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LIQUID CRYSTAL DEVICE AND PROJECTOR

Thu, 23 Feb 2017 08:00:00 EST

A projector includes a liquid crystal device for a blue color including a liquid crystal material for a blue color, a liquid crystal device for a green color, and a liquid crystal device for a red color, and in a liquid crystal material for a blue color, the retardation Δnd is in a range of 0.18 to 0.29, and the dielectric constant anisotropy Δ∈ is in a range of −7.5 to −4, in a material of a liquid crystal layer for a green color, the retardation Δnd is in a range of 0.25 to 0.38, and the dielectric constant anisotropy Δ∈ is in a range of −7.5 to −4, and in a liquid crystal material for a red color, the retardation Δnd is in a range of 0.31 to 0.45, and the dielectric constant anisotropy Δ∈ is in a range of −7.5 to −4.Δ∈



DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME

Thu, 23 Feb 2017 08:00:00 EST

A display device is provided. A display device comprising: a first substrate comprising a display area and a non-display area and placed to face each other; a light-blocking pattern comprising an opening part formed on the first substrate in the non-display area; and a dummy color layer disposed under the opening part on the first substrate at a location corresponding to the opening part, wherein the opening part and the dummy color layer extend in a direction.



REAR PROJECTION DISPLAY SCREEN AND DEVICE

Thu, 23 Feb 2017 08:00:00 EST

The present invention involves a rear projection display screen, including at least one assembly including: a film having a surface facing the back of the screen including ridges defining prisms; and an element of controllable refraction index, coating the ridged surface of said film.



IMAGING DEVICE AND IMAGING METHOD

Thu, 23 Feb 2017 08:00:00 EST

An imaging device includes a camera 31, a light source 32, a polarizer 35 arranged between the camera 31 plus the light source 32 and an object 11, and a spatial light modulator 40A arranged between the polarizer 35 and the object 11 to control a revolution angle of an emitting light polarization plane relative to an incident light polarization plane.



THIN FILM TRANSISTOR SUBSTRATE

Thu, 23 Feb 2017 08:00:00 EST

A thin film transistor substrate is provided. The thin film transistor substrate includes a substrate; at least one signal line disposed over the substrate; a repair line disposed over the signal line and electrically connected to the signal line; and a light-shielding layer disposed over the repair line, wherein the light-shielding layer covers the repair line, and an area of the light-shielding layer is greater than that of the repair line.



ARRAY SUBSTRATE, MANUFACTURING METHOD THEREOF, LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY DEVICE

Thu, 23 Feb 2017 08:00:00 EST

An array substrate, a manufacturing method thereof, a liquid crystal display panel and a display device are provided. The array substrate includes a base substrate, an active layer, a gate insulating layer and a gate electrode which are located on the base substrate; a first insulating layer, a source electrode, a second insulating layer and a pixel electrode which are stacked on the active layer, the gate insulating layer and the gate electrode, sequentially; and a first connecting part and a second connecting part arranged on a same layer with the pixel electrode; wherein, the first connecting part is electrically connected with the active layer and the source electrode, and the second connecting part is electrically connected with the active layer and the pixel electrode.



DISPLAY DEVICE

Thu, 23 Feb 2017 08:00:00 EST

Provided is a display device. The display device includes: a substrate; a light blocking pattern disposed on the substrate; a semiconductor pattern disposed on the light blocking pattern; a gate insulating layer disposed on the semiconductor pattern; a gate wiring; an interlayer insulating layer formed on the gate wiring; a first contact hole for exposing the source area; a data wiring disposed to extend in the second direction on the interlayer insulating layer and electrically connected to the source area via the first contact hole; a first passivation layer disposed on the data wiring; a second contact hole, which is disposed between the neighboring protrusion portions of the light blocking pattern so as not to overlap the light blocking pattern, and exposes the drain area; and a pixel electrode disposed on the first passivation layer and electrically connected to the drain area through the second contact hole.



LIQUID CRYSTAL DISPLAY PANEL

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display panel is disclosed. The liquid crystal display panel comprises a testing region, which comprises testing lines. The testing lines comprise data short lines and scan short lines and a static-electron-protection circuit. The static-electron-protection circuit is disposed between the testing lines and the common welding lead wires. The static-electricity-protection circuit is used to release the static electrons generated on the data lines or the scan lines through the common lines, when static electrons during the liquid crystal display manufacturing process of the data lines or the scan lines are generated.



SEQUENTIAL CIRCUIT AND SEMICONDUCTOR DEVICE

Thu, 23 Feb 2017 08:00:00 EST

The following semiconductor device provides high reliability and a narrower frame width. The semiconductor device includes a driver circuit and a pixel portion. The driver circuit has a first transistor including a first gate and a second gate electrically connected to each other with a semiconductor film sandwiched therebetween, and a second transistor electrically connected to the first transistor. The pixel portion includes a third transistor, a liquid crystal element, and a capacitor. The liquid crystal element includes a first transparent conductive film electrically connected to the third transistor, a second conductive film, and a liquid crystal layer. The capacitor includes the first conductive film, a third transparent conductive film, and a nitride insulating film. The nitride insulating film is positioned between the first transparent conductive film and the third transparent conductive film, and positioned between the semiconductor film and the second gate of the first transistor.



LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL ALIGNMENT METHOD THEREOF

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display panel includes first substrate, active switching device, patterned insulating layer, pixel electrode, auxiliary electrode, second substrate, common electrode and liquid crystal molecules. The patterned insulating layer is disposed on the first substrate and includes a plurality of inner insulating branches and slits, and each slit is located between two adjacent inner insulating branches. The pixel electrode is disposed on the patterned insulating layer and electrically connected to the active switching device. The periphery of the pixel electrode overlaps the inner insulating branches. The auxiliary electrode is disposed on the first substrate and at least partially surrounding the pixel electrode. The auxiliary electrode and the pixel electrode are not electrically connected, and the inner insulating branches partially overlap the auxiliary electrode in a vertical projection direction. The common electrode is disposed on the second substrate. The liquid crystal molecules are interposed between the first and second substrates.



CURVED LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 23 Feb 2017 08:00:00 EST

A curved liquid crystal display comprises, a first curved substrate; a second curved substrate facing the first curved substrate; a liquid crystal layer disposed between the first curved substrate and the second curved substrate; a first curved liquid crystal alignment layer disposed between the liquid crystal layer and the first curved substrate and containing a light stabilizer; and a second curved liquid crystal alignment layer disposed between the liquid crystal layer and the second curved substrate.



REFLECTIVE DISPLAY APPARATUS AND METHOD OF FORMING THE SAME

Thu, 23 Feb 2017 08:00:00 EST

A reflective display apparatus is provided, which includes a liquid-crystal-on-silicon (LCOS) display module and a compensation layer. The LCOS display module has a liquid crystal layer. The liquid crystal layer includes liquid crystal cells, each having a beta angle ranging from about 9 degrees to about 11 degrees and a twist angle ranging from about 84 degrees to about 88 degrees relative to the beta angle. The compensation layer is disposed on the LCOS display module for compensating retardation of the liquid crystal layer.



DISPLAY DEVICES INCLUDING MIRROR SUBSTRATES AND METHODS OF MANUFACTURING MIRROR SUBSTRATES

Thu, 23 Feb 2017 08:00:00 EST

A display device may include a display unit disposed on a substrate and a mirror substrate facing the substrate with respect to the display unit. The mirror substrate may include a first mirror layer extending continuously on a surface of a transparent substrate and a plurality of mirror patterns on the first mirror layer. The first mirror layer is formed on both a region in which the plurality of mirror patterns are formed and a region in which the plurality of mirror patterns are not formed. External light is incident to and reflected by the first mirror layer, thus reducing an image haze and enhancing a display quality of the display device. In addition, the first mirror layer and the plurality of mirror patterns may be formed by using a single halftone mask to simplify the manufacturing process and increase a productivity of the mirror substrate.



LIQUID CRYSTAL DISPLAY DEVICE

Thu, 23 Feb 2017 08:00:00 EST

In a liquid crystal display device, the liquid crystal panel has a display surface of a planar shape on which a plurality of pixels are located. The front protective plate is located so as to face the display surface of the liquid crystal panel. The optical path changing portion is located between an emission surface of the front protective plate and an air layer located closer to the back side than the emission surface is and located closest to the emission surface. The optical path changing portion changes an optical path of light that enters the optical path changing portion so as to expand an emission angle when the incident light is emitted from the emission surface of the front protective plate.



DISPLAY UNIT

Thu, 23 Feb 2017 08:00:00 EST

Provided is a display unit that includes: a display panel having a pair of substrates that are bonded to each other in a seal region along an outer edge of the display panel; a transparent plate facing the display panel; an optical film provided on a surface of the display panel which faces the transparent plate, and having an outer edge positioned over the seal region; and a resin layer sandwiched between the optical film and the transparent plate.



LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display is provided. A liquid crystal display comprising a first substrate which comprises a display area and a non-display area, a second substrate which faces the first substrate, a sealing member which is disposed in the non-display area between the first substrate and the second substrate, wherein the first substrate comprises a light-shielding pattern, a column spacer which is protruded from the light-shielding pattern toward the second substrate to maintain an interval between the first substrate and the second substrate, an opening which is disposed in the light-shielding pattern, and overlapping the sealing member.



DISPLAY PANEL AND DISPLAY APPARATUS USING THE SAME

Thu, 23 Feb 2017 08:00:00 EST

A display panel and a display apparatus are disclosed. The display panel includes a liquid crystal capsule layer and an electrode unit. In the liquid crystal capsule layer, a plurality of liquid crystal capsules are distributed, and each of plurality of liquid crystal capsules includes liquid crystal molecules. The electrode unit disposed at one surface of the liquid crystal capsule layer forms an electric field in the liquid crystal capsule layer, wherein a thickness of the liquid crystal capsule layer exceeds half a ratio of a wavelength of incident light to a birefringence value of the liquid crystal molecules.



LIQUID CRYSTAL DISPLAY DEVICE

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display device includes an annular seal located between a first substrate and a second substrate, and a liquid crystal layer sealed in a space surrounded by the first substrate, the second substrate, and the annular seal. The first substrate includes a first metal layer, a first insulating layer covering the first metal layer, a second metal layer formed on the first insulating layer, a second insulating layer covering the second metal layer, a third metal layer formed on the second insulating layer, a third insulating layer covering the third metal layer, an alignment layer arranged on the third insulating layer, and a display region where a plurality of pixels are formed. At least one recessed groove is formed in the third insulating layer and is located at a region between the display region and the annular seal.



LIQUID CRYSTAL DISPLAY DEVICE AND PRODUCTION METHOD FOR SAME

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display device includes an electrode configuration layer provided on a support substrate, the electrode configuration layer includes a stripe region having a plurality of electrode regions and a plurality of insulator regions arranged in an alternating manner, and the electrode regions and the insulator regions are formed by partially performing a reduction treatment or an oxidation treatment on a layer made of one material, thereby controlling conductivity. Further, the electrode regions are included in at least one of the pixel electrode and the counter electrode of the liquid crystal display device.



LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF

Thu, 23 Feb 2017 08:00:00 EST

It is possible to separate each liquid crystal display panel from a mother board in which multiple liquid crystal display panels are formed even with a thin glass substrate, by forming a columnar spacer in the boundary between liquid crystal display panels, forming a scribe line corresponding to the columnar spacer on both sides of the counter substrate and the TFT substrate in the mother board, and forming a separation line between the scribe lines by applying a bending stress to the mother board. Since the columnar spacer is formed in a portion corresponding to the scribe line, the strength in this portion increases, so that the proper scribe lines and break lines can be formed when the thickness of the glass substrate is reduced to about 0.15 mm.



LIQUID CRYSTAL DISPLAY DEVICE

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display device having a uniform gap between a TFT substrate and a CF substrate even in cases where a sealant is to be applied to a slim frame formed on the outside of the effective display area is provided. A liquid crystal display device includes an effective display area, a color resist coated area, and a seal area which overlaps the color resist coated area and in which a sealant for sealing liquid crystal is provided, wherein the color resist coated area overlapping the seal area has slits formed therein.



SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF

Thu, 23 Feb 2017 08:00:00 EST

This invention provides a semiconductor device having high operation performance and high reliability. An LDD region 707 overlapping with a gate wiring is arranged in an n-channel TFT 802 forming a driving circuit, and a TFT structure highly resistant to hot carrier injection is achieved. LDD regions 717, 718, 719 and 720 not overlapping with a gate wiring are arranged in an n-channel TFT 804 forming a pixel unit. As a result, a TFT structure having a small OFF current value is achieved. In this instance, an element belonging to the Group 15 of the Periodic Table exists in a higher concentration in the LDD region 707 than in the LDD regions 717, 718, 719 and 720.



LIQUID CRYSTAL DISPLAY

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display according to an exemplary embodiment of the present disclosure includes: a first substrate including a plurality of unit regions positioned at a display area in a plan view; a liquid crystal layer opposing the first substrate; a unit electrode portion positioned on a first surface of the first substrate at one unit region; a lower dam positioned at a peripheral area positioned around the display area in the plan view; and a protrusion positioned corresponding to the unit region in the plan view. The lower dam and protrusion are positioned between the first substrate and the liquid crystal layer and protruded toward the liquid crystal layer. The protrusion enclosing a portion around the unit region with respect to a center of the unit region in the plan view. The lower dam and the protrusion are positioned at a same layer and include the same material.



LIQUID CRYSTAL DISPLAY PANEL AND METHOD OF LIQUID CRYSTAL ALIGNMENT THEREOF

Thu, 23 Feb 2017 08:00:00 EST

A liquid crystal display panel includes a first substrate, a conductive line, an active switch device, a pixel electrode and a first electrode. The pixel electrode has a cruciform opening, which includes a first slit extending along a first direction and a second slit extending along a second direction intersecting the first slit. The first electrode is disposed on the first substrate and located adjacent to the periphery of the pixel electrode. The pixel electrode includes two first parts and a second part, where the two first parts are respectively disposed adjacent to two opposite ends of the second slit in the second direction. The distance between the two first parts in the second direction has a first width, the second part has a second width in the second direction, and the first width is greater than the second width.



COLOR-CHANGING PANEL FOR ACTIVE CAMOUFLAGE CONFIGURATIONS

Thu, 23 Feb 2017 08:00:00 EST

A color-changing panel that includes: (a) a transparent substrate with a bottom surface and a top surface, (b) a bottom polarization film arranged on the bottom surface of the transparent substrate, (c) a liquid crystal region comprising anisotropic liquid crystal material and configured over the top surface of the transparent substrate, and (d) an optical retardation film arranged over the liquid crystal region and above the top surface. Further, movement of the top polarization layer to a plurality of predetermined positions results in a plurality of corresponding, predetermined visible optical patterns.



SEE-THROUGH HEAD-MOUNTED DISPLAY

Thu, 23 Feb 2017 08:00:00 EST

The invention provides a see-through head-mounted display, including: an inner optical mechanism covered by a nontransparent housing having an opening and providing an image beam from the opening; and an outer optical mechanism including an outer polarizing beam splitter guiding the image beam from the opening and an environment beam to the same direction. The inner optical mechanism includes at least a mirror and a driving motor. The mirror reflects the image beam to make the image beam incident to the outer optical mechanism. The driving motor moves the mirror to vary the image distance from the mirror.



Diffractive projection apparatus

Thu, 23 Feb 2017 08:00:00 EST

A light projection apparatus is provided comprising: a source of light; a switchable grating on a first substrate; and a diffractive optical element. Light is diffracted at least once by the switchable grating and is diffracted at least once by the DOE.



Light Guide Plate, Liquid Crystal Display Module, and Terminal Device

Thu, 23 Feb 2017 08:00:00 EST

A light guide plate is disclosed. The light guide plate includes a light guide plate substrate including a light inlet surface and a light outlet surface, where a first groove is disposed on the light guide plate substrate, and is configured to accommodate a light emitting portion of a first light source, and a bottom surface of the first groove forms the light inlet surface. The light guide plate also includes a light reflection layer, disposed on a part of an outer surface of the light guide plate substrate except the light inlet surface and the light outlet surface, where light emitted from the first light source enters the light guide plate substrate through the light inlet surface, and is refracted by the light reflection layer, so that the light emitted from the first light source comes out through the light outlet surface.



Display Backlight with an Optical Film

Thu, 23 Feb 2017 08:00:00 EST

A backlight unit may include a turning film that receives light from a light guide layer. The turning film may have a plurality of elongated protrusions that extend across the turning film. Each protrusion may have a concave surface. The concave surface may be a curved surface that curves inward towards the interior of the turning film. Light from the light guide layer may pass through the turning film and be reflected towards a viewer by the concave surfaces of the protrusions. In a liquid crystal display, the turning film may be interposed between the light guide layer and a lower polarizer. In certain embodiments, the turning film may be the only optical layer interposed between the light guide layer and the lower polarizer. In other embodiments, the turning layer and a diffuser layer may be the only optical layers interposed between the light guide layer and the lower polarizer.



BACKLIGHT MODULE WITH MJT LED AND BACKLIGHT UNIT INCLUING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A backlight unit including a backlight module and a backlight control module. The backlight module includes a printed circuit board including blocks arranged in an M×N matrix, in which M and N are natural numbers of 2 or greater, and M blocks are arranged in a horizontal direction and N blocks are arranged in a vertical direction, and at least one light emitting device disposed on each of the blocks. The backlight control module is configured to perform a dimming control of the M×N blocks such that the at least one light emitting device in one block can be controlled independently from other light emitting devices disposed in the remaining blocks that are disposed in the horizontal direction and in the vertical direction with respect to the one block.



BACKLIGHT MODULE WITH MJT LED AND BACKLIGHT UNIT INCLUING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A backlight unit including a backlight module and a backlight control module. The backlight module includes a printed circuit board including blocks, and light emitting diode (LED) chips disposed on the blocks, and the backlight control module is configured to perform a dimming control of the LED chips. Each of the LED chips includes light emitting cells spaced apart from each other, each of the light emitting cells including a lower semiconductor layer, an upper semiconductor layer, and an active layer therebewteen, in which the lower semiconductor layers are partially exposed, connection structures electrically connecting the light emitting cells to each other, and an insulation layer disposed between the light emitting cells and the connection structures, the insulation layer covering a portion of the exposed lower semiconductor layers and having a width wider than the connection structures.



RECONFIGURABLE OPTICAL PROCESSING SYSTEM

Thu, 16 Feb 2017 08:00:00 EST

An optical processing system comprises an optical input; one or more spatial light modulator arrays; and a detector array; wherein at least of said spatial light modulator arrays incorporates a plurality of data elements focusing elements; said data elements and/or said focussing elements having multiple degrees of freedom.



Optical Imaging Apparatus

Thu, 16 Feb 2017 08:00:00 EST

An optical imaging apparatus is provided. The optical imaging apparatus includes at least one imaging source and a light deflecting control device placed on the imaging source, wherein a plurality of light emitted from the imaging source is deflected by the light deflecting control device and concentrates on a plurality of imaging forming points which located in at least one plane so as to form a two-dimensional/three-dimensional (2D/3D) image.



LIGHT GUIDE PLATE, BACKLIGHT UNIT, DISPLAY DEVICE AND DISPLAY CONTROL SYSTEM

Thu, 16 Feb 2017 08:00:00 EST

The disclosure provides a light guide plate, a backlight unit, a display device and a display control system. The light guide plate has a first operation state and a second operation state. In the first operation state, an upper surface of the light guide plate is a surface where light comes out, and in the second operation state, the upper surface of the light guide plate includes a light exiting region and a non-light exiting region. In the technical solution of the present disclosure, when the display device performs a regional displaying, the light guide plate operates in the second operation state, here the upper surface of the light guide plate includes the light exiting region and the non-light exiting region; light emitted by a light source finally comes out from the light exiting region of the light guide plate after reflections inside the light guide plate.



LIQUID CRYSTAL DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY AND METHOD FOR DARKENING PROCESS OF THE SAME

Thu, 16 Feb 2017 08:00:00 EST

The present invention provides a liquid crystal display device, a liquid crystal display, a manufacturing method and a darkening process. The liquid crystal display includes a lower substrate provided with a lower common electrode, a scanning line, a data line, a pixel electrode and a TFT. A gate electrode of the TFT is connected with the scanning line. A source electrode of the TFT is connected with a data line. A drain electrode of the TFT is connected with the pixel electrode. Wherein, the lower common electrode has an extension portion. A connection line of the data line and the source electrode of the TFT is spaced apart from and overlapped with the extension portion. When executing a darkening process, the connection line is disconnected from the data line, and connecting the extension portion and the connection line.



LIQUID-CRYSTAL DISPLAY

Thu, 16 Feb 2017 08:00:00 EST

A liquid-crystal display includes a first substrate including several sub-pixels. A micro-structure layer is formed on the first substrate, and the micro-structure layer corresponding to one of the sub-pixels includes a first main trunk portion, a second main trunk portion crossed the first main trunk portion, and several striped branch portions. The striped branch portions are connected with the first and second main trunk portions, wherein an angle is formed between the striped branch portions and the first main trunk portion, and the striped branch portions are alternately arranged with a pitch. A first electrode layer is conformally formed on the micro-structure layer. Specifically, the pitch in one of the sub-pixels is different from the pitch in another one of the sub-pixels, or the angle in one of the sub-pixels is different from the angle in another one of the sub-pixels.



LCD DEVICE

Thu, 16 Feb 2017 08:00:00 EST

A liquid crystal display device (100) includes: a liquid crystal layer (42) held between a pair of substrates (10, 30), the liquid crystal layer containing one or more types of positive liquid crystal compounds whose dielectric anisotropy is positive and one or more types of negative liquid crystal compounds whose dielectric anisotropy is negative, a total content of the positive liquid crystal compounds not being smaller than a total content of the negative liquid crystal compounds; a pixel electrode (24) provided in the pair of substrates, the pixel electrode having a plurality of linear portions and a slit; and a common electrode (22) insulated from the pixel electrode, wherein the pixel electrode and the common electrode apply across the liquid crystal layer a pixel voltage of positive polarity and a pixel voltage of negative polarity alternately at a frequency lower than 60 Hz.



DISPLAY DEVICE AND ELECTRONIC APPARATUS

Thu, 16 Feb 2017 08:00:00 EST

According to an aspect, a display device includes a plurality of pixels each including a plurality of sub-pixels. Each of the sub-pixels is arranged around center of the corresponding pixel and divided into a plurality of display regions to perform N-bit area coverage modulation by a combination of the display regions. The display regions are arranged in such a manner that: a display region corresponding to a least significant bit of the area coverage modulation is arranged closest to the center of the corresponding pixel; and a display region corresponding to a higher significant bit of the area coverage modulation is arranged around the center of the pixel and further from the center of the corresponding pixel (N is a natural number of 2 or more).



ARRAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY DEVICE

Thu, 16 Feb 2017 08:00:00 EST

An array substrate and a liquid crystal display device are disclosed. The array substrate is a rectangular substrate extended along an x-axis direction and a y-axis direction, and the x-axis direction and the y-axis direction are perpendicular with each other. The array substrate includes multiple pixel electrodes. Each pixel electrode includes a first portion and a second portion. The first portion is disposed aslant along a first direction. The first direction is different from the x-axis direction and the y-axis direction. The second portion is disposed aslant along a second direction. The second direction is different from the x-axis direction, the y-axis direction and the first direction. The present invention can improve the visibility of the picture on the liquid crystal display device when using polarized sunglasses to watch the liquid crystal display device so as to decrease dependence of the viewing angle.



CURVED LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A curved liquid crystal display includes an upper curved substrate; a lower curved substrate; a liquid crystal layer including liquid crystal molecules having negative dielectric anisotropy and between the upper and lower curved substrates; an upper curved liquid crystal alignment layer between the liquid crystal layer and the upper curved substrate; a lower curved liquid crystal alignment layer between the liquid crystal layer and the lower curved substrate. In a first region, a content of a reactive mesogen polymer per unit area of the lower curved liquid crystal alignment layer is higher that of the upper curved liquid crystal alignment layer, and in a second region, the content of the reactive mesogen polymer per unit area of the upper curved liquid crystal alignment layer is higher than that of the lower curved liquid crystal alignment layer.



CURVED LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A curved liquid crystal display includes a first curved substrate; a second curved substrate facing the first curved substrate; a liquid crystal layer disposed between the first curved substrate and the second curved substrate; a first curved liquid crystal alignment layer disposed between the liquid crystal layer and the first curved substrate and including vertical alignment functional groups; and a second curved liquid crystal alignment layer disposed between the liquid crystal layer and the second curved substrate.



LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

Provided are a liquid crystal display and a method of manufacturing a liquid crystal display. According to an aspect of the present inventive concept, there is provided a liquid crystal display which includes a first substrate which includes a display area and a non-display area disposed outside the display area, a second substrate which is located opposite the first substrate, a light-blocking pattern which is disposed on the non-display area, and a plurality of alignment layer barrier patterns which protrude from the black matrix toward the second substrate and are formed integrally with the light-blocking pattern in the non-display area.



HIGH TRANSMITTANCE VA TYPE LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURE METHOD THEREOF

Thu, 16 Feb 2017 08:00:00 EST

The present invention provides a high transmittance VA type liquid crystal display panel and a manufacture method thereof. The lower substrate (1) of the high transmittance VA type liquid crystal display panel comprises a first bump layer (12), and the upper substrate (2) comprises a second bump layer (22); the first bump layer (12) comprises a first convex part (121) and a first concave part (122) which are mutually spaced; the pixel electrode (13) continuously covers the first convex part (121) and first concave part (122) with a uniform thickness; the second bump layer (22) and the first bump layer (12) complement in structure, and the second bump layer (22) comprises a second convex part (221) and a second concave part (222) which are mutually spaced, and the common electrode (23) continuously covers the second convex part (221) and the second concave part (222) with a uniform thickness; the second convex part (221) is in accordance with the first concave part (122), and the second concave part (222) is in accordance with the first convex part (121).



DISPLAY PANEL

Thu, 16 Feb 2017 08:00:00 EST

A display panel is provided, and includes a first panel, a second panel, a liquid crystal layer, a backlight module and a quantum dot layer. The backlight module is configured to generate blue light. The quantum dot layer includes color block units. Red sub-color blocks and green sub-color blocks are disposed on first regions and second regions in the color block units, respectively. The red sub-color blocks and the green sub-color blocks respectively generate red light and green light under irradiation of the blue light. Third regions in the color block unit are used for the blue light to transmit therethrough. Therefore, the display quality of the display panel is improved.



LIQUID CRYSTAL DISPLAY

Thu, 16 Feb 2017 08:00:00 EST

The liquid crystal display provided by the present invention acquires the light of linear polarization by doping the quantum-dot material in the color resist layer to excite the quantum-dots by the backlight to form the light of a certain light spectrum and cooperating with the anisotropic polarization layer manufactured by organic dye molecules for selectively allowing the light of different polarization states to pass through. The light leakage issue due to the light polarization state change caused by the quantum-dot material can be effectively solved to raise the contrast ratio. The polarization layer can be employed to replace the upper or the lower polarizer, and thus, one polarizer attachment process can be omitted to simplify the process, to save the cost and meanwhile to achieve better polarization result.



FLEXIBLE LIQUID CRYSTAL DISPLAY

Thu, 16 Feb 2017 08:00:00 EST

The present invention provides a flexible liquid crystal display, comprising a flexible backlight module and a flexible liquid crystal display panel positioned on the flexible backlight module, and the flexible liquid crystal display panel comprises a lower polarizer, an array substrate, a liquid crystal layer, a color filter substrate and an upper polarizer from bottom to top in sequence; the color filter substrate comprises a first substrate, a color filter layer positioned on the first substrate, a flat layer positioned on the color filter layer, a common electrode layer positioned on the flat layer, a black matrix block wall positioned on the common electrode layer; wherein the common electrode layer comprises a plurality of electrode blocks, which are separately positioned, and the plurality of electrode blocks are electrically connected with metal lines to prevent that the brittle rupture of the common electrode layer happens during the bending operation.



LIQUID CRYSTAL DISPLAY AND METHOD FOR MANUFACTURING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A liquid crystal display (LCD) is provided, a liquid crystal display comprising: a first substrate and a second substrate that are opposite to each other; a liquid crystal layer arranged between the first substrate and the second substrate; a light blocking pattern including a first light blocking pattern and a second light blocking pattern arranged to extend along one direction on the first substrate; and a column spacer formed on the first light blocking pattern on the first substrate, wherein the light blocking pattern includes an open portion disposed between the first light blocking pattern and the second light blocking pattern, and formed to be spaced apart from the column spacer for a predetermined distance.



LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME

Thu, 16 Feb 2017 08:00:00 EST

A liquid crystal display includes a light source, a liquid crystal panel including first and second substrates, which face each other, and liquid crystals interposed between the first and second substrates, a bottom chassis which supports the liquid crystal panel, where the light source is disposed in the bottom chassis, and a first silica aerogel layer disposed between the liquid crystal panel and the bottom chassis.



DISPLAY DEVICE

Thu, 16 Feb 2017 08:00:00 EST

The described technology relates generally to a display device, and the display device according to an exemplary embodiment includes: a main panel; an auxiliary panel positioned at two opposing edges of the main panel; and a cover glass covering a front surface of the main panel and the auxiliary panel, wherein the auxiliary panel has a curved shape.



BRIGHT EDGE DISPLAY FOR SEAMLESS TILEABLE DISPLAY PANELS

Thu, 16 Feb 2017 08:00:00 EST

A display panel includes an array of display pixels to output an image. The array of display pixels includes a central pixel region and a perimeter pixel region. The central pixel region includes central pixel units each having three different colored sub-pixels. The different colored sub-pixels of the central pixel units are organized according to a central layout pattern that repeats across the central pixel region. The perimeter pixel region is disposed along a perimeter of the central pixel region and includes perimeter pixel units that increase a brightness of the image along edges of the central pixel region to mask gaps around the array of display pixels when tiling the array of display pixels with other arrays of display pixels.