CN1316300C - Coplanar converting LCD with video response - Google Patents
Coplanar converting LCD with video response Download PDFInfo
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- CN1316300C CN1316300C CNB2004100938600A CN200410093860A CN1316300C CN 1316300 C CN1316300 C CN 1316300C CN B2004100938600 A CNB2004100938600 A CN B2004100938600A CN 200410093860 A CN200410093860 A CN 200410093860A CN 1316300 C CN1316300 C CN 1316300C
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Abstract
The present invention discloses a coplanar conversion LCD with video response, which belongs to the technology of an LCD. The coplanar conversion LCD comprises a liquid crystal box, a pair of one-fourth wideband wave plates and a pair of polaroids. When the dielectric anisotropy of liquid crystal materials is positive, a twist angle is 180 DEG, a friction direction is perpendicular to the direction of an electric field, staggered included angles between the optical axes of the one fourth wideband wave plates and the optical axes of the polaroids are 45 DEG, and the optical axis directions of the polaroids are perpendicular to the friction direction of a basal plate or are parallel to the friction direction of the basal plate. When the dielectric anisotropy of the liquid crystal materials is negative, the twist angle is 180 DEG, the direction friction is parallel to the direction of the electric field, the staggered included angles of the optical axes of the one-fourth wideband wave plate and the optical axes of the polaroids are 45 DEG, the optical axis directions of the polaroids are perpendicular to the friction direction of the basal plate or are parallel to the friction direction of the basal plate. The coplanar conversion LCD can realize bright display and dark display within the range of a wide view angle, have high contrast degree and fast response speed and reach the requirement of video display.
Description
Technical field
The present invention relates to a kind of LCD, particularly a kind of coplanar converting LCD with video response.
Background technology
Traditional coplanar converting LCD adopts the liquid crystal arrangement structure that is arranged in parallel.These LCD all comprise a liquid crystal cell with liquid crystal layer, liquid crystal molecule is arranged in parallel within the liquid crystal cell of a pair of transparent glass substrate composition with specific angle, be shaped on comb electrode on a glass substrate therein, also comprise a pair of polaroid that clips liquid crystal cell.
Though traditional coplanar converting LCD has good viewing angle characteristic, its response speed is slow, not too is fit to require the application of the LCD TV of video response.More particularly, the rotation coefficient of viscosity of the thickness of the response speed of coplanar converting LCD and liquid crystal layer, liquid crystal and distortion elastic constant and the spread pattern of liquid crystal molecule in box are relevant.The liquid crystal molecule of traditional coplanar converting LCD is for being arranged in parallel, cause the response speed of this display mode because the distortion elastic constant is less, be difficult to improve with its reciprocal proportional response speed, and can not make the response speed of each gray scale reach video response by the thickness (minimum thickness that production technology can be born) that reduces liquid crystal layer and the rotation coefficient of viscosity that improves liquid crystal material.
Summary of the invention
The object of the present invention is to provide a kind of coplanar converting LCD with video response.This LCD can be implemented in the bright demonstration in the wide angular field of view and show slinkingly shows the contrast height.
The present invention is realized by following technical proposals, and a kind of coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material is timing, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is perpendicular to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is parallel to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is perpendicular to direction of an electric field.
A kind of coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material is timing, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is perpendicular to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is perpendicular to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is parallel to direction of an electric field.
A kind of coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material when negative, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is parallel to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is perpendicular to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is perpendicular to direction of an electric field.
A kind of coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material when negative, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is parallel to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is parallel to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is parallel to direction of an electric field.
Above-mentioned display is characterized in that, thickness of liquid crystal layer is 2~6 microns, and the long-pending Δ nd value of birefraction Δ n and thickness of liquid crystal layer d is in 240~330nm.
Advantage of the present invention and effect: according to display mode provided by the invention, when when clipping the electrode application voltage of liquid crystal layer, liquid crystal molecule rotates in the glass substrate plane, make the optical axis of liquid crystal layer change, thereby change through polarized state of light behind the liquid crystal layer, and obtain the transmittance of liquid crystal cell with alive variation by the configuration of two 1/4 broadband wave plates and polaroid.Because liquid crystal molecule rotates in the glass substrate plane, so the retardation of the liquid crystal layer under different voltage effects changes very little with observation visual angle.Therefore LCD of the present invention can be implemented in the bright demonstration in the wide angular field of view and shows slinkingly and shows, and obtains the high-contrast in the wide angular field of view.
In the present invention, liquid crystal cell has the liquid crystal layer of the supertwist arrangement that is clipped by substrate, two parts up and down of liquid crystal layer have skew-symmetry, it is motionless that the liquid crystal molecule in middle layer keeps under effect of electric field, be equivalent to whole liquid crystal layer and can think to have fixed boundary up and down by two, the liquid crystal layer that bed thickness reduces by half is formed, so the response speed of this liquid crystal cell is than the response speed fast (comprising ascending velocity and decline rate) of traditional liquid crystal cell that is arranged in parallel.Using common TFT with under the prerequisite of liquid crystal material, only rely on the improvement of the arrangement architecture of liquid crystal molecule, can obtain response speed fast.
Means and combination thereof in following narration and appointment also will embody objects and advantages of the present invention.
Description of drawings
Fig. 1 represents the decomposition texture skeleton view of the LCD of the embodiment of the invention one;
Fig. 2 is the partial section of LCD;
Fig. 3 is the view of the angular field of view of the LCD represented of Fig. 1;
Fig. 4 is the response time figure of eight gray scales of the LCD represented of Fig. 1;
Fig. 5 represents the LCD decomposition texture skeleton view of the embodiment of the invention two;
Fig. 6 represents the LCD decomposition texture skeleton view of the embodiment of the invention three;
Fig. 7 represents the LCD decomposition texture skeleton view of the embodiment of the invention four
Embodiment
Below do with reference to the accompanying drawings the LCD of the embodiment of the invention is described.
[first embodiment]
Fig. 1 to 4 represents the first embodiment of the present invention.Fig. 1 is the decomposition texture skeleton view of LCD, and Fig. 2 is the partial section of LCD.
As illustrated in fig. 1 and 2, the LCD of present embodiment is by clipping liquid crystal layer 1 between relative two sheet glass substrates 2 and 3 internal layers, respectively there is a slice 1/4 broadband wave plate 5 in glass substrate two outsides, are polaroids 6 in its outside, and the inside surface of glass substrate 3 is provided with comb electrode 4 below.Comb electrode 4a, the signal on the 4b provides (not shown) by TFT (thin film transistor (TFT)).On glass substrate 2,3 inside surfaces, be respectively equipped with oriented layer 7, obtain the orientations of predetermined direction through the friction treatment liquid crystal material.
The LCD of present embodiment is a STN type LCD.By in the friction treatment of the oriented layer of glass substrate 2,3 inside surfaces with pour into suitable liquid crystal material (dielectric anisotropy for just), make it have 180 ° and twist 1.The optical axis of two polaroids is parallel to the sensing of the liquid crystal molecule on contiguous oriented layer surface, and the optical axis of two 1/4 broadband wave plates and the optical axis of polaroid are staggered into 45, and parallel to each other.
When between the comb electrode during no-voltage difference, liquid crystal layer mainly shows as a polarization apparatus and phase delay chip, through the polarization state of light of liquid crystal layer small variation has taken place, so no-voltage is made time spent this embodiment and shown as light transmission.When a little voltage difference exists, this embodiment can show as black attitude, when bigger voltage difference exists, when liquid crystal molecule all trends towards along direction of an electric field arrangement 1a in the liquid crystal layer, liquid crystal layer only shows as a phase delay chip, by between the optical axis of the optical axis of liquid crystal layer performance and 1/4 broadband wave plate 5 and polaroid 6 angle concern that this embodiment shows as bright attitude under bigger voltage difference effect, so this embodiment can be used as display and shows.
Because the liquid crystal molecule in liquid crystal layer is along the rotation of glass substrate plane, can in very wide visual angle, obtain very high demonstration contrast so have the LCD of above-mentioned layout.Be illustrated in figure 3 as the result of calculation of viewing angle characteristic of an instantiation of present embodiment.Its visual angle top/bottom latitude surpasses 60 °, and left and right sides scope surpasses 85 ° (contrast is greater than 5).
Because this embodiment uses the supertwist arrangement architecture of liquid crystal molecule, liquid crystal layer has two-part skew-symmetry up and down under effect of electric field, and it is motionless that the liquid crystal molecule in middle layer keeps, be equivalent to this liquid crystal layer and can think to have fixed boundary up and down by two, the liquid crystal layer that bed thickness reduces by half is formed, therefore the response speed of this embodiment is for 1/4th of the liquid crystal layer that was arranged in parallel originally, so it has than conventional co-planar conversion liquid crystal display quicker response (comprising ascending velocity and decline rate).Be illustrated in figure 4 as the result of calculation (the liquid crystal bed thickness in this example is 4 μ m) of dynamic response time of an instantiation of present embodiment.Be the rising and the decline process of 8 gray scales demonstrations of this example among the figure, be about 6 milliseconds its fall time, the rise time is less than 12 milliseconds (transmitance is 1/8 o'clock response time of maximum transmission).Because the response time of liquid crystal layer and liquid crystal bed thickness is square proportional, suitably reduce thickness of liquid crystal layer and (can be reduced to 3 μ m in the commercial production, can be reduced to 2 μ m in the laboratory) can make the rise time less than 10 milliseconds, also reduce fall time simultaneously, so its rise time and fall time sum can be less than 16 milliseconds, thereby realize the video response of full gray scale.
[second embodiment]
Fig. 5 is the LCD decomposition texture skeleton view of second embodiment of the invention.This LCD and the difference of the LCD of first embodiment are that the direction of optical axis of polaroid is different, and the optical axis of two polaroids among this embodiment all pointing direction with the liquid crystal molecule of contiguous glass baseplate surface is vertical.Its principle of work is identical with first embodiment, has the characteristic identical with first embodiment.
[the 3rd embodiment]
Fig. 6 is the LCD decomposition texture skeleton view according to third embodiment of the invention.This LCD and the liquid crystal that the difference of the LCD of first embodiment is to use are that dielectric anisotropy is that material and the frictional direction born are different.Liquid crystal molecule tends to the direction vertical with direction of an electric field and arranges under effect of electric field, therefore require its frictional direction vertical with the frictional direction of first embodiment, and its principle of work is identical with first embodiment, has the characteristic identical with first embodiment.
[the 4th embodiment]
Fig. 7 is the LCD decomposition texture skeleton view according to fourth embodiment of the invention.This LCD and the difference of the LCD of the 3rd embodiment are that the direction of optical axis of polaroid is different, and the optical axis of two polaroids among this embodiment is parallel with the pointing direction of the liquid crystal molecule of contiguous glass baseplate surface.Its principle of work is identical with the 3rd embodiment, has the characteristic identical with the 3rd embodiment.
Additional advantage and remodeling appear for those skilled in the art will readily appreciate that.Therefore, the present invention is being not limited to detail and at the various embodiment of this demonstration and description aspect its relative broad range boundary.Therefore, under the prerequisite of essence that does not break away from the General Principle of the present invention that limits by appended claim and equivalent and scope, can make various modifications.
Claims (5)
1, a kind of coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material is timing, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is perpendicular to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is parallel to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is perpendicular to direction of an electric field.
2. the coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material is timing, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is perpendicular to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is perpendicular to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is parallel to direction of an electric field.
3. the coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material when negative, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is parallel to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is perpendicular to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is perpendicular to direction of an electric field.
4. the coplanar converting LCD with video response comprises a liquid crystal cell, a pair of 1/4 broadband wave plate and a pair of polaroid; Described liquid crystal cell is a pair of relative glass substrate, the oriented layer that the inside surface of glass substrate forms, the liquid crystal layer between two glass substrates, and be shaped on comb electrode on the plate base therein, form the X-direction electric field, electrode separation is greater than electrode width and thickness of liquid crystal layer; The outside of two glass substrates is 1/4 broadband wave plate and polaroid successively, when the dielectric anisotropy of liquid crystal material when negative, it is characterized in that, distortion angle in the liquid crystal layer is 180 °, frictional direction is parallel to direction of an electric field, staggered angle between the optical axis of 1/4 broadband wave plate and the optical axis of polaroid is 45 °, the optical axis of two 1/4 broadband wave plates is parallel to each other, the optical axis of two polaroids is parallel to each other, the optical axis direction of polaroid is parallel to the frictional direction on the substrate, and promptly the optical axis direction of polaroid is parallel to direction of an electric field.
5. as claim 1 or 2 or 3 or 4 described coplanar converting LCDs with video response, it is characterized in that thickness of liquid crystal layer is 2~6 microns, the long-pending Δ nd value of birefraction and thickness of liquid crystal layer d is in 240~330nm.
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CNB2004100938600A CN1316300C (en) | 2004-12-08 | 2004-12-08 | Coplanar converting LCD with video response |
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CNB2004100938600A CN1316300C (en) | 2004-12-08 | 2004-12-08 | Coplanar converting LCD with video response |
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CN1316300C true CN1316300C (en) | 2007-05-16 |
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Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
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KR101247698B1 (en) | 2005-08-05 | 2013-03-26 | 삼성디스플레이 주식회사 | Liquid crystal display |
JP4830072B2 (en) * | 2005-09-28 | 2011-12-07 | セイコーエプソン株式会社 | Wave plate and optical pickup using the same |
KR101443856B1 (en) | 2008-01-21 | 2014-09-25 | 삼성디스플레이 주식회사 | Liquid crystal display and liquid crystal composition included in the same |
US9341896B2 (en) | 2008-01-21 | 2016-05-17 | Samsung Display Co., Ltd. | Liquid crystal display |
TWI474076B (en) * | 2012-09-24 | 2015-02-21 | Au Optronics Corp | Fringe-field switching display panel |
CN108490681B (en) * | 2018-07-06 | 2023-11-10 | 河北工业大学 | Color gamut widening device for liquid crystal material |
CN109270739A (en) * | 2018-11-08 | 2019-01-25 | 河北工业大学 | A kind of phase delay chip |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1181517A (en) * | 1996-11-06 | 1998-05-13 | 日本电气株式会社 | In-plane-switching liquid crystal display unit |
CN2550804Y (en) * | 2002-05-23 | 2003-05-14 | 河北工业大学 | Low dispersion, wide view angle and quick responsive reflective coplanar conversion liquid crystal display |
EP1391754A1 (en) * | 2002-08-07 | 2004-02-25 | Fuji Photo Film Co., Ltd. | Retarders, circular polarizer and processes for preparing them |
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2004
- 2004-12-08 CN CNB2004100938600A patent/CN1316300C/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1181517A (en) * | 1996-11-06 | 1998-05-13 | 日本电气株式会社 | In-plane-switching liquid crystal display unit |
CN2550804Y (en) * | 2002-05-23 | 2003-05-14 | 河北工业大学 | Low dispersion, wide view angle and quick responsive reflective coplanar conversion liquid crystal display |
EP1391754A1 (en) * | 2002-08-07 | 2004-02-25 | Fuji Photo Film Co., Ltd. | Retarders, circular polarizer and processes for preparing them |
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