50th week of 2015 patent applcation highlights part 42 |
Patent application number | Title | Published |
20150355418 | SHORT OPTICAL TERMINUS - An optical connector comprising a plug housing having a pin cavity; a pin having a front and rear orientation and disposed at least partially in the pin cavity, the pin comprising at least a pin sleeve having a pin sleeve length, the pin sleeve at least partially containing a pin ferrule and a pin lens; a receptacle housing having a socket cavity; a socket having a from and rear orientation and disposed at least partially in the socket cavity, the socket comprising at least a socket sleeve having a socket sleeve length, the socket sleeve at least partially containing a socket ferrule and a socket lens; and an alignment sleeve between the pin and socket, wherein, when in a mated state, a pin front portion of the pin sleeve and a socket front portion of the socket sleeve are disposed in the alignment sleeve, wherein the pin front portion and the socket front portion are at least ⅓ the length of the pin sleeve and socket sleeve, respectively. | 2015-12-10 |
20150355419 | SIDE-FACET COUPLER HAVING EXTERNAL MOUNTING SURFACE MOLDED TO FACILITATE ALIGNMENT OF OPTICAL CONNECTIONS - A molded waveguide side-facet coupler to facilitate an optical connection between optical side-facets and a fiber optic connector is disclosed. Instead of molding the side-facet coupler with the external mounting surface disposed on an external surface of the mold, the mold for the side-facet coupler is provided such that the mounting surface of the side-facet coupler is provided as a molded internal recess surface. The moldable material for the side-facet coupler is disposed around a recess core that is part of the mold, thereby forming a unitary component having at least one internal recess surface for providing an external mounting surface for the side-facet coupler. As the molded material cures around the core structure, the external surfaces of the unitary component pull away from internal surfaces of the mold, and shrink around the core structure. Thus, the internal recess surface of the unitary component is formed within narrower, repeatable tolerances. | 2015-12-10 |
20150355420 | COUPLING DEVICE HAVING A STAMPED STRUCTURED SURFACE FOR ROUTING OPTICAL DATA SIGNALS - An optical coupling device for routing optical signals for use in an optical communications module, in which defined on a base are a structured surface having a surface profile that reshapes and/or reflect an incident light, and an alignment structure defined on the base, configured with a surface feature to facilitate positioning an optical component on the base in optical alignment with the structured surface to allow light to be transmitted along a defined path between the structured surface and the optical component. The structured surface and the alignment structure are integrally defined on the base by stamping a malleable material of the base. The alignment structure facilitates passive alignment of the optical component on the base in optical alignment with the structured surface to allow light to be transmitted along a defined path between the structured surface and the optical component. The structured surface has a reflective surface profile, which reflects and/or reshape incident light. | 2015-12-10 |
20150355421 | OPTICAL ALIGNMENT STRUCTURE AND METHOD OF DETERMINING ALIGNMENT INFORMATION - In various embodiments, an optical alignment structure may be provided. The optical alignment structure may include a light carrying structure configured to receive an input optical light from an external light source. The optical alignment structure may further include a light redirection mechanism coupled to the light carrying structure. The light redirection mechanism may be configured to receive the input optical light from the light carrying structure. The light redirection mechanism may be further configured to redirect the input optical light back to the light carrying structure, the redirected input optical light configured to be detected by a detector for alignment of the optical alignment structure with the external optical source. | 2015-12-10 |
20150355422 | OPTO-ELECTRIC HYBRID MODULE - There is provided an opto-electric hybrid module in which an optical element of an optical element unit and a core of an optical waveguide of an opto-electric hybrid unit are aligned with each other simply and precisely. The opto-electric hybrid module includes: a connector including an optical element; and an opto-electric hybrid unit including an electric circuit board and an optical waveguide which are stacked together. The connector includes aligning protrusions positioned and formed in a predetermined position with respect to the optical element. The opto-electric hybrid unit includes fitting holes for fitting engagement with the aligning protrusion, the fitting holes being positioned and formed in a predetermined position with respect to an end surface of a core of the optical waveguide. The connector and the opto-electric hybrid unit are coupled together. | 2015-12-10 |
20150355423 | OPTICAL CONNECTOR - An optical connector includes an optical transceiver having an optical element, a case that covers the optical element, and a plurality of terminals that are externally protruded from a terminal projecting surface of the case, and a connector housing having a housing chamber that houses the optical transceiver. The terminal projecting surface of the case is formed as a flat reference plane. A surface which forms the housing chamber and to which the terminal projecting surface of the case abuts is formed as a flat position-correction surface. A pair of projections are formed on a surface which forms the housing chamber and which is opposite to the position-correction surface. | 2015-12-10 |
20150355424 | SILICA-ON-SILICON-BASED HYBRID INTEGRATED OPTOELECTRONIC CHIP AND MANUFACTURING METHOD THEREFOR - Provided are a silica-on-silicon-based hybrid integrated optoelectronic chip and a manufacturing method therefor. The hybrid integrated optoelectronic chip comprises a silicon substrate ( | 2015-12-10 |
20150355425 | HEAT DISSIPATION STRUCTURE AND OPTICAL TRANSCEIVER - There are provided a heat transfer part | 2015-12-10 |
20150355426 | ARMORED OPTICAL FIBER CABLE - An optical communication cable subassembly includes a cable core having optical fibers each comprising a core surrounded by a cladding, buffer tubes surrounding subsets of the optical fibers, and a binder film surrounding the buffer tubes. Armor surrounds the cable core, the binder film is bonded to an interior of the armor, and water-absorbing powder particles are provided on an interior surface of the binder film. | 2015-12-10 |
20150355427 | CABLE CONNECTION CASING - A cable splice box is disclosed. The cable splice box includes a pillar to form therein a waterproof structure. The pillar includes a pillar body having at least two longitudinal grooves, each of which has a bore diameter X configured to accommodate a cable segment; a longitudinal surface having at least two longitudinal slits, each of which has a width Y not less than X, corresponds to one of the two longitudinal grooves, and forms an opening thereon; and two longitudinal elastic pieces, each of which is disposed on one of the at least two longitudinal slits to keep the cable segment in the respective longitudinal groove. The cable splice box provides better operation, reduced cost and consistent construction quality. | 2015-12-10 |
20150355428 | DISTRIBUTION DEVICE WITH INCREMENTALLY ADDED SPLITTERS - A fiber distribution system ( | 2015-12-10 |
20150355429 | ASSEMBLY FOR DISTRIBUTING HYBRID CABLE AND TRANSITIONING FROM TRUNK CABLE TO JUMPER CABLE - An assembly includes: a hybrid power/fiber optic cable comprising pluralities of power conductors and optical fibers, the plurality of power conductors and the plurality of optical fibers contained within a common jacket; a first breakout canister; and a second breakout canister. The hybrid power/fiber optic cable enters the first breakout canister and a plurality of power cords exit the first breakout canister, the power conductors of the hybrid power/fiber optic cable and the power cords being electrically connected within the first breakout canister, a respective one of a plurality of first conduits protecting each of the plurality of power cords. The plurality of optical fibers enters the first breakout canister and exits the first breakout canister, the exiting plurality of optical fibers being protected by a second conduit attached to the first breakout canister. The plurality of optical fibers enters the second breakout canister and exits the second breakout canister. | 2015-12-10 |
20150355430 | FIBER OPTIC CABLE STRUCTURED TO FACILITATE ACCESSING AN END THEREOF - A fiber optic cable includes a core, armor surrounding the core, and a jacket surrounding the armor. The core includes tubes, each tube having a passage defined therein, optical fibers positioned in the passages, and a binder sleeve defining an exterior of the core. Portions of the binder sleeve are directly bonded to the armor, while other portions are not. Spacing between the armor and the core, as well as the bond between the armor and binder sleeve, facilitate tubing-off of an end section of the cable to include removal of the binder sleeve. | 2015-12-10 |
20150355431 | Magnetic Coupling Mounts for Photonics - A mounting system for mounting an optical element to a supporting unit of an optical system that may include several optical elements in a predetermined alignment with respect to one another and with respect to an optical axis. A carrier holding an optical element in a known position and orientation with respect to the carrier is attached to a supporting unit in a selected location and position of rotation, with respect to an axis that may be the optical axis, by a plurality of magnetic elements, ones of which are carried in or affixed to the supporting unit in predetermined locations and orientations, and other ones of which are included in or affixed to the carrier in predetermined locations and orientations that result in mutual attraction between corresponding ones of the magnetic elements when the carrier is in a predetermined position with respect to the supporting unit. The numbers and locations of the magnets in the supporting unit may provide for a plurality of possible predetermined positions in which mutual magnetic attraction fastens the carrier to the supporting unit. | 2015-12-10 |
20150355432 | LENS DRIVE APPARATUS | 2015-12-10 |
20150355433 | OPTICAL LENS SYSTEM WITH A WIDE FIELD OF VIEW - An optical lens system with a wide field of view includes, in order from the object side to the image side: a stop; a first lens element with a positive refractive power having a convex image-side surface and at least one aspheric surface; a second lens element with a negative refractive power having a concave image-side surface and at least one aspheric surface; a third lens element with a positive refractive power having a concave object-side surface and at least one aspheric surface; and a fourth lens element with a negative refractive power having a convex object-side surface and at least one aspheric surface, at least one of the object-side and the image-side surfaces of the fourth lens element is formed with an inflection point. | 2015-12-10 |
20150355434 | LENS APPARATUS AND OPTICAL APPARATUS - The lens apparatus includes a first operating member rotatable around an optical axis of an optical element so as to move the optical element in an optical-axis direction, a first elastic member configured to press the first operating member, a second elastic member configured to press the first operating member, a second operating member rotatable around the optical axis and movable in the optical-axis direction, and a first interposition provided between the first operating member and the second operating member. When the second operating member is moved in the optical-axis direction, the first interposition is moved in the optical-axis direction without rotating around the optical axis and presses the first elastic member and the second elastic member. | 2015-12-10 |
20150355435 | Optical Zooming Apparatus for Miniature Imaging System - An optical apparatus is provided that includes a reflective component that reflects light from an optical axis to an optical plane substantially perpendicular to the optical axis. The apparatus further includes first and second lens units disposed within the optical plane, and an actuator mechanically coupled with the first and second lens units to cause concurrent first and second displacements, respectively. Light transmitted through the first and second lens units prior to the first and second displacements is imaged with a first magnification at a respective focal plane and light transmitted through the first and second lens units after the first and second displacements is image with a second magnification different from the first magnification at the respective focal plane, thereby effecting an optical zoom effect. | 2015-12-10 |
20150355436 | ZOOM LENS AND IMAGING APPARATUS - A five-group zoom lens includes, in order from the object side, positive, negative, positive, positive, and positive groups. During magnification change, the first and fifth groups are fixed relative to the image plane, and the second, third, and fourth groups are moved to change distances therebetween. During magnification change from the wide-angle end to the telephoto end, the second group is moved from the object side toward the image plane side, the fourth group is moved from the image plane side toward the object side, and a third-fourth combined lens group, which is the combination of the third group combined and the fourth group, and the second group simultaneously pass through their respective points at which the imaging magnification is −1×. The third-fourth combined lens group includes at least one negative lens, and satisfies the condition expression (1) below: | 2015-12-10 |
20150355437 | REAR CONVERSION LENS - A rear conversion lens includes: a chassis including two opposite ends, the chassis including light-transmitting holes on the ends, respectively; a first coupler configured to detachably couple one of the ends of the chassis with an image field side of an image-pickup lens of a three-chip camera including three first image sensors, the image-pickup lens being designed based on an assumption that the image-pickup lens is to be used with a color-separation prism in combination; a second coupler configured to detachably couple the other end of the chassis with a single-chip color camera including a second image sensor, the second image sensor including an image field larger than an image field of the first image sensors of the three-chip camera; and an optical system including a first lens group, a second lens group, and a third lens group arranged in the chassis in this order from an object side, the first lens group having a negative compound focal length, the second lens group being configured to correct a spherical aberration, the third lens group being configured to form an image. | 2015-12-10 |
20150355438 | IMAGE PICKUP OPTICAL LENS ASSEMBLY - This invention discloses an image pickup optical lens assembly, sequentially arranged from an object side to an image side along an optical axis, comprising: the first lens element with positive refractive power having a convex object-side surface, the second lens element with negative refractive power, the third lens element with refractive power, the fourth lens element with positive or negative refractive power having a concave object-side surface and a convex image-side surface with both being aspheric, and the fifth lens element with positive or negative refractive power having a convex object-side surface and a concave image-side surface with both being aspheric. Additionally, the image pickup optical lens assembly satisfies conditions related to the reduction of the total length and the sensitivity of the image pickup optical lens assembly for compact cameras and mobile phones with camera functionalities. | 2015-12-10 |
20150355439 | ENHANCING A FOG PENETRATION CAPABILITY OF AN INFRARED OPTICAL SYSTEM - An infrared optical system having a spectral range for achieving a fog penetration distance of at least 2.75 Runway Visibility Range (RVR) is provided herein. The optical system may include a single set of optical elements designed to have a wavelength range extending beyond 1.2 μm toward shorter wavelengths and comprising a short-wavelength infrared (SWIR) range and at least one of: a middle-wavelength infrared (MWIR) range and a long-wavelength infrared (LWIR) range, to enhance a detection range of the infrared optical system, wherein the single set of optical elements is laid such that the both the SWIR range and the at least one of the MWIR range and the LWIR range of infrared radiation pass through all of the optical elements. | 2015-12-10 |
20150355440 | ZOOM LENS AND IMAGING APPARATUS - A zoom lens consists of five lens groups including, in order from the object side, positive, negative, positive, positive, and positive lens groups. During magnification change, the first and fifth lens groups are fixed relative to the image plane, and the second, third, and fourth lens groups are moved to change distances therebetween. During magnification change from the wide-angle end to the telephoto end, the second lens group is moved from the object side toward the image plane side, and the fourth lens group is moved from the image plane side toward the object side. The fifth lens group includes at least two negative lenses, and satisfies the condition expression (1) below: | 2015-12-10 |
20150355441 | OBJECTIVE LENS ASSEMBLY HAVING CATADIOPTRIC GROUP - An objective lens assembly includes a catadioptric group, a first refractive lens axially aligned with the catadioptric group, and a focusing lens axially aligned with and between the catadioptric group and the first refractive lens. The focusing lens is an aspheric lens. | 2015-12-10 |
20150355442 | PORTABLE DECORATIVE OBJECT INCLUDING AN ILLUMINATED REGION - The present invention relates to a portable decorative object including a transparent part including at least one reflective inclined edge oriented so as to receive an incident ambient light perpendicular to an upper face of the transparent part, the inclined edge being oriented so as to send back the perpendicular incident light to inside the transparent part. The object includes a decorative region arranged inside the transparent part, illuminated by the light reflected by the inclined edge. | 2015-12-10 |
20150355443 | IMAGE ACQUISITION APPARATUS - To acquire a pasted image having an enlarged dynamic range and having a high quality and a high angle of view, an image acquisition apparatus includes an imaging unit that captures an object, to acquire an image, an imaging control unit that controls the imaging unit, an HDR processing unit that combines a plurality of partial images acquired by capturing the same region of the object under different exposures, to generate an HDR image having an enlarged dynamic range, a pasting processing unit that pastes the plurality of HDR images generated for different regions of the object, to acquire a pasted image having a higher angle of view, and an exposure setting unit that sets an exposure condition in capturing all the partial images based on image information acquired by capturing a wider range than the single partial image included in the pasted image. | 2015-12-10 |
20150355444 | COMPACT LENS SYSTEM FOR USE IN PHOTOACOUSTIC MICROSCOPY - A lens system for use with photoacoustic microscopy apparatus has a collimated single mode optical fiber to which a toroidal ultrasound transducer is operatively attached. The transducer is located inside a tank. A lens housing is located inside the tank adjacent the transducer and has flexible optically transmissive entrance and exit ports made of polydimethysiloxane. The lens housing is filled with cinnamaldehyde. The cinnamaldehyde can be introduced into the lens housing and withdrawn from it so as to flex its entrance and exit ports, and the tank is filled with a mixture of glycerol and water. | 2015-12-10 |
20150355445 | Optical System and Optical Instrument, Image Pickup Apparatus, and Image Pickup System Using the Same - An optical system which forms an optical image on an image pickup element, comprising in order from an object side,
| 2015-12-10 |
20150355446 | METHOD FOR THE MICROSCOPE IMAGING OF SAMPLES ADHERING TO BOTTOMS OF FLUID FILLED WELLS OF A MICROTITER PLATE - A method for microscope imaging of a sample, wherein a sample well is filled with liquid with the sample adhered to the bottom, illuminating and imaging the sample well from the underside and capturing at least one sample image thereof, wherein any inhomogeneity of the illumination is equalized by providing a test well with the same structure filled with liquid but no sample, making a reference measurement of the test well by illuminating the test well, imaging the illuminated test well from the underside and capturing a reference image which covers the entire bottom, analyzing the reference image to determine a brightness correction specification based on brightness fluctuation, and using the brightness correction specification to correct the sample image, including determining a position of at least a part of the sample image and using a value of the brightness correction specification assigned to the position. | 2015-12-10 |
20150355447 | INFRARED UP-CONVERSION MICROSCOPE - There is presented an up-conversion infrared microscope ( | 2015-12-10 |
20150355448 | LED ILLUMINATION - The invention relates to an LED illumination device | 2015-12-10 |
20150355449 | High Throughput Multichannel Fluorescence Microscopy with Microlens Arrays - A microscope includes a multi-wavelength emitting laser light source. A microscope objective is configured to receive and expand input light emitted from the light source, and a dichroic mirror is configured to reflect the expanded input light. A micro lens array with a plurality of micro lenses splits the reflected and expanded input light onto a fluorescence producing sample. A lens collectively captures the fluorescence for each micro lens in the plurality of micro lenses, and a camera receives the fluorescence from the lens and produces an image of the sample based on the received fluorescence. | 2015-12-10 |
20150355450 | OBSERVATION DEVICE, SIGNAL OUTPUT METHOD AND COMPUTER READABLE RECORDING MEDIUM - The present application provides an optical observation device having a first optical axis and a second optical axis different in direction from the first optical axis, the observation device including a splitter configured to split image light into first light along the first optical axis and second light along the second optical axis, the image light representing an image of an observation target; and a magnifier configured to change optical magnification for at least one of a first image represented by the first light and a second image represented by the second light. The splitter includes a first area, which receives the image light, and a second area, which receives the image light next to the first area. The first and second areas allow partial passage of the image light to generate the first light. The first area partially reflects the image light to generate the second light. | 2015-12-10 |
20150355451 | UPRIGHT AND INVERTED MICROSCOPE - A dual-configuration microscope is provided. In some aspects, the microscope can be converted into an upright configuration or an inverted configuration. The microscope includes a base having a lower portion and an upper portion, the lower portion configured to support the microscope. The microscope further includes a body having a first portion, a second portion, and an intermediate portion extending between the first and second portions. The body is rotatably coupled to the base at a rotational coupling that defines a rotating axis that extends in a longitudinal direction with respect to the microscope. | 2015-12-10 |
20150355452 | Adjustable Drive Mechanism - An adjustable drive mechanism, which may be used to control the elevation angle of a telescope or antenna, is disclosed. The adjustable drive mechanism can include a base plate configured to couple with a support structure and having a first spherical portion facing away from the support structure. In addition, the adjustable drive mechanism can include a gear box having a pinion gear to interface with a driven gear of a telescope or antenna, and a housing in support of the pinion gear and including a second spherical portion configured to interface with the first spherical portion of the base plate. The first spherical portion and the second spherical portion can be movable relative to one another in three rotational degrees of freedom to facilitate alignment and positioning of the pinion gear relative to the driven gear. | 2015-12-10 |
20150355453 | PROTECTIVE DEVICE FOR A LENS - A protective device for a lens ( | 2015-12-10 |
20150355454 | ABSORBER STACK FOR MULTI-STATE INTERFEROMETRIC MODULATORS - Various implementations described herein involve multi-state interferometric modulators (MS-IMODs) without dielectric layers capable of affecting optical performance formed on the mirrors. The MS-IMODs disclosed herein may include a novel combination of high refractive index and low refractive index layers in the absorber stack. Some such MS-IMODs include absorber stacks having an absorber layer, a first high-index layer disposed between the absorber layer and the substrate, a low-index layer disposed between the absorber layer and the first high-index layer and a second high-index layer disposed on a side of the absorber layer facing the mirror. The absorber stack and the mirror may define a gap therebetween and may be capable of being positioned in a plurality of positions relative to one another to form a plurality of gap heights. In some implementations, the closest position corresponds with a black state gap height. | 2015-12-10 |
20150355455 | ELECTROWETTING DISPLAY APPARATUS - The present invention relates to the display technical field and discloses specifically an electrowetting display apparatus, comprising: an electrowetting casing including a black oil layer to which an ultraviolet absorbing material is added; an ultraviolet light source arranged at a lower side of the electrowetting casing, for emitting ultraviolet (UV) light upwards; a colored fluorescent layer arranged at an upper side of the electrowetting casing. By means of the electrowetting display apparatus in the present invention, wherein the ultraviolet light source emits UV light, the ultraviolet absorbing material in the black oil layer absorbs the UV light when the black oil layer is spreaded, and the colored fluorescent layer displays colors when the black oil layer is applied electric power and then contracted, such that no colored membrane is necessary to achieve a colored display, an outstanding display effect can thus be realized. | 2015-12-10 |
20150355456 | ELECTROWETTING FLUIDS - This invention relates to electrowetting fluids, the use of these fluids for the preparation of an electrowetting displays devices, and electrowetting display devices comprising such fluids. | 2015-12-10 |
20150355457 | COMPACT ANCHOR FOR EMS DISPLAY ELEMENTS - This disclosure provides systems, methods and apparatus for shutter-based EMS light modulators controlled by electrode actuators that include a compact anchor. The compact anchor includes four sides. Each of the four sides includes a lower wall, while only three of the sides include a lower shelf, upper wall and eave. That is, a first side includes a lower wall having an upper surface that is substantially the same thickness as the material forming the lower wall. | 2015-12-10 |
20150355458 | MICRO-MACHINED OPTICAL MIRROR SWITCH - The present disclosure provides a micro-machined switchable optical mirror device with a fast response speed. The mirror device includes a substrate defining a gap space, and a mirror assembly disposed on the substrate and deflectable in the gap space, the mirror assembly including a free end cantilever and a reflector on the cantilever, wherein the cantilever is anchored on the substrate adjacent a side of the gap space through an elastic member. In one aspect, the mirror device further includes a stop spring at an end of the cantilever opposing the elastic member. | 2015-12-10 |
20150355459 | System, Method and Computer Program Product For Photometric System Design and Environmental Ruggedization - A photometric system design methodology employs genetic algorithms to optimize the selection of optical elements for inclusion in the photometric system in order to improve system performance with respect to environmental conditions (i.e., to “ruggedize” the photometric system). The genetic algorithms utilize a multi-objective fitness function to evolve simulated optical element selection, which may be a combination of optical filters and integrated computational elements. The system may also output a size reduced database that serve as simulated candidate optical elements through global optimization, or may output a fixed number of simulated optical elements through conditional optimization for actual tool implementation and calibration analysis | 2015-12-10 |
20150355460 | IMAGE TRANSMISSION DEVICE FOR A DISPLAY AND HEAD-UP DISPLAY EQUIPPED WITH SAID DEVICE - An image transmission device for a display intended to display a virtual image in a driver's field of view is disclosed. The transmission device includes a semi-reflective optical element configured to transmit light rays that can be used to display the virtual image in the field of view. The optical element is also configured to guide the light. A light source emitting a light beam is also part of the device, where the light source and the optical element are located relative to one another so that the beam is emitted by the optical element operating as a light guide. | 2015-12-10 |
20150355461 | PUPIL-EXPANDED BIOCULAR VOLUMETRIC DISPLAY - A volumetric imaging apparatus is energizable to form an image onto a display surface as an input to a monocentric catadioptric imaging apparatus having a light path for image-bearing light from the display surface, wherein the light path extends substantially symmetrically to a vertical plane that extends through a curved relay mirror and a curved primary mirror. The monocentric catadioptric imaging apparatus has reflective surfaces to fold the light path between the curved relay mirror and the curved primary mirror to condition the distribution of the image-bearing light in a horizontal direction. The light path of the monocentric catadioptric imaging apparatus directs light from the curved primary mirror toward a light input surface of a vertical pupil expander that has a light exit surface that is substantially orthogonal to the vertical plane. The light exit surface directs light through a free-form corrector for convergence and toward a windshield for display. | 2015-12-10 |
20150355462 | HEAD MOUNTED DISPLAY, DETECTION DEVICE, CONTROL METHOD FOR HEAD MOUNTED DISPLAY, AND COMPUTER PROGRAM - A head mounted display for supporting improvement in an act of moving a body is provided. The head mounted display includes image display unit that transmits external scenery therethrough and forms an image, a body motion detection unit that detects motions of a body of a user and at least a part of a tool bundled with the body, a model moving image acquisition unit that accesses a model moving image storage unit which stores, as a model moving image, a moving image showing a motion of the body, used as a reference of the act and stores the model moving image for each type of act, and acquires one or a plurality of model moving images corresponding to a detection result from the body motion detection unit, and a display control unit that causes the image display unit to form the acquired model moving image. | 2015-12-10 |
20150355463 | IMAGE DISPLAY APPARATUS, IMAGE DISPLAY METHOD, AND IMAGE DISPLAY SYSTEM - An image obtained when a rare or valuable thing is found is shared between users each wearing an image display apparatus on the head or face. | 2015-12-10 |
20150355464 | HEAD-UP DISPLAY COMPRISING A PROJECTION SCREEN AND A DEVICE FOR MOVING AND POSITIONING A PROJECTION SCREEN, AND METHOD FOR OPERATING SUCH A HEAD-UP DISPLAY - The invention relates to a head-up display comprising a projection screen and a device for moving and positioning said projection screen. To open or close the projection screen by the device, a linear movement with a short path can be transformed into a pivoting movement with a long path, an adjustment of the incline of the projection screen being actuatable by means of the device when the projection screen is in the operating position. A method for operating a head-up display comprises actions of a projection screen and a device for moving and positioning a projection screen. | 2015-12-10 |
20150355465 | HEAD MOUNTED DISPLAY FRAME FOR IMPROVED SPATIAL PERFORMANCE IN HEAD MOUNTED VIRTUAL ENVIRONMENTS - A head-mounted display allows the user to view a virtual environment. The head-mounted display is made of a pair of lenses which is directed to a display encased within a housing. However, the display provides a limited field-of-view that is less than what the user sees in a real-world environment. Adding an illuminated frame around the display's periphery can enable the user to produce spatial judgment similar to having a larger field-of-view. The illuminated frame does not require additional processing. | 2015-12-10 |
20150355466 | OPTICAL CONFIGURATIONS FOR HEAD-WORN SEE-THROUGH DISPLAYS - Aspects of the present invention relate to methods and systems for providing a high transmission see-through view of the environment while trapping escaping light from the display system. In embodiments, a camera system is also provided that is aligned with the display system to provide images of the environment in a viewing direction of the user. | 2015-12-10 |
20150355467 | OPTICAL DEVICE, AND VIRTUAL IMAGE DISPLAY - A virtual image display device with an optical waveguide to guide, by internal total reflection, parallel pencil groups meeting a condition of internal total reflection, a first reflection volume hologram grating to diffract and reflect the parallel pencil groups incident upon the optical waveguide from outside and traveling in different directions as they are so as to meet the condition of internal total reflection inside the optical waveguide and a second reflection volume hologram grating to project the parallel pencil groups guided by internal total reflection inside the optical waveguide as they are from the optical waveguide by diffraction and reflection thereof so as to depart from the condition of internal total reflection inside the optical waveguide. | 2015-12-10 |
20150355468 | 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. | 2015-12-10 |
20150355469 | LIGHT OPERATION DEVICE - A light operation device includes: an light input and output port; an light-operating element reflecting a light input from any one of the ports of the light input and output port and outputting the reflected light to any one of the ports of the light input and output port; a condensing lens system disposed between the light input and output port and the light-operating element and optically-coupling the light input and output port with the light-operating element; an anamorphic optical system disposed between the light input and output port and the condensing lens system and expanding a beam diameter of the light input from a side of the light input and output port in a beam-diameter-expanding direction. In the condensing lens system, a first focal distance in the beam-diameter-expanding direction and a second focal distance in a direction perpendicular to the beam-diameter-expanding direction differ from each other. | 2015-12-10 |
20150355470 | OPTICAL SYSTEM GENERATING A STRUCTURED LIGHT FIELD FROM AN ARRAY OF LIGHT SOURCES BY MEANS OF A REFRACTING OR REFLECTING LIGHT STRUCTURING ELEMENT - An optical system for the generation of a structured light field comprises an array of light sources and a structuring unit separate from said array of light sources, said structuring unit being refractive or reflective and transforming the output of that array of light sources into a structured light illumination by collimating the light beam of each individual light source and directing each beam into the scene under vertical and horizontal angles that can be arbitrarily chosen by refraction or reflection. | 2015-12-10 |
20150355471 | DISPLAY APPARATUS - A display apparatus includes a screen formed in an arcuate shape centering on a center axis and a projection device configured to project, along projecting directions orthogonal to the center axis and different from one another, images corresponding to the projecting directions on the inner circumferential surface or the outer circumferential surface of the screen. The screen includes a retroreflective layer having a reflection surface directed to the projection device and a diffusion layer arranged on the projection device side with respect to the retroreflective layer and configured to diffuse, when transmitting light made incident from the retroreflective layer, the light wider in a first direction along the center axis than in a second direction, which is a circumferential direction centering on the center axis. | 2015-12-10 |
20150355472 | IMAGE DISPLAY DEVICE DRIVING METHOD OF IMAGE DISPLAY DEVICE AND TERMINAL DEVICE - An image display device includes a display element having a unit of display comprising sub pixels displaying images for first and second view points, respectively, and an optical unit that distributes lights emitted from respective sub pixels into different directions. When a region surrounded by a data line, a gate line and a storage capacitor electrode in the sub pixel is defined as an aperture, the sub pixels form a base unit that is an adjoining pixel pair including two sub pixels arranged via a data line therebetween. The two sub pixels have switching elements connected to the data line between the two sub pixels and controlled by different gate lines. When virtual lines each evenly dividing a width of the sub pixel in the first direction into K+1 pieces are presumed, K number of storage capacitor lines are each arranged across at least one virtual line in the aperture. | 2015-12-10 |
20150355473 | COLOR-CHANGING APPARATUS FOR ACTIVE CAMOUFLAGE CONFIGURATIONS - A color-changing array that includes a mounting substrate; a plurality of color-changing panels attached to the mounting substrate; and a top polarization layer arranged over, and adapted to move relative to, the plurality of color-changing panels. Each color-changing panel 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. | 2015-12-10 |
20150355474 | A Method for Reducing Speckle - According to the present invention there is provided a method of reducing speckle effects in a projected image which is displayed on a display surface, comprising the steps of transmitting an input light beam to a first interferometer, generating a plurality of primary transmit beams at the first interferometer using the input light beam, using the plurality of primary transmit beams to generate interference fringes at a display surface. | 2015-12-10 |
20150355475 | ROTATIONAL ALIGNMENT OF A CIRCULAR DISPLAY AND A CIRCULAR LENS - This disclosure describes techniques and apparatuses for rotational alignment of a circular display and a circular lens. In one or more implementations, a display device, such as a smart watch, includes a circular lens assembly that overlays a circular display assembly. The display device includes at least two alignment points positioned along the perimeter of the circular display assembly that enable a machine vision system to rotationally align the circular display assembly to the circular lens assembly. At least one of the alignment points includes a target mark on the perimeter of the circular lens assembly that is viewable by the machine vision system through a corresponding alignment hole on the perimeter of the circular display assembly. The alignment hole is within a border region of the circular display assembly, but is sized and positioned so that it does not impact the structure of the circular display assembly. | 2015-12-10 |
20150355476 | OPTICAL SYSTEM FOR IMAGING AN OBJECT AND METHOD FOR OPERATING SAID OPTICAL SYSTEM - An optical system for imaging an object includes a objective, an image stabilizing unit, an image plane and a drive unit, which is arranged at the image stabilizing unit and provided for moving the image stabilizing unit. The optical system includes a control unit. A signal from the control unit is forwarded to a first high-pass filter. The control unit has an output line and the high-pass filter has a filter output line. Both the output line and the filter output line are arranged at an addition unit such that an actuation signal from the control unit and an output signal from the high-pass filter are added to produce an addition signal. The addition unit is arranged at the drive unit in such a way that the addition signal is used for actuating the drive unit and for moving the image stabilizing unit. | 2015-12-10 |
20150355477 | LENS DRIVE APPARATUS INCLUDING DAMPER COMPOUND SUPPRESSING UNDESIRED RESONANCE - A lens drive apparatus includes an image stabilizer portion moves an auto-focusing lens driving portion in first and second directions orthogonal to an optical axis and perpendicular to each other, and the image stabilizer portion includes a fixed member disposed apart from the auto-focusing lens driving portion in a direction of the optical axis, a plurality of suspension wires each comprising an end fixed to the fixed member at an outer region thereof, a narrowing portion that is disposed between the fixed member and the auto-focusing lens driving portion and that narrows part of a gap between the fixed member and the auto-focusing lens driving portion, and a damper compound that is disposed at the narrowed part of the gap between the fixed member and the auto-focusing lens driving portion and that suppress undesired resonance in the direction of the optical axis of the auto-focusing lens driving portion. | 2015-12-10 |
20150355478 | 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. | 2015-12-10 |
20150355479 | SPECTACLE FRAME HAVING TELESCOPIC HINGES WITH AN ADJUSTABLE OFFSET SPRING, MOUNTED IN A ROTARY END PIECE - The invention relates to a spectacle frame having two temples that are articulated by two telescopic hinges, each with a front face element and a temple element, which has a slide ( | 2015-12-10 |
20150355480 | PAIR OF PROGRESSIVE OPHTHALMIC LENSES - A pair of progressive ophthalmic lenses ( | 2015-12-10 |
20150355481 | APPARATUS AND METHOD FOR FITTING HEAD MOUNTED VISION AUGMENTATION SYSTEMS - A head worn display can be designed with an integrated camera for obtaining an image of a scene, transmitting the obtained image to a processor, modification of the image in substantially real time by the processor, and displaying the modified image on a display device worn by the individual. According to embodiments of the invention various methods are provided for adjusting the position of the displayed video in the horizontal left/right, vertical up/down, and horizontal in/out, and angular up/down dimensions relative to the individual's eyes. | 2015-12-10 |
20150355482 | MODULATED LIGHT SOURCE - A modulated light source includes: a reflective film which is formed at one end of an optical amplifier; a light wavelength filter which has band-pass characteristics and modulates a transmission center wavelength; a light reflection mechanism which feeds back light having passed through the light wavelength filter to the optical amplifier and an optical resonator is formed between which and the reflective film; and a wavelength adjustment mechanism which adjusts the transmission center wavelength to coincide with a specific oscillation wavelength when light oscillation selectively occurs at the specific oscillation wavelength depending on the band-pass characteristics of the light wavelength filter. | 2015-12-10 |
20150355483 | DISPLAY DEVICE - The present system and method relate to a display device that has a constant curvature in a curved surface. A display device according to an exemplary embodiment of the present system and method includes: a bendable substrate; a thin film transistor formed on the substrate; a pixel electrode connected to the thin film transistor electrode; a roof layer disposed on the substrate and separated from the pixel electrode by a first microcavity formed in between; a liquid crystal layer disposed in the first microcavity; and an encapsulation layer formed on the roof layer and sealing the first microcavity, wherein the roof layer includes a partition formed between of the first microcavity and a second microcavity adjacent to the first microcavity, and a shape of the partition differs according to a position along a length of the substrate where the partition is disposed. | 2015-12-10 |
20150355484 | Backlight and Display Device - The present invention provides a backlight and a display device. The backlight includes a frame and an optical film set including a plurality of optical films that are successively stacked. Each optical film in the optical film set includes a film body and an ear part. In any two adjacent optical films, the boundary of at least one side of the ear part of the lower optical film extends beyond the boundary of the same side of the ear part of the upper optical film. A fixing member covers the ear parts of the plurality of optical films, such that the optical film set is fixed on the frame, and the fixing member can fix the relative positions among the plurality of optical films in the optical film set. In the backlight, the optical film set is reliably fixed without affecting the normal display on the display device. | 2015-12-10 |
20150355485 | ARRAY SUBSTRATE, DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - The present disclosure provides an array substrate, a display panel and a method for manufacturing the same. The array substrate includes a display region and a non-display region. The array substrate includes a glass substrate with a sealant region defined at a portion of the glass substrate corresponding to the non-display region. A plurality of light guide points is provided at the portion of the glass substrate corresponding to the non-display region. The light guide points are configured to change a direction of rays incident at a predetermined angle relative to a surface of the glass substrate and transmit the rays toward the sealant region. | 2015-12-10 |
20150355486 | Liquid Crystal Display Panel, Thin Film Transistor Array Substrate and Color Filter Substrate - The invention discloses a LCD panel including a display substrate. The display substrate includes a transparent substrate, pixel units, dummy pixel units, and a first wall. The transparent substrate includes a visual region, a dummy pixel setting region located outside the visible region, and a frame glue setting region located outside the dummy pixel setting region. The pixel units are disposed on the transparent substrate in the visual region. The dummy pixel units are disposed on the transparent substrate in the dummy pixel setting region. The first wall is set on the transparent substrate between the dummy pixel setting region and the frame glue setting region. The invention avoids the abnormal situation happening when coating the frame glue in the frame glue setting region, avoids the problems caused by the difficulty in controlling the accuracy of an alignment film, e.g. Mura, and improves the product yield. | 2015-12-10 |
20150355487 | OPTIMIZED LCD DESIGN PROVIDING ROUND DISPLAY MODULE WITH MAXIMIZED ACTIVE AREA - The display module is provided having a rounded shape in a matrix of pixels therein. A matrix of pixels is organized in rows and columns of pixels in a display area of the module such that a bottom pixel of each column is adjacent to a curved edge of the display area. In an inactive area outside the display area and adjacent to the bottom of the columns of pixels are a plurality of analog switch circuits configured to switch pixel signals to the columns of pixels. Additionally, a plurality of shift register circuits are positioned in the inactive area outside the display area and adjacent to the either ends of the rows of pixels. The plurality of shift register circuits are configured to shift signals to different rows of the pixels within the matrix. | 2015-12-10 |
20150355488 | DRIVING APPARATUS OF A DISPLAY PANEL AND DISPLAY APPARATUS - The present disclosure discloses a driving apparatus of a display panel and a display apparatus. A temperature detection module for detecting a temperature of the switching power supply is provided, so that when the temperature of the switching power supply is larger than or equal to a preset temperature value, the temperature detection module may feed back to the clock controller a first control signal. The clock controller may switch a polarity inversion mode of displaying an image on the display panel according to the received first control signal, i.e., switching the polarity inversion mode from the first polarity inversion mode with a large power consumption into a second polarity inversion mode with a small power consumption, thereby reducing the power consumption of the switching power supply and thus reducing the temperature of the switching power supply. | 2015-12-10 |
20150355489 | TRANSPARENT CONDUCTIVE FILM, AND TOUCH PANEL AND DISPLAY DEVICE HAVING THE SAME - A transparent conductive film includes a transparent substrate, an undercoat layer, and a transparent conductive layer. The undercoat layer has a refractive index of from 1.5 to 2.0, which is higher than a refractive index of the transparent substrate and lower than a refractive index of the transparent conductive layer. The undercoat layer includes a refractive material having a refractive index of 2.0 or greater in an amount of 40 wt. % or less. The undercoat layer satisfies: | 2015-12-10 |
20150355490 | TOUCH DISPLAY DEVICE - A touch display device includes an upper polarizer, a display unit and a touch sensing unit. The upper polarizer allows light having a first linear polarization direction to pass therethrough and blocks light having a second linear polarization direction. The second linear polarization direction is perpendicular to the first linear polarization direction. The display unit is spaced-apart from the upper polarizer and is used to display images. The touch sensing unit is disposed between the upper polarizer and the display unit, and includes an optical compensation substrate and a touch sensing electrode structure disposed on the optical compensation substrate. The optical compensation substrate is flexible and is able to control the polarization property of the light passing therethrough. | 2015-12-10 |
20150355491 | OPTICAL FILM, POLARIZING PLATE, AND LIQUID CRYSTAL DISPLAY DEVICE - A thin optical film with high hygrothermal durability and high front contrast, includes cellulose acylate whose degree of substitution of acyl group is from 2.0 to 2.6 and at least one optical performance developer, wherein the cellulose acylate has a mannose content of 0.2% by mass or less, and the optical film has a thickness of 40 μm or thinner and satisfies: | 2015-12-10 |
20150355492 | PIXEL MATRIX AND DISPLAY USING THE SAME - A pixel matrix includes pixel units. The pixel units are arranged in a repeating pattern, in which each of the pixel units includes transparent pixels, reflective pixels, and switch components. Each of the transparent pixels includes a transparent electrode and a transparent color resist layer disposed on the transparent electrode. Each of the reflective pixels includes a reflective electrode. The switch components are connected to the transparent electrodes of the transparent pixels and the reflective electrodes of the reflective pixels respectively for driving the transparent pixels and the reflective pixels individually. | 2015-12-10 |
20150355493 | SEMI-TRANSMISSIVE LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS - According to an aspect, a semi-transmissive liquid crystal display device includes a plurality of pixels arranged in a matrix, a plurality of reflective electrodes, a counter electrode facing the reflective electrode, and a liquid crystal layer. The reflective electrodes are provided for each of the pixels, and each of them includes a plurality of electrodes, with a combination of the areas of which area coverage modulation is performed by using n bits. The electrodes are configured such that a ratio of the sum of the perimeter(s) of electrode(s) corresponding to each bit of the n bits satisfies 1:2: . . . :2 | 2015-12-10 |
20150355494 | A LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device having a front frame, a back panel, a middle frame and a fixing unit is provided. A fixing post is installed on an inner surface of the frame side of the front frame, the position of the back panel corresponding with the fixing post includes a first through hole, and the position of the middle frame corresponding with the fixing post having a second through hole; wherein the fixing post includes a fixing hole, the fixing post passes through the second through hole and is installed in the first through hole, and the fixing unit is fixed and connected with the fixing hole so that the front frame, the middle frame and the back panel are fixed each other. | 2015-12-10 |
20150355495 | LIQUID CRYSTAL DISPLAY - An exemplary embodiment of the present invention provides a liquid crystal display including: a liquid crystal panel configured to display an image; a light unit configured to supply light to the liquid crystal panel; and a bottom chassis configured to accommodate the light unit and the liquid crystal panel, wherein the bottom chassis includes an accommodator configured to accommodate the light unit and the liquid crystal panel, and a flange formed outside the accommodator, and the flange is formed at the same position as a bottom surface of the bottom chassis. | 2015-12-10 |
20150355496 | DISPLAY DEVICE - A display device according to an embodiment includes a display panel, a first supporting member and a second supporting member that support the display panel, the first supporting member and the second supporting member being disposed so as to sandwich the display panel from a front surface side and a back surface side, the first supporting member and the second supporting member being mated with each other in a mated section, and a bonding member disposed so as to cover the mated section, the bonding member bonding the first supporting member and the second supporting member together, in which a non-adhesive region is formed in a region on an adhesive surface of the bonding member, the region facing the mated section. | 2015-12-10 |
20150355497 | DISPLAY DEVICE - A display device includes a first housing containing a display panel between a backlight and the first housing, the backlight includes a light source substrate, and a second housing that holds the light source substrate, the second housing includes a back surface portion and a first side wall portion protruded in a front surface direction of the backlight from the back surface portion, the light source substrate is fixed to an inside of the first side wall portion, an opening is provided in the first side wall portion so as to overlap the light source substrate, the first housing includes a front surface frame portion and a second side wall portion protruded in a back surface direction of the backlight from the front surface frame portion, a projected portion is provided in an inside of the second side wall portion, and the projected portion is fitted into the opening. | 2015-12-10 |
20150355498 | APPARATUS AND MANUFACTURING METHOD THE SAME - There are provided an apparatus and a method of manufacturing the apparatus. The apparatus includes: a plate-shaped base; a cover plate; and a curable resin adhering the plate-shaped base and the cover plate together. At least one of the plate-shaped base and the cover plate includes a light-shielding member covering a peripheral part of the at least one of the plate-shaped base and the cover plate. In an area which is shielded by the light-shielding member, a part of the curable resin at a side of an inner edge of the light shielding member is lower in one of an elastic modulus, a curing degree, and an adhesion strength than another part of the curable resin at a side of an outer edge of the light shielding member. | 2015-12-10 |
20150355499 | LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides a liquid crystal display device in which a decrease in the voltage holding ratio (VHR) of a liquid crystal layer and an increase in the ion density (ID) are prevented and problems of display defects such as white streaks, alignment unevenness, and image sticking are overcome. The liquid crystal display device of the present invention in which a decrease in the voltage holding ratio (VHR) of a liquid crystal layer and an increase in the ion density (ID) are prevented and problems of display defects such as image sticking are overcome is particularly useful for active matrix driving liquid crystal display devices with an IPS mode and an FFS mode and can be applied to liquid crystal display devices of liquid crystal televisions, monitors, cellular phones, and smart phones. | 2015-12-10 |
20150355500 | LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME - A liquid crystal display according to an exemplary embodiment includes: a substrate; a thin film transistor disposed on the substrate; a pixel electrode connected to the thin film transistor; and color filters disposed to face the pixel electrode, wherein a plurality of microcavities are between the pixel electrode and the color filters, the microcavities form a liquid crystal layer including a liquid crystal material, the microcavities are divided by a partition portion, and the partition portion is formed by a color filter of one color among the color filters. | 2015-12-10 |
20150355501 | TRANSPARENT CONDUCTIVE LAYER AND CF SUBSTRATE HAVING SAME AND MANUFACTURING METHOD THEREOF - The present invention provides a transparent conductive layer and a CF substrate having the transparent conductive layer and a manufacturing method thereof. The transparent conductive layer is made of a graphene transparent conductive material and is in the form of a thin film having a thickness of 0.36 nm-10 nm, transmittance of visible light being 80-97%, and surface resistance being 30-500 Ω/□ and can replace a conventional ITO transparent conductive layer and has improved mechanical strength and flexibility. The CF substrate having the graphene transparent conductive layer uses the graphene transparent conductive layer to replace the ITO transparent conductive layer used in a CF substrate in order to obtain an electrode or a static electricity draining layer having high transmittance and excellent flexibility and, when used in a liquid crystal display panel, helps improve the transmittance of the liquid crystal panel and reduce the use of backlighting. The manufacturing method of the CF substrate having the graphene transparent conductive layer uses a CVD process to form graphene on a growth substrate to be subsequently transferred to a CF substrate body, of which the manufacture is easy and cost is low. | 2015-12-10 |
20150355502 | LENS ARRAY SUBSTRATE, METHOD OF MANUFACTURING LENS ARRAY SUBSTRATE, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A lens array substrate includes a substrate provided with a plurality of concave portions in a first face thereof. The lens layer includes a first lens layer, a second lens layer, and a third lens layer which are sequentially laminated from a substrate side by reflecting the shape of the concave portion therein. A refractive index of the first lens layer is larger than a refractive index of the second lens layer, and a refractive index of the third lens layer is smaller than the refractive index of the second lens layer and is larger than a refractive index of the substrate. The third lens layer, the second lens layer, and the first lens layer are sequentially exposed to the surface of the lens layer toward the end from the central portion of the concave portion. | 2015-12-10 |
20150355503 | POLARISING PLATE FOR A PLANAR-SWITCH MODE LCD, AND A PLANAR-SWITCH MODE LCD COMPRISING THE SAME - A polarizer for use in an IPS-LCD includes: a polarizing element; and a retardation film laminate attached to a surface of the polarizing element. The retardation film laminate includes a combination of a +B film and a −B film or a combination of a +B film and a +A film. | 2015-12-10 |
20150355504 | IMAGE DISPLAY APPARATUS - Provided is an image display apparatus, including: a display panel; a light emitting unit that emits light to be irradiated onto the display panel; an optical sheet that is disposed between the light emitting unit and the display panel; a first holding unit that holds the display panel; and a second holding unit that holds the optical sheet, wherein the first holding unit and the second holding unit are separate members. The first holding unit includes: a transparent front plate that is fixed onto the display surface; and a frame that holds the front plate from the rear surface side, and the display panel fixed onto the front plate is held by the front plate that is held by the frame. | 2015-12-10 |
20150355505 | LIGHTING DEVICE - The present disclosure relates to a backlight for illuminating back lit displays (e.g. LC displays of LCD televisions). In order to enable a thin design of the backlight and a high uniformity of the light emitted by the backlight, an apparatus may be provided with transparent and diffusing masking elements that may mask individual light sources and may diffuse light back into a light guide. Absorbing elements and/or retro-reflective elements may be arranged proximate the light sources in order to avoid generation of bright spots or rings around the light sources. | 2015-12-10 |
20150355506 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a display panel receiving light to display an image, and a backlight assembly emitting the light to the display panel, the backlight assembly including a light emitting unit emitting the light, a light guide plate coupled to the light emitting unit, the light guide plate guiding the light emitted from the light emitting unit to the display panel, and a reflective adhesive member including a light reflective material, the reflective adhesive member surrounding the light emitting unit and coupling the light emitting unit to the light guide plate. | 2015-12-10 |
20150355507 | METHOD FOR MANUFACTURING FLUORESCENT POWDER SUBSTRATE AND LIQUID CRYSTAL MODULE USING FLUORESCENT POWDER SUBSTRATE - A method for manufacturing fluorescent powder substrate includes ( | 2015-12-10 |
20150355508 | Composition, Alignment Layer and Method for Preparing Same, Liquid Crystal Alignment Unit and Liquid Crystal Display Panel - The invention belongs to the technical field of displaying, and provides a composition, an alignment layer and a method for preparing the same, a liquid crystal (LC) alignment unit and a liquid crystal display panel. The invention can solve the problems existing in the prior methods for achieving of multi-domain display of LC display devices, such as complex manufacturing processes, high cost, difficult to be manufactured. The composition (alignment layer) of the present invention allows adjusting the alignment of the molecules in the surface of the resultant coating layer of the composition, through adjusting the contents of the components in the composition, the polymerization temperature, and/or the thickness of the coating of the composition. The alignment layer, the LC alignment unit, and the LC display panel according to the invention can be prepared using a simple process and allow to achieve a multi-domain display at a lower cost. | 2015-12-10 |
20150355509 | LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY HAVING THE SAME - A liquid crystal panel includes multiple pixel units, each pixel unit including a first pixel region and a second pixel region. Besides, the liquid crystal panel comprises a thin-film-transistor (TFT) substrate, a color filter substrate disposed oppositely to the TFT substrate; a liquid crystal layer disposed between the TFT substrate and the color filter substrate; multiple pixel electrodes disposed on the TFT substrate; a common electrode disposed on the color filter substrate; a first insulation layer disposed on the color filter substrate, located in the first pixel region and located between the color filter substrate and the common electrode; and a second insulation layer disposed on the color filter substrate, located in the second pixel region and located above the color filter substrate and the common electrode. The present invention also discloses a liquid crystal display having the above liquid crystal panel. | 2015-12-10 |
20150355510 | SENSOR-EQUIPPED DISPLAY DEVICE - According to one embodiment, a sensor-equipped display device comprises a display panel and a detection electrode. The panel includes a display area in which pixels are arranged with a first pixel pitch in a first direction and a second pixel pitch in a second direction. The electrode includes an pattern having line fragments. The pattern has connection points at which ends of the fragments are connected to each other, and at least part of the connection points is arranged linearly such that an arrangement gaps thereof in the first and second direction is set to a first and second connection point pitch. | 2015-12-10 |
20150355511 | LIQUID CRYSTAL DISPLAY - A liquid crystal display is provided. The liquid crystal display includes a pair of substrates; and a pixel electrode and a common electrode provided on the pair of substrates and facing each other. The pixel electrode includes: a cross pattern at a center thereof; a plate electrode surrounding the cross pattern; and a plurality of minute branch electrodes extending in a diagonal direction outward from the plate electrode. A partial extension structure of the plate electrode is formed in at least a partial boundary region located between the plate electrode and the plurality of minute branch electrodes. | 2015-12-10 |
20150355512 | DISPLAY PANEL - A display panel ( | 2015-12-10 |
20150355513 | DISPLAY PANEL WITH SINGLE SUBSTRATE AND FABRICATING METHOD THEREOF - The present disclosure provides a single substrate display panel and fabricating method thereof. The fabricating method of a single substrate display panel comprises steps of providing a parallel electric field substrate; and forming a display medium layer above the parallel electric field substrate. The present disclosure also provides a fabricating method of the single substrate display panel. The present disclosure can achieve single substrate display so as to reduce the weight and thickness of the liquid crystal display panel and improve display quality. | 2015-12-10 |
20150355514 | TRANSPARENT DISPLAY DEVICE AND DISPLAYING METHOD THEREOF - A transparent display device includes a first active LCD panel, a second active LCD panel and a backlight module sandwiched between the first active LCD panel and the second active LCD panel. Both of the first active LCD panel and the second active LCD panel can provide various images and show different displaying states. Therefore, the transparent display device can utilize the images or the displaying states shown by the second active LCD panel to facilitate the image displaying function of the first active LCD panel to achieve the purpose of improving the image contrast and the variety effect. | 2015-12-10 |
20150355515 | PIXEL STRUCTURE, METHOD OF MANUFACTURING THE SAME, AND DISPLAY DEVICE - The present invention provides a pixel structure and a display device, the pixel structure comprises thin film transistors; a substrate, and common electrodes, a gate insulation layer, a passivation layer and pixel electrodes stacked in order on the substrate. The pixel structure further comprises electrically conductive electrodes located between the passivation layer and the gate insulation layer, and the electrically conductive electrodes are located within overlapped regions between the pixel electrodes and the common electrodes and electrically connected with the pixel electrodes, respectively. In the above pixel structure, the common electrode and both of the electrically conductive electrode and the pixel electrode form storage capacitors, so that there is only one film layer, that is, the gate insulation layer, between the pixel electrode and the common electrode, thereby reducing a distance between two parts forming the storage capacitor, increasing the storage capacitor, and improving display performance of the display device. | 2015-12-10 |
20150355516 | DISPLAY COMPONENT AND DISPLAY DEVICE - An array board | 2015-12-10 |
20150355517 | ARRAY SUBSTRATE AND DISPLAY DEVICE - The present disclosure discloses an array substrate and a display device so as to alleviate the toothed edge appearance when an image is displayed in a dual-gate array substrate structure. The array substrate includes at least one row of pixel elements, a first gate line, and a second gate line. The first gate line and the second gate line are disposed on the same side of the least one row of pixel elements. Thin film transistors are disposed in the pixel elements, and gates of the thin film transistors in two adjacent pixel elements are coupled with the first gate line and the second gate line, respectively. | 2015-12-10 |