31st week of 2015 patent applcation highlights part 38 |
Patent application number | Title | Published |
20150212277 | OBLIQUE ANGLE OPTICAL FIBER ASSEMBLY - An optical fiber assembly and a method of assembly thereof. The optical fiber assembly includes a support plate defining an array of support plate through holes, and an alignment template plate defining an array of alignment template plate through holes. At least one support plate through hole or alignment template plate through hole may be flared. At least one support plate through hole or alignment template plate through hole may include a compliant film. | 2015-07-30 |
20150212278 | OPTICAL FIBER CONNECTOR - An optical fiber connector includes a housing unit, a fiber ferrule unit including a fiber ferrule and a resilient member, a connecting unit, a boot unit and a sleeve unit. The housing unit includes a housing body defining an internal space, and a first engaging member. At least a substantial portion of the fiber ferrule is disposed in the internal space. The resilient member is sleeved on the fiber ferrule. The connecting unit includes a second engaging member and a connecting member. The second engaging member abuts against the resilient member and engages the first engaging member. The boot unit completely receives the connecting member. The sleeve unit is sleeved on the housing unit and the boot unit and covers a juncture therebetween. | 2015-07-30 |
20150212279 | OPTICAL DEVICE HAVING LIQUID-CORE OPTICAL FIBRE AND METHOD FOR PRODUCING SUCH A DEVICE - The connection device for liquid-core optical fibre comprises a sleeve traversed by a channel comprising a plurality of communicating stacked conduits, a first conduit being formed from an end of the sleeve and being arranged to receive, in a sealed manner, at the corresponding end of the sleeve, one end of the optical fibre, and a second conduit being formed communicating with the first conduit, and closing means that hermetically seal the end of the second conduit opposite the end that communicates with the first conduit, the sleeve further having a third conduit for filling the internal volume of the second conduit when the latter is closed at one end by the closing device and the fibre is inserted into the first conduit, the third conduit transversely connecting the outside of the sleeve with the inside of the second conduit, and a sealing plug for hermetically sealing the port of the third conduit opening to the outside of the sleeve. | 2015-07-30 |
20150212280 | CONTACT THAT IS SEALED IN THE DISCONNECTED POSITION FOR A CONNECTOR - The contact is sealed when disconnected and compliant when connected. It comprises at least a contact body in which the following are positioned: a transmission means held in a support at the end of which a ferrule is positioned, the seal between the ferrule and the transmission means being provided by filling with a sealant product. A sealing means is provided between the ferrule and the contact body, said means creating a seal between the ferrule and the contact body when the contact is disconnected and allowing the mechanical isolation of the ferrule relative to the contact body when the contact is connected. | 2015-07-30 |
20150212281 | METHODS, APPARATUSES AND SYSTEMS FOR BLIND MATING MULTI-OPTICAL FIBER CONNECTOR MODULES - Apparatuses, systems and methods are provided that enable N female multi-optical fiber connector modules disposed on a first structure to be simultaneously blind mated with N male multi-optical fiber connector modules disposed on a second structure, where N is a positive integer that is equal to or greater than one. Enabling the male and female multi-optical fiber connector modules to blind mate with one another obviates the need to individually interconnect the modules with optical cables. Each module is mounted on either a male or female socket, which, in turn, is mounted on the first or second structure. The first structure may be, for example, a rack having at least one slot configured to receive a server box, in which case the second structure is the server box itself. | 2015-07-30 |
20150212282 | DUPLEX FIBER OPTIC CONNECTOR PLUG - A duplex fiber optic connector plug includes at least one fiber optic connector, a first casing, a second casing and a release lever. The release lever is axially coupled to a surface of the first casing and has an end coupled to a release bracket of the fiber optic connector to form a seesaw design. During operation, the release lever is compressed by the force of the finger, so that an end of the release lever is elevated, and the other end compresses the release bracket downward to release from a fiber optic socket, so as to provide an intuitively convenient operation and improve the convenience of use. | 2015-07-30 |
20150212283 | OPTICAL FIBER CONNECTOR - An optical fiber connector includes a connector body and an actuating device. The connector body is adapted to connect with an adapter, and includes a main body portion having a tubular section, a resilient retaining arm portion extending inclinedly from the main body portion, and a pressing plate portion extending inclinedly from the main body portion. The actuating device includes a handle unit and two flexible rods extending from the handle unit and through the tubular section in the main body portion to connect with a free end of the pressing plate portion. The handle unit can be pulled to move the free end of the pressing plate portion to press a free end of the resilient retaining arm portion, thereby allowing for removal of the connector body from the adapter. | 2015-07-30 |
20150212284 | CONNECTOR HOUSING WITH PRESS FIT BOOT SEAL - A connector housing apparatus for allowing field engineers or technicians to nm cable point to point, and to protect the connection in an environmentally sealed, crush resistant housing is provided. The connector housing apparatus includes a convector housing body, two sealing boots, two sealing elements, a fiber optic adapter, a fiber optic adapter insert that holds the fiber optic adapter and two fiber optic pigtails connected to two fiber optic cables. Each boot has two seal points. The first seal is between the fiber optic cable, the sealing element, and the tapered portion of the sealing boot. The second seal is between the interference lip on the sealing boot and the interference lip on the connector housing body. | 2015-07-30 |
20150212285 | OPTICAL MODULE, METHOD FOR MANUFACTURING OPTICAL MODULE, AND OPTICAL TRANSCEIVER - An optical module comprising: an optical waveguide transports light, the optical waveguide including a first mirror which reflects first light; an adhesive sheet formed over the optical waveguide, the adhesive sheet including a first gap above the first mirror; a first light-transmissive layer formed in the first gap; a lens sheet arranged over the adhesive sheet, the lens sheet including a first lens which is formed above the first light-transmissive layer; and a light-emitting device formed above the lens sheet, the light-emitting device including a light-emitting portion which emits the first light to the first lens. | 2015-07-30 |
20150212286 | Slidable Fiber Optic Connection Module with Cable Slack Management - A fiber optic telecommunications device includes a fiber optic cassette comprising a body defining a front and an opposite rear and an enclosed interior. A fiber optic signal entry location is defined on the body for a fiber optic signal to enter the interior via a fiber optic cable. An adapter block defines a plurality of fiber optic adapters and is removably mounted to the body with a snap-fit interlock, each adapter including a front outer end, a rear inner end, and internal structures allowing mating of optical connectors mounted to the front and rear ends, respectively. A removable spacer is mounted to the body, the spacer configured to expand the size of the enclosed interior of the cassette and a removable cover is mounted to the spacer. Connectorized optical fibers extend from the fiber optic signal entry location to the rear inner ends of at least some of the fiber optic adapters for relaying the fiber optic signal to fiber optic connectors to be coupled to the front outer ends of the adapters. | 2015-07-30 |
20150212287 | OPTICAL IMAGING LENS AND ELECTRONIC DEVICE COMPRISING THE SAME - An optical imaging lens includes: a first, second, third and fourth lens element, the first lens element having an object-side surface with a convex portion in a vicinity of the optical axis, the second lens element having an object-side surface with a convex portion in a vicinity of the optical axis, and an image-side surface with a concave portion in a vicinity of its periphery, the third lens element having an image-side surface with a convex portion in a vicinity of the optical axis, the fourth lens element having an image-side surface with a concave portion in a vicinity of the optical axis, wherein the optical imaging lens set does not include any lens element with refractive power other than said first, second, third and fourth lens elements. | 2015-07-30 |
20150212288 | LENS DRIVING APPARATUS - A lens driving apparatus includes a lens holding member, a static member including a housing, a biasing member, and a moving mechanism. The biasing member includes upper and lower leaf springs. The upper leaf spring includes an upper first portion, an upper second portion, and an upper elastic arm portion. A through hole is formed in the upper first portion of the upper leaf spring. The lens holding member includes a fastening portion that includes a mount surface on which the upper leaf spring is placed, a recess facing the through hole, and a protrusion inserted into the through hole. An adhesive held in the recess surrounds the protrusion and part of the adhesive spreads to an upper surface of the upper first portion of the upper leaf spring through the through hole. The upper leaf spring is fixed to the lens holding member with the adhesive. | 2015-07-30 |
20150212289 | EYEPIECE OPTICAL SYSTEM, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE EYEPIECE OPTICAL SYSTEM - Provided is an eyepiece optical system including, in order from an observation object (Ob): a first lens (L | 2015-07-30 |
20150212290 | ELECTRONIC DEVICE AND OPTICAL IMAGING LENS THEREOF - Present invention provides an electronic device and an optical imaging lens thereof. The optical imaging lens comprises a first lens element, a second lens element, a third lens element, a fourth lens element and a fifth lens element positioned in an order from an object side to an image side along an optical axis. The first lens element has negative refractive power, the second lens element has a convex portion formed on the object side surface and a concave portion formed on the image side surface, the third lens element has a convex portion formed on the object side surface and the fifth lens element has a convex portion formed on the image side surface. Through controlling the convex or concave shape of the surfaces, designing parameters satisfying an inequality and/or the refracting power of the lens elements, the field of view is broadened, and the better image performance is maintained. | 2015-07-30 |
20150212291 | LENS MOVING UNIT AND CAMERA MODULE HAVING THE SAME - A lens moving unit for a camera module is disclosed. The lens moving unit includes a first lens moving unit, a second lens moving unit, and a cover member to encompass the first and second lens moving units by being coupled to a base. The first lens moving unit moves in response to the interaction between a magnet and a coil. The lens moving unit is configured to miniaturize a camera module and configured to include a handshake correction function for enhancement of operational reliability to simplify an assembly process. | 2015-07-30 |
20150212292 | MOBILE DEVICE AND OPTICAL IMAGING LENS THEREOF - Present embodiments provide for a mobile device and an optical imaging lens thereof. The optical imaging lens comprises five lens elements positioned sequentially from an object side to an image side and an aperture stop positioned before the first lens element. Through controlling the convex or concave shape of the surfaces of the lens elements and designing parameters satisfying an inequality, the optical imaging lens shows better optical characteristics and the total length of the optical imaging lens is shortened. | 2015-07-30 |
20150212293 | ACTUATOR FOR COMPACT CAMERA - An actuator includes: a main body having a working space therein; a coil mounted to the main body; a blade in which a lens is mounted and inserted into and disposed in the working space; a magnet mounted to the blade and disposed to face the coil to form a magnetic field around the coil, for generating driving power upwards and downwards through an electromagnetic interaction; a wire an end of which is mounted to the main body and an opposite end of which is mounted to the blade, for supporting the blade such that the blade is vertically moved; a Hall sensor mounted to the main body, for measuring a deviation of a vertical position of the magnet with respect to the main body; and a controller for applying a current for correcting the position deviation of the magnet to the coil. | 2015-07-30 |
20150212294 | IMAGING APPARATUS, IMAGING SYSTEM THAT INCLUDES IMAGING APPARATUS, ELECTRON MIRROR SYSTEM THAT INCLUDES IMAGING APPARATUS, AND RANGING APPARATUS THAT INCLUDES IMAGING APPARATUS - An imaging apparatus includes a lens optical system, a color image sensor that includes at least first pixels and second pixels, and a first optical element array disposed between the lens optical system and the color image sensor. In the imaging apparatus, the lens optical system includes optical regions, and the optical regions include a first optical region and a second optical region that differ in terms of at least one selected from the group of spectral transmittance characteristics and transmissive polarization characteristics. The first pixels include respective spectral filters having mutually different spectral transmittance characteristics, and the second pixels include respective spectral filters having at least one type of spectral transmittance characteristics. The first optical element array directs light that has passed through the first optical region to the first pixels and directs light that has passed through the second optical region to the second pixels. | 2015-07-30 |
20150212295 | IMAGE PICKUP APPARATUS AND LENS UNIT - A first lens unit performing communication with an image pickup apparatus with a first voltage and a second lens unit performing communication with the image pickup apparatus with a second voltage are selectively attached to the image pickup apparatus. The image pickup apparatus includes a controller configured to operate with a third voltage different from at least one of the first and second voltages to output a signal for the communication with the first and second lens units, and a determiner configured to determine the type of the lens unit attached to the image pickup apparatus. The controller is configured to produce, as a voltage of the signal for the communication, from the third voltage, one of the first and second voltages corresponding to a determination result of the determiner. | 2015-07-30 |
20150212296 | IMAGE CAPTURING LENS ASSEMBLY, IMAGE CAPTURING DEVICE AND MOBILE TERMINAL - An image capturing lens assembly includes, in order from an object side to an image side, a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element, and a sixth lens element. The first lens element with negative refractive power has an object-side surface being convex in a paraxial region thereof and an image-side surface being concave in a paraxial region thereof. The second lens element has positive refractive power. The third lens element has refractive power. The fourth lens element has refractive power. The fifth lens element has negative refractive power, wherein both of the surfaces thereof are aspheric. The sixth lens element with refractive power has an image-side surface being concave in a paraxial region thereof. The image capturing lens assembly has a total of six lens elements with refractive power. | 2015-07-30 |
20150212297 | Imaging Lens, and Electronic Apparatus Including the Same - An imaging lens includes first to fifth lens elements arranged from an object side to an image side in the given order. Through designs of surfaces of the lens elements and relevant lens parameters, a short system length of the imaging lens may be achieved while maintaining good optical performance. | 2015-07-30 |
20150212298 | IMAGING LENS AND IMAGING APPARATUS EQUIPPED WITH THE IMAGING LENS - An imaging lens is essentially constituted by seven lenses, including: a positive first lens having a convex surface toward the object side; a second lens, of which at least one surface is of an aspherical shape; a third lens, of which at least one surface is of an aspherical shape; a fourth lens, of which at least one surface is of an aspherical shape; a positive fifth lens of a meniscus shape with a convex surface toward the image side; a sixth lens, of which at least one surface is of an aspherical shape; and a negative seventh lens having a concave surface toward the image side, provided in this order from the object side. The imaging lens satisfies a predetermined conditional formula. | 2015-07-30 |
20150212299 | IMAGING LENS - An imaging lens substantially consists of five lenses of a first lens having a meniscus shape with its convex surface facing an object side and negative refractive power, a second lens having negative refractive power, and the image-side surface of which has a convex shape facing an image side in the vicinity of an optical axis, a third lens having positive refractive power, a stop, a fourth lens having positive refractive power, and a fifth lens having negative refractive power. At least one of the surfaces of the first lens through the fifth lens is aspherical. A predetermined conditional formula about a distance on the optical axis from an object-side surface of the first lens to an image plane and a distance on the optical axis from the object-side surface of the first lens to the image-side surface of the second lens is satisfied. | 2015-07-30 |
20150212300 | CURABLE COMPOSITION, CURED PRODUCT THEREOF, OPTICAL MEMBER AND OPTICAL DEVICE - An object of the present invention is to provide a curable composition that can be cured satisfactorily and can form a cured product having a high glass transition temperature as maintained and having high mechanical strength. A curable composition includes a siloxane (A), a cycloaliphatic epoxide (B), and a curing agent (C). The siloxane (A) contains at least two epoxy groups per molecule. The cycloaliphatic epoxide (B) in the curable composition is preferably a compound represented by Formula (I): | 2015-07-30 |
20150212301 | ANAMORPHIC OBJECTIVE ZOOM LENS - The anamorphic objective zoom lens includes, along an optical axis and in order from an object space to an image space: at least a negative (−) power spherical first lens group; an anamorphic lens group, spherical second lens group preferably having positive (+) power, a variable power spherical third lens group and a positive (+) power spherical fourth lens group. The aperture stop is located before, after or preferably within the spherical fourth lens group. All spherical lens groups contain spherical and plano refractive optical surfaces. The anamorphic lens group contains cylindrical and plano optical surfaces with at least one cylindrical surface oriented at substantially 90 degrees about at least one other cylindrical surface. The spherical first lens group may provide focusing. The variable power spherical third lens group provides zooming. | 2015-07-30 |
20150212302 | IMAGING LENS AND IMAGING APPARATUS - An imaging lens consists essentially of, in order from the object side, a first lens group having a positive refractive power, a stop, and a second lens group having a positive refractive power. The first lens group includes, in order from the object side, two successive positive lenses, and a negative lens having a concave surface toward the image side. The second lens group includes, in order from the object side, a lens having at least one aspheric surface, and a three-lens cemented lens. The three-lens cemented lens has a positive refractive power, and is formed by cementing three lenses consisting of, in order from the object side, a positive lens having a convex surface toward the image side, a negative lens, and a positive lens. | 2015-07-30 |
20150212303 | ZOOM LENS AND IMAGING DEVICE USING THE SAME - A zoom lens | 2015-07-30 |
20150212304 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens includes in order from an object side to an image side, a first lens unit having a positive refractive power, a second lens unit having a negative refractive power, a third lens unit having a positive refractive power, and a fourth lens unit having a negative refractive power, and the fourth lens unit includes at least two lenses. At the time of zooming from a wide angle end to a telephoto end, a distance between the first lens unit and the second lens unit widens, a distance between the second lens unit and the third lens unit narrows, a distance between the third lens unit and the fourth lens unit fluctuates, and the first lens unit, after moving toward the image side, moves toward the object side. | 2015-07-30 |
20150212305 | Zoom Lens, Imaging Optical Device, And Digital Equipment - A zoom lens system having a negative first lens group and a positive second lens group, from an object side, and achieving zooming by varying a group-to-group distance. The second lens group includes a three-element cemented lens which is a set of three lens elements cemented together including, from the object side, a negative first lens, a positive second lens, and a negative third lens, and the three-element cemented lens fulfills conditional formulas 0.08<(rs2+rs1)/(rs2−rs1)<0.5, 272015-07-30 | |
20150212306 | CONFOCAL LASER SCANNING MICROSCOPE HAVING A LASER LIGHT SOURCE TO WHICH PULSED CONTROL IS APPLIED - The present invention relates to a confocal laser scanning microscope ( | 2015-07-30 |
20150212307 | MICROSCOPE ILLUMINATION APPARATUS, MICROSCOPE, AND MICROSCOPE ILLUMINATION METHOD - A microscope illumination apparatus includes an optical conversion unit that converts laser light incident thereon from a light source to laser light that has an NA and whose main optical axis is distributed on a conical surface that widens at a predetermined angle with respect to an incident optical axis of the laser light, and from which the laser light exits, and an optical device that has no refractive power and that deflects the laser light, which has exited the optical conversion unit, in a direction parallel to the incident optical axis, wherein the microscope illumination apparatus focuses laser light that has exited the optical device at a pupil position of a focusing lens for illuminating a specimen or a position that is conjugate with the position. | 2015-07-30 |
20150212308 | Optical Measurement Method and Device - The invention relates to an optical measurement method and to an optical measurement device for determining the spatial or spatiotemporal distribution of a sample, the sample comprising at least one retransmission source, said at least one retransmission source retransmitting light depending on the projected light, according to a predetermined law, onto the sample, the method comprising: the projection onto the sample of at least two compact light distributions belonging to different topological families, which propagate along the same optical path, the detection of the light retransmitted by said at least one retransmission source of the sample; the generation of at least one optical image from the detected light; and the algorithmic analysis of the optical images for obtaining location data on said at least one retransmission source. | 2015-07-30 |
20150212309 | VAPOR-CONDENSATION-ASSISRED OPTICAL MICROACOPY SYSTEM - A vapor-condensation-assisted optical microscopy system comprises a vapor-condensation-assisted device and an optical microscope. The vapor-condensation-assisted device comprises air blowing device, a vapor producing device and a guide pipe. The vapor producing device connects the air blowing device with the guide pipe. The optical microscope comprises an observing device, an image processing device, a support frame and a stage. The stage, the guide pipe of the vapor-condensation-assisted device, the observing device, and the image processing device are fixed on the support frame. The vapor-condensation-assisted device is configured to provide a vapor to sample on the stage in application. | 2015-07-30 |
20150212310 | MICROSCOPE - It is an object of the present invention to provide a microscope that is capable of precisely controlling the amount of an immersion medium held in a gap between an objective lens and a mounting part, and that is capable of observing a specimen without varying the mounting part. The microscope includes a supply port from which an immersion medium is supplied to a gap between a film-like mounting part on which a specimen is loaded and an immersion objective lens, and a suction port that is arranged so as to be able to be brought into contact with an immersion medium supplied from the supply port, and from which the immersion medium can be sucked. | 2015-07-30 |
20150212311 | CONTROL SYSTEM FOR IMPLEMENTING NON-LINEAR INTERFERENCE COMPENSATION FOR TORSION ANGLE OF ASTRONOMICAL TELESCOPE - A control system for implementing nonlinear interference compensation for a torsion angle of an astronomical telescope is provided. The system includes a torsion angle detection system and a torsion angle compensation and amendment system. The torsion angle detection system is provided with a measurement mechanism for measuring the position of a driving wheel, and a position signal of the measurement mechanism is fed back to an industrial personal computer in the torsion angle compensation and amendment system in real time. An output signal of the industrial personal computer controls a compensation motor to rotate, and the compensation motor inclines an elastic plate with the driving wheel mounted thereon through a transmission mechanism, to further cause the torsion of the driving wheel by an angle and form compensation to the torsion angle. | 2015-07-30 |
20150212312 | Intelligent Light Source - An intelligent endoscopic light source system for controlling the intensity of a light source, including a light source emitting light at a first intensity, an attenuator positioned to receive light from the light source at a first intensity and movable to pass light from the light source at a second intensity, a sensor mounted to the attenuator for measuring the first intensity, and a controller for receiving the intensity measurement from the sensor and moving the attenuator to pass light at a desired second intensity. | 2015-07-30 |
20150212313 | ACTUATOR CONTROL DEVICE, OPTICAL MODULE, ELECTRONIC APPARATUS, AND ACTUATOR CONTROL METHOD - A spectroscopic measurement apparatus includes an electrostatic actuator that is driven by applying a drive voltage, a gap detector that detects a dimension of a gap, a closed loop system that controls the drive voltage applied to the electrostatic actuator depending on a detection signal from the gap detector, and a gain setting unit that sets a gain in the closed loop system depending on drive characteristics of electrostatic actuator based on the detection signal of the gap detector. | 2015-07-30 |
20150212314 | ACTUATOR CONTROL DEVICE, OPTICAL MODULE, AND ELECTRONIC APPARATUS - A spectroscopic measurement apparatus includes an actuator that is driven by applying a drive voltage, a gap detector that detects a dimension of a gap, and a voltage control section including a feedback loop that controls the drive voltage depending on a detection result of the gap detector. The voltage control section includes a comparator that outputs a voltage signal at a High level V | 2015-07-30 |
20150212315 | LIGHT ACTIVATED POWER INDICATOR - A light activated power indicator includes an indicator and a receptor circuit with a light sensitive device electrically connected to the indicator. The light activated power indicator further includes a first terminal electrically coupled to a first end of the receptor circuit and a second terminal electrically coupled to a second end of the receptor circuit wherein the indicator indicates a state of charge of an electrical storage device when the light sensitive device is exposed to one or more wavelengths lying within a response spectrum. | 2015-07-30 |
20150212316 | DEVICE FOR PLACING AN OBJECT IN AT LEAST A FIRST AND A SECOND ORIENTATION OR SPATIAL LOCATION - The invention relates to a device for orienting at least one object in at least a first or a second orientation or for placing it in a first or a second spatial location, comprising: a substrate ( | 2015-07-30 |
20150212317 | VISION CORRECTION SYSTEM - A vision correction system which is comprised of a light source, a configurable grid which alters the path of the light coming from the light source, a grid controller, a screen, and a viewer. The grid controller by means of either sensors or input devices determines the correct configuration for the configurable grid such that the grid alters the light emanating from a screen in such a way that it corrects for visual acuity problems possessed by the viewer. | 2015-07-30 |
20150212318 | Scanner Device for 2-Dimensional Deflection of a Laser Beam - A scanner device configured for 2-dimensional deflection of a laser beam by mirrors that are each pivotably supported about an axis and that are driven in a motorized manner, includes a first motor-mirror unit that has a first mirror and a drive motor, and a carrier for securing the first motor-mirror unit. The first motor-mirror unit is selected from one of two different possible motor-mirror units, each of which has an assembly flange, an identical abutment face, and can be selectively releasably secured with the abutment faces to the same first assembly face of the carrier. The two different possible motor-mirror units differ from each other with respect to the mirror size and/or mirror position in the carrier. | 2015-07-30 |
20150212319 | IMAGE READING LENS, IMAGE READING DEVICE, AND IMAGE FORMING DEVICE - An image reading lens includes a front lens group of five lenses including a positive lens and a negative lens, disposed on an object side and a rear lens group disposed on an image side, including a negative plastic lens. The image reading lens satisfies the following conditions: | 2015-07-30 |
20150212320 | HEAD-UP DISPLAY AND METHOD FOR OPERATING IT - A head-up display includes at least three light sources, each one arranged to emit light with a basic color different from the basic color of the other light sources, a digital micro mirror device including an array of micro mirrors, wherein the light of the light sources is directed onto the digital micro minor device, at least one combiner for displaying an image, and at least one control unit for multiplexing the light sources so as to sequentially emit light thus creating a field sequential color system and for controlling the digital micro mirror device so as to selectively rotate the micro mirrors between an on state, where the light from the light sources is reflected into an optical path towards the combiner, and an off state, where the light is reflected away from that optical path. A method for operating the head-up display is also disclosed. | 2015-07-30 |
20150212321 | LASER SCANNING HEAD-UP DISPLAY SYSTEM FOR VEHICLES - A head-up display for a vehicle has a laser and a scanning system. An image, which is to be displayed in the field of vision of the driver of the vehicle and which is composed of individual pixels, is produced pixel-by-pixel by the laser and the scanning system. The head-up display has a projection system having a projection surface and a magnifying optical system. The projection system projects the image to be displayed onto a virtual image plane and magnifies the image in the process. The size of the pixels in the virtual image plane is smaller than the resolving ability of the human eye, which is the case for an angular distance less than 0.5′, for example. | 2015-07-30 |
20150212322 | MENU NAVIGATION IN A HEAD-MOUNTED DISPLAY - A wearable computing device includes a head-mounted display (HMD) that generates a virtual reality environment. Through the generation and tracking of positional data, a focal point may be tracked with respect to one or menu navigation elements. Following the fixated positioning of the focal point over the menu navigation element for a predetermined amount of time, a process corresponding to the menu navigation element is executed. | 2015-07-30 |
20150212323 | COMBINER STORAGE DEVICE, HEAD-UP DISPLAY DEVICE - A combiner storage device is equipped with: a holder for holding a combiner; a first connection section that can rotate about a first fixed shaft, said first fixed shaft being positioned at one end of the first connection section, and the other end of the first connection section being connected to the holder; and a second connection section that can rotate about a second fixed shaft, said second fixed shaft being positioned at one end of the second connection section, and the other end of the second connection section being connected to the holder. The combiner can be moved from a projected state to a stored state by means of a four-link mechanism. | 2015-07-30 |
20150212324 | PERIPHERAL LIGHTING FOR HEAD WORN COMPUTING - Aspects of the present invention relate to head worn computing lighting systems and stray light control. | 2015-07-30 |
20150212325 | OPTICAL SYSTEM FOR SEE-THROUGH HEAD MOUNTED DISPLAY - Provided is a see-through head mounted display (HMD) optical system which includes a display device, a collimation lens that parallelizes image lights emitted from the display device, a first wedge prism that includes a first enlargement unit for enlarging an image in a horizontal direction, a second wedge prism that includes a second enlargement unit for enlarging the image in a vertical, and a third wedge prism that has an inverse shape of the second wedge prism so as to prevent the image lights which have been reflected in the second wedge prism and enlarged in the vertical direction and an external image which has passed through the second wedge prism and been provided to a user from being distorted. | 2015-07-30 |
20150212326 | DYNAMIC LENS FOR HEAD MOUNTED DISPLAY - A Head Mounted Display (“HMD”) includes a display module, an optical combiner, control circuitry, and a lens. The display module generates image light and the optical combiner is for combining the image light with external scene light. The lens is positioned to receive the image light. The lens is capable of dynamically changing at least one lens property of the lens. The control circuitry controls the lens to dynamically change at least one lens property of the lens. | 2015-07-30 |
20150212327 | STRAY LIGHT SUPPRESSION FOR HEAD WORN COMPUTING - Aspects of the present disclosure relate to head worn computing lighting systems and stray light control. | 2015-07-30 |
20150212328 | WEARABLE DISPLAY, IMAGE DISPLAY UNIT, AND HOLDER - A wearable display includes: a lighting element; an optical modulation element; a light guiding element configured to guide light from the lighting element to the optical modulation element; a holder configured to integrally hold the lighting element, the optical modulation element, and the light guiding element; and a virtual-image optical assembly that is connected to the holder and configured to generate a virtual image of image light from the optical modulation element. | 2015-07-30 |
20150212329 | EYEGLASS-TYPE WEARABLE DEVICE AND FRONT PART OF EYEGLASS-TYPE WEARABLE DEVICE - An eyeglass-type wearable device includes a first temple part positioned along one temporal region of a user, a second temple part positioned along the other temporal region of the user, and a front part positioned in front of the face of the user, when the eyeglass-type wearable device is worn by the user. The front part includes an electrical unit including an imaging device, and a first and second connection sections to which the first and the second temple parts can be connected, and at least one of the first and the second temple parts includes a temple-side electrical unit. The first and second temple parts can be attached to and removed from the first and second connection sections of the front part. Information about an image captured by the imaging device included in the front part is transmitted from the front part to the temple-side electrical unit. | 2015-07-30 |
20150212330 | HEAD MOUNTED DISPLAY AND CONTROL METHOD THEREOF - A head mounted display and a control method thereof are disclosed. The control method comprises following steps. An application processor controls a pico projector unit to project a virtual image having a virtual object located on a virtual image coordinate in a virtual image coordinate system. An eye image sensing unit captures an eye image data. A sensing apparatus senses a touch object to output a sensing data. An ASIC obtains a real image coordinate of the touch object in a real image coordinate system according to the sensing data. The ASIC obtains a pupil position according to the eye image data, and controls the adjustment unit to adjust an imaging position of the virtual image according to the pupil position. The ASIC determines whether the touch object touched the virtual object according to the pupil position, the real coordinate and the virtual coordinate. | 2015-07-30 |
20150212331 | METHOD AND DEVICE FOR FOCUSING LASER LIGHT - A device focuses laser light into a working plane. The device contains a deflection mirror and a cylindrical lens. A lens apex of the cylindrical lens has an offset and which has a first transmission portion and a second transmission portion different from the first transmission portion. The device further has retroreflector device with an optical axis. The deflection mirror is arranged in the beam path of the device such that it can deflect the laser light during the operation of the device such that the light can propagate substantially parallel to the optical axis of the retroreflector device and can be transmitted through the first transmission portion of the cylindrical lens, and can then be reflected back by the retroreflector device such that the laser light can be transmitted through the second transmission portion of the cylindrical lens and can be focused into the working plane. | 2015-07-30 |
20150212332 | 3D DISPLAY DEVICE - A 3D display device comprises a display panel ( | 2015-07-30 |
20150212333 | FRONT-PROJECTION AUTOSTEREOSCOPIC 3D DISPLAY SYSTEM - A front-projection 3D autostereoscopic display system using time-sequencing approach is configured for forming a plurality of perspective views of 3D images of an object or scene in a field of view. The 3D displays system comprises a display component, an optical scanning assembly, a sensor and a controller. The optical scanning assembly includes a first lens array, an optical beam shifting device, an optical projection block and a reflection screen. The reflection screen comprises a second converging lens array and a mirror. In the first and second embodiments of the present invention the reflection screen is made respectively flat or curved. The present invention can be used with a wide range of screen sizes especially for large screens and allows significant reduction or elimination of optical cross-talk and also reduces mechanical complexity of 3D display system. | 2015-07-30 |
20150212334 | REAR-PROJECTION AUTOSTEREOSCOPIC 3D DISPLAY SYSTEM - A rear-projection 3D auto-stereoscopic displays system using time-sequencing approach is configured for forming a plurality of perspective views of 3D images of an object or scene in a field of view. 3D displays system comprises a display component, an optical scanning assembly a sensor and a controller. The optical scanning assembly includes a first lens array, a complex of two (second and third) lens arrays, an optical beam shifting device and an optical projection block. The complex of two lens arrays is used as a screen for the 3D display system. The present invention can be employed especially for a wide range of screen sizes and allows significant reduction or elimination of optical cross-talk, at the same time reducing mechanical complexity of 3D display system. | 2015-07-30 |
20150212335 | REFLECTIVE TYPE IMAGING ELEMENT AND OPTICAL SYSTEM, AND METHOD OF MANUFACTURING RELECTIVE TYPE IMAGING ELEMENT - This reflective imaging element ( | 2015-07-30 |
20150212336 | PASSIVE DAMPING FOR OPTICAL IMAGE STABILIZATION - Passive dampers (e.g., a viscoelastic material such as a silicon gel) may be applied at one or more locations within an actuator module between a moving component (an optics assembly) and a fixed component (e.g., a cover attached to a base). The passive dampers act to passively dampen the motion of the optics assembly on the XY plane within the actuator module during optical image stabilization (OIS) of the optics assembly when subjected to external excitation or disturbance, and may also provide Z (optical) axis damping and impact protection. Process control and automation manufacturing and assembly methods for an OIS voice coil motor (VCM) actuator module including passive dampers are described, as well as design elements that provide for the integrity and reliability of the passive dampers over the life cycle of the actuator module. | 2015-07-30 |
20150212337 | IMAGING APPARATUS - An imaging apparatus includes a front lens group having a front lens element and a reflector; a support member supporting the reflector; a support mechanism supporting the movable frame, supporting the front lens element, to spherically swing about a center positioned on an extension of the front lens element optical axis behind a reflection surface of the reflector; and a permanent magnet and a coil as an actuator which performs image stabilization by driving the movable frame in response to vibrations to spherically swing the movable frame. The permanent magnet and the coil planarly extend parallel to tangent planes, tangent to imaginary spheres centered about the center, respectively. Any normal to the tangent plane of the permanent magnet is inclined to the optical axis of the front lens element such that a distance between the normal and the optical axis increases in a direction toward the object side. | 2015-07-30 |
20150212338 | SPECTACLE LENS AND METHOD FOR DESIGNING THE SAME, METHOD FOR MANUFACTURING SPECTACLE LENS, AND PROGRAM - A spectacle lens, which is a pair of spectacle lenses including a lens for a left eye and a lens for a right eye corresponding to left and right eyes respectively, wherein a lens power is set so that accommodation powers coincide with each other between right and left eyes, the accommodation powers being required for each of the right and left eyes calculated based on a distance between an arbitrary point on a virtual object surface and each of the right and left eyes, and the lens power at each passing point where an optical ray directed to this point passes through the lens for a left eye and the lens for a right eye, when the previously set arbitrary point on the virtual object surface is viewed in a binocular vision through the lens for a left eye and the lens for a right eye. | 2015-07-30 |
20150212339 | METHODS AND APPARATUS FOR AN OPHTHALMIC LENS WITH FUNCTIONAL INSERT LAYERS - This invention discloses a media substrate for incorporation into ophthalmic lenses that has been formed by the stacking of multiple functionalized layers. Additionally, methods and apparatus for providing a stacked functional layer insert for incorporation into an ophthalmic lens are also provided. In some embodiments, an ophthalmic lens is cast molded from a silicone hydrogel and the lens includes at least one stacked functional layer insert portion. | 2015-07-30 |
20150212340 | ASSEMBLY BONDING - A contact lens having a thin silicon chip integrated therein is provided along with methods for assembling the silicon chip within the contact lens. In an aspect, a method includes creating a plurality of lens contact pads on a lens substrate and creating a plurality of chip contact pads on a chip. The method further involves applying assembly bonding material to the each of the plurality of lens contact pads or chip contact pads, aligning the plurality of lens contact pads with the plurality of chip contact pads, bonding the chip to the lens substrate via the assembly bonding material using flip chip bonding, and forming a contact lens with the lens substrate. | 2015-07-30 |
20150212341 | APPARATUS FOR AND METHODS OF DETERMINING IF PROGRESSIVE ADD LENSES (PALS) ARE PROPERLY POSITIONED IN A SUBJECT'S EYEGLASSES - An apparatus for and methods of determining that the placement and alignment of progressive add lenses (PALs) in a subject's frame are correct. Namely, a PAL verification tool includes a chart and light source, wherein the chart is viewed by the subject and the light source is worn by the subject during a PAL verification process. The PAL verification method may include the steps of positioning the subject with respect to a near fixation point, the subject viewing the near fixation point with one eye and bringing it into best and clearest vision, measuring and recording a first head position with respect to the near fixation point, the subject viewing the near fixation point with the other eye and bringing it into best and clearest vision, measuring and logging a second head position with respect to the near fixation point, and determining the amount and direction of the difference in the first and second head positions and correlating to an amount and direction of PAL misalignment. A measured misalignment exceeding certain tolerances indicates that a subject's PALs aren't properly positioned in their frame. A subject is suitable for correction if this misalignment causes the subject to experience visual or physical discomfort. | 2015-07-30 |
20150212342 | METHOD FOR DETERMINING EYE AND HEAD MOVEMENT OF AN INDIVIDUAL - Method for determining the relative amplitude of eye and head movements of an individual, comprising: —a target providing step during which a list of visual targets comprising at least two different visual targets is provided; —a reference positioning step; —a reference target providing step during which a reference target comprising a visual and auditory target is provided; —a reference target gazing step during which the individual gazes at the reference target; —a peripheral target providing step during which a peripheral target comprising a visual and auditory target is provided; —a peripheral target gazing step during which the individual gazes at the peripheral target; and, —a rotation measurement step during which the angle of rotation of the individual's head and the angle or rotation of the individual's eyes are measured. | 2015-07-30 |
20150212343 | METHOD AND SYSTEM TO CREATE CUSTOM, USER-SPECIFIC EYEWEAR - Systems and methods for creating fully custom products from scratch without exclusive use of off-the-shelf or pre-specified components. A system for creating custom products includes an image capture device for capturing image data and/or measurement data of a user. A computer is communicatively coupled with the image capture device and configured to construct an anatomic model of the user based on the captured image data and/or measurement data. The computer provides a configurable product model and enables preview and automatic or user-guided customization of the product model. A display is communicatively coupled with the computer and displays the custom product model superimposed on the anatomic model or image data of the user. The computer is further configured to provide the customized product model to a manufacturer for manufacturing eyewear for the user in accordance with the customized product model. The manufacturing system is configured to interpret the product model and prepare instructions and control equipment for the manufacturing of the customized product. | 2015-07-30 |
20150212344 | ELECTRO-OPTICAL MODULATORS WITH FOLDED GATE LAYERS - An optical modulator may include a lower waveguide, an upper waveguide, and a dielectric layer disposed therebetween. In one embodiment, the lower waveguide may include a u-shaped region within an optical mode of the light passing through the optical modulator. By conforming the dielectric layer to the surfaces of the u-shaped region, the amount of area of the dielectric layer within a charge modulation region is increased relative to forming the dielectric layer on a single plane. Folding the dielectric layer in this manner may improve modulation efficiency. In one embodiment, the u-shaped region is formed by using ridge structures that extend from an upper surface of the lower waveguide towards the upper waveguide. To aid in lateral confinement of the optical mode, the dielectric layer may be deposited on one side surface of the ridge structures while a different dielectric material is deposited on the opposite side surface. | 2015-07-30 |
20150212345 | SILICON DEPLETION MODULATORS WITH ENHANCED SLAB DOPING - Disclosed herein are methods, structures, and devices for a silicon carrier-depletion based modulator with enhanced doping in at least part of slab regions between waveguide core and contact areas. Compared to prior designs, this modulator exhibits lower optical absorption loss and better modulation bandwidth without sacrificing the modulation efficiency when operating at comparable bandwidth settings. | 2015-07-30 |
20150212346 | Interdigitated Optical Modulator - An optical modulator comprises a silicon substrate, a buried oxide (BOX) layer disposed on top of the silicon substrate, and a ridge waveguide disposed on top of the BOX layer and comprising a first n-type silicon (n-Si) slab, a first gate oxide layer coupled to the first n-Si slab, a first p-type silicon (p-Si) slab coupled to the first gate oxide layer, and a light propagation path that travels sequentially through the first n-Si slab, the first gate oxide layer, and the first p-Si slab. | 2015-07-30 |
20150212347 | Athermal Faraday Rotator Mirror - Methods, systems, and apparatus for optical communications are provided. One of the apparatus includes a first Faraday rotator having an applied magnetic field in a first direction; a second Faraday rotator optically coupled to the first Faraday rotator, the second Faraday rotator having an applied magnetic field in a second direction in opposition to the first direction; and a mirror optically coupled to the second Faraday rotator. | 2015-07-30 |
20150212348 | POLYMER/LIQUID CRYSTAL COMPOSITE AND LIQUID CRYSTAL DISPLAY DEVICE INCLUDING THE SAME - The occurrence of a defective orientation of a polymer/liquid crystal composite is suppressed. In addition, the occurrence of defective display of a liquid crystal display device including the polymer/liquid crystal composite is suppressed. In the polymer/liquid crystal composite exhibiting a blue phase, a plurality of domains are included and defective orientations easily occur at boundaries between the domains. Thus, by lowering orientation periodicities at boundaries between the domains, a defect-free orientation to high orientation periodicities at the boundary between adjacent domains can be obtained. Specifically, the polymer/liquid crystal composite exhibiting the blue phase includes the plurality of domains each of which has a size of 3 μm or less. | 2015-07-30 |
20150212349 | BLUE PHASE LIQUID CRYSTAL DISPLAY PANEL - The present invention provides a blue phase liquid crystal display panel, which includes: a first substrate ( | 2015-07-30 |
20150212350 | ADHESIVE LAYER-EQUIPPED TRANSPARENT SURFACE MATERIAL, DISPLAY DEVICE, AND PRODUCTION METHOD THEREFOR - A transparent plate having an adhesive layer includes a transparent plate; a cover material formed on a peripheral portion of a surface of the transparent plate and having a notched portion on an upper side thereof; an adhesive layer formed in a region enclosed by the transparent plate and the cover material and on a partial region of the cover material such that the adhesive layer has a peripheral end face on the cover material, wherein the peripheral end face coincides with the position of the notched portion in a planar direction of the transparent plate; and a peelable protective film formed on the adhesive layer and having a peripheral end face such that the peripheral end face of the protective film is flush with the peripheral end face of the adhesive layer coinciding with the position of the notched portion. | 2015-07-30 |
20150212351 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - Provided are a display device and a manufacturing method thereof capable of improving a viewing angle. The display device includes: a substrate; a switching element; a pixel electrode; a common electrode; a roof layer; a liquid crystal layer; and an encapsulation layer. The switching element is on the substrate. The pixel electrode is connected with the switching element. The common electrode is spaced apart from the pixel electrode on the pixel electrode with a plurality of microcavities comprising a microcavity therebetween. The roof layer is on the common electrode. The liquid crystal layer fills the microcavity. The encapsulation layer is on the roof layer to seal the microcavity, in which the common electrode includes a protrusion protruding upwards from a portion contacting an upper surface of the microcavity. | 2015-07-30 |
20150212352 | LIQUID CRYSTAL DISPLAY PANEL, DISPLAY DEVICE AND PROCESS FOR PATTERNING QUANTUM DOT LAYER - A liquid crystal display panel, in which pixel units are provided on the liquid crystal display panel, each pixel unit includes sub-pixel units displaying different colors, at a position of the apposed substrate or the array substrate corresponding to the sub-pixel unit of at least one color in each pixel unit, a monochromatic quantum dot layer is disposed. This liquid crystal display panel has increased color gamut of the liquid crystal display panel, enhanced color saturation, increased display quality, and increased life of quantum dots. A display device and a process for patterning the monochromatic quantum dot layer are also provided. | 2015-07-30 |
20150212353 | LIQUID CRYSTAL DISPLAY DEVICE HAVING PARTICULAR SEALING STRUCTURE - A liquid crystal display device comprises a TFT substrate, forming a wiring made of a material shutting off UV rays on a peripheral region thereof, and a sealing layer, including a UV ray curable resin therein, and being formed on peripheral regions of the substrate, to enclose the liquid crystal layer. The wiring and the sealing layer formed on the peripheral region are so provided that they are put on each other, at least in part thereof, on the wiring are provided plural numbers of opening portions formed in region where the wiring and the sealing layer are put on each other, and the opening portions are divided into a first area beside a display region and a second area outside the first area, and an opening ratio of the opening portions of the first area is larger than the opening ratio of the opening portions of the second area. | 2015-07-30 |
20150212354 | LIQUID CRYSTAL DISPLAY DEVICE - Reduction in the reliability of a seal portion is prevented. The reduction is caused by a light shielding portion formed on the seal portion of a TFT substrate to hamper curing an ultraviolet curable sealing material. A sealing material has a two-layer structure of an ultraviolet curable sealing material that is an inner sealing material and a thermosetting and ultraviolet curable sealing material or a thermosetting sealing material that is an outer sealing material. A light shielding portion is formed on a TFT substrate under the outer sealing material. The light shielding portion is not formed on the TFT substrate under the inner sealing material. When ultraviolet rays are applied from the TFT substrate side, the inner sealing material is cured in a short time. The outer sealing material is then cured by heating. Thus, the overall seal portion can be sufficiently cured, and a highly reliable seal portion can be formed. | 2015-07-30 |
20150212355 | PHOTORECEIVER AND DISPLAY DEVICE - As a photoreceiver for a remote controller used in a display device or the like, a photoreceiver that is compact and has excellent light receiving sensitivity is provided. The photoreceiver includes a light receiving sensor that receives remote controller signal light from a remote controller to convert the received remote controller signal light into an electric signal, and a light guide body that guides the remote controller signal light to the light receiving sensor. The light guide body includes at least a first light guide body including an incident surface upon which the remote controller signal light is incident, and a second light guide body including an emission surface from which remote controller signal light is emitted, and a section of the first light guide body shows a round cornered rectangle, and a section of the second light guide body shows a substantial rectangle. | 2015-07-30 |
20150212356 | LIQUID CRYSTAL DEVICE, ELECTRONIC DEVICE AND PROJECTOR WITH MAXIMUM-LIGHT-INTENSITY DIRECTION INCLINED FROM THE DIRECTION NORMAL TO THE SUBSTRATES - A liquid crystal device includes a liquid crystal panel including a pair of substrates that sandwiches a liquid crystal layer containing liquid crystal molecules exhibiting a parallel alignment in an initial alignment state, and a polarizing plate disposed on either side of the liquid crystal panel. The liquid crystal molecules are inclined at a pretilt angle and aligned in a predetermined direction in planes of the substrates. The liquid crystal panel emits light entering through one of the polarizing plates toward the other. The liquid crystal panel emits light having the maximum intensity in a direction different from a direction normal to the substrates. The azimuth of the maximum-light-intensity direction projected onto the planes of the substrates is substantially parallel to the predetermined direction. The maximum-light-intensity direction is a direction inclined from the direction normal to the substrates toward a direction in which the maximum-light-intensity direction form a right angle with a longitudinal direction of the liquid crystal molecules inclined at the pretilt angle. | 2015-07-30 |
20150212357 | MANUFACTURING PROCESS FOR LIQUID CRYSTAL DISPLAY PANEL - A manufacturing method for a liquid crystal display panel is provided. After providing a substrate having an insulation layer thereon, a first metal composite layer is formed on the insulation layer and then patterned to form at least one first opening through the first metal composite layer. A first intermediate dielectric layer is formed within the at least one first opening and a second intermediate dielectric layer is formed on the patterned first metal composite layer. The second intermediate dielectric layer is patterned to form second openings through the second intermediate dielectric layer. A second metal composite layer is formed on the patterned second intermediate dielectric layer and then patterned to form at least one third opening. Then, a third intermediate dielectric layer is formed within the at least one third opening. | 2015-07-30 |
20150212358 | LIQUID CRYSTAL DISPLAY PANEL, DRIVING METHOD AND FABRICATION METHOD THEREOF, AND DISPLAY DEVICE - A liquid crystal display panel, a driving method and a fabrication method thereof, and a display device are disclosed. The liquid crystal display panel includes first and second substrates and a PDLC layer therebetween. The PDLC layer is formed by a positive liquid crystal and a polymer matrix, and the positive liquid crystal is initialized to be perpendicular to the substrates. The liquid crystal display panel further includes: a first transparent electrode unit, disposed on the first substrate and connected with a switch element; a second transparent electrode unit, disposed on the second substrate and connected with a first voltage; a third transparent electrode unit, disposed on the first and second substrates. The third transparent electrode unit includes a plurality of third transparent electrodes, each of which has a preset height and connected with a second voltage with a polarity opposite to that of the first voltage. | 2015-07-30 |
20150212359 | DISPLAY DEVICE AND TELEVISION DEVICE - A display device includes a display panel, a flexible circuit board, a signal transmission board, a driver component, a frame-shaped member, and a heat dissipation member. The signal transmission board is configured to transmit signals to the flexible circuit board. The driver component is mounted on the flexible circuit board and configured to process the signals from the signal transmission board and supply the processed signals to the display panel. The frame-shaped member retains the liquid crystal panel by holding edges of the display panel on a display surface side. The heat dissipation member has higher thermal conductivity than the frame-shaped member and embedded in a portion of the frame-shaped member. The heat dissipation member includes a contact portion that projects toward the signal transmission board and a distal end that is in contact with a portion of the flexible circuit board on which the driver component is mounted. | 2015-07-30 |
20150212360 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes a substrate on which a thin film transistor is positioned, a pixel electrode positioned on the thin film transistor and connected to the thin film transistor, a roof layer separated from the pixel electrode via a microcavity interposed therebetween, and a liquid crystal layer positioned in the microcavity and including a liquid crystal material and a dichroic dye. | 2015-07-30 |
20150212361 | BEZEL-FREE DISPLAY DEVICE - The present disclosure provides a bezel-free display device, including: a display panel including a display surface and a back surface opposite to the display surface; a panel connector, one end of which is secured onto a peripheral region of the back surface, and the other end of which is provided with a first support surface, a first snap-on member being provided on the first support surface; and a backlight module including a back plate and a sealant both arranged at a side of the back surface, the sealant being secured onto a periphery of the back plate and arranged at a position corresponding to the panel connector, one end of the sealant adjacent to the display panel being provided with a second support surface cooperating with the first support surface, a second snap-on member cooperating with the first snap-on member being provided on the second support surface. | 2015-07-30 |
20150212362 | DISPLAY DEVICE - A display device of the present invention includes a display element having a display surface, a frame that houses the display element and has an opening exposing the display surface, a plurality of adhesive members linearly bonded with gaps therebetween to a surface on a periphery of the opening of the frame along the opening, the surface being opposite to the display element, a touch panel that is fixed to the frame through the adhesive members so as to cover the opening, and a resin that is applied to the frame so as to fill the gaps and is in contact with the touch panel. | 2015-07-30 |
20150212363 | DISPLAY DEVICE - Provided is a display device including: a display panel; a support member that is in contact with at least a part of a lower side of the display panel; and a panel holder that has a first member supporting via the support member the lower side of the display panel. The support member is an elastic body that, in a case where the display panel is deformed, deforms accordingly as a result of a part thereof moving relative to the first member. | 2015-07-30 |
20150212364 | MANUFACTURING METHOD FOR LIQUID CRYSTAL DISPLAY DEVICE - A LCD device having a large pixel holding capacitance includes opposedly facing first and second substrates, and liquid crystal between them. The first substrate includes a video signal line, a pixel electrode, a thin film transistor having a first electrode connected to the video signal line and a second electrode connected to the pixel electrode, a first silicon nitride film formed above the second electrode, an organic insulation film above the first silicon nitride film, a capacitance electrode above the organic insulation film, and a second silicon nitride film above the capacitance electrode and below the pixel electrode. A contact hole etched in both the first and second silicon nitride films connects the second electrode and the pixel electrode to each other. A holding capacitance is formed by the pixel electrode, the second silicon nitride film and the capacitance electrode. | 2015-07-30 |
20150212365 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A liquid crystal display includes a substrate including a plurality of pixel areas, a color filter disposed in each of the plurality of pixel areas, and a liquid crystal layer positioned on a pixel electrode and filling a microcavity. A height of the liquid crystal layer corresponding to the color filter having a first color is different from a height of the liquid crystal layer corresponding to the color filter having a second color. | 2015-07-30 |
20150212366 | COLOR FILTER SUBSTRATE, DISPLAY PANEL AND DISPLAY DEVICE - A color filter substrate, a display panel and a display device are provided. The color filter substrate includes a first substrate, a black matrix layer located on the first substrate, and an electrostatic discharge wire layer located on the black matrix layer and connected to the black matrix layer. In the color filter substrate, the display panel and the display device, the electrostatic discharge wire layer is arranged on the black matrix layer of the color filter substrate. Hence, static electricity in the color filter substrate is discharged via the electrostatic discharge wire layer, and accordingly, the static electricity may not be accumulated in the color filter substrate, thereby improving the quality and performance of a display. | 2015-07-30 |
20150212367 | COLOR FILTER SUBSTRATE, ARRAY SUBSTRATE, LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY DEVICE - A color filter substrate, an array substrate, a liquid crystal panel and a liquid crystal display device are disclosed. Said color filter substrate includes a plurality of pixel units, wherein said pixel unit comprises two diamond shaped sub-pixels and four isosceles triangle shaped sub-pixels, every two isosceles triangle shaped sub-pixels are arranged into a sub-pixel column with their vertex angles opposite to each other, and two sub-pixel columns are parallel to each other; said two diamond shaped sub-pixels and said two sub-pixel columns are disposed alternatively in horizontal direction; and colors of said diamond sub-pixels and the isosceles triangle shaped sub-pixels at least contains red, blue and green. The liquid crystal panel can enhance color reproducibility of the liquid crystal display panel and refinement degree of picture display and hence improving reality of picture display effect. | 2015-07-30 |
20150212368 | LIQUID CRYSTAL DISPLAY - There is provided a liquid crystal display including: a liquid crystal cell in which a liquid crystal layer is installed between two glass substrates; polarizing plates on both surfaces of the liquid crystal cell; and a backlight at a rear side of the liquid crystal cell, which is a non-visual side, wherein in a polarizing plate at a front side of the liquid crystal cell, which is a visual side, a difference in a moisture content of the polarizing plate at the front side under a specific condition in elapse of time is 0.01% or more and 3.0% or less. | 2015-07-30 |
20150212369 | TRANSFLECTIVE TYPE LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY USING THE SAME - A transflective type liquid crystal display panel and a display using it are provided in order to solve the problem that there exists much difficulty in the making process of the upper substrate in the transflective type liquid crystal display panel. A second common electrode layer ( | 2015-07-30 |
20150212370 | LIQUID CRYSTAL DISPLAY DEVICE - Light emitted by a backlight can be prevented from leaking through a chamfered portion of a front window of a liquid crystal display device. An upper polarizing plate is bonded over the counter substrate, and a front window is bonded over the upper polarizing plate with a UV-curable resin adhesive. The front window is chamfered and a light shielding member is formed on the chamfered portion. The UV adhesive exists between the chamfered portion and the surface of the upper polarizing plate or the counter substrate, and an outer end of the polarizing plate exists at a point outer than an outer end of the front window. Since the light shielding member for the chamfered portion is formed, light from the backlight does not penetrate from the chamfered portion. Thus, light leakage at a periphery of a screen can be prevented even when the view angle is large. | 2015-07-30 |
20150212371 | LIGHT EMITTING APPARATUS, BACKLIGHT APPARATUS, AND DISPLAY APPARATUS - A light emitting apparatus including a first and a second light source, wherein both light sources have spectral characteristics of blue light having an emission light peak within a first wavelength range, at least one of the light sources further has a spectral characteristic of at least one of green light having an emission light peak within a second wavelength range and red light having an emission light peak within a third wavelength range, and a composite spectral characteristic resulting from light emissions from the both light sources has peaks within the first, the second, and the third wavelength ranges, the peak within the first wavelength range has a larger half-value width than others, and the peak within the first wavelength range has a substantially symmetric shape about the peak wavelength. | 2015-07-30 |
20150212372 | LIQUID CRYSTAL PIXEL ELECTRODE STRUCTURE, ARRAY SUBSTRATE AND DISPLAY APPARATUS - A liquid crystal pixel electrode structure, an array substrate, and a display apparatus are provided. The pixel electrode structure comprises a first pixel electrode ( | 2015-07-30 |
20150212373 | LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal display device, a TFT substrate and a counter substrate are bonded by a sealing material, with a liquid crystal interposed between the two substrates. An alignment film has a two-layer structure of a lower alignment film not subjected to photo alignment treatment and an upper alignment film subjected to photo alignment treatment and contacting the liquid crystal. A hollow with an increased film thickness is formed in an end portion of the lower alignment film. An end portion of the upper alignment film is determined by the hollow of the lower alignment film. The material, process conditions, or other conditions of the lower alignment film for easy control of outer end dimensions can be selected to easily control the profile of the alignment film as a whole. Thus, it is possible to avoid the reduction of reliability due to the reduction of the bonding strength between the sealing material and the alignment film. | 2015-07-30 |
20150212374 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a first substrate, a second substrate, and a liquid crystal layer. The first substrate includes a first line, a second line, a switching element, a common electrode, an insulating film disposed on the common electrode, a pixel electrode connected with the switching element and opposed to the common electrode with the insulating film interposed therebetween, and a first alignment film covering the pixel electrode. The second substrate includes a second alignment film. And the pixel electrode includes one main pixel electrode extending in a belt shape in a pixel area defined by the first line and the second line. | 2015-07-30 |
20150212375 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes: a gate line including a gate electrode; a data line including a source electrode; a drain electrode; an organic layer on the gate and data lines and the drain electrode, and a first opening defined therein; a first electrode on the organic layer, and a second opening defined therein; and a passivation layer on the first electrode, and a contact hole defined therein exposing the drain electrode. An interval taken in a first direction between a first edge of the gate electrode, the first edge parallel to a second direction in which the gate line is extended and which is different than the first direction, and a second edge of the first electrode second opening, the second edge parallel to the second direction and adjacent to the gate electrode first edge is 0 micrometer to about 6 micrometers. | 2015-07-30 |
20150212376 | DISPLAY DEVICE AND REFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a display device includes a unit pixel includes a first pixel including a first pixel electrode, a second pixel including a second pixel electrode, a third pixel including a third pixel electrode, and a fourth pixel including a fourth pixel electrode, a scanning line electrically connected to the first to fourth pixels, and first to fourth signal lines extending in the column direction and disposed at intervals in the row direction, the first to fourth signal lines electrically connected to the first to fourth pixels, respectively, wherein the first to fourth pixel electrodes are light reflective, and the scanning line is sequentially drawn into each pixel area of the first to fourth pixels in a manner that an entire width of the scanning line is contained within each pixel area. | 2015-07-30 |