40th week of 2017 patent applcation highlights part 48 |
Patent application number | Title | Published |
20170285323 | ENDOSCOPY SYSTEM - The present disclosure relates to an endoscopy system. The endoscope system includes: a first light source unit which is installed on a substrate; a second light source unit which is installed on the substrate and which emits light when the first light source unit does not emit light; an optical unit through which the light of the first light source unit or the second light source unit passes; a light guide unit which induces the light which passed through the optical unit to the inside of a target object; an image sensing unit which senses the light reflected and reached from the target object and which converts the sensed light into an image signal; and an image signal processing unit which processes the image signal to display on a display unit. | 2017-10-05 |
20170285324 | OPTICAL ARTICLE AND ILLUMINATION SYSTEM FOR ENDOSCOPE - An optical element, wherein axially symmetric or not, an output surface of which contains a plurality of indentations configured to increase a degree of divergence of light that is incident onto such surface through an input surface of the optical element. In one implementation, each of the indentations defines a corresponding aspheric lenslet the plurality of which encircles the central opening in the optical element. The optical element can he configured as a lightguide having the specified output surface. An illumination system for a laparoscope employing such optical element as an addition to the optical fiber bundle of the laparoscope or as a fiber bundle itself that has the specified output surface. | 2017-10-05 |
20170285325 | Hybrid MEMS scanning module - A scanning device includes a base containing one or more rotational bearings disposed along a gimbal axis. A gimbal includes a shaft that fits into the rotational bearings so that the gimbal rotates about the gimbal axis relative to the base. A mirror assembly includes a semiconductor substrate, which has been etched and coated to define a support, which is fixed to the gimbal, at least one mirror, contained within the support, and a connecting member connecting the at least one mirror to the support and defining at least one mirror axis, about which the at least one mirror rotates relative to the support. | 2017-10-05 |
20170285327 | METHOD FOR CONTROLLING POSITION OF A LINEAR MEMS MIRROR WITH VARIABLE RESOLUTION AND/OR LIGHT INTENSITY - The method for controlling an angular position of a MEMS mirror, includes: applying a first driving moment to the MEMS mirror to generate a rotational scanning movement of the mirror; and, at a zooming instant, applying a second driving moment to the MEMS mirror, wherein the second driving moment is equal to the first driving moment plus an extra moment. The extra moment may be a DC offset. After a transient period of time from zooming instant, a third driving moment M | 2017-10-05 |
20170285328 | ELECTRO-OPTIC DEVICE, ELECTRONIC APPARATUS, AND METHOD OF MANUFACTURING ELECTRO-OPTIC DEVICE - In an electro-optic device, a chip provided with a mirror and a drive element adapted to drive the mirror, a cover having a light-transmitting property and adapted to cover the mirror in a planar view, and a spacer located between the cover and the chip are disposed on an interconnection board. Further, a boundary between the cover and the spacer, a boundary between the chip and the spacer, and a part of the interconnection board are covered with an inorganic film such as an aluminum oxide film. The inorganic film also covers a part of a chip-side terminal and an internal terminal, and a conductive member. | 2017-10-05 |
20170285329 | ELECTRO-OPTIC DEVICE, ELECTRO-OPTIC UNIT, AND ELECTRONIC APPARATUS - An electro-optic device includes a chip provided with a mirror and a drive element adapted to drive the mirror, a light-transmitting cover adapted to cover the mirror in a planar view, and a spacer having contact with one surface of the chip between the cover and the chip. The entire part of one surface of the chip having contact with the spacer is made of a first material such as silicon oxide film having first thermal conductivity, and the spacer is made of a second material such as a quartz crystal having second thermal conductivity higher than the first thermal conductivity. The cover is made of a third material such as sapphire having third thermal conductivity higher than the second thermal conductivity. | 2017-10-05 |
20170285330 | ELECTRO-OPTIC DEVICE, ELETRO-OPTIC UNIT, AND ELECTRONIC APPARATUS - An electro-optic device includes an interconnection board provided with an internal terminal, and a chip mounted on the interconnection board, and the chip is provided with a mirror, a drive element, and a chip-side terminal electrically connected to the drive element. The interconnection board includes a first surface on which an internal terminal is disposed, a second surface located on an opposite side to the first surface, a third surface connecting the first surface and the second surface to each other, and a fourth surface located on an opposite side to the third surface. The interconnection board is provided with a metal member exposed on the first surface and the second surface, and through holes (a first through hole and a second through hole) extending from the third surface to the fourth surface and having contact with the metal member. | 2017-10-05 |
20170285331 | ILLUMINATION APPARATUS, OPTICAL APPARATUS, IMPRINT APPARATUS, PROJECTION APPARATUS, AND METHOD OF MANUFACTURING ARTICLE - The present invention provides an illumination apparatus which performs oblique illumination, the apparatus including a first optical element formed with an array of a plurality of optical components each configured to generate a point light source, and a second optical element configured to receive light from the first optical element and form an illumination region, with a power thereof in one direction being different from a power thereof in a direction perpendicular to the one direction, wherein at least one of the first optical element and the second optical element has a rotation angle about an optical axis thereof so as to perform compensate for distortion of the illumination region by the oblique illumination. | 2017-10-05 |
20170285332 | MEMS DEVICE OSCILLATING ABOUT TWO AXES AND HAVING A POSITION DETECTING SYSTEM, IN PARTICULAR OF A PIEZORESISTIVE TYPE - A MEMS device includes a platform carried by a frame via elastic connection elements configured to enable rotation of the platform about a first axis. A bearing structure supports the frame through first and second elastic suspension arms configured to enable rotation of the frame about a second axis transverse to the first axis. The first and second elastic suspension arms are anchored to the bearing structure through respective anchorage portions arranged offset with respect to the second axis. A stress sensor formed by first and second sensor elements respectively arranged on the first and second suspension arms is positioned in proximity of the anchorage portions, on a same side of the second axis, in a symmetrical position with respect to the first axis. | 2017-10-05 |
20170285333 | MEMBER FOR OPTICAL SCANNER, OPTICAL SCANNER, METHOD OF MANUFACTURING OPTICAL SCANNER, IMAGE DISPLAY DEVICE, AND HEAD-MOUNTED DISPLAY - A member for an optical scanner includes: a functional portion including a movable portion, a shaft portion oscillatably supporting the movable portion, and a support portion supporting the shaft portion; a wiring line provided on the movable portion; and a structure provided on the functional portion and thicker than the wiring line; the wiring line and the structure are provided on a first major surface of the functional portion. | 2017-10-05 |
20170285334 | ADAPTABLE LENS COVER ASSEMBLY - The present disclosure relates generally to optical devices. In particular, the present disclosure provides systems and devices relating to adaptable lens cover assemblies for protecting the optics of various optical devices, such as spotting scopes, telescopes, riflescopes and binoculars. The adaptable lens cover assemblies of the present disclosure are configured to protect the lenses of wide a range of optical devices, and enhance the overall durability and usefulness of an optical device. | 2017-10-05 |
20170285335 | COLD WEATHER CAMERA KIT - Various embodiments of the present disclosure may include an imaging system that includes a de-icing assembly. The de-icing assembly may include a de-icing window and a window frame. The de-icing window may be constructed from Float Zone Silicon, single crystal sapphire, and/or germanium. The de-icing assembly may be coupled to a lens barrel of a camera. Heat generated by a heater element of the camera may be conducted via the housing and the lens barrel of the camera to the de-icing assembly. The heated de-icing assembly may prevent the formation of ice on the de-icing window by conducting heat to the de-icing window. | 2017-10-05 |
20170285336 | CAMERA MODULE COMPRISING LENS, IMAGE PICKUP ELEMENT - In a camera module ( | 2017-10-05 |
20170285337 | GAZE DETECTION SYSTEM, GAZE POINT DETECTION METHOD, AND GAZE POINT DETECTION PROGRAM - A gaze detection system includes a head mounted display and a gaze detection device detecting the gaze of the user. The head mounted display illuminate users eyes with infrared light, displays three-dimensional image comprising a plurality of layers in the depth direction and captures an image of user's eye illuminated by the infrared light. The gaze detection device detects the user's right eye's gaze direction (vector) and left eye's gaze direction (vector) with use of the captured images. The gaze detection device identifies the layer that the user is gazing at by selecting the layer having the shortest distance between the intersection points of the right eye gaze vector and the left eye gaze vector with each layer as a gaze point in the depth direction. | 2017-10-05 |
20170285338 | VEHICULAR PROJECTION DISPLAY APPARATUS - A vehicular projection display apparatus includes: an intermediate image forming optical member; a display device disposed to project light including a display image to the intermediate image forming optical member, and to form an intermediate image as a virtual image or a real image, and an HUD optical system which receives the light of the intermediate image formed by the intermediate image forming optical member, which guides the light to a reflecting face of a windshield of a vehicle or a light reflecting member in a vicinity of the windshield, and which projects the light to allow the display image to be visually recognized as a virtual image at a predetermined eye point. The intermediate image forming optical member forms the intermediate image in a state in which at least part of the intermediate image is curved from a flat plane with respect to the display device. | 2017-10-05 |
20170285339 | INTERLAYERS HAVING ENHANCED OPTICAL PERFORMANCE - A tapered interlayer and windshield employing the same are provided. Unlike conventional windshields, which are optimized to reduce ghost images for a single driver height, the windshields of the present invention may exhibit reduced ghosting for drivers of multiple heights, including very tall or very short drivers, while also providing desirable image clarity for average-height drivers. Windshields as described herein may be used in a variety of applications, including automotive, aircraft, marine, and recreational vehicles that employ HUD projection systems. | 2017-10-05 |
20170285340 | LIGHT SOURCE DEVICE, IMAGE PROJECTION APPARATUS, AND HEAD-UP DISPLAY APPARATUS - According to an aspect, a light source device includes: a light emitting device that emits a light beam capable of being modulated; and a scanning device that deflects the light beam in a first direction and a second direction intersecting the first direction. The light beam has a light quantity varying region in which a light quantity decreases outward from a center of the light beam in at least one of the first direction or the second direction. The scanning device overlaps the light quantity varying regions of a plurality of the light beams with each other with respect to a scanning direction along directions in which the light quantities of the light beams decrease. | 2017-10-05 |
20170285341 | IMAGE DISPLAY DEVICE - The image display device ( | 2017-10-05 |
20170285342 | DISPLAY BOX - A display box is capable of supporting an electronic device. The electronic device is capable of emitting an image beam. A display box includes a box, a light-transmitting plate and a pivoting carrier. The box has a top-side opening and a viewing opening. The light-transmitting plate is obliquely arranged in the box and is capable of reflecting the image beam passing through the viewing opening to a target. The pivoting carrier has an accommodating recess and a first pivot axis. The pivoting carrier is disposed on the box. The pivoting carrier is pivoted beside the top-side opening by the first pivot axis. The electronic device is disposed in the accommodating recess, wherein the pivoting carrier rotates by the first pivot axis to make the electronic device face different positions. | 2017-10-05 |
20170285343 | Head worn display with foveal and retinal display - A head worn display system with at least one retinal display unit having a curved reflector positioned in front of one eye or both eyes of a wearer. The unit includes a first set of three modulated visible-light lasers co-aligned and adapted to provide a foveal laser beam with selectable color and a first scanner unit providing both horizontal and vertical scanning of the laser beam across a small portion of the curved reflector in directions so as to produce a reflection of the color laser beam through the pupil of the eye onto a portion of the retina large enough to encompass the fovea. The unit also includes a second set three modulated retinal visible-light lasers plus an infrared laser, all lasers being co-aligned and adapted to provide a color and infrared peripheral view laser beam, and a second scanner unit providing both horizontal and vertical scanning of the visible light and infrared laser beams across a portion of the curved reflector in directions so as to produce a reflection of the scanned color and infrared laser beams through the pupil of the eye onto a portion of retina corresponding to a field of view of at least 30 degrees×30 degrees. | 2017-10-05 |
20170285344 | PERIPHERAL DISPLAY FOR HEAD MOUNTED DISPLAY DEVICE - Various technologies described herein pertain to a head mounted display device having a display with a central portion and a periphery portion. Graphical content can be displayed on the central portion of the display. The central portion can be a primary display that provides a field of view and displays the graphical content, and the periphery portion can be a peripheral display. The peripheral display can be positioned relative to the primary display such that an overall field of view provided by the primary display and the peripheral display is extended compared to the field of view of the primary display. Further, complementary content can be rendered based on the graphical content and caused to be displayed on the periphery portion (e.g., the peripheral display). The complementary content can include a countervection visualization viewable in a far periphery region of a field of view of human vision. | 2017-10-05 |
20170285345 | AUGMENTED REALITY IN A FIELD OF VIEW INCLUDING A REFLECTION - Systems, apparatuses, and/or methods to augment reality. An object identifier may identify an object in a field of view of a user that includes a reflection of the user from a reflective surface, such as a surface of a traditional mirror. In addition, a reality augmenter may generate an augmented reality object based on the identification of the object. In one example, eyeglasses including a relatively transparent display screen may be coupled with an image capture device on the user and the augmented reality object may be observable by the user on the transparent display screen when the user wears the eyeglasses. A localizer may position the augmented reality object on the transparent display screen relative to the reflection of the user that passes though the transparent display screen during natural visual perception of the reflection by the user. | 2017-10-05 |
20170285346 | OPTICAL WAVEGUIDE DEVICE AND HEAD-MOUNTED DISPLAY APPARATUS USING THE SAME - An optical waveguide device and a head-mounted display apparatus using the same are provided. The optical waveguide device used for transmitting an image light includes a light entering surface, a first side surface, a second side surface, a plurality of beam splitters and at least one planar reflective structure. The image light enters the optical waveguide device through the light entering surface. The first side surface is parallel to the second side surface. The beam splitters are disposed between the first side surface and the second side surface. The beam splitters are parallel to each other and are arranged in intervals. The at least one planar reflective structure is disposed between the beam splitters and the light entering surface, and the planar reflective structure is parallel to the first side surface. The planar reflective structure and the light entering surface have a gap therebetween. | 2017-10-05 |
20170285347 | Augmented/Virtual Reality Near-Eye Displays with Edge Imaging Lens Comprising a Plurality of Display Devices - A system for near-eye display applications. A lens is provided with a beam-splitting interface horizontally along the width of the lens. Two display devices per lens are provided and disposed on the perimeter surface of the lens opposing an overlapped, prismatic facet optics assembly which balances aberration introduced by the slight symmetry break in the lens. | 2017-10-05 |
20170285348 | LIGHT HOMOGENIZATION - An optical reflective device for homogenizing light including a waveguide having a first and second waveguide surface and a partially reflective element is disclosed. The partially reflective element may be located between the first waveguide surface and the second waveguide surface. The partially reflective element may have a reflective axis parallel to a waveguide surface normal. The partially reflective element may be configured to reflect light incident on the partially reflective element at a first reflectivity for a first set of incidence angles and reflect light incident on the partially reflective element at a second reflectivity for a second set of incident angles. | 2017-10-05 |
20170285349 | FIELD OF VIEW ENHANCEMENT - An optical reflective device for reflecting light including a grating medium having a first and second grating structure is disclosed. The first grating structure may be configured to reflect light of a wavelength about a first reflective axis offset from a surface normal of the grating medium at a first incidence angle. The second grating structure may be configured to reflect light of the wavelength about a second reflective axis offset from the surface normal of the grating medium at a second incidence angle different from the first incidence angle. The second reflective axis may be different from the first reflective axis. | 2017-10-05 |
20170285350 | CONTENT PRESENTATION IN HEAD WORN COMPUTING - Aspects of the present invention relate to methods and systems for presenting digital content in a field of view of a head-worn computer. A method involves pre-setting a geo-spatial location where content will be displayed to a user of a see-through head-worn display, establishing a region proximate the geo-spatial location, causing a marker recognition system of the head-worn see-through display to activate when data indicates that the see-through head-worn display is within the region, wherein the marker recognition system monitors a surrounding environment to identify a marker that will act as a virtual anchor for the presentation of the content, and causing the marker recognition system to de-activate when the marker recognition system identifies the marker. | 2017-10-05 |
20170285351 | LASER VIA DRILLING APPARATUS AND METHODS - A method includes generating a laser beam and applying the beam to a substrate to form a via in the substrate. The laser beam has an intensity profile taken at a cross-section transverse to the direction of propagation of the beam. The intensity profile has a first substantially uniform level across an interior region of the cross-section and a second substantially uniform level across an exterior region of the cross-section. The second intensity level is greater than the first intensity level. | 2017-10-05 |
20170285352 | ILLUMINATION OPTICAL SYSTEM AND IMAGE PROJECTION APPARATUS WITH THE SAME - An illumination optical system illuminates an image display element and includes a first lens array configured to divide light emitted from a light source, a second lens array configured to receive light from the first lens array, and a condenser optical system configured to guide light from the second lens array to the image display element, and a conjugate point of the image display element is located between an incident surface of the first lens array and an incident surface of the second lens array. | 2017-10-05 |
20170285353 | Light splitting module for obtaining spectrums and dual-mode multiplexing optical device - A light splitting module for obtaining spectrums of an object to be tested is disclosed, which sequentially includes a light entrance window, a diffuser and a filter array along a light entrance direction, wherein the filter array is an angle modulated filter array which has multiple subareas and includes multiple filters with different center wavelengths respectively corresponding to the subareas. Also, a dual-mode multiplexing optical device is disclosed, which includes the light splitting module, an illumination module and a light field imaging module, can realize the integration of spectral detection and light field imaging, so it can be applied to material spectral detection, digital image detection and digital focusing for obtaining high-resolution imaging results; and simultaneously, the modules of the device are detachable, so that users can use the device as required. | 2017-10-05 |
20170285354 | LASER LIGHT SOURCE DEVICE AND VIDEO DISPLAY DEVICE - It is an object to provide a small and inexpensive laser light source device capable of efficiently focusing rays of laser light from a plurality of laser light sources so as to increase output, and to provide an inexpensive and small video display device. The plurality of laser light source units are arranged in such manner that the plurality of laser light source units adjacent to each other adjoin each other in series. The laser light source device further includes a second reflection mirror reflecting, in a third direction, a ray of laser light reflected in a second direction. The second reflection mirror is held by a mirror holder belonging to one laser light source unit among the plurality of laser light source units. | 2017-10-05 |
20170285355 | Method for Representing Items of Information in a Means of Transportation, and Instrument Cluster for a Motor Vehicle - In a method for displaying items of information in a transportation device, the items of information are displayed in the form of hierarchical menu structures. A device for displaying items of information includes a control unit and a display unit for the stereoscopic and/or autostereoscopic display of items of information. In the method, the display is implemented stereoscopically, at least two different menus or menu items being displayed to the viewer at different distances. The instrument cluster includes the placement of a mask in front of the display of a display unit, the mask modifying the light emission of the light emitted by the display so as to result in a display of autostereoscopic images. | 2017-10-05 |
20170285356 | STEREO DISPLAY DEVICE - A stereo display device includes plural projectors, a lens array, and a concave axicon lens array. The projectors project images to plural viewing regions at an image side. The lens array is disposed between the projectors and the image side. The concave axicon lens array is disposed between the lens array and the image side. | 2017-10-05 |
20170285357 | MULTI-VIEW DISPLAY DEVICE - A multi-view display device is provided, and the multi-view display device at least comprises a projector, a first lens set, and a second lens set. The projector contains a scan-lamp image, and the projector slants an incident ray corresponding to the scan-lamp image with a first angle. The first lens set receives the slanted incident ray and refracts that. The second lens set is slanted with the first angle, and the second lens set receives the slanted incident ray which is refracted by the first lens set and refracts that again, so as to expand a view area of the multi-view display device. | 2017-10-05 |
20170285358 | Display Substrate And Manufacturing Method Thereof, Display Driving Method, And Display Device - Embodiments of the present disclosure provide a display substrate and a manufacturing method thereof, a display driving method and a display device. The display substrate includes: a transparent base; a bidirectional light emitting element array emitting light in a first direction and a second direction perpendicular to the transparent base; a first variable grating array transmits or blocks the light emitted by odd-numbered columns of bidirectional light emitting elements in the first direction; a second variable grating array transmits or blocks the light emitted by odd-numbered columns of bidirectional light emitting elements in the second direction; a third variable grating array transmits or blocks the light emitted by even-numbered columns of bidirectional light emitting elements in the first direction; and a fourth variable grating array transmits or blocks the light emitted by even-numbered columns of bidirectional light emitting elements in the second direction. Multiple display modes can be realized. | 2017-10-05 |
20170285359 | DISPLAY DEVICE - According to one embodiment, a display device includes a display module which emits display light, a polarizing element including a transmission axis which transmits first linearly polarized light, the polarizing element reflecting second linearly polarized light intersecting the transmission axis, and an optical element includes a retroreflector which retroreflects light reflected from the polarizing element, the optical element being curved, and includes a first portion which is concave, and a second portion which is convex and is connected to the first portion. | 2017-10-05 |
20170285360 | STEREOSCOPIC DISPLAY for NAKED EYES - The present application discloses a stereoscopic display for naked eyes includes a two-dimensional display panel, a stereoscopic module for the naked eyes and a light converting module. The stereoscopic module for the naked eyes is deposited between the two-dimensional display panel and the light converting module. The two-dimensional display panel is used to output a two-dimensional image based on the linearly polarized light; the stereoscopic module for the naked eyes is used to output a three-dimensional image based on the linearly polarized light. The light converting module is used to convert the linearly polarized light to a circularly polarized light and output a three-dimensional image based on the circularly polarized light. | 2017-10-05 |
20170285361 | STAGE APPARATUS - A stage apparatus includes a movable member configured to move in a direction parallel to a predetermined plane, a base member configured to support the movable member to move relative to the base member, and a thrust generator including: a magnet provided on one the movable member and the base member, and a coil provided on the other of the movable member and the base member. The magnet and the coil generating a thrust to move the movable member in a direction parallel to the predetermined plane. A magnetic flux density of the magnet toward the coil changes along the thrust direction. | 2017-10-05 |
20170285362 | LENS DRIVING MECHANISM AND METHOD FOR CONTROLLING THE SAME - A lens driving mechanism is provided. The lens driving mechanism is configured to drive an optical lens, including a holder, a base, a first elastic element, and a first biasing element. The optical lens is disposed in a receiving space of the holder. The base has a central axis, and the holder is movable relative to the base. The first elastic element is connected to the holder and the base. The first biasing element exerts a force on the holder so that an optical axis of the optical lens has an angular displacement relative to the central axis. | 2017-10-05 |
20170285363 | LENS DRIVING DEVICE - A lens driving device includes a base and a frame movably connected to the base. A holder carries a lens and is movably disposed in the frame. A focus driving unit includes at least one first coil disposed on the holder and at least one first magnetic element disposed on the frame and corresponding to the first coil. Electromagnetic induction occurs between the first coil and the first magnetic element, so that the holder is moved along an optical axis of the lens with respect to the base. A tilt driving unit includes several first electromagnetic driving parts disposed on opposite sides of the holder and several second electromagnetic driving parts disposed on the frame and corresponding to the first electromagnetic driving parts. Electromagnetic induction occurs between the first and second electromagnetic driving parts, so that the holder is tilted with respect to the base. | 2017-10-05 |
20170285364 | IMAGE STABILIZATION APPARATUS, LENS APPARATUS HAVING IMAGE STABILIZATION APPARATUS, AND IMAGE PICKUP APPARATUS HAVING IMAGE STABILIZATION APPARATUS - An image stabilization apparatus for a lens apparatus that moves an image stabilizing lens perpendicularly to optical axis includes a fixed barrel, a lens moving frame holding the image stabilizing lens and movable relative to the fixed barrel perpendicularly to the optical axis, an actuator that drives the lens moving frame relative to the fixed barrel, and the encoders used to determine the position of the lens moving frame relative to the fixed barrel. Each encoder includes a scale fixed to either the lens moving frame or the fixed barrel and a detector fixed to the other, the scale is arranged so that its grating is arranged in a radial direction about the optical axis so that the encoder has sensitivity to radial displacement of the lens moving frame about the optical axis which is higher than sensitivity to rotational displacement of the lens moving frame about the optical axis. | 2017-10-05 |
20170285365 | IMAGING APPARATUS AND IMAGE BLUR CORRECTION METHOD - An imaging apparatus includes: a detection unit that detects accelerations in directions of three orthogonal axes; a generation unit that, in a case in which a difference between the magnitude of a resultant vector of the accelerations in the directions of the three orthogonal axes and the magnitude of the acceleration of gravity is equal to or less than a predetermined threshold value, generates a reference vector using the resultant vector; and a correction unit that corrects an image blur caused by translational shakes in directions of two orthogonal axes perpendicular to at least an optical axis of an imaging optical system, using the reference vector, on the basis of the accelerations in the directions of the three orthogonal axes. | 2017-10-05 |
20170285366 | INFRARED VIDEO DISPLAY EYEWEAR - A wearable display apparatus for viewing video images of scenes and/or objects illuminated with infrared light, the display apparatus including a transparent display that is positioned in a user's field of vision when the display apparatus is worn, a stereoscopic video camera device including at least two cameras that each capture reflected infrared light images of a surrounding environment and a projection system that receives the infrared light images from the stereoscopic camera device, and simultaneously projects (i) a first infrared-illuminated video image in real-time onto a left eye viewport portion of the transparent display that overlaps a user's left eye field of vision and (ii) a second infrared-illuminated video image in real-time onto a right eye viewport portion of the transparent display that overlaps a user's right eye field of vision. | 2017-10-05 |
20170285367 | COUNTERWEIGHT DEVICE FOR EYEGLASSES - Implementations of a counterweight device for eyeglasses are provided. In some implementations, a counterweight device may be secured to the backend of each temple and thereby remove some to all weight of the eyeglasses from the nose and/or cheeks of the wearer. In some implementations, a pair of counterweight devices may be used to counterbalance the weight of a pair of eyeglasses. In some implementations, a counterweight device may comprise an elastic loop attached to a weight by a connector. In some implementations, a counterweight device may include fasteners configured to removably secure a weight to an elastic loop or to another weight dangling from an elastic loop. In this way, through the use of threaded fasteners, the overall weight and/or look of a counterweight device may be changed by the wearer. In some implementations, a lanyard may be used in conjunction with a pair of counterweight devices. | 2017-10-05 |
20170285368 | THERAPEUTIC EYEWEAR FRAME - A therapeutic eyewear frame is disclosed. A therapeutic agent is integrated with one or more frame before, during or after forming a material into the frame, the therapeutic agent having between 100 and 10,000 negative ions per cubic centimeter. | 2017-10-05 |
20170285369 | Lenses, Devices, Systems and Methods for Refractive Error - The present disclosure is directed to lenses, devices, methods and/or systems for addressing refractive error. Certain embodiments are directed to changing or controlling the wavefront of the light entering a human eye. The lenses, devices, methods and/or systems can be used for correcting, addressing, mitigating or treating refractive errors and provide excellent vision at distances encompassing far to near without significant ghosting. The refractive error may for example arise from myopia, hyperopia, or presbyopia with or without astigmatism. Certain disclosed embodiments of lenses, devices and/or methods include embodiments that address foveal and/or peripheral vision. Exemplary of lenses in the fields of certain embodiments include contact lenses, corneal onlays, corneal inlays, and lenses for intraocular devices both anterior and posterior chamber, accommodating intraocular lenses, electro-active spectacle lenses and/or refractive surgery. | 2017-10-05 |
20170285370 | AUTOMATIC FALSE PUPIL CONTACT LENS - In one example an automatic false pupil contact lens comprises a body formed from an optically translucent material and a coating on the body formed from at least one of a photochromatic material or an electrochromatic material that, in response to an input, is to change between a first state in which the coating is optically translucent and a second state in which the coating is optically opaque in response to an input. Other examples may be described. | 2017-10-05 |
20170285371 | Novelty Shades - Attractive eyeglasses and novelty shades are provided that are fun and entertaining and can be worn at sporting events, pep rallies, amusement parks, popular concerts, car races, parties, with costumes, and at other places. The improved eyeglasses and novelty shades can comprise an eye glass assembly with a novelty connected to an eyeglass frame. Desirably, the novelty comprises a headband or a part of at least one imitation vehicle or other transportation. The headband can comprise a unitary one-piece headband or an interlocking multiple piece headband. The headband can further comprises a decorative portion, such as an imitation crown, tiara, coronet, or wreath. Preferably, the attractive imitation vehicle has at least one wheel well which is positioned about one of the earpieces of the eyeglass frame. | 2017-10-05 |
20170285372 | OPTICAL MODULATION DEVICE - An optical modulation device includes: an optical waveguide formed above a substrate; a phase modulator disposed on part of the optical waveguide; a capacitor connected to the phase modulator and including a lower electrode and an upper electrode; a resistor connected in parallel to the capacitor; and an appended part integrated with the upper electrode and electrically connected to the resistor, wherein the appended part is smaller in area than the capacitor (upper electrode). | 2017-10-05 |
20170285373 | Automatic Endless Polarization Controller For A Silicon-On-Insulator Platform - A photonic platform based polarization controller providing a fixed target polarization is disclosed. The polarization controller has a polarization rotator splitter splitting the beam into first and second feeds corresponding to first and second orthogonal polarization components. A first Mach-Zehnder interferometer (MZI) stage provides a first phase delay between the first and second feeds based on a first control signal, and a first mixer mixes the first and second feeds to provide third and fourth feeds. A second MZI stage provides a second phase delay between the third and fourth feeds based on a second control signal, and a second mixer mixes the third and fourth feeds to provide fifth and sixth feeds. A third MZI stage provides a third phase delay between the fifth and sixth feeds based on a third control signal, and a third mixer mixes the fifth and sixth feeds to provide the fixed target polarization. An optical tap splits a portion of the beam. | 2017-10-05 |
20170285374 | GOA CIRCUIT BASED ON LTPS SEMICONDUCTOR THIN FILM TRANSISTOR - The present invention provides a GOA circuit based on LTPS semiconductor thin film transistor to control the voltage levels of the first node, the second node and the third node (Q(n), P | 2017-10-05 |
20170285375 | SHIFT REGISTER, DISPLAY DEVICE PROVIDED WITH SAME, AND METHOD FOR DRIVING SHIFT REGISTER - The present invention provides a monolithic gate driver that includes fewer elements than in conventional configurations. A plurality of stages included in a shift register are divided into a plurality of stage circuit groups, where each stage circuit group includes the stage circuits of P adjacent stages (two stages, for example). Each stage circuit group includes a stabilization node and a stabilization node controller that controls the voltage of the stabilization node. The stabilization node controller includes: thin-film transistors in which the gate terminals thereof are connected to output control nodes, the drain terminals thereof are connected to the stabilization node, and the source terminals thereof are connected to an input terminal for a DC supply voltage; and a thin-film transistor for changing the voltage of the stabilization node to a high level. | 2017-10-05 |
20170285376 | DISPLAY DEVICE - According to an aspect, a display device includes: a substrate including a display region and a non-display region surrounding the display region; at least one driver IC including connecting terminals with a first surface fixed to face the non-display region; first wires supplying a signal to the display region; first bumps connected with the first wires; second wires transferring a signal to and from outside; second bumps connected with the second wires; and inspection wires. The connecting terminals of the driver IC include first connecting terminals overlapping the first or second bumps in plan view, and second connecting terminals not overlapping the first or second bumps in plan view. The inspection wires include a connecting conductor between themselves and at least one of the second connecting terminals. The inspection wires are pulled out to an outside of the driver IC in plan view. | 2017-10-05 |
20170285377 | LIQUID CRYSTAL DISPLAY DEVICE - A first substrate ( | 2017-10-05 |
20170285378 | LARGE SUBSTRATE AND METHOD OF MANUFACTURING LARGE SUBSTRATE - A large substrate includes, in which the sealing material includes at least a first sealing material disposed between an element substrate and a counter substrate in a central region of the first large substrate and the second large substrate, and a second sealing material disposed between the element substrate and the counter substrate in an outside region of the first large substrate and the second large substrate, and when a cell gap in a display region of the element substrate and the counter substrate in the central region and the outside region is set to be constant, a gap amount of a region in which the first sealing material is provided and a gap amount of at least a portion of a region in which the second sealing material is provided are different from each other. | 2017-10-05 |
20170285379 | DISPLAY DEVICE - According to one embodiment, a display device includes a first scanning line, a signal line, a second pixel electrode, a first pixel electrode, a second thin-film transistor, a first line and a second line. | 2017-10-05 |
20170285380 | ARRAY SUBSTRATE AND SEMICONDUCTOR DEVICE CONTAINING THE SAME, AND METHOD FOR FABRICATING THE SAME - The present disclosure provides an array substrate. The array substrate includes a substrate having a display region with a plurality of pixel regions, each pixel region having two or more first regions; a common electrode line between two adjacent pixel regions; a gate line; a data line intersecting with the gate line; at least one of the gate line and the data line being in a second region between two adjacent first regions; and a pixel electrode having a hollowed-out pattern within a corresponding first region, pixel electrodes corresponding to the two or more first regions being a pixel electrode unit. | 2017-10-05 |
20170285381 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREFOR, AND DISPLAY PANEL - Provided are an array substrate and a manufacturing method therefor, and a display panel. The array substrate comprises: a base substrate; a data line and a passivation layer which are formed on the base substrate; a common electrode layer formed on the passivation layer; and a shielding electrode layer and a barrier layer which are formed on the base substrate, wherein the shielding electrode layer is arranged between the data line and the passivation layer, the barrier layer is arranged between the data line and the shielding electrode layer, the shielding electrode layer is grounded, and the barrier layer is made of a material with an insulation function. | 2017-10-05 |
20170285382 | MIRROR DISPLAY HAVING TOUCH PANEL - One aspect of the present invention provides a touch panel-equipped mirror display that can reduce distortion and ghosting in mirror images while also reducing the rainbow effect in displayed images. The touch panel-equipped mirror display according to one aspect of the present invention includes, in order from a rear side: a display device that includes a polarizer; a touch panel; and a mirror plate that includes a reflective polarizer and a substrate, wherein the reflective polarizer and the substrate are fixed together, and wherein the touch panel does not create a phase difference in light. It is preferable that the substrate be a glass substrate with a thickness of greater than or equal to 0.1 mm and less than or equal to 0.4 mm. | 2017-10-05 |
20170285383 | Touch Panel and Preparation Method Therefor - A touch panel and a preparation method therefor, which relate to the technical field of electronic device preparation. The method for preparing a touch panel comprises: firstly, preparing a BM frame layer ( | 2017-10-05 |
20170285384 | LIQUID CRYSTAL DISPLAY DEVICE AND LIQUID CRYSTAL DISPLAY SYSTEM - According to one embodiment, a liquid crystal display device includes an optical member including a polarizer having an absorption axis and a transmission axis, a liquid crystal display panel including a light-reflecting layer and a liquid crystal layer located between the light-reflecting layer and the optical member, and a lighting unit located on a side opposite to the optical member with respect to the liquid crystal display panel to release linearly polarized light transmitted through the polarizer toward the polarizer side. | 2017-10-05 |
20170285385 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display panel for displaying images in an active area includes a first substrate having a pair of first short ends and first long ends. A second substrate faces the first substrate so as to hold a liquid crystal layer therebetween. A first polarization plate is arranged on an outside surface of the first substrate. The first polarization plate has a pair of second short ends longer than the first short ends, a pair of second long ends, and a first absorption axis. The angle a | 2017-10-05 |
20170285386 | DISPLAY DEVICE - A liquid crystal display device includes a first substrate, a second substrate, a liquid crystal layer and a plurality of spacers. A display region of the first substrate includes a thin film transistor, a reflective electrode, a light-shielding layer and a color filter. A display region of the second substrate includes a second alignment layer. The plurality of spacers is integrally formed in the first substrate. | 2017-10-05 |
20170285387 | LCD Display With Highlighting - A display including a liquid crystal layer, a light source, and a wall. The liquid crystal layer includes a first display area, a second display area, and a transition area therebetween. The light source is configured to generate light of a first intensity to illuminate the first display area with light of the first intensity, and generate light of a second intensity that is greater than the first intensity to illuminate the second display area with light of the second intensity. The wall is opposite to the transition area and is configured to permit passage of light of the first intensity and light of the second intensity to the transition area such that at the transition area there is a gradual transition from light of the second intensity proximate to the second display area to light of the first intensity proximate to the first display area. | 2017-10-05 |
20170285388 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a TFT substrate and a counter substrate and a liquid crystal layer sandwiched therebetween. A scanning line, a video signal line, a thin film transistor connected to the scanning line and the video signal line, a pixel electrode connected to the thin film transistor, and a counter electrode are formed on the TFT substrate, and a columnar spacer formed on the counter substrate. The pixel and counter electrodes are transparent, and the liquid crystal layer is controlled by an electric field generated between the pixel and counter electrodes. The counter electrode contacts with a metal line having a first part which is extended in parallel with the scanning line and a second part which is extended in parallel with the video signal line, a width of the first part of the metal line being narrower than a width of the scanning line. | 2017-10-05 |
20170285389 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - A liquid crystal display device includes: a first substrate including a gate line, a data line, a pixel electrode, a common electrode, and a photo-alignment film; a second substrate including a photo-alignment film; a liquid crystal layer including a negative liquid crystal molecule; and a spacer that keeps an interval between the substrates constant. The first substrate and the second substrate are formed such that a rate of change is larger than 6.25% in the spacer, the rate of change indicating a rate of an amount of change to a reference height, the amount of change indicating a difference between the reference height and a height after pushing and bonding of the first substrate and the second substrate to each other, the reference height indicating an original height before bonding of the first substrate and the second substrate to each other. | 2017-10-05 |
20170285390 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes: a first substrate including a display area and a non-display area; a gate line in the display area and a gate pad in the non-display area, the gate line extending in a first direction; a data line in the display area, the data line extending in a second direction intersecting the first direction; a thin film transistor at an intersection point among the gate line and the data line; a step-difference pattern on the gate pad; and a protective layer including a first protective layer on the thin film transistor and a second protective layer on the step-difference pattern and the gate pad. The second protective layer has a height less than a height of the first protective layer. | 2017-10-05 |
20170285391 | CURVED BACKLIGHT UNIT, MANUFACTURING METHOD THEREOF AND DISPLAY DEVICE - A curved backlight unit, a display device and a manufacturing method are disclosed. The curved backlight unit includes a light guide plate (LGP), one or more cambered positioning pieces. The LGP is a curved LGP formed by extending from a center position of the LGP to both sides along a first direction and includes an inner cambered surface and an outer cambered surface. A second direction, perpendicular to the first direction, in the inner cambered surface or the outer cambered surface of the LGP is a linear direction. At least the center position of the LGP and at least one position on each side of the center portion are fixedly connected with a cambered structure of at least a same cambered positioning piece; and a bending direction of the cambered surfaces of the LGP is consistent with a bending direction of the cambered structure of the cambered positioning piece. | 2017-10-05 |
20170285392 | CURVED DISPLAY AND AUTOMOTIVE DEVICE - A curved display comprises a first substrate | 2017-10-05 |
20170285393 | DISPLAY DEVICE - A display device includes: a base substrate including a pixel area at which an image is displayed; a light blocking pattern on the base substrate; a thin film transistor on the light blocking pattern; a gate line connected to the thin film transistor and lengthwise extending in a first direction; a data line connected to the thin film transistor and lengthwise extending in a second direction; and a pixel electrode in the pixel area and spaced apart from the gate line in the second direction. The light blocking pattern includes: a first light blocking pattern lengthwise extending in the first direction; and a second light blocking pattern overlapping the thin film transistor. The first light blocking pattern overlaps the gate line and the pixel electrode spaced apart from each other in the second direction. | 2017-10-05 |
20170285394 | Display Screen, Display Screen Assembly, and Terminal - Provided are a display screen, a display screen assembly, and a terminal. The display screen includes a display panel and an optical film. The display panel includes a display surface and a side surface. The display surface is configured to display an image. The display surface includes a non-display region and a display region. The non-display region surrounds the display region. The side surface surrounds the periphery of the display surface. The optical film includes a lightproof portion and a light-transmitting portion. The light-transmitting portion is stacked on the display region, and correspondingly covers the display region. The lightproof portion is fixedly connected to the light-transmitting portion. The lightproof portion is stacked on the side surface and the non-display region, and correspondingly covers the side surface and the non-display region. | 2017-10-05 |
20170285395 | COLOR FILTER SUBSTRATE, MANUFACTURING METHOD THEREOF, DISPLAY PANEL, MANUFACTURING METHOD THEREOF AND BRIGHT SPOT DEFECT CORRECTION METHOD THEREOF, AND DISPLAY APPARATUS - A color filter substrate includes: a transparent substrate; and a black matrix film, a color material film, and a repair color material film. which are formed on the substrate, wherein, in a display region, the repair color material film is formed on one of an upper surface and a lower surface of the black matrix film in at least a part overlapping the black matrix film in a plan view. | 2017-10-05 |
20170285396 | ELECTRO-OPTICAL DEVICE, ELECTRONIC APPARATUS, AND METHOD OF MANUFACTURING ELECTRO-OPTICAL DEVICE - In forming of an element substrate of an electro-optical device, after a plurality of films having a film that forms the pixel switching elements on one surface side of the substrate and a film that forms the pixel electrodes are formed, the substrate is removed through polishing and etching, and thus a layered structure is acquired. Subsequently, in pasting, a surface, on which the substrate is located, is pasted to a lens array substrate that is provided with a lens surface and a lens layer, which covers the lens surface, by an adhesive layer in the layered structure such that the pixel electrodes overlap the lens surface in plan view. | 2017-10-05 |
20170285397 | METHOD OF MANUFACTURING ELECTRO-OPTICAL DEVICE, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - In a step of forming an element substrate of an electro-optical device, a layered structure, which includes a plurality of films having a film that forms pixel switching elements and a film that forms holding capacitors, is formed on one surface of the substrate, and, thereafter, a lens surface and a lens layer are formed on a second surface of the layered structure. Subsequently, after the substrate is removed by polishing and etching, pixel electrodes are formed on a side of a first substrate, on which the substrate is located, of the layered structure. Therefore, the holding capacitors are provided on a side opposite to a side of the pixel electrodes (side of a counter substrate) for the pixel switching elements. | 2017-10-05 |
20170285398 | LIQUID CRYSTAL DISPLAY - In a liquid crystal display, a liquid crystal cell and a polarizing plate respectively have a planar, non-rectangular shape. The polarizing plate has an axis that is either an absorption axis or a slow axis. The planar shape of the polarizing plate includes first and second sides respectively extending in a direction perpendicular to the axis and a direction tilted from the axis. The polarizing plate includes first and second peripheral portions respectively lying along the first and second sides, and includes a corner portion lying at a portion where the first and second peripheral portions overlap each other. The polarizing plate is applied by a bonding agent onto a main surface of the liquid crystal cell so that the corner portion is not coupled to the main surface. A contour portion extending in a direction tilted from the axis may not be coupled to the main surface. | 2017-10-05 |
20170285399 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel ( | 2017-10-05 |
20170285400 | DISPLAY DEVICE - A display device includes a first substrate and a second substrate opposing each other, a reflecting layer, which reflects light incident on the reflecting layer, on the first substrate, a polarizing layer which is disposed on the second substrate and includes a polarizing portion that polarizes light incident on the polarizing portion and a reflecting portion that reflects light incident on the reflecting portion, a liquid crystal layer between the reflecting layer and the polarizing layer, and a retardation layer between the liquid crystal layer and the polarizing layer. | 2017-10-05 |
20170285401 | REFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides a reflective liquid crystal display device, which includes an upper substrate and a lower substrate that are opposite to each other, a liquid crystal layer arranged between the upper and lower substrates, a transparent plastic layer bonded to a surface of the lower substrate that is distant from the liquid crystal layer, and a mirror-reflection layer that is attached by the transparent plastic layer to the surface of the lower substrate. The transparent plastic material of the transparent plastic layer for attaching the mirror-reflection layer contains therein transparent particles and the transparent plastic material and the transparent particles have different reflectivity so as to provide an effect of diffuse reflection. Namely, the transparent plastic layer and the mirror-reflection layer are combined together to provide a diffuse-reflection layer, so that compared to the conventional reflective liquid crystal display devices, there is no need to conduct an additional process for forming a diffuse-reflection layer, thereby simplifying the manufacturing of the diffuse-reflection layer and reducing the difficulty and cost of the manufacturing. | 2017-10-05 |
20170285402 | DISPLAY DEVICE - According to one embodiment, a display device includes an optical element which transmits or reflects incident light, and a first reflective element including a first reflective portion and a second reflective portion. The first reflective portion retroreflects reflective light reflected on the optical element. The second reflective portion has an area less than an area of the first reflective portion and regularly reflects the reflective light. | 2017-10-05 |
20170285403 | Display Construct with Integrated Switchable Mirror and Corresponding Systems and Methods - A display device includes a liquid crystal display operable to selectively transmit light. The display device also includes a switchable mirror that is operable to switch from a pellucid state to a reflective state. The liquid crystal display includes a liquid crystal layer disposed between a first substrate and a second substrate. To preserve color integrity, a color filter and a switchable mirror is also disposed between the first substrate and the second substrate. | 2017-10-05 |
20170285404 | DISPLAY PANEL, INPUT/OUTPUT PANEL, AND DATA PROCESSING DEVICE - A novel display panel that is highly convenient or reliable is provided. A novel input/output panel that is highly convenient or reliable is provided. A novel data processing device that is highly convenient or reliable is provided. The display panel includes a layer containing a liquid crystal material, a first pixel, a second pixel, and an anti-reflection structure. The layer containing a liquid crystal material includes a first region, a second region, and a third region. The first pixel includes the first region. The second pixel includes the second region. The anti-reflection structure includes a region overlapping with the third region. The anti-reflection structure has a function of reducing reflectance of visible light which enters through the layer containing a liquid crystal material. | 2017-10-05 |
20170285405 | DISPLAY PANEL, DISPLAY MODULE AND DISPLAY METHOD THEREOF, AND DISPLAY DEVICE - A display panel, a display module and a display method thereof, and a display device are provided. The display module includes a backlight module and a display panel. A driving circuit and a photosensor are provided on the display panel, and the photosensor is electrically connected with the driving circuit. When the backlight module receives a backlight control signal, the backlight module emits light based on a light emission frequency indicated by the backlight control signal, and the backlight control signal is converted from a display signal output from a host. The photosensor detects an optical signal generated by the backlight module, converts the optical signal into an electric signal, and transmits the electric signal to the driving circuit, such that the driving circuit drives the display panel to display an image. | 2017-10-05 |
20170285406 | DISPLAY APPARATUS - Provided is a display apparatus, including: a rectangular display panel including a screen in front; a rectangular sheet located behind the display panel, the sheet having a plurality of holes in a peripheral portion thereof; a light source illuminating the display panel with light from behind the display panel; and a housing accommodating the light source, the housing that has a generally box-like shape having a rectangular opening toward the display panel, and has a plurality of engageable portions arranged along a longitudinal direction in a peripheral portion of the rectangular opening, the plurality of engageable portions capable of engaging respectively with edges of the plurality of holes; wherein the plurality of engageable portions are adjustable in position or orientation so as to contact the edges of the plurality of holes. | 2017-10-05 |
20170285407 | BACKLIGHT MODULE AND DISPLAY DEVICE - Disclosed are a backlight module and a display device. The backlight module includes an elastically deformable back cover, a memory structural piece connected with a bottom wall of the back cover, and a printed circuit board, wherein there is an electrically heating wire in the memory structural piece, both ends of the electrically heating wire are electrically connected with the printed circuit board to form a heating loop. With the technical solution according to the embodiment of the disclosure, the thickness of the display device can be decreased to thereby improve a display effect on a curve display surface of the display device, and furthermore displaying can be converted between the curve display surface and a planar display surface to thereby accommodate more application scenarios of the display device. | 2017-10-05 |
20170285408 | BACKLIGHT MODULE - A backlight module including a substrate, a light source, a porous optical film, and a wavelength conversion optical layer is provided. The light source is located on the substrate. The porous optical film is disposed over the light source and has a plurality of emission structures, and the porous optical film distributes light generated by the light source to be emitted through the emission structures located at different positions of the porous optical film. The porous optical film has a central region and a peripheral region surrounding the central region, the central region is disposed corresponding to the light source, and an area of the central portion is A. The wavelength conversion optical layer is located between the light source and the porous optical film, and a vertical projection area of the wavelength conversion optical film is B, where 0.49≦A/B≦5. | 2017-10-05 |
20170285409 | LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY DEVICE - A liquid crystal display panel and a display device are provided. The liquid crystal display panel has a plurality of sub-pixel units, and each of the sub-pixel units has four photic areas. The liquid crystal display panel further has slits arranged in corresponding positions of an upper electrode and/or a lower electrode corresponding to a boundary of adjacent photic areas, and an opening direction of the slits is parallel to an alignment direction of liquid crystal molecules in the photic area where the slits are located at. The corresponding dark fringes can be effectively reduced by arranging the slits in the upper electrode or the lower electrode. | 2017-10-05 |
20170285410 | LIQUID-CRYSTAL DISPLAY APPARATUS AND METHOD OF GIVING A PRETILT TO LIQUID-CRYSTAL MOLECULES - A liquid-crystal display apparatus includes a plurality of rectangular pixels | 2017-10-05 |
20170285411 | ROLL-TO-ROLL METHOD FOR MANUFACTURING A 2D/3D GRATING SWITCH MEMBRANE - A roll-to-roll method for manufacturing 2D/3D grating switch membrane is performed in such a way that: Step 1 and Step 2 are simultaneously performed, then Step 3 is performed, and finally Step 4 is performed: Step 1, subjecting a concave grating facing down to rubbing and liquid crystal dropping; Step 2, uniformly coating a PI liquid onto a surface layer of a mirror-face metal roller, and performing self-hating and rubbing; Step 3, making the concave grating rubbed and dropped with liquid crystals in Step 1 and PI layer coated and directionally-rubbed on the mirror-face metal roller in Step 2 attached to each other, forming a grating membrane, and rotating and pre-baking the grating membrane with the mirror-face metal roller; Step 4, curing the attached and baked grating membrane by the UV curing means and after stripping, collecting and winding through the 2D/3D grating switch membrane collecting roller. | 2017-10-05 |
20170285412 | METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY PANEL - A method for manufacturing a liquid crystal display panel is provided. The method includes the following steps of: drop-filling liquid crystal molecules on a color film substrate having a seal frame, wherein the liquid crystal molecules are doped with thermal reactive monomers; and heat-curing a frame, and simultaneously making the thermal reactive monomers in the liquid crystal molecules into a polymer on the surface of the alignment film. The reliability of the alignment film is improved by the present invention. | 2017-10-05 |
20170285413 | METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides a method for manufacturing a liquid crystal display device, which hardly causes display unevenness in joining parts in which mutually neighboring exposure regions are overlapped upon carrying out a photo-alignment treatment for forming a horizontal alignment film. The method for manufacturing a liquid crystal display device of the present invention includes a step of forming a horizontal alignment film by carrying out a photo-alignment treatment of irradiating a photo-alignment film material applied to at least one substrate of a pair of substrates with polarized light, wherein the photo-alignment treatment is carried out by exposure to a plurality of regions of one substrate surface; two neighboring regions among the plurality of regions to be exposed include an overlapped part; an irradiation amount of the polarized light to the overlapped part is gradually lowered in one of the two neighboring regions toward the other of the two neighboring regions; and the overlapped part of the two neighboring regions has a width of 20 mm or wider. | 2017-10-05 |
20170285414 | DISPLAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY DEVICE COMPRISING THE SAME - A display substrate includes a base substrate having a plurality of pixel areas and a pixel electrode in a pixel area of the plurality of pixel areas. The pixel electrode a first stem portion extending in a first direction, a second stem portion extending from the first stem portion in a second direction that intersects the first direction, a plurality of branch portions diagonally extending from at least one of the first stem portion and the second stem portion, and a bent portion extending from at least one of the plurality of branch portions. | 2017-10-05 |
20170285415 | LIQUID CRYSTAL DISPLAY DEVICE - According to an aspect, a liquid crystal display device includes: a first substrate provided with a first electrode portion that includes a plurality of strip electrodes arranged in a first direction and that is configured to generate a transverse electric field in the first direction; a liquid crystal layer in which liquid crystal molecules are oriented in the first direction when the transverse electric field is not generated; a second substrate facing the first substrate across the liquid crystal layer; and an electrode provided at the second substrate. | 2017-10-05 |
20170285416 | PIXEL STRUCTURE OF DISPLAY PANEL - A pixel structure of display panel includes a first substrate, a second substrate, a liquid crystal layer, a first pixel electrode, an insulation layer, a second pixel electrode and a common electrode. The first substrate has a plurality of alignment regions. The second substrate and the first substrate are disposed opposite to each other. The first pixel electrode is a patterned electrode, which includes a plurality of branch electrodes disposed in the alignment regions. The insulation layer is disposed between the first pixel electrode and the liquid crystal layer. The second pixel electrode is a patterned electrode disposed in at least one boundary of each of the alignment regions. The common electrode is disposed on the second substrate. | 2017-10-05 |
20170285417 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a gate line, a source line, a first common electrode opposed to the gate line and the source line, an interlayer insulating film covering the first common electrode, a pixel electrode including a main pixel electrode and a sub-pixel electrode, the pixel electrode formed on the interlayer insulating film, a second common electrode formed on the interlayer insulating film. The second common electrode includes a second main common electrode which has intermittence at a position adjacent to the sub-pixel electrode, and a second sub-common electrode which has intermittence at a position adjacent to the main pixel electrode. | 2017-10-05 |
20170285418 | LIQUID CRYSTAL DISPLAY DEVICE - Embodiments of a Liquid Crystal Display (LCD) device are disclosed. The LCD includes a backlight to illuminate a display panel with a plurality of sub-pixels, which include a first sub-pixel having a first color filter, a second sub-pixel having a second color filter having a different color from the first color filter, and a third sub-pixel having a third color filter having a different color from the first color filter and the second color filter. | 2017-10-05 |
20170285419 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes an arrangement of pixels, wherein each of the pixels includes at least three subpixels, wherein the second subpixel is a Red subpixel, in contrast to the traditional Red-Green-Blue subpixel configuration. Further, a signal line is disposed next to each of the subpixels, but a common line is disposed next to a subpixel which is not a Red subpixel. Thus, the second subpixel, which is a Red subpixel, has on both sides thereof signal lines, but lacks a common line next thereto. | 2017-10-05 |
20170285420 | DISPLAY DEVICE - According to one embodiment, a display device includes a first polarizing element, a second polarizing element, and a light-modulating layer located between the first polarizing element and the second polarizing element, each of the first polarizing element and the second polarizing element includes a guest-host liquid crystal layer and a control electrode in an active area including at least one sub-area, the guest-host liquid crystal layer including dye having anisotropy in absorptive power for visible light, the control electrode controlling an alignment direction of the dye in the sub-area. | 2017-10-05 |
20170285421 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a first scanning line, a third scanning line, a second scanning line, a first linear electrode, a second linear electrode and a third linear electrode. The first linear electrode is located between the first scanning line and the second scanning line, and extends in a third direction. The second linear electrode is located between the first scanning line and the second scanning line, and extends in a fourth direction. The third linear electrode is located between the second scanning line and the third scanning line, and comprises a portion extending in the fourth direction. The second linear electrode is electrically connected to the third linear electrode. | 2017-10-05 |
20170285422 | LIQUID CRYSTAL DISPLAY DEVICE - A first substrate ( | 2017-10-05 |
20170285423 | LIQUID CRYSTAL DISPLAY DEVICE - Each of pixels of a liquid crystal display device ( | 2017-10-05 |