48th week of 2015 patent applcation highlights part 38 |
Patent application number | Title | Published |
20150338626 | MICROSCOPE APPARATUS - A microscope apparatus includes a stage for holding a specimen, a stand portion for holding the stage, an arm portion having two arms extending from an upper part of the stand portion to a front side of the microscope apparatus, an optical system supported by the arm portion and configured to enlarge an image of the specimen on the stage, and gripping portions provided respectively on lower parts of the two arms and configured to be gripped by an observer. | 2015-11-26 |
20150338627 | APPARATUS AND METHOD FOR ATOMIC FORCE, NEAR-FIELD SCANNING OPTICAL MICROSCOPY - A near-field optic has a high refractive index waveguide with a planar far field facet more than half of a wavelength across for coupling propagating light and a near field facet with the near field zone of the waveguide supporting only the fundamental optical mode in each polarization. A tapered waveguide section extends from the near field facet to transform the fundamental optical mode. A cantilever supports the tapered waveguide section. | 2015-11-26 |
20150338628 | SPIM MICROSCOPE WITH A SEQUENTIAL LIGHT SHEET - A SPIM-microscope (Selective Plane Imaging Microscopy) having a y-direction illumination light source and a z-direction detection light camera. An x-scanner generates a sequential light sheet by scanning the illumination light beam in the x-direction. By an illumination optics having a zoom optics that is provided in the beam path of the illumination light beam the focal length of the illumination light beam can be varied. | 2015-11-26 |
20150338629 | MICROSCOPE WITH ILLUMINATION DEVICE - A microscope includes an illumination device having a light source and two current control devices. Each of the current control devices has a target value input and a measuring resistor arrangement. The current control devices supply a through-current for the light source and control a level thereof by way of a potential difference across the measuring resistor arrangement on the basis of a signal provided at the target value input. An adjustment device is configured to set two different illumination types of the microscope. The adjustment device and the illumination device are operatively connected to each other such that setting a first illumination type switches the illumination device into a first current configuration, in which at least one current control device supplies no through-current, and setting a second illumination type switches the illumination device into a second current configuration, in which at least one control devices supplies a through-current. | 2015-11-26 |
20150338630 | Device for marking a sample, and observation system comprising such a marking device - This marking device for marking a sample is intended to be placed facing the sample for observing the sample by means of an observation system. The marking device comprises a plurality of meshes forming a meshing, the marking device comprising at least one identification marking of each mesh. | 2015-11-26 |
20150338631 | LIGHT MODULATING DEVICE - A light modulating device | 2015-11-26 |
20150338632 | MICROSCOPE SYSTEM - The invention provides a microscope system including a correction-gain storage portion that calculates a correction gain for performing shading correction of an image related to optical images of a specimen, obtained by a microscope, and stores specimen information indicating features of the specimen and optical information at the time of obtaining the image in association with the correction gain; a correction-gain selecting portion that selects the correction gain for use when performing the shading correction of the image to be corrected; and a correction portion that performs the shading correction of the image to be corrected, on the basis of the selected correction gain, wherein the correction-gain selecting portion selects, on the basis of the specimen information or a result of the shading correction with the plurality of correction gains, the correction gain to be used in the shading correction of the image to be corrected. | 2015-11-26 |
20150338633 | Wide Field of View Foveal Night Vision Systems - An optical viewing apparatus may include an objective lens assembly and an one eye piece assembly connected to the objective lens assembly. The optical viewing apparatus may exhibit a field of view in the range of between 40° and, preferably beyond 80°, and an eye-relief of at least 15 mm, and the optical viewing apparatus may exhibit a foveated image for at least one field of view (FOV) wherein the optical on-axis resolution decays toward the periphery of the field of view. | 2015-11-26 |
20150338634 | BALANCED EQUATORIAL MOUNT TECHNIQUE FOR TELESCOPE - A technique for equatorially mounting a telescope includes a right ascension support having a first end coupled to a counterweight assembly and a second end coupled to a declination support. The right ascension support is coupled to a base and extends downwardly and backwardly from the first end to the second end. The resulting arrangement causes the act of balancing the telescope about its right ascension axis also substantially to balance the telescope about its base. | 2015-11-26 |
20150338635 | Mobile Optical Magnifier - A mobile optical magnifier used for enlarging the viewing size of the display screen and amplifying the acoustical audio output of a mobile electronic device. The mobile optical magnifier comprises a wall structure that includes collapsible, interlinked bellows or foldable rigid walls, an optical magnifying lens, and a base plate. The optical lens is mounted on a first end of the wall structure and the base plate is mounted on a second end of the wall structure. At least one sidewall of the wall structure includes an aperture that enables the user to place a mobile electronic device on the base plate inside the mobile optical magnifier. The base plate also includes at least one independently hinged sound reflector that passively reflects the audio being generated by the mobile electronic device. The optical lens is covered by a hinged lens cover plate when not in use. | 2015-11-26 |
20150338636 | FLUID FOR ELECTROWETTING DEVICE AND ELECTROWETTING DEVICE USING THE SAME - An electrowetting device which includes a polarizable liquid; and a nonpolar solution separated from the polarizable liquid by an interface. The polarizable liquid may include a polar solvent, an organic acid, and ammonium hydroxide having at least one alkyl group. | 2015-11-26 |
20150338637 | NON-AQUEOUS CONDUCTIVE LIQUIDS FOR LIQUID LENSES - An electrowetting optical device having a non-aqueous conductive liquid and a non-conductive liquid, the liquids being non-miscible, and a dielectric enclosure on which both liquids are in contact and form a triple interface. The non-aqueous conductive liquid includes a non-ionic polar organic solvent, and at least 2 weight % of a first compound, where the first compound is non-aqueous and is either ionic or non-ionic. If the first compound is non-ionic, the first compound is more polar than the solvent, the polarity of the non-ionic first compound being measured by Hansen parameters, a sum of the Hansen parameter for polarity (δ | 2015-11-26 |
20150338638 | LIGHT-SHIELDING STRUCTURE AND METHOD FOR MANUFACTURING THE STRUCTURE, DISPLAY DEVICE AND METHOD FOR DISPLAYING WITH DISPLAY DEVICE - The present invention provides a light-shielding structure, a method for manufacturing the structure, a display device and a method for displaying with the display device. Said light-shielding structure comprises a plurality of micro light-shielding boxes, each of the micro light-shielding boxes comprises a sealed cavity provided with a transparent solvent, a first electrode and a second electrode disposed oppositely, and at least one rotator disposed between said first electrode and said second electrode. Said rotator comprises a light-shielding portion and a transparent portion, and said light-shielding portion has an electrical property different with that of said transparent portion. The light-shielding structure in the embodiments of the present invention comprises at least one rotator, which is controlled to rotate by means of the electrodes at two sides thereof. When the light leakage region in the color film substrate needs light shielding, at least one rotator is controlled to form a light-shielding band to shield the light leakage region of the color film substrate; when it does not need light shielding, the at least one rotator is controlled to rotate such that the formed transparent band is aligned with the light leakage region. This improves the transmittance of the display panel, thereby solving the problem of light leakage at pixel edge without sacrificing the transmittance of the panel. | 2015-11-26 |
20150338639 | PHASE MODULATION DEVICE AND LASER MICROSCOPE - A phase modulation device corrects wave front aberrations generated by an optical system including an objective lens disposed on an optical path of a light flux. The phase modulation device includes a phase modulation element which includes a plurality of electrodes, and modulates the phase of the light flux in accordance with a voltage applied to each electrode, and a control circuit which controls the voltage to be applied to each electrode. The control circuit controls the voltage to be applied to each electrode in such a manner that the light flux is imparted with a phase modulation amount in accordance with a phase modulation profile having a polarity opposite to the polarity of a phase distribution to be determined according to a relational equation representing a relationship between a numerical aperture of the objective lens and a ratio between third-order spherical aberration and fifth-order spherical aberration. | 2015-11-26 |
20150338640 | APPARATUS AND METHODS FOR COMBINING AND SEPARATING MULTIPLE BEAMS - A method of combining and co-aligning a plurality of radiation beams each having a respective waveband, includes the steps of passing each of said radiation beams to a respective lateral deflector to impart a selected lateral displacement to said beam. Each of said radiation beams with respective imparted lateral displacements is then passed to an optical collimating element which passes said radiation beams to an optical deflecting element which applies a wavelength dependent deflection to the radiation beams. The respective lateral displacements are selected having regard to the waveband of each beam to cause all to exit the optical deflecting element at the same angle so they are co-aligned. | 2015-11-26 |
20150338641 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - An optical scanning device includes: a common optical deflector that deflects light beams from light source devices; and a scanning optical system that focuses the deflected light beams on different scanning surfaces. All the light beams from the light source devices are incident on the optical deflector in directions oblique to a normal line of the scanning surfaces in a main-scanning cross section and to a normal line of a deflecting reflection plane of the optical deflector in a sub-scanning cross section. The scanning optical system includes individual lenses which are individually arranged for the respective light beams and have a plane shape symmetric in the main-scanning direction and satisfies a predetermined condition, and an optical axis of the individual lens is arranged obliquely to the normal line of the scanning surface in the main-scanning cross section so as to satisfy a predetermined condition. | 2015-11-26 |
20150338642 | HIGH SPEED VARIABLE FOCAL FIELD LENS ASSEMBLY AND RELATED METHODS - A variable focal length optical assembly may include a deformable entry lens element, a deformable first reflective element and a deformable second reflective element. Using a controller coupled to the deformable elements, an external force such as a mechanical, electrical, electromechanical, or electromagnetic force is applied to the deformable elements to provide any number of different focal lengths. Since the deformation of the deformable elements, and consequently the changes in focal length, occur much faster than the playback frame rate, a number of sub-frames, each containing an image obtained at a different focal length, are associated with each playback frame. The availability of multiple images in the form of sub-frames permits the selection of an optimal image for inclusion in the final playback frame sequence. The availability of multiple images in the form of sub-frames at different focal lengths also permits the seamless incorporation of zoom-in and zoom-out effects. | 2015-11-26 |
20150338643 | PRODUCTION OF MICRO-MECHANICAL DEVICES - A method for fabrication of a device ( | 2015-11-26 |
20150338644 | TWO-DIMENSIONAL OPTICAL DEFLECTOR INCLUDING TWO SOI STRUCTURES AND ITS MANUFACTURING METHOD - A two-dimensional optical deflector includes a first SOI structure and a second SOI structure. A height of a monocrystalline silicon support layer of the first SOI structure is smaller than a height of a monocrystalline silicon support layer of the second SOI structure. A mirror includes a monocrystalline silicon active layer of the first SOI structure. An inner frame, an inner piezoelectric actuator and an outer frame include a monocrystalline silicon active layer of the first SOI structure and the monocrystalline silicon active layer of the second SOI structure. An outer piezoelectric actuator includes the monocrystalline silicon active layer of the first SOI structure. | 2015-11-26 |
20150338645 | A MEMS DEVICE - A MEMS micro-mirror device comprising, a MEMS micro-mirror, a support structure and, a first and second torsional arm which each connect the MEMS micro-mirror to the support structure, wherein the first and second torsional arms are arranged to define a first oscillation axis about which the MEMS micro-mirror can oscillate; a single actuation coil for oscillating the MEMS micro mirror about the first oscillation axis, at least a portion of the single actuation coil being arranged to cooperate with the MEMS micro mirror; a magnet which is arranged such that a magnetic field generated by the magnet submerges at least the portion of the single actuation coil which cooperates with the MEMS micro mirror; wherein the single actuation coil is configured to extend along the first and second torsional arms. | 2015-11-26 |
20150338646 | OPTICAL SCANNING OBSERVATION APPARATUS - An optical scanning observation apparatus ( | 2015-11-26 |
20150338647 | OPTICAL SCANNING APPARATUS - The optical scanning apparatus according to the present invention includes a deflection unit that deflects a light flux, a plurality of incident optical systems that cause light fluxes to enter the deflection unit at different incident angles in a sub-scanning cross section, and an imaging optical system that guides a plurality of light fluxes deflected by the deflection unit onto a scanned surface. The imaging optical system has a first optical functional portion and a second optical functional portion arranged in a sub-scanning direction and connected to each other by a connecting portion. In a plane including the connecting portion, at least incident surfaces or exit surfaces of the first and second optical functional portions overlap with each other at least at one point. | 2015-11-26 |
20150338648 | METHODS AND SYSTEMS FOR EFFICIENT RENDERING OF GAME SCREENS FOR MULTI-PLAYER VIDEO GAME - A method for creating and sending video game images comprises identifying a scene being viewed by a participant in a video game; determining whether there exists a previously created image corresponding to the scene and corresponding to a participant category to which the participant belongs. If the determining is positive, the previously created image is retrieved and released towards a device associated with the participant. If the determining is negative, an image is rendered, and the rendered image is released towards the device. Also, there is provided a method for control of video game rendering, which comprises identifying a scene being viewed by a participant in a video game; obtaining an image for the scene; rendering at least one customized image for the participant; and combining the image for the scene and the at least one customized image for the participant, thereby to create a composite image for the participant. | 2015-11-26 |
20150338649 | HEAD-UP DISPLAY DEVICE AND COMBINER THEREOF - An optical display image is projected from a projector to a combiner. The combiner includes a front reflection surface, which is in a form of a curved concave surface and forms a front surface virtual image by reflecting the optical display image at a side of the combiner where an inside of a cabin is located, and a back reflection surface, which is in a form of a curved convex surface and forms a back surface virtual image by reflecting the optical display image at another side of the combiner where an outside of the cabin is located. Optical axes, which extend from the front reflection surface and the back reflection surface, respectively, to a predicted eye point of the occupant, are overlapped with each other, and a radius of curvature of the front reflection surface is smaller than a radius of curvature of the back reflection surface. | 2015-11-26 |
20150338650 | LOW-DEFINITION DISPLAY WITH A COMPACT OPTICAL SUPERPOSITION DEVICE AND ASSOCIATED INSTRUMENT SET - A display device ( | 2015-11-26 |
20150338651 | MULTIMODAL INTERATION WITH NEAR-TO-EYE DISPLAY - The invention relates to a method, comprising tracking the gaze of an eye of a user by a first camera, wherein a position of the gaze determines a place for the cursor on the screen of a near-to-eye display (NED), wherein the movement of the gaze is configured to move the cursor on the screen and when the movement of the gaze is detected to be still or moving only slightly; observing a gesture of one hand of the user by a second camera, and executing a further operation if at least one gesture of the hand is detected. The invention further relates to an apparatus and a computer program product configured to perform the method. | 2015-11-26 |
20150338652 | EYEWEAR TYPE TERMINAL AND CONTROL METHOD THEREOF - An eyewear type terminal includes a camera, an infrared light emitting part, a display unit and a controller. The camera obtains a first image using at least one image sensor. The infrared light emitting part is disposed to be spaced apart from the camera at a predetermined distance, and transmits infrared light using at least one infrared light emitting device. The display unit displays the first image and a marker moving along a first input signal on the first image, when the infrared light emitting part is driven. The controller obtains a second image of an object existing in the area where the marker is displayed using the at least one infrared light emitting part and the camera, when a second input signal is sensed, and outputs visual information related to the obtained second image to be adjacent to the object. | 2015-11-26 |
20150338653 | METHOD AND APPARATUS FOR SEE-THROUGH NEAR EYE DISPLAY - Some aspects of the present application include a wearable, see-through display device. The device includes a source of video information and a micro-display configured to receive video information from the source of video information and to project light forming an image based on the video information. The device also includes a lens system comprising one or more lenses, the lens system configured to receive and collimate light from the micro-display and to propagate the light from the micro-display to an image guide and the image guide positioned to receive light from the lens system and direct the received light to a partial reflector. The device also includes a partial reflector configured to reflect the light received from the image guide out of the display device towards a place where an eye of a user wearing the see-through display device may be positioned. | 2015-11-26 |
20150338654 | DISPLAY - According to one embodiment, a display includes a projector, a first optical unit, and a second optical unit. The projector emits a first light including image information. The first optical unit transmits at least a portion of a second light. The second optical unit reflects at least a portion of the first light and transmits at least a portion of the second light. A light reflectance of the first optical unit is lower than a light reflectance of the second optical unit, and a light absorptance of the first optical unit is higher than a light absorptance of the second optical unit. | 2015-11-26 |
20150338655 | DISPLAY DEVICE - According to one embodiment, a display device includes a light emitter and a reflector. The light emitter emits light including image information. The reflector has a plurality of reflective surfaces arranged in a first direction. The reflective surfaces reflect a portion of the light. A length in a second direction of one of the reflective surfaces is longer than a length in the first direction of the one of the reflective surfaces. The second direction intersects the first direction. A first plane is tilted with respect to a second plane. The first plane includes an incident direction of the light at the reflector and a reflection direction of the light at the reflector. The second plane includes the first direction and the second direction. The second direction is tilted with respect to an intersection line between the first plane and the second plane. | 2015-11-26 |
20150338656 | DISPLAY DEVICE - According to one embodiment, a display device includes a display unit, a reflective/transmissive unit, and an optical unit. The display unit emits image light including image information. The reflective/transmissive unit reflects at least a portion of the image light and transmits at least a portion of background light. The optical unit is provided between the display unit and the reflective/transmissive unit in an optical path of the image light. A refractive power of the optical unit is determined according to a refractive power of the reflective/transmissive unit for the background light passing through the reflective/transmissive unit. | 2015-11-26 |
20150338657 | DISPLAY DEVICE - A display device includes a first optical part that reflects at least part of incident light and a projection part that projects image light including the image information. The first optical part includes a first base, a reflective layer, a second base, and an intermediate layer. The refractive index of the first base, the refractive index of the second base, and the refractive index the intermediate layer are about the same value. | 2015-11-26 |
20150338658 | WEARABLE DISPLAY FOR STEREOSCOPIC VIEWING - A wearable display apparatus for displaying an image has a source of modulated laser light and a scanning apparatus energizable to scan the modulated laser light from the source in a raster pattern and into the eye for forming an image. The scanning apparatus directs light into the eye of the viewer from a distance to the eye that is within the object focal length of the eye, positioned below the horizontal line of sight of the viewer, and disposed within a lower portion of the vertical peripheral field of view and substantially outside of the normal vertical field of view of the viewer. An optical fiber is disposed to direct the modulated laser light from the source to the scanning apparatus. A retaining band grips against the sides of the viewer's head and that seats the scanning apparatus against the viewer's face along or below the cheekbone. | 2015-11-26 |
20150338659 | HELMET MOUNTED DISPLAY - An apparatus having a mounting system and a helmet mounted display. The mounting system including a mounting plate and a mounting rocker. The helmet mounted display including a housing; latching tabs; an optical element having a combiner surface; at least one processor; and at least one memory including software, the at least one memory and software configured to, with the at least one processor, cause the apparatus at least to display heads up information on the combiner surface. The optical element is housed within a second portion of the housing being hingedly attached to the first portion of the housing. The apparatus is configured such that the combiner surface is positionable within the field of view of a wearer of the helmet. Related assemblies and methods are described. | 2015-11-26 |
20150338660 | IMAGE DISPLAY APPARATUS, IMAGE GENERATING DEVICE, AND TRANSMISSIVE SPATIAL LIGHT MODULATING DEVICE - An image display apparatus | 2015-11-26 |
20150338661 | STRAY LIGHT SUPPRESSION FOR HEAD WORN COMPUTING - Aspects of the present disclosure relate to head worn computing lighting systems and stray light control. | 2015-11-26 |
20150338662 | DISPLAY DEVICE - According to one embodiment, a display device includes a position controller, a projection unit, and a reflector. The projection unit emits light including image information. The projection unit is held by a holder. The position controller is interposed between the holder and the projection unit. The reflector reflects at least a portion of the light emitted from the projection unit. The reflector is held by the holder. A position of the reflector with respect to the holder is fixed. A relative arrangement of the projection unit and the reflector is changeable by the position controller. | 2015-11-26 |
20150338663 | BEAM TRANSFORMING OPTICAL SYSTEM, ILLUMINATION OPTICAL APPARATUS, EXPOSURE APPARATUS, AND EXPOSURE METHOD WITH OPTICAL MEMBER WITH OPTICAL ROTATORY POWER HAVING DIFFERENT THICKNESS TO ROTATE LINEAR POLARIZATION DIRECTION - An illumination optical apparatus illuminates a pattern on a mask with illumination light. The illumination optical apparatus includes an optical integrator arranged in an optical path of the illumination light, and a polarization member made of optical material with optical rotatory power, which is arranged in the optical path on an incidence side of the optical integrator, and which changes a polarization state of the illumination light. The illumination light from the polarization member is irradiated onto the pattern through a pupil plane of the illumination optical apparatus. | 2015-11-26 |
20150338664 | OPTICAL ASSEMBLY AND METHOD FOR ASSEMBLING THE SAME, AND OPTICAL MODULE IMPLEMENTED WITH OPTICAL ASSEMBLY - An optical assembly that installs red, green, blue laser diodes (LDs) within a single package is disclosed. The LDs are mounted on a base via respective sub-mounts. Light emitted from the LDs is collimated by collimating lenses and multiplexed by two wavelength filters so as to align optical axes of the light. The multiplexed light has an axis substantially leveled with the axes of the red, green, and blue light measured from the top of the base. | 2015-11-26 |
20150338665 | Ultra-High Efficiency Color Mixing and Color Separation - Methods and apparatus for combining or separating spectral components by means of a polychromat. A polychromat is employed to combine a plurality of beams, each derived from a separate source, into a single output beam, thereby providing for definition of one or more of the intensity, color, color uniformity, divergence angle, degree of collimation, polarization, focus, or beam waist of the output beam. The combination of sources and polychromat may serve as an enhanced-privacy display and to multiplex signals of multiple spectral components. In other embodiments of the invention, a polychromat serves to disperse spectral components for spectroscopic or de-multiplexing applications. | 2015-11-26 |
20150338666 | DUAL-VIEW DISPLAY SUBSTRATE AND DISPLAY DEVICE - A dual-view display substrate and a dual-view display device are provided. The dual-view display substrate includes a base substrate; first display areas and second display areas are alternately arranged and disposed on the base substrate; the first display areas and the second display areas are respectively provided with display units; main light-emitting directions of the display units of each first display area are consistent with each other and correspond to a first view region from which only the first display areas can be viewed; and main light-emitting directions of the display units of each second display area are consistent with each other and correspond to a second view region from which only the second display areas can be viewed. | 2015-11-26 |
20150338667 | INFRARED INTERACTIVE REMOTE CONTROL DEVICE AND PROJECTION SYSTEM USING SAME - Provided are infrared interactive remote control devices and projection systems using same, which can distinguish an indication state and an interactive control state. A pattern disc rotatable around a rotating shaft is provided in the infrared interactive remote control device. In a normal state, a visible light source works independently, and indication pattern holes in the pattern disc are positioned on an optical path to allow visible light to pass through, so that indication light spots corresponding to the indication pattern holes are formed. When a control button is pressed down, the visible light source and an infrared light source work together, and the pattern disc is driven to rotate, so that the control pattern holes are positioned on the optical path to allow the visible light to pass through, and control light spots corresponding to the control pattern holes are formed to indicate an interactive control state. | 2015-11-26 |
20150338668 | Naked Eye 3D Polarized Structure and Manufacturing Method Thereof - In a naked eye 3D polarized structure and a manufacturing method of the naked eye 3D polarized structure, the naked eye 3D polarized structure includes a polarizer, a 3D grating layer disposed in the polarizer and having a PET film, and a lens structure installed in the PET film and containing nitrogen or being vacuumed. The lens structure installed on the 3D grating layer in the PET film is capable of protecting the lens structure from being affected by external forces, so as to prevent external stresses from affecting the mechanical property of the 3D grating layer during the attaching and application processes of the 3D grating layer. | 2015-11-26 |
20150338669 | DISPLAY DEVICE, TERMINAL DEVICE, AND DISPLAY METHOD - Movement of a display device is detected, and an image is displayed in stereoscopic display or planar display depending on the detected movement. | 2015-11-26 |
20150338670 | IMAGE DISPLAY APPARATUS - The present disclosure provides an image display apparatus having excellent light converging characteristics. The image display apparatus includes: a liquid crystal prism element including a prism array in which a plurality of prisms are arranged, a liquid crystal layer laminated on the prism array, and electrodes provided at position corresponding to the respective prisms which form the prism array; a control section configured to control a voltage to be applied to each electrode; and a position detection section configured to detect a viewing position of a user. The control section is able to apply the same or different voltages to the respective electrodes provided at the positions corresponding to the respective prisms, on the basis of a result of the detection of the viewing position by the position detection section. | 2015-11-26 |
20150338671 | DISPLAY DEVICE AND TERMINAL DEVICE - To provide a plural-viewpoint display device having an image separating optical element such as a lenticular lens or a parallax barrier, which is capable of achieving a high image quality by suppressing deterioration in the display image quality caused when a block division driving method is employed, and to provide a terminal device, a display panel, and a driving method thereof, which can be preferably used for those devices. A pixel group configured with pixels for displaying a right-eye image includes a pixel connected to a data line phase-deployed in the first phase of a block division driving method, and a pixel connected to a data line phase-deployed in the third phase, and a pixel connected to a data line phase-deployed in the second phase. In this manner, it is designed to have no deviation in the phase deployment orders in the pixel groups for each viewpoint. | 2015-11-26 |
20150338672 | STEREOSCOPIC IMAGE DISPLAYER - The instant disclosure provides a stereoscopic image displayer including a backlight module, a LCD module, a stereoscopic film, and a touch panel. The LCD module is disposed on the backlight module. The stereoscopic film is disposed on the LCD module by an optical adhesive. The stereoscopic film includes a plastic film and a three-dimensional raster. The three-dimensional raster is disposed on the plastic film. The plastic film has a thickness range from 0.015 mm to 0.25 mm. The touch panel is disposed on the stereoscopic film forming an air layer therebetween. | 2015-11-26 |
20150338673 | METHOD AND APPARATUS FOR VIEWING AN IMAGE - It is provided a method for viewing an image that is wider or higher than the display screen, wherein, the image is evenly divided into two portions by using a line passing through centers of larger edges of the image compared to the display screen. The method comprises, at the side of shutter glasses, the steps of receiving a message indicating display of a first portion of the two portions; turning dark of the shutter glasses and turning refraction direction of the shutter glasses towards a first position; turning transparent of the shutter glasses; receiving a message indicating display of a second portion of the two portions; turning dark of the shutter glasses and turning refraction direction of the shutter glasses towards a second position; and turning transparent of the shutter glasses. | 2015-11-26 |
20150338674 | COLLAPSIBLE QUASI 3D STEREOSCOPIC DISPLAY AND COVER - A collapsible ‘quasi 3D’ stereoscopic display device and method of construction for quick automatic deployment for use with a mobile smart device at any time and place and folding for storage within a mobile communication device (phone, tablet, portable computer) thin cover carrying case or other thin storage device. | 2015-11-26 |
20150338675 | COLOR FILTER AND PREPARATION METHOD THEREOF, AND DISPLAY DEVICE - A color filter, a display device using the color filter, and a method for preparing the color filter are provided. The color filter is provided with a plurality of pixel regions in one-to-one correspondence to light within a plurality of different wavebands, respectively. The color filer comprises a plurality of stacked dielectric films. Each of the dielectric films reflects light within one waveband and transmits light within other wavebands. In each of the pixel regions, the dielectric film for reflecting light within a waveband corresponding to this pixel region is replaced with a polarization-separation film for reflecting light in a first polarization direction and transmitting light in a second polarization direction. The color filter provided by embodiments of the present invention improves the transmittance of incident light and the utilization ratio of the incident light and can further provide powerful technical support for the enhancement of image display quality. | 2015-11-26 |
20150338676 | OPTICAL DEVICE, SYSTEM AND METHODS FOR INTERROGATING A VOLUME WITH AN ILLUMINATION PATTERN - In one embodiment, the optical device for generating an illumination pattern has a beam splitter and a pattern generator mounted in series and optically coupled one with the other. The beam splitter and the pattern generator are configured to cooperate one with the other in formatting an incident light beam into the illumination pattern. The illumination pattern has a plurality of diffraction patterns each resulting from a corresponding portion of the incident light beam being split from other portions of the incident light beam by the beam splitter. Each diffraction pattern has a zero-order beam. Each diffraction pattern overlaps with at least one of the other diffraction patterns and forms at least one overlapping region therewith, wherein the plurality of zero-order beams of the plurality of diffraction patterns are separated from one another in the illumination pattern. | 2015-11-26 |
20150338677 | TENSIONED AND EXPANDABLES EYEGLASSES - Disclosed are various embodiments for an eyeglass band comprising a plurality of layers, wherein at least one of the layers comprises a bistable or multistable band and at least one layer comprises a lens. The eyeglass band, via the spring band, may be elongated in a first fixed position when tension within the springy metal bands is created. When the tension within the springy metal bands is lost, the flexible bistable spring band will cause the bistable eyeglass apparatus to change to either a second position or a third position. The lens may be in an eyelevel position when the eyeglass band is worn on a face of a wearer. | 2015-11-26 |
20150338678 | Modular Eyewear Apparatus - A modular eyewear apparatus includes a frame member having left and right socket portions each having a generally circular rim defining an interior void, respectively, and being connected by a bridge portion, the left and the right socket portion having a temple connector extending rearwardly from a respective rim. A lens holding member has a pair of adjacent rim sections selectively coupled to the rims of the left and the right socket portions, respectively. The eyewear apparatus includes proximal and distal ends, respectively, each proximal end being selectively coupled to a respective temple connector such that the temple members are interchangeable. The configurations of the selected members themselves enable them to be quickly and efficiently released from an assembly or to be interchangeably arranged into a new assembly as described above. | 2015-11-26 |
20150338679 | OPHTHALMIC LENS THAT CAN BE EDGED, COMPRISING A HYDROPHOBIC BILAYER AND A TEMPORARY METAL FLUORIDE LAYER - An ophthalmic lens that can be edged, includes a main front surface and a main rear surface, obtained by successive deposition on at least one of the main surfaces of the lens, of a first hydrophobic layer that has a thickness of between 6 and 16 nm and is obtained by deposition of a composition including a constituent A selected from fluorosilanes having a number average molar mass that is higher than, or equal to, 2000 g/mol, of a second hydrophobic layer that has a thickness of between 3 and 20 nm and is obtained by the deposition of a composition including a constituent B selected from the fluorosilanes having a number average molar mass than is lower than, or equal to, 900 g/mol, and of a layer including a metal fluoride having a thickness of between 22 and 50 nm. | 2015-11-26 |
20150338680 | METHOD FOR REDUCING THE THICKNESS OF A LENS SHAPE AND UNCUT LENS BLANK - The current invention is directed to a method, in particular a computer-implemented method, for providing a modified lens design for an uncut lens blank, in particular through the use of a non-transitory computer readable medium. Further, a method, in particular a computer-implemented method, for reducing a thickness of an original lens design of an uncut lens blank, in particular through the use of a non-transitory computer readable medium, is provided. Furthermore, a method for manufacturing an uncut lens blank and an uncut lens blank are provided. | 2015-11-26 |
20150338681 | METHOD FOR MANUFACTURING A COLORED CONTACT LENS - A method for manufacturing a colored contact lens which comprises the steps of: (a) forming a contact lens by polymerizing a polymerizable lens forming material in a mold, wherein the lens forming material includes at least one reactive group; (b) contacting at least a part of the contact lens with a dye solution for a period of time sufficient to form a colored layer within the contact lens, wherein the dye solution includes at least one dye of β-sulphatoethyl sulphone substituted with a sulfonate group; (c) immersing the contact lens with colored layer in a fixing solution; and (d) washing the contact lens; wherein the colored layer is covalently attached to the contact lens. | 2015-11-26 |
20150338682 | Ophthalmic Lens Having At Least A Stable Zone - Ophthalmic lens having a first surface comprising a zone of optical interest, the zone of optical interest comprising at least: a far vision control point (FV), a near vision control point (NV), a main line (M) starting from one end of the zone of optical interest, ending on the opposite end of the zone of optical interest and passing through the far and near vision control points, wherein the main line (M) comprises at one end a first section (S | 2015-11-26 |
20150338683 | Laser Protection Eyewear - A laser protection lens include an optically transparent material having a perimeter shape that follows a contour of a user's eye socket ridge, a horizontal shape, and a vertical shape. A multilayer interference coating is applied to at least one of an inside and outside surface of the optically transparent material. The multilayer interference coating has at least a 20 dB reduction of optical transmission for at least one of 445 nm, 532 nm, and 610 nm wavelengths and has at least 10 dB optical reduction over a wavelength band from at least one of 445 nm to the ultraviolet region and 610 nm the infrared region. | 2015-11-26 |
20150338684 | SPRING CLIP ATTACHABLE TO AN EYEGLASS FRAME TEMPLE PIECE - The present invention provides a spring clip attachable to either temple piece of a pair of eyeglasses. The spring clip can be used to secure the eyeglasses to clothing. The spring clip has a pair of spring clamps that fit over either temple piece of a pair of eyeglasses, as well as a clip that can secures the eyeglasses to clothing. The pair of spring clamps are large enough to accommodate temple pieces having a wide range of thicknesses. The spring clip is formed from a spring steel blank in a bending process that forms the clamps and the clip. The clip can fabricated from stainless spring steel, or the clip can be fabricated from non-corrosion resistant spring steel and plated with a corrosion-resistant metal, such as gold or chromium. | 2015-11-26 |
20150338685 | METHOD FOR MANUFACTURING AN OPHTHALMIC LENS - Disclosed is a method for manufacturing an ophthalmic lens including a substrate and a functional film securely fastened to a curved face of the substrate. This method includes a method for gluing the initially flat functional film to the curved face. To ensure that the functional film when securely fastened to the curved face filters a preset band of wavelengths centred on a wavelength denoted λp, multiple functional films are preselected; two knowledge bases are established experimentally; a film is selected, using the two knowledge bases, from the plurality of preselected films, the wavelength λi′ on which is centred the band of wavelengths that this film filters for a certain degree of deformation being equal to λp when the degree of deformation is that given for the curvature in question; and the gluing method is implemented in order to securely fasten the selected film to the curved face. | 2015-11-26 |
20150338686 | BACKLIGHT ASSEMBLY AND DISPLAY APPARATUS - Disclosed are a backlight assembly and a display apparatus comprising the backlight assembly. The backlight assembly comprising: a film member; and a support frame holding the film member; the support frame comprising at least one support plate; the support plate is provided with a stepped notch including a first notch and a second notch extending from the first notch and open to an edge of the support plate and having a width smaller than the first notch; the film member is provided with a protrusion for engaging with the stepped notch, the protrusion including a first part projecting from the film member and a second part extending from the first part and having a width larger than the first part; wherein the width of the second part of the protrusion is larger than that of the first notch of the stepped notch, and the width of the second notch of the stepped notch is smaller than that of the first part of the protrusion, such that when the protrusion is engaged with the stepped notch, the first part of the protrusion engages the first notch of the stepped notch, with the second part of the protrusion positioned outside the support plate for restraining the film member in an extending direction of the film member; and the second notch of the stepped notch is positioned over the first part of the protrusion for restraining the film member in a height direction of the support plate. The backlight assembly with the above structure can prevent the film member from dropping off the support plate. | 2015-11-26 |
20150338687 | PINNED DYNAMIC ELECTRO-OPTICAL PHASE SHIFTER - A semiconductor electro-optical phase shifter may include a substrate, an optical waveguide segment ( | 2015-11-26 |
20150338688 | POLYMER DISPERSED LIQUID CRYSTAL FILM, METHOD OF PREPARING THE SAME, AND DISPLAY APPARATUS COMPRISING THE SAME - A polymer dispersed liquid crystal film comprises: a first substrate ( | 2015-11-26 |
20150338689 | LIQUID CRYSTAL DEVICE - Provided are a liquid crystal device, a composition capable of forming a liquid crystal layer, a method of manufacturing the liquid crystal device, a system for manufacturing the liquid crystal device, and a use of the liquid crystal device. The liquid crystal device is a device capable of exhibiting, for example, a normally white or black mode, exhibiting a high contrast ratio, driven with a low driving voltage, and exhibiting excellent durability such as thermal stability. Such a liquid crystal device may be applied to various optical modulators such as a smart window, a window protective film, a flexible display device, an active retarder for displaying 3D images, or a viewing angle control film. | 2015-11-26 |
20150338690 | FRAME SEAL STRUCTURE ON SUBSTRATE, SUBSTRATE, AND LIQUID CRYSTAL DISPLAY DEVICE - The present disclosure relates to the field of liquid crystal display, and particularly to a frame seal structure on a substrate, a substrate, and a liquid crystal display device. The frame seal structure comprises a primary seal and an assembly process dummy seal. The assembly process dummy seal is formed in an area between the primary seal and an edge of the substrate, and consists of a plurality of sub-seals which are arranged discontinuously. The present frame seal structure is a novel frame seal structure which is proposed with respect to drawbacks of the process dummy seal during assembling with a VIF process in a liquid crystal display device with post spacers. By virtue of the novel frame seal, the peripheral region of the substrate will not be pressed airtight during assembling, so that the gas can be discharged, and poor sealing in a certain area is avoided. Thus the present disclosure can solve the problem of poor pressing of frame seal, particularly the problems like seal brush and seal narrow, and can be better adapted to the VIF process and improve the yield. (FIG. | 2015-11-26 |
20150338691 | DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME, AND DISPLAY DEVICE - The invention provides a display panel and a method for manufacturing the same, and a display device, belonging to the field of liquid crystal display technology, and can solve the problem existing in the prior art that amount of light absorbed by the solar cell in the display panel is limited. The display panel of the invention includes a light-transmissive region formed of sub-pixels, and at least one solar cell, and the solar cell is at least arranged at a part of the light-transmissive region of the display panel to supply power to the display panel; both a first electrode and a second electrode of the solar cell are made of a transparent conductive material, and at least light with the same color as the sub-pixels at the light-transmissive region can transmit the solar cell. | 2015-11-26 |
20150338692 | DISPLAY DEVICE - According to an embodiment of the present system and method, a display device includes first and second panels combined with a light transmitting layer positioned therebetween. The first panel includes a first insulation substrate including a display area and a peripheral area around the display area, a plurality of signal lines positioned in the display area of the first insulation substrate, and a driving circuit integrated in the peripheral area of the first insulation substrate and connected to the plurality of signal lines. The second panel includes a second insulation substrate facing the first insulation substrate, an insulating layer positioned on the second insulation substrate, a conductive low resistance layer positioned on the insulating layer and having lower resistance than the insulating layer, and an overcoat positioned on the low resistance layer and including an insulating material, wherein the low resistance layer includes a first portion facing the driving circuit. | 2015-11-26 |
20150338693 | LIQUID CRYSTAL DISPLAY DEVICE, AND METHOD FOR MANUFACTURING SAME - According to the present invention, a liquid crystal display device comprises: a backlight unit for emitting light; a liquid crystal panel which is disposed on the backlight unit and which has a polarizing plate attached to the lower portion thereof; and a touch screen which is disposed on the liquid crystal panel and which includes a polarizing film. | 2015-11-26 |
20150338694 | LIQUID CRYSTAL DISPLAY APPARATUS - There is provided a liquid crystal display apparatus in which a retardation Δnd of a liquid crystal layer is greater than 2 μm. Absorbing axes of the first polarizer and the second polarizer are in parallel to an alignment direction of the liquid crystal molecules on surfaces of the first substrate or the second substrate. A slow axis of the optical film and the absorbing axes of the first polarizer and the second polarizer are in parallel to each other or orthogonal to each other. An in-plane retardation of the optical film is from 300 nm to 430 nm. | 2015-11-26 |
20150338695 | A LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF, AND A DISPLAY DEVICE - A liquid crystal display panel and a manufacturing method thereof, and a display device are provided. The liquid crystal display panel includes a first substrate and a second substrate assembled to form a cell, first spacers for supporting a liquid crystal cell gap being provided between the first substrate and the second substrate, wherein a plurality of second spacers are further formed on a surface of the first substrate that is close to the second substrate; separated first electrodes and second electrodes are formed on one of a surface of the second spacers and a surface of the second substrate corresponding to the second spacers, the first electrodes and the second electrodes having different potentials; third electrodes are formed on the other of a surface of the second spacers and a surface of the second substrate corresponding to the second spacers. | 2015-11-26 |
20150338696 | METHOD OF MANUFACTURING LIQUID CRYSTAL DISPLAY PANEL - A method of manufacturing a liquid crystal display panel including forming a pixel electrode including first nano-conductive lines extending in a first direction on a first base substrate and arranged in a second direction substantially perpendicular to the first direction, disposing a second base substrate above the first base substrate, and forming a liquid crystal layer on the first nano-conductive lines, which is aligned by the first nano-conductive lines. | 2015-11-26 |
20150338697 | DISPLAY MODULE AND DISPLAY DEVICE - According to an aspect, a display module includes a display panel that displays an image on a display surface; an optical member; and a housing that supports the display panel and the optical member. The housing includes a first housing, a second housing, and a third housing that is arranged on a side of the second housing opposite to the first housing side. An end of the first housing on a display surface side of the display panel protrudes toward the center of the display surface to face an outer edge of the display surface. An end of the second housing on a side opposite to the display surface side of the display panel protrudes toward the center of the display surface to face an outer edge of a surface opposite to the display surface. The optical member is provided between the second housing and the third housing. | 2015-11-26 |
20150338698 | DISPLAY APPARATUS - Provided is a display apparatus which has a sufficient luminance even when viewed at a large viewing angle, and which can overcome a problem of color change. The display apparatus is a display apparatus including a display device showing a color change in accordance with viewer's viewing angle, and an anisotropic optical film having a diffusing property changed in accordance with the incident angle of light radiated thereinto. The anisotropic optical film has at least one scattering central axis, and an angle made between the scattering central axis and a direction along which the display device shows a minimum color change is from 20 to 65°, or −20 to −65°. | 2015-11-26 |
20150338699 | Displays With Opaque Borders - A display may have an active area surrounded by an inactive border area. The display may be a liquid crystal display having a liquid crystal layer sandwiched between a color filter layer and a thin-film transistor layer. An upper polarizer may have a polarized central region that overlaps the active area of the display. The upper polarizer may also have an unpolarized portion in the inactive border area overlapping the border structures. The border structures may include colored material such as a white layer on the inner surface of the thin-film transistor layer. Binary information may be embedded into an array of programmable resonant circuits. The binary information may be a display identifier or other information associated with a display. The programmable resonant circuits may be tank circuits with adjustable capacitors, fuses, or other programmable components. | 2015-11-26 |
20150338700 | LIQUID CRYSTAL DISPLAY DEVICE AND COLOR FILTER SUBSTRATE - A liquid crystal display device having a touch panel function includes an array substrate, a liquid crystal layer including a liquid crystal molecule, and a color filter substrate positioned over the array substrate via the liquid crystal layer. The color filter substrate includes a transparent substrate, first and second transparent electrode layers, a color filter formed on the first transparent electrode layer and including a red filter, a green filter and a blue filter, and a transparent resin layer formed on the color filter. The color filter and the transparent resin layer have a total thickness in a range of approximately from 2.5 μm to 9 μm. The liquid crystal molecule has negative dielectric anisotropy and an initial state alignment which is parallel to a substrate surface. The liquid crystal molecule rotates within a plane parallel to the substrate surface when a liquid crystal drive voltage is applied. | 2015-11-26 |
20150338701 | COLOR FILTER SUBSTRATE AND MANUFACTURING METHOD THEREOF AND DISPLAY DEVICE - A color filter substrate comprises: a substrate and a color filter formed on the substrate; and a color conversion layer, a first refractive index film layer, a second refractive index film layer and a third refractive index film layer formed in turn on a side of the color filter facing away from the substrate. The second refractive index film layer has a refractive index larger than that of the third refractive index film layer, larger than that of the first refractive index film layer under a condition of powering down, and smaller than that of the first refractive index film layer under a condition of powering up. The color filter is configured to absorb a portion of outside light, which creates photoluminescence reaction with the color conversion layer, thereby to avoid white color caused by the photoluminescence reaction, and to allow the display color brighter. | 2015-11-26 |
20150338702 | COLOR FILTER SUBSTRATE AND MANUFACTURING METHOD THEREOF, LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY DEVICE - A color filter substrate and manufacturing method thereof, a liquid crystal display panel and a display device are disclosed. The color filter substrate comprises a substrate, and a black matrix film layer and a color filter layer on the substrate. The black matrix film layer has a plurality of opening regions arranged in an array, the color filter layer is fed into the opening regions, and the color filter layer has an overlapping region with the black matrix film layer at a contact position. The present disclosure can eliminate the angle section difference of the color filter layer on the color filter substrate, improve the smoothness of the alignment layer surface located on the color filter layer, and avoid non-uniform rubbing alignment on the alignment layer surface caused by the un-smooth alignment layer surface, thereby avoid light leakage and the problem of the bad liquidity of the liquid crystal. | 2015-11-26 |
20150338703 | POLARIZER AND LIQUID CRYSTAL DISPLAY INCLUDING THE SAME - A polarizer includes a first laminated structure having a first layer with a first refractive index and a second layer with a second refractive index, wherein the first and second refractive indices are different from each other. A buffer layer is disposed on the first laminated structure. A second laminated structure in the polarizer has a third layer with a third refractive index and a fourth layer with a fourth refractive index, wherein the third and fourth refractive indices are different from each other. | 2015-11-26 |
20150338704 | BACKLIGHT MODULE, MANUFACTURING METHOD THEREOF, DISPLAY DEVICE, AND DRIVING METHOD - The present invention provides backlight module and manufacturing method thereof, display device comprising backlight module and driving method for driving the display device. The backlight module comprises first substrate and second substrate opposite to each other. Each of the first and second substrates comprises multiple photic areas and shading areas arranged at intervals thereon, and projections of the shading areas of the first substrate on the second substrate completely cover the photic areas of the second substrate. On side of the first substrate opposite to the second substrate, first reflective layers which are bendable are formed on the shading areas thereof, and on side of the second substrate opposite to the first substrate, second reflective layers are formed on the shading areas thereof. The first reflective layers, in a bent state, reflect light to the second reflective layers which then reflect light to the photic areas of the first substrate. | 2015-11-26 |
20150338705 | DISPLAY DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - The present invention realizes a high-definition and high-brightness display device with a high degree of energy efficiency. The above-described object can be realized by a display device including a display panel having a display surface and a backlight, wherein: the display panel has a wavelength conversion layer for each pixel on a surface parallel to the display surface, and has a light scattering layer between the wavelength conversion layers; the wavelength conversion layers have fluorescent materials; the light scattering layers have fine particles; a reflection layer is provided on the wavelength conversion layers on the backlight side; and a reflection layer is provided on the light scattering layers on the display surface side. | 2015-11-26 |
20150338706 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a liquid crystal layer, a first pixel electrode, a second pixel electrode and an auxiliary electrode. The first pixel electrode includes a first corner portion, a second corner portion and a side edge portion. A first video signal is input in the first pixel electrode. A second video signal of polarity different from polarity of the first video signal is input in the second pixel electrode. The auxiliary electrode includes a first region and a second region. A voltage of the same polarity as the polarity of the first video signal is supplied to the auxiliary electrode. | 2015-11-26 |
20150338707 | DISPLAY DEVICE, ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING ARRAY SUBSTRATE - Disclosed is a display device, an array substrate and a method for manufacturing the same. The array substrate comprises a first transparent electrode layer, an insulating layer and a second transparent electrode layer disposed sequentially in a transmission direction of light, the second transparent electrode layer including a plurality of strip electrodes spaced apart from each other. At least one of edges of two adjacent strip electrodes facing to each other and a portion of the first transparent electrode layer corresponding to a space formed between the two adjacent strip electrodes is formed with a protruding part protruding in the transmission direction so that a fringe electrical field formed by the edge of each of the strip electrodes and the first transparent electrode layer is shifted towards an edge side of the strip electrode. The present invention may limit an action rang of each of the fringing electrical fields of the each strip electrode and the first transparent electrode effectively. Even if a slight shift is occurred during an assembling operation of a color filter substrate and the array substrate, the adjacent sub-pixel unit will not be affected, so as to reduce the phenomenon of color mixing of the two adjacent sub-pixel units effectively. | 2015-11-26 |
20150338708 | WIDE-VIEWING-ANGLE LIQUID CRYSTAL DISPLAY AND DISPLAY METHOD THEREOF - Disclosed are a wide-viewing-angle liquid crystal display and a display method thereof, so as to improve the color cast problem generated during displaying by the wide-viewing-angle liquid crystal display. ITO slots of two or more directions are provided on a public electrode corresponding to a pixel electrode in a hollowed-out mode, so that liquid crystal molecules can be displayed in a multi-domain mode and are compensated from different viewing angles, and the fluctuation of liquid crystal molecules for the light refraction under an oblique angle is reduced, thereby improving the displaying effect of the wide-viewing-angle liquid crystal display. | 2015-11-26 |
20150338709 | Liquid Crystal Display Device and Driving Method Thereof - In a display device including a backlight and a display panel, the area of the backlight is divided into a plurality of unit regions; the display panel includes pixels which are larger in number than the unit regions; a frame rate of image data input to the device is converted to perform display while part of the unit regions in which black is displayed is in a non-light emission state; and the driving frequency of the backlight is converted in accordance with the display. | 2015-11-26 |
20150338710 | ARRAY STRUCTURE, METHOD FOR MANUFACTURING THE SAME AND ARRAY SUBSTRATE - An array structure and a method for manufacturing the same, an array substrate and a display device are provided, the array structure comprises signal input pads ( | 2015-11-26 |
20150338711 | DISPLAY DEVICE - The present invention relates to a display device, comprising: a substrate comprising a display region and a non-display region surrounding the display region; a first conductive layer disposed on the substrate; a semiconductor layer disposed on the substrate and partially covering the first conductive layer; and a second conductive layer disposed on a top surface of the semiconductor layer; and there is a spacing between a first side of the semiconductor layer and a second side of the second conductive layer from a top view, wherein the first side of the semiconductor layer is adjacent to the second side of the second conductive layer; wherein the spacing in the display region is a first distance, the spacing in the non-display region is a second distance, and the first distance is smaller than the second distance. | 2015-11-26 |
20150338712 | ELECTROCHROMIC STRUCTURE, METHOD AND DISPLAY APPARATUS - An electrochromic structure, a method and a display apparatus. The electrochromic structure includes a display layer including a first substrate ( | 2015-11-26 |
20150338713 | MULTI-PANE WINDOWS INCLUDING ELECTROCHROMIC DEVICES AND ELECTROMECHANICAL SYSTEMS DEVICES - Multi-pane laminates having electrochromic devices and electromechanical systems, multi-pane window units having electrochromic devices and electromechanical systems, single panes with electrochromic devices and electromechanical systems, and methods of fabricating components thereof. | 2015-11-26 |
20150338714 | DISPLAY PANEL AND DISPLAY DEVICE - The invention provides a display panel and a display device including the same, which belong to the field of display technology and can achieve a selective switch between a transparent color display and a transparent black-and-white display. The display panel of the invention includes: a display panel for performing display which includes a plurality of pixel units; a plurality of color changing units located at positions corresponding to the respective positions of the plurality of pixel units of the display unit and made of electrochromic material; and color controlling units for controlling color changes of the respective color changing units. The display panel and the display device including the same according to the invention utilize new color changing units and thus can achieve a selective switch between a transparent color display and a transparent black-and-white display. | 2015-11-26 |
20150338715 | TRANSPARENT DISPLAY DEVICE - A display device ( | 2015-11-26 |
20150338716 | REFLECTIVE DISPLAY PARTICLE, REFLECTIVE DISPLAY DEVICE, AND METHOD FOR MANUFACTURING THE SAME - Provided is a method for manufacturing a reflective display particle, the method including: (a) preparing first and second dispersion solutions by dispersing first and second reflective display materials that reflect light in different wavelength ranges into first and second media that contain a curable material and are unmixed with each other, respectively; (b) forming an emulsion by mixing the prepared first and second dispersion solutions, and encapsulating the emulsion into a capsule; and (c) having the first and second dispersion solutions contained in the encapsulated emulsion undergo phase separation, and curing the phase-separated first and second dispersion solutions by applying energy to the phase-separated first and second dispersion solutions. | 2015-11-26 |
20150338717 | ELECTRO-OPTIC DISPLAYS, AND MATERIALS FOR USE THEREIN - A first electro-optic display comprises first and second substrates, and an adhesive layer and a layer of electro-optic material disposed between the first and second substrates, the adhesive layer comprising a mixture of a polymeric adhesive material and a hydroxyl containing polymer having a number average molecular weight not greater than about 5000. A second electro-optic display is similar to the first but has an adhesive layer comprising a thermally-activated cross-linking agent to reduce void growth when the display is subjected to temperature changes. A third electro-optic display, intended for writing with a stylus or similar instrument, is produced by forming a layer of an electro-optic material on an electrode; depositing a substantially solvent-free polymerizable liquid material over the electro-optic material; and polymerizing the polymerizable liquid material. | 2015-11-26 |
20150338718 | ACOUSTO-OPTIC DEFLECTOR WITH MULTIPLE TRANSDUCERS FOR OPTICAL BEAM STEERING - An acousto-optic deflector with multiple acoustic transducers is described that is suitable for use in substrate processing. In one example a method includes transmitting an optic beam through an acousto-optic deflector, applying an acoustic signal with a phase delay across multiple transducers of the acousto-optic deflector to deflect the beam along a first axis by the acousto-optic deflector, and directing the deflected beam onto a workpiece. | 2015-11-26 |
20150338719 | CASCADED OPTICAL HARMONIC GENERATION - Cascaded optical harmonic generators and methods for cascaded optical harmonic generation are disclosed. Relative disposition of individual harmonic generators of a cascaded harmonic generator in an optical path of the fundamental optical beam may be reversed. In a third harmonic generator, the fundamental optical beam may enter the third harmonic crystal first, and the second harmonic crystal second. When the fundamental optical beam enters the third harmonic crystal first, the fundamental light may remain non-depleted by second harmonic generation process. | 2015-11-26 |
20150338720 | PHOTONIC CMOS INVERTER - Photosensitive logic inverter, in particular of the CMOS type, formed of a transistor of type P and of a transistor of type N of which the respective threshold voltages can be modulated according to the quantity of photons received by a photosensitive zone provided opposite these transistors. | 2015-11-26 |
20150338721 | LIGHTING APPARATUS - A lighting apparatus comprising a light source which emits light with predetermined light distribution in a fixed direction, and an optical element which is arranged in such a manner that at least part of light emitted from the light source inputs to the optical element, and can perform switching to a transmission state in which the light is transmitted, a first reflection state in which the light is reflected in a first direction, and a second reflection state in which the light is reflected in a second direction different from the first direction. | 2015-11-26 |
20150338722 | SYSTEM AND METHOD FOR RE-CONFIGURING A LIGHTING ARRANGEMENT - A method of re-configuring a lighting arrangement ( | 2015-11-26 |
20150338723 | LOW PROFILE CAMERA HOUSING HAVING CONCAVELY CURVED BASE SURFACES AND RELATED SYSTEMS AND METHODS - Low profile concavely curved cameras, camera housings and related systems and methods. These devices, etc., simultaneously reduce snags and other hazards and also provide improved protection to people such as military and first-responder personnel and athletes by improving the attachment of the camera housing to a helmet or other complexly curved convexly curved base substrate. | 2015-11-26 |
20150338724 | PROJECTOR - A projector includes a lens shift mechanism that is capable of lens shift of shifting the lens in an upward/downward direction or a leftward/rightward direction, a distortion correction information input section that allows input of distortion correction information used to correct distortion of projected image light projected on a projection surface, a shift correction information input section that allows input of shift correction information relating to the lens shift, and an image generation section that generates the image based on the distortion correction information. The shift correction information input section has an input menu image. The input menu image contains choices for inputting the shift correction information. The choices include a maximum amount of lens shift of the lens in at least one of the upward/downward direction and the leftward/rightward direction. The image generation section generates the image based on the distortion correction information and the shift correction information. | 2015-11-26 |
20150338725 | LIGHT SOURCE UNIT AND IMAGE PROJECTION SYSTEM - There is provided a light source unit including a first light source, a second light source, a first heat sink for the first light source which is disposed to a side of the first light source, a second heat sink for the second light source which is disposed to a side of the second light source, and a first cooling fan which is disposed between the first heat sink and the second heat sink, wherein the first light source and the first heat sink are connected together by a first heat pipe via a bulkhead, and wherein the second light source and the second heat sink are connected together by a second heat pipe via the bulkhead. | 2015-11-26 |