prescribed form, supply with display message to display message treatment circuit 612.
Display message treatment circuit 612 possesses: string-and the well-known various circuit of translation circuit, amplification/negative circuit, rotation circuit, gray scale (γ) correcting circuit, clamping circuit etc., after carrying out the processing of the display message of being imported into, this image information is supplied with driving circuit 602 with clock signal clk.Driving circuit 602 comprises scan line drive circuit, data line drive circuit and check circuit.In addition, power circuit 613 is supplied with the voltage of regulation respectively to above-mentioned each inscape.
Secondly, referring to Figure 12 the object lesson of the electronic equipment that can use liquid crystal indicator 100 of the present invention is described.
At first, the example that liquid crystal indicator 100 of the present invention is applied to the display part of portable personal computer (so-called notebook computer) is described.The skeleton view of Figure 12 (a) shows the formation of this personal computer.As shown in the drawing, personal computer 710 possesses: possess the main part 712 of keyboard 711 and the display part 713 of use display panels of the present invention.
Then, the example that liquid crystal indicator 100 of the present invention is applied to the display part of mobile phone (mobile phone) is described.The skeleton view of Figure 12 (b) shows the formation of this mobile phone.As shown in the drawing, mobile phone 720 is removed outside a plurality of operation push-buttons 721, the display part 724 that also has receiving mouth 722, mouth piece 723 and use liquid crystal indicator 100 of the present invention.
In addition, as the electronic equipment that can use liquid crystal indicator 100 of the present invention, remove outside the mobile phone shown in the personal computer shown in Figure 12 (a) and Figure 12 (b), can also enumerate LCD TV, (tape) video recorder, automobile navigation apparatus, the pager of the type monitor direct viewing type of finding a view, electronic notebook, counter, word processor, workstation, videophone, POS terminal and digital camera etc.
Liquid crystal device according to an aspect of the present invention, its constitute between a pair of substrate, clip have negative The anisotropic liquid crystal layer of dielectric coefficient, it is characterized in that: a side substrate in the above-mentioned a pair of substrate Possess: data wire; The switch element that is connected with above-mentioned data wire; At above-mentioned data wire and above-mentioned switch The dielectric film that forms on the element; The pixel electrode that forms at this dielectric film; And connect above-mentioned switch The contact hole of element and the wiring that extends out from above-mentioned pixel electrode.
According to the described liquid crystal device in above-mentioned aspect, it is characterized in that: any in above-mentioned a pair of substrate On one side's the substrate, has photomask with the overlapping position of above-mentioned contact hole.
A kind of liquid crystal device according to a further aspect in the invention, it constitutes between a pair of substrate and clips Have the anisotropic liquid crystal layer of negative dielectric coefficient, it is characterized in that: a side in the above-mentioned a pair of substrate Substrate possess: data wire; The switch element that is connected with above-mentioned data wire; Above-mentioned data wire with on State the dielectric film that forms on the switch element; And connect above-mentioned switch element and form at this dielectric film The contact hole of pixel electrode, wherein, the substrate of any one party in above-mentioned a pair of substrate possesses Photomask, above-mentioned contact hole be formed on the overlapping position of above-mentioned photomask on.
Described liquid crystal device according to above-mentioned aspect of the present invention is characterized in that: above-mentioned contact hole It is interior on pixel electrode position farthest to be formed on pixel region.
Described liquid crystal device according to above-mentioned aspect of the present invention is characterized in that: above-mentioned contact hole Be formed on the corner positions of pixel region.
Described liquid crystal device according to above-mentioned aspect of the present invention is characterized in that: above-mentioned pixel electricity Have a plurality of sub-pixel electrodes; Each sub-pixel electrode in the above-mentioned sub-pixel electrode is electrically connected And be arranged on the direction of above-mentioned data wire extension; Above-mentioned contact hole is in the side that above-mentioned data wire extends Upwards, be formed on a sub-pixel electrode and another sub-pixel adjacent with this sub-pixel electrode Between the electrode.
Liquid crystal device according to above-mentioned aspect of the present invention is characterized in that: at above-mentioned the opposing party's base On the plate, be formed with opening or projection in the position corresponding with the substantial middle of above-mentioned sub-pixel electrode.
Liquid crystal device according to above-mentioned aspect of the present invention is characterized in that: above-mentioned data wire not with Be formed on the substrate of one side under the overlapping state of above-mentioned contact hole.
According to a kind of electronic equipment of the present invention, it is characterized in that: possess according to above-mentioned side of the present invention The liquid crystal device of face.
Claims (4)
1. liquid-crystal apparatus, it constitutes to clip between a pair of substrate has the anisotropic liquid crystal layer of negative dielectric coefficient, it is characterized in that:
A side substrate possesses in the above-mentioned a pair of substrate: data line; The on-off element that is electrically connected with above-mentioned data line; The dielectric film that on above-mentioned data line and above-mentioned on-off element, forms; And be electrically connected above-mentioned on-off element and the contact hole of the pixel electrode that on this dielectric film, forms;
Possesses photomask on the substrate of any one party in above-mentioned a pair of substrate;
Above-mentioned contact hole is formed at and above-mentioned photomask position overlapped;
Pixel electrodes has a plurality of pixel electrodes;
Each pixel electrode in the above-mentioned pixel electrode all is electrically connected and is arranged on the direction of above-mentioned data line extension;
Above-mentioned contact hole, on the direction that above-mentioned data line extends, be formed between a pixel electrode and another pixel electrode adjacent, and another data line adjacent with above-mentioned data line and this contact hole are formed not overlapping with this pixel electrode;
Above-mentioned another data line forms round in another subpixel area side adjacent with above-mentioned subpixel area.
2. liquid-crystal apparatus according to claim 1 is characterized in that: it is interior on pixel electrodes position farthest that above-mentioned contact hole is formed on pixel region.
3. liquid-crystal apparatus according to claim 1 is characterized in that:
On the sweep trace in being arranged at above-mentioned a pair of substrate on the opposing party's relative substrate, on the position corresponding, be formed with opening or projection with the substantial middle of above-mentioned pixel electrode with a described side's substrate.
4. an electronic equipment is characterized in that: possess any described liquid-crystal apparatus in the claim 1 to 3.
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CN101568875B (en) * | 2006-12-05 | 2014-10-08 | 夏普株式会社 | Liquid crystal display device |
US10394091B2 (en) * | 2015-11-18 | 2019-08-27 | Samsung Display Co., Ltd. | Liquid crystal display device |
CN112180628A (en) * | 2020-09-11 | 2021-01-05 | 山东蓝贝思特教装集团股份有限公司 | Liquid crystal writing device, local erasing method and display method |
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