43rd week of 2015 patent applcation highlights part 46 |
Patent application number | Title | Published |
20150301207 | Sensor Assembly - A multiple axis sensor assembly includes an enclosure and encapsulated microelectromechanical system (MEMS) sensors. The encapsulated sensors are disposed inside the enclosure and are mounted in different orientations, which correspond to different axes of the sensor assembly. A controller of the sensor assembly is disposed in the enclosure and electrically coupled to the MEMS sensors. | 2015-10-22 |
20150301208 | SEISMIC DATA PROCESSING - Described herein are implementations of various technologies for a method for seismic data processing. The method may receive seismic data for a region of interest. The seismic data may be acquired in a seismic survey. The method may determine a seismic image based on the acquired seismic data and an earth model of the region of interest. The method may determine simulated seismic data based on the earth model. The method may determine an objective function that represents a mismatch between the acquired seismic data and the simulated seismic data. The method may determine a diffusion tensor using geological information from the seismic image. The method may update the earth model using the diffusion tensor with the objective function. | 2015-10-22 |
20150301209 | Estimating A Wavefield For A Dip - At least one dip is determined using an estimator for the at least one dip based on measured multicomponent survey data. At least one wavefield for the at least one dip is estimated using a processing technique that employs matching pursuit. | 2015-10-22 |
20150301210 | METHODS AND SYSTEMS TO SEPARATE WAVEFIELDS USING PRESSURE WAVEFIELD DATA - This disclosure is directed to wavefield separation methods and systems. In one aspect, methods and systems compute an approximate vertical particle velocity wavefield based on a measured pressure wavefield and knowledge of free-surface when the pressure wavefield was measured. The measured pressure wavefield is used to compute an approximate frozen free-surface profile. The approximate frozen free-surface profile and the measured pressure wavefield are used to compute an approximate vertical particle velocity wavefield. The approximate vertical particle velocity wavefield and measured pressure wavefield may be used to compute separate up-going and down-going pressure, or vertical particle velocity, wavefields. | 2015-10-22 |
20150301211 | METHOD AND DEVICE COMPENSATING FOR WATER VELOCITY VARIATION FOR 4D DATA SETS - Methods for determining a seismic wave's propagation velocity in water for monitor seismic data of a 4D data set analyze a relationship between seafloor time-shifts and source-receiver offsets. The time-shifts are differences of normal move out corrected seafloor source-receiver travel times for pairs of traces. Each pair includes a base trace extracted from base seismic data of the 4D data set and a monitor trace extracted from the monitor seismic data, the traces corresponding to the same seafloor bin and having the same source-receiver offset. | 2015-10-22 |
20150301212 | APPARATUS AND METHODS FOR LOADING AND UNLOADING OF SENSOR CAPSULES - An apparatus and methods for loading and unloading of sensor capsules ( | 2015-10-22 |
20150301213 | A METHOD FOR PROCESSING ACOUSTIC WAVEFORMS - A method for processing acoustic waveforms comprises acquiring acoustic waveforms in a borehole traversing a subterranean formation and transforming at least a portion of the acoustic waveforms to produce frequency domain signals. Then model dispersion curves are generated based on an anisotropic borehole-formation model having a set of anisotropic borehole-formation parameters. The frequency-domain signals are back-propagating using the model dispersion curves to correct dispersiveness of the signals and coherence of the back-propagated signals is calculated. Alternatively the difference between the measured and the model dispersion curves is determined. Model parameters are iteratively adjusted until the coherence reaches a maximum or exceeds a selected value, or alternatively until the difference between the measured and the model dispersion curves becomes minimal or is reduced to below a selected value. Then at least a portion of the set of anisotropic borehole-formation parameters is obtained. | 2015-10-22 |
20150301214 | PREDICTING HYDRAULIC FRACTURE PROPAGATION - The present disclosure is related to methods and apparatuses for acoustic velocity well logging. The method may include estimating a magnitude of a principal horizontal stress in a borehole in a formation. The method may include obtaining a far field stress orientation and making a measurement of near borehole stress orientation. The present disclosure also includes an apparatus configured to be conveyed into a borehole and perform the method. Formation stresses and directions may be estimated. | 2015-10-22 |
20150301215 | APPARATUS AND METHODS TO FIND A POSITION IN AN UNDERGROUND FORMATION - Various embodiments include apparatus and methods related to finding a position in an underground formation. Apparatus and methods can include receiving signals from a receiver in an underground formation in response to signals generated from transmitting sources, each of the transmitting sources located at a known position; and processing the received signals, based on the signals generated from the transmitting sources, to determine the position of the receiver. A number of techniques can be applied to processing the received signal. Additional apparatus, systems, and methods are disclosed. | 2015-10-22 |
20150301216 | METHOD FOR AUTOMATIC RECOGNITION OF A MOBILE MAGNETIC OBJECT - An automatic recognition method includes the calculation of an error representative of the difference between an estimate of the values of the magnetometer measurements when the positions, orientations and amplitudes of the magnetic moments of the P dipoles are equal to those determined, and the values of the magnetometer measurements taken. There is the selection of another system of equations linking each measurement of a triaxial magnetometer to the position, orientation and amplitude of the magnetic moment of P′ magnetic dipoles. The method includes the calculation of at least one distinctive feature of the object presented from the position, orientation, or amplitude of the magnetic moment of each dipole determined with the system of equations that minimizes the error calculated. The method includes the recognition of the magnetic object presented if the calculated distinctive features correspond to those of a known object, otherwise the lack of recognition of this object. | 2015-10-22 |
20150301217 | ULTRA-LONG ELECTROMAGNETIC SOURCE - An electromagnetic source. At least some illustrative embodiments are electromagnetic sources including a first electrode and a second electrode. The electromagnetic source also includes a cable disposed between the first electrode and the second electrode. The second electrode separated from the first electrode by the length L, and the length L of the cable between the electrodes in the range from 1000 meters to 20000 meters (20 kilometers). | 2015-10-22 |
20150301218 | FORMATION IMAGING WITH MULTI-POLE ANTENNAS - Various embodiments include systems and methods that operate to provide reservoir imaging. The systems and methods can include a number of transmitter antennas and a number of receiving antennas arranged to operate as one or more multi-pole antennas, controlled to generate high resolution cross-well formation images. Additional apparatus, systems, and methods are disclosed. | 2015-10-22 |
20150301219 | METHODS FOR ESTIMATING RESOURCE DENSITY BY INTEGRATING SEISMIC METHODS WITH FLUID DENSITY AND PRESSURE IN SHALE RESOURCE PLAYS - A method of evaluating a shale source rock formation comprising: determining in situ partial pressures of a light hydrocarbon utilizing a downhole Raman tool and producing a map of spatial and vertical variations of the in situ partial pressures of the light hydrocarbon in the shale source rock formation. | 2015-10-22 |
20150301220 | Drive-Through Scanning Systems - A drive-through scanning system comprises a radiation generating means arranged to generate radiation at two different energy levels and direct it towards a scanning volume, detection means arranged to detect the radiation after it has passed through the scanning volume, and control means arranged to identify a part of a vehicle within the scanning volume, to allocate the part of the vehicle to one of a plurality of categories, and to control the radiation generating means and to select one or more of the energy levels depending on the category to which the part of the vehicle is allocated. | 2015-10-22 |
20150301221 | MULTIPLE OPTICAL AXIS PHOTOELECTRIC SENSOR - A multiple optical axis photoelectric sensor capable of performing muting processing adapted to a plurality of kinds of workpieces having different heights without the need for complicated pre-setting according to the kinds of workpieces, is provided. The multiple optical axis photoelectric sensor is provided with a light projecting device and a light receiving device, which forms a plurality of optical axes together with the light projecting device. In at least one portion of a detection area, which is set according to the optical axes, a muting area for nullifying the result of detection of blocked light is set up. A sensor system acquires a range of blocked light corresponding to the blocked optical axis during passage of a workpiece, and alters the muting area of the multiple optical axis photoelectric sensor from a first range to a second range. | 2015-10-22 |
20150301222 | Inversion-based calibration of downhole electromagnetic tools - An inversion based calibration method for downhole electromagnetic tools includes processing an inversion of a formation model using acquired electromagnetic measurement data to obtain formation parameters and calibration parameters for at least one measurement array. | 2015-10-22 |
20150301223 | System and Method for Predicting Rock Strength - A system and method to predict rock strength by directly inverting for petrophysical properties. In one embodiment, seismic data is received or obtained from a seismic survey (step | 2015-10-22 |
20150301224 | System, Method and Computer Program Product For Evaluating and Ranking GeoBodies Using A Euler Characteristic - A system and method utilizing a modified Euler Characteristic to numerically quantify and rank connectivity of a geobody within a reservoir model based upon a range of petrophysical properties. | 2015-10-22 |
20150301225 | Geophysical Modeling of Subsurface Volumes Based on Horizon Extraction - Method and system is described for modeling one or more geophysical properties of a subsurface volume. The method includes extracting locations from the data volume and combining them into an object, for example a horizon. The extraction may begin with selecting one or more initial traces, assigning labels to each sample of each trace, selecting a propagation pattern, and propagating the labels from the initial traces along a vector volume. Then, locations with the same label are extracted ( | 2015-10-22 |
20150301226 | Short term cloud coverage prediction using ground-based all sky imaging - A method for predicting short-term cloud coverage includes a computer calculating an estimated cloud velocity field at a current time value based on sky images. The computer determines a segmented cloud model based on the sky images, a future sun location corresponding to a future time value, and sun pixel locations at the future time value based on the future sun location. Next, the computer applies a back-propagation algorithm to the sun pixel locations using the estimated cloud velocity field to yield propagated sun pixel locations corresponding to a previous time value. Then, the computer predicts cloud coverage for the future sun location based on the propagated sun pixel locations and the segmented cloud model. | 2015-10-22 |
20150301227 | COMPOSITION FOR OPTICAL MATERIAL AND USE OF SAME - A composition for optical materials of the present invention includes a polyolefin (A) obtained by (co)polymerizing at least one kind of olefin selected from α-olefins having 3 to 20 carbon atoms and a photochromic compound (B). | 2015-10-22 |
20150301228 | AMPHIPHILIC SILOXANE-CONTAINING (METH)ACRYLAMIDES AND USES THEREOF - The invention provides an amphiphilic siloxane-containing (meth)acrylamide which comprises one sole (meth)acrylamido group, one sole tris(trimethylsiloxy)silyl group, and one polyethylene glycol segment which is either dangling polymer chain or a hydrophilic linker between the (meth)acrylamido group and the tris(trimethylsiloxy)silyl group. The present invention is also related to a polymer, an actinically-crosslinkable silicone-containing prepolymer, a silicone hydrogel polymeric material, or a silicone hydrogel contact lens, which comprises monomeric units derived from an amphiphilic siloxane-containing (meth)acrylamido group, one tris(trimethylsiloxy)silyl group of the invention. In addition, the invention provides a method for making silicone hydrogel contact lenses using a water-based lens-forming formulation comprising an amphiphilic siloxane-containing (meth)acrylamido group, one tris(trimethylsiloxy)silyl group of the invention and/or an actinically-crosslinkable silicone-containing prepolymer of the invention. | 2015-10-22 |
20150301229 | LIGHT-SHIELDING COATING, LIGHT-SHIELDING FILM, AND OPTICAL ELEMENT - The present invention relates to a light-shielding coating including a resin composition containing at least an epoxy resin, a coloring agent including a dye, and titania fine particles having an average primary particle diameter of 1 nm or more and 100 nm or less and including an organic solvent dissolving or dispersing the resin composition. The concentration of the titania fine particles is 20% by mass or more and 60% by mass or less of the resin composition. | 2015-10-22 |
20150301230 | MOLD FOR MANUFACTURING OPTICAL ELEMENT AND PRODUCTION METHOD FOR SAME, AND OPTICAL ELEMENT - A mold for manufacturing an optical element is provided with a base material, and a recessing and protruding layer formed on a surface of the base material. The recessing and protruding structure of the recessing and protruding layer having a plurality of areas continuously arranged in a positional relationship in which the central point of seven adjacent protrusions is an intersection point of diagonal lines of six vertices of a regular hexagon, and the areas, shapes, and crystal orientations of the plurality of areas are random. | 2015-10-22 |
20150301231 | ANTI-REFLECTIVE FILM, COMPRISING HARD COATING LAYER, HAVING SUPERB OPTICAL CHARACTERISTICS - Provided is an anti-reflective film having a stacked structure comprising a transparent substrate, a hard coating layer, a high refraction layer and a low refraction layer, and more specifically, the low refraction layer may comprise, as a binder, a siloxane compound synthesized by reacting alkoxysilane and organosilane having a fluoroalkyl group. | 2015-10-22 |
20150301232 | RETARDATION FILM, METHOD FOR PRODUCING THE SAME AND DISPLAY APPARATUS - The invention provides a retardation film, a method for producing the same and a display apparatus comprising the same. The retardation film comprises a phase retardation layer and a cured material layer formed by curing a curable material applied on the phase retardation layer, wherein the cured material layer is disposed on the light-emitting side of the phase retardation layer. In the retardation film of this invention, since the cured material layer is formed by curing the curable material applied on the phase retardation layer, the laminating equipment can be omitted and the equipment investment can thus be decreased, thereby lowering the production cost. | 2015-10-22 |
20150301233 | OPTICAL ARTICLE PROVIDED WITH HIGH-STRENGTH HARD COAT LAYER - One aspect of the present invention relates to an optical article comprising:
| 2015-10-22 |
20150301234 | METHODS AND SYSTEMS OF GENERATING A LENTICULAR ARTICLE USING A PRINTING BLANKET - A method for a production of a lenticular image. The method comprises feeding a lenticular printing substrate having a corrugated side and a printing side into a digital printing press, feeding at least one nontransparent ink to set a substantially nontransparent layer on a printing blanket of the printing press, feeding a plurality of colored inks to set an interlaced color image layer on top of the substantially nontransparent layer on the printing blanket, and printing with the printing blanket onto the printing side. | 2015-10-22 |
20150301235 | Device for applying light to an inner surface of a cylinder and beam transformation device for such a device | 2015-10-22 |
20150301236 | OPTICAL FILTER - An object is to improve wavelength selectivity of an optical filter which selects a wavelength of incident light. Accordingly, an optical filter is the filter that selects a wavelength of incident light and includes a multilayer film which includes three or more thin metal films by alternately laminating each thin metal film and a dielectric film, and apertures which pass through the multilayer film, and are arranged with a period of less than the wavelength of the incident light. | 2015-10-22 |
20150301237 | ANTI-GLARE FILM AND PROCESS FOR PRODUCING THE SAME - An anti-glare film comprises an anti-glare layer having a ridge on a surface thereof. The ridge is formed by phase separation of a plurality of resin components, and the ridge has a branched structure and a total length of not less than 100 pl, and one or more of the ridges per square millimeter exist on the surface of the anti-glare layer. | 2015-10-22 |
20150301238 | IMAGE CAPTURING APPARATUS - The image capturing apparatus includes an optical low-pass filter configured to separate one incident ray into multiple rays to form multiple point images, and an image sensor configured to photoelectrically convert the multiple point images. The optical low-pass filter satisfies a condition of 0.4<2×σ/P<0.9. P represents a pixel pitch of the image sensor, and σ represents a standard deviation of a distribution of the multiple point images. | 2015-10-22 |
20150301239 | PIXEL ARRAY - A pixel array includes a plurality of pixel units. The pixel units are arranged along a first direction and a second direction. Each of the pixel units has a colorless region and a plurality of sub-pixels. The sub-pixels have different colors. Every two adjacent sub-pixels in the first direction have different colors. Every two adjacent sub-pixels in the second direction have different colors as well. The second direction and the first direction are intersected with each other. | 2015-10-22 |
20150301240 | METHOD FOR REPAIRING DISPLAY SUBSTRATE, DISPLAY SUBSTRATE AND DISPLAY APPARATUS - A method for repairing a display substrate, comprising steps of: forming a black matrix pattern on a substrate, wherein there is a first pattern missing region in the black matrix pattern; forming a color filter layer pattern on the substrate on which the black matrix pattern is formed; removing all patterns from the substrate within the first pattern missing region by laser processing the first pattern missing region of the substrate based on a position of the first pattern missing region; and filling a first repair material into the first pattern missing region of the substrate processed by laser so as to repair the first pattern missing region. The present invention also discloses a display substrate and a display apparatus. | 2015-10-22 |
20150301241 | COLOR FILTER SUBSTRATE AND MANUFACTURING METHOD THEREOF, AND DISPLAY DEVICE - Embodiments of the invention provide a color film substrate and a manufacturing method thereof, and a display device, which are used in the field of display technology, and can improve the product quality, reduce costs, and improve production capacity. The color film substrate includes a plurality of first and second black matrixes which are arranged to intersect, and a color filter structure; wherein, the color filter structure includes at least first, second and third color filters, each of the first, second and third color filters includes a first and a second openings, area of a first region between a second opening of the first color filter and a first opening of the second color filter is not the same as that of a second region between a second opening of the second color filter and a first opening of the third color filter. | 2015-10-22 |
20150301242 | OPTICAL FILTERS HAVING IMPROVED COLOR PROFILE PATTERNS - In various embodiments, the invention provides photographic and image capture device lenses having variations in color and tone profiles arranged based on differing geometric relationships to the physical shape of the lens, and further allows for the lenses to be stacked such that the visual effects provided by each lens can be applied simultaneously. | 2015-10-22 |
20150301243 | NEAR-INFRARED ABSORPTION FILTER AND IMAGING DEVICE - There is provided an imaging device capable of exhibiting high absorption to a light with a wavelength range of 700 to 1500 nm in a near-infrared region to IR region, while having high transmittance to a visible light, and an imaging device in which the infrared absorption filter is used, and is provided a near-infrared absorption filter including composite tungsten oxide particles expressed by a general formula Na | 2015-10-22 |
20150301244 | LOW EMISSIVITY AND EMI SHIELDING WINDOW FILMS - A low emissivity and EMI shielding transparent composite film typically for use in association with window glazing and comprising a transparent film substrate having on one side thereof an underlayer of abrasion resistant hardcoat material with at least one infrared reflective layer covering the underlayer, typically a metallic layer which may be encased in metal oxide layers, which is then covered with a thin external protective top coat of a cured fluorinated resin. | 2015-10-22 |
20150301245 | NEAR-INFRARED-ABSORBING COMPOSITION, NEAR-INFRARED CUT-OFF FILTER USING SAME, MANUFACTURING METHOD THEREFOR, CAMERA MODULE, AND MANUFACTURING METHOD THEREFOR - An object of the present invention is to provide a near-infrared-absorbing composition capable of forming a cured film having excellent heat resistance while maintaining strong near-infrared shielding properties when a cured film is produced. The near-infrared-absorbing composition of the present invention includes a copper complex obtained by reacting two or more kinds of sulfonic acids represented by General Formula (I) described below or salts thereof with a copper component and a solvent. | 2015-10-22 |
20150301246 | COLOR TUNING FOR ELECTROPHORETIC DISPLAY DEVICE - The present invention is directed to color tuning methods for electrophoretic display devices. For example, a color tuning agent may be added to a composition for forming a display cell structure or a primer layer. Alternatively, a separate color tuning layer may be added to a display device. Further, a color tuning agent may be added to an electrophoretic display fluid. The color tuning methods are useful for adjusting the color temperature of a display device. | 2015-10-22 |
20150301247 | OPTICAL REFLECTION FILM, INFRARED SHIELDING FILM, AND PROCESS FOR PRODUCING THE SAME - To provide an optical reflection film which has high reflectance of light with desired wavelength and reduced haze, by controlling the level of interlayer mingling to suppress the disturbances of the interface, even when the optical reflection film is produced by multilayer coating, in particular, by simultaneous multilayer coating which allows a high production efficiency. | 2015-10-22 |
20150301248 | PROTECTION FILM AND POLARIZATION PLATE PROVIDED WITH PROTECTION FILM - Provided is a protective film capable of satisfactorily suppressing warping of a polarizing plate. The protective film of the present invention, includes a first resin layer ( | 2015-10-22 |
20150301249 | OPTICAL ELEMENTS COMPRISING CHOLESTERIC LIQUID CRYSTAL POLYMERS - A linear photopolymerizable polymer (LPP) layer is situated to align liquid crystal molecules in a cholesteric liquid crystal polymer (Ch-LCP) layer situated at or on the LPP layers. The Ch-LCP layer includes a patterned area and an unpatterned area. The patterned area and the un-patterned area have different optical properties. The Ch-LCP layer can be tuned to transmit light of a desired frequency and handedness. Single and multiple-layered LPP/Ch-LCP and/or LPP/LCP structures can be provided as patterned polarizers, patterned retarders and other devices. | 2015-10-22 |
20150301250 | POLARIZING MASK - A polarizing mask and an apparatus and method for manufacturing an optical device are provided. The polarizing mask capable of being used to manufacture the optical device including an optical layer whose optical axes or light absorption axes are shifted continuously is provided. The optical device manufactured thus can be used to adjust characteristics of light in electronic devices such as display devices, or can be used for various applications requiring a continuous change in an optical axis or light absorption axis, including use of windows or shades of buildings or automobiles. | 2015-10-22 |
20150301251 | PATTERNED POLARIZING FILM AND ITS PRODUCTION PROCESS - A patterned polarizing film is provided for obtaining a thin patterned circular polarizing plate having a superior anti-reflection property. The film includes a substrate and a patterned liquid crystal cured layer laminated thereon. The layer contains a polymer of a polymerizable liquid crystal compound(s) and a dichroic dye. The patterned polarizing film includes a region (A) having a degree of polarization of 10% or lower and a single transmittance of 80% or higher, and a region (B) having a degree of polarization of 90% or higher and a single transmittance of 40% or higher. | 2015-10-22 |
20150301252 | PREPARING METHOD FOR THIN POLARIZER, THIN POLARIZER AND POLARIZING PLATE COMPRISING THE SAME - Provided are a method for preparing a thin polarizer, including forming a film laminate by bonding a non-stretched polyvinyl alcohol-based film having a thickness of 10 to 60 μm to at least one surface of a non-stretched base film using an adhesive including an amine-based metal compound crosslinking agent and a polyvinyl alcohol-based resin containing an acetoacetyl group, and stretching the film laminate so as to allow the polyvinyl alcohol-based film to have a thickness of 10 μm or less, and a thin polarizer manufactured through the same. | 2015-10-22 |
20150301253 | POLARIZING ARTICLE AND METHOD FOR MAKING THE SAME - A method of manufacturing a polarizing article including the steps of depositing a dichroic dye on a first surface of a substrate and fixing the dichroic dye to form a polarizing layer. The polarizing layer is impregnated with at least one silane compound to form an impregnated polarizing layer. A light curable primer is applied over the impregnated polarizing layer, and is cured using an irradiating light to form a cured primer layer. An abrasion resistant protective composition is applied to the cured primer layer, and the protective composition is cured to form a cured abrasion resistant protective coating. The light curable primer includes at least one (meth)acrylate reactive diluent, at least one unsaturated oligomer, and at least one photoinitiator for free radical-initiated polymerizations. The polarizing article includes a polarizing article made according to the method disclosed herein. | 2015-10-22 |
20150301254 | ELECTROMAGNETIC COMPOSITE-BASED REFLECTING TERAHERTZ WAVEPLATE - A reflection-mode waveplate for operation in the terahertz region by shifting the phase between two perpendicular polarization components of the light wave, comprising a ground plane; an array of polygonal unit cells; the polygonal unit cells comprising a polymer positioned between the ground plane and the exterior of the array of polygonal patches. | 2015-10-22 |
20150301255 | MASK PROCESSING USING FILMS WITH SPATIALLY SELECTIVE BIREFRINGENCE REDUCTION - Certain patternable reflective films are used as masks to make other patterned articles, and one or more initial masks can be used to pattern the patternable reflective films. An exemplary patternable reflective film has an absorption characteristic suitable to, upon exposure to a radiant beam, absorptively heat a portion of the film by an amount sufficient to change a first reflective characteristic to a different second reflective characteristic. The change from the first to the second reflective characteristic is attributable to a change in birefringence of one or more layers or materials of the patternable film. In a related article, a mask is attached to such a patternable reflective film. The mask may have opaque portions and light-transmissive portions. Further, the mask may have light-transmissive portions with structures such as focusing elements and/or prismatic elements. | 2015-10-22 |
20150301256 | OPTICAL OBSERVATION DEVICE - An optical observation system includes a spatial light modulator displaying a Fresnel type kinoform on a phase modulation plane, and modulating light L | 2015-10-22 |
20150301257 | OPTICAL SHEET AND BACKLIGHT UNIT HAVING THE OPTICAL SHEET - In an optical sheet and a backlight unit comprising same, the optical sheet comprises: a first transparent film, a first barrier layer; and an light conversion layer, wherein the first barrier layer is formed on one surface of the first transparent film, the light conversion layer is formed on top of the first barrier layer, and wherein at least one of a light-emitting composite including a wax particle and a nano light-emitting body that is disposed inside the wax particle, and a fluorescent particle is dispersed. | 2015-10-22 |
20150301258 | QUANTUM DOT FILLED TUBE AND RELATED DISPLAY DEVICE - A quantum dot filled tube may include a tube having a cavity therein and a phosphor disposed inside the tube. The tube may include: a first tube including a first filling cavity therein; a second tube including a second filling cavity therein; and a connecting unit including a third filling cavity configured to connect the first filling cavity and the second filling cavity. | 2015-10-22 |
20150301259 | LIGHT EMITTING DEVICE, BACKLIGHT UNIT AND DISPLAY APPARATUS - A light emitting device includes: a substrate; a light emitting element mounted on the substrate and emitting blue light and green light; and a wavelength conversion part wavelength-converting a portion of light emitted from the light emitting element into red light, and including fluoride-based phosphors represented by Chemical Formula: A | 2015-10-22 |
20150301260 | Light Guide Illumination Device With Light Divergence Modifier - An illumination device includes a light-emitting element (LEEs); a light guide extending in a forward direction from a first end to a second end to receive at the first end LEE light and to guide the light to the second end, such that divergence of the light received at the first end and divergence of the guided light that reaches the second end are substantially the same; a light divergence modifier optically coupled to the light guide at the second end to receive the guided light, to modify the divergence of the guided light, such that the light provided by the light divergence modifier has a modified divergence different from the divergence of the guided light; and an optical extractor optically coupled to the light divergence modifier, to output into the ambient environment light provided by the light divergence modifier as output light in one or more output angular ranges. | 2015-10-22 |
20150301261 | LIGHT GUIDE - A light guide having a first major surface, a second major surface, an input edge and an opposing edge, where at least one of the first major surface and the second major surface includes a plurality of multiplets. Each multiplet includes two or more extraction features having an indented geometry. | 2015-10-22 |
20150301262 | LIGHT GUIDE, MANUFACTURING METHOD OF LIGHT GUIDE, OPTICAL SHUTTER, AND PLANAR LIGHT-SOURCE DEVICE - Provided is a plate-type light guide ( | 2015-10-22 |
20150301263 | PLASTIC FRAME, DISPLAY HAVING THE SAME AND METHOD FOR MANUFACTURING THE PLASTIC FRAME - A plastic frame, a display having the same and a method for manufacturing the plastic frame are disclosed, wherein the display has a display module and a backlight module. The display module connects to the backlight module, and the backlight module has a light guiding plate, illuminating elements, and a plastic frame. The plastic frame has a frame body and a light guiding element. The frame body is made of plastics and the light guiding plate and the illuminating elements are accommodated therein. The light guiding element has a first end and a second end, is made of light optically transmissive material, and is integrally formed. The height of the first end is H | 2015-10-22 |
20150301264 | OPTICAL SHEET MODULE CONSISTING OF OPTICAL SHEETS HAVING DIFFERENT THICKNESSES - An optical sheet module consisting of optical sheets having different thicknesses, includes: a first base film having a predetermined thickness and transmitting light from a lower portion thereof through an upper portion thereof; an upper optical sheet formed on the first base film and having a first structural pattern in which the upper optical sheet protrudes upwardly and the cross-sectional area thereof decreases when progressing toward an upper portion thereof; a second based film laminated beneath the upper optical sheet so as to transmit light from a lower portion thereof to the upper optical sheet; and a lower optical sheet formed on the second base film and having a second structural pattern in which the lower optical sheet protrudes toward the upper optical sheet and the cross-sectional area thereof decreases when progressing toward an upper portion thereof. The first base film is relatively thicker than the second base film. | 2015-10-22 |
20150301265 | LAMINATED OPTICAL SHEET MODULE - A laminated optical sheet module includes: an upper optical sheet having a first structure pattern in which a first unit light collector having an inclined surface, the cross-section area of which decrease when progressing upwardly, is continuously repeated; and a lower optical sheet laminated beneath the upper optical sheet and having a second structure pattern in which a second unit light collector having an inclined surface, the cross-sectional area of which decreases when progressing upwardly, is continuously repeated. The vertical distance between the lowermost portion and the uppermost portion of the second unit collector is greater than the vertical distance between the lowermost portion and the uppermost portion of the first unit collector. The surface area of the inclined surface of the second unit collector is relatively larger than the surface area of the inclined surface of the first unit collector. | 2015-10-22 |
20150301266 | LIGHTING DEVICE AND DISPLAY DEVICE - An illumination device of the present invention is provided with: a light source; a light guide plate having a light-receiving face that faces the light source and on which light that has been generated from the light source is incident, an opposite surface that is on the opposite side to the light-receiving face, and a light-exiting surface from which light that has entered the light guide plate from the light-receiving face exits; a first wall disposed along the front-back direction of the light guide plate and having a light absorbing surface that faces the opposite surface and absorbs light that has leaked out from the light guide plate; and a first light absorbing member that extends between a front periphery adjacent to the opposite surface on the light-exiting surface and a front end of the first wall, and absorbs light that has leaked out from the light guide plate. | 2015-10-22 |
20150301267 | ANAMORPHIC OPTICAL PACKAGE - An optical package comprises a light source generating light having a first aspect ratio, an anamorphic light guide to receive the light from the light source, a diverter array to receive and divert light from the anamorphic light guide, and a concentrator to collect light received from the diverter array, wherein the concentrator outputs light having a second aspect ratio, the second aspect ratio being greater than the first aspect ratio. An effective height of the output beam is lower than an effective height of the light source. | 2015-10-22 |
20150301268 | OPTICAL LOSS STRUCTURE INTEGRATED IN AN ILLUMINATION APPARATUS - Various embodiments of a display device described herein include an optical propagation region, at least one optical loss structure, an optical isolation layer, and a plurality of display elements. The propagation region includes a light guide in which light is guided via total internal reflection and turning features configured to redirect the light out of the propagation region. The loss structure would disrupt the total internal reflection of at least some of the light guided within the propagation region if disposed directly adjacent thereto. The optical isolation layer includes a non-gaseous material between the propagation region and the loss structure, and is configured to increase an amount of light that is totally internal reflected in the propagation region. The plurality of display elements are positioned to receive the light redirected out of the propagation region. The loss structure is positioned between the plurality of display elements and the propagation region. | 2015-10-22 |
20150301269 | PLANAR LIGHT SOURCE DEVICE AND LIQUID CRYSTAL DISPLAY APPARATUS - A planar light source device | 2015-10-22 |
20150301270 | DISPLAY DEVICE PROVIDED WITH A LIGHT GUIDE - A display device that includes a housing in which is arranged a display within a display window delimited by a peripheral edge. The housing is provided with at least one light guide associated with at least one light source. The light guide includes a first portion which is arranged outside the peripheral edge and which produces a lateral illuminating beam outside the peripheral edge, and a second portion which extends as an extension of the first portion into the display window, and which produces an auxiliary illuminating beam in the display window. | 2015-10-22 |
20150301271 | LAMINATED DISPLAY UNIT - A laminated display unit having a light guide, an LCD panel laminated to a major surface of the light guide and a high modulus layer laminated to the light guide opposite the LCD panel. A first material having refractive index n | 2015-10-22 |
20150301272 | BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING SAME - The present invention provides a backlight module and a liquid crystal display device using the backlight module. The backlight module includes a backplane ( | 2015-10-22 |
20150301273 | DISPLAY - In a backlight module of a display, a plurality of optical films has positioning protrusions disposed in a positioning slot of a plastic frame for correct installation of the optical films on a light guide plate. One or more middle optical films further include a fixing protrusion at the side corresponding to the light source and an existing opening formed by bending a system bracket out of a holder is provided for placement of the fixing protrusion of the middle optical films. A double-sided adhesive tape disposed between a display panel and the holder is further utilized for securing the fixing protrusion such that the middle optical films can be securely fixed and not falling apart during an impact test or a falling test. | 2015-10-22 |
20150301274 | ILLUMINATION DEVICE HAVING VISCOELASTIC LIGHTGUIDE - Illumination device having a viscoelastic lightguide and a flexible light source is described. The flexible light source includes a plurality of electrically interconnected light emitting diodes disposed on a flexible mat and optically coupled to the viscoelastic lightguide. | 2015-10-22 |
20150301275 | NANO-SCALE CONTINUOUS RESONANCE TRAP REFRACTOR BASED SPLITTER, COMBINER, AND REFLECTOR - A tapered core waveguide which may be configured as a spectral component splitter, a spectral component combiner, and various combinations thereof including a reflective mode of operation. The tapered core waveguide has an aperture and cladding, and is dimensioned such that radiant energy admitted into the core via the aperture and having at least two spectral components would be emitted via the cladding at a location dependent on its frequency and/or its polarization, and that a plurality of spectral components injected to the core via the cladding will be mixed and emitted via the aperture. | 2015-10-22 |
20150301276 | SINGLE-MODE OPTICAL FIBER WITH LARGE EFFECTIVE AREA - A single-mode fiber with a large effective area comprises a core layer and a cladding layer. The core layer is cladded with an intermediate cladding layer, and a depressed cladding layer is provided outside the intermediate cladding layer. The core layer comprises a first fiber sub core layer having a radius r | 2015-10-22 |
20150301277 | OPTICAL FIBER WITH LARGE EFFECTIVE AREA - An optical fiber with a large effective area includes a core layer and a cladding layer. The core layer comprises an inner core layer having a radius of 1-4 μm and a relative refractive index difference Δ | 2015-10-22 |
20150301278 | Preform for an Optical Waveguide and A Fiber with Non-Circular Core - Preform for an optical waveguide containing a core with a non-circular geometry and at least one cladding layer, in which the dopand concentration of the cladding layer is increased compared to the dopand concentration of a preform with circular core geometry and identical NA. A method for the production of a preform for an optical fiber is provided. An optical waveguide with a nominal dopand concentration of c(eff) x F≦c(nom) in at least one cladding layer is also provided. | 2015-10-22 |
20150301279 | OPTICAL INTERCONNECTION DEVICE - An optical interconnection device for transmitting and receiving an optical signal between a plurality of laminated semiconductor substrates. The optical interconnection device has a plurality of light emitting elements or a plurality of light receiving elements that are arranged in one of the semiconductor substrates and have pn junction parts using the semiconductor substrate as a common semiconductor layer. The light emitting element and the light receiving element, which form a pair and which transmit and receive an optical signal between the different semiconductor substrates, emit and receive light at a common wavelength. | 2015-10-22 |
20150301280 | INTEGRATED POLARIZATION FILTER AND TAP COUPLER - Disclosed herein are methods, structures, apparatus and devices to integrate polarization filters and power tap couplers on planar photonic circuits that advantageously provide a lower insertion loss to an optical signal and improved optical bandwidth as compared with contemporary designs wherein these two functions are implemented separately. | 2015-10-22 |
20150301281 | Metal-Free Monolithic Epitaxial Graphene-On-Diamond PWB With Optical Waveguide - According to some embodiments, an apparatus includes a circuit board made of polycrystalline diamond. The circuit board is formed by thermolysis of layers of a preceramic polymer. A plurality of tubes are formed within the circuit board and comprise a plurality of terminations at one or more surfaces of the circuit board. Each tube comprises a layer of graphene that is operable to permit each tube to conduct electrical current. Each layer of graphene is formed by thermolysis of the polycrystalline diamond circuit board at a temperature greater than or equal to 900 degrees Celsius. The apparatus also includes a plurality of optical waveguides formed within the circuit board. Each optical waveguide comprises a core of polycrystalline diamond surrounded by silicon carbide. The polycrystalline diamond is formed by thermolysis of poly(hydridocarbyne) and the silicon carbide is formed by thermolysis of poly(methylsilyne). | 2015-10-22 |
20150301282 | OPTICAL ELEMENT, ILLUMINATION DEVICE, IMAGE DISPLAY DEVICE, METHOD OF OPERATING OPTICAL ELEMENT - Provided is an optical element that highly efficiently radiates light with high directivity at low etendue. The optical element includes a light emission layer ( | 2015-10-22 |
20150301283 | METHOD AND APPARATUS PROVIDING COMPENSATION FOR WAVELENGTH DRIFT IN PHOTONIC STRUCTURES - A method and apparatus are described which provide for wavelength drift compensation in a photonic waveguide by application of an electric field to a waveguide having a strained waveguide core. | 2015-10-22 |
20150301284 | ENVIRONMENTALLY RUGGED FREE-SPACE FIBER WAVEGUIDE CONNECTOR AND METHOD OF MANUFACTURE THEREOF - Various embodiments of free-space fiber waveguide connectors, feed-throughs and GRIN lens assemblies and methods of bonding GRIN lenses in, and aligning waveguide fibers to, such connectors, feed-throughs and assemblies. In one embodiment, a free-space fiber waveguide connector comprises a waveguide fiber mount including a fiber holder, a fiber waveguide, and a bonding agent bonding said fiber waveguide to said fiber holder, a coefficient of expansion of said fiber holder nominally matching a coefficient of expansion of said fiber waveguide and also nominally matching a coefficient of expansion of said bonding agent, said fiber waveguide having a surface oriented at a nonzero angle with respect to an axis of said fiber. | 2015-10-22 |
20150301285 | OPTICAL CONNECTOR SYSTEMS FOR HIGH-BANDWIDTH OPTICAL COMMUNICATION - Receptacles and optical connector systems are disclosed. In one embodiment, a receptacle includes a receptacle body defining a connector cavity, wherein the receptacle body comprises a rear wall having a first surface and a second surface. The rear wall includes a ferrule opening dimensioned to accept a ferrule body of an optical connector. A connector engagement portion includes a perimeter notch within the second surface of the rear wall and surrounding the ferrule opening. The perimeter notch defines a connector engagement surface that is dimensioned to contact a portion of the optical connector. The receptacle further includes an active component assembly including a substrate, wherein the substrate is coupled to the first surface of the rear wall, and an active component substrate having an array of active components, wherein the active component substrate is aligned with the ferrule opening of the rear wall. | 2015-10-22 |
20150301286 | ADAPTER FOR INTERFACING OPTICAL FIBER CONNECTORS WITH ONE ANOTHER, AND A METHOD - An adapter is provided for interfacing MOF connectors with one another where the MOF connectors have optical pathways that bend by a non-zero-degree angle (e.g., 90°±15°) in between the ends of the optical fibers held in the connectors and the output facets of the connectors. The adapter is configured to mate with two such connectors and to bring their optical pathways into precise optical alignment with one another. | 2015-10-22 |
20150301287 | MULTIFUNCTIONAL OPTICAL FIBER FIXING CLAMP - The invention relates to the technical field of optical fiber cutting and welding, especially a multi-functional optical fiber fixing clamp. The multi-functional optical fiber fixing clamp of the invention comprises a clamp body and a clamp cover. One side of the said clamp body is pin jointed to the said clamp cover. The said clamp body is arranged with a first fiber loading slot and a fiber connector locating slot. The said clamp cover is arranged with a first abutting structure which is abutted with the said first fiber loading slot and a second abutting structure which is abutted with the said fiber connector locating slot. Compared with the existing technology, the multi-functional optical fiber fixing clamp of the invention can match with SC optical fiber connector, LC optical fiber connector, rubber-insulated fiber cable and wire jumper. As the clamp has the compatibility function, operators are not required to change clamp during a series of operations such as optical fiber cutting and welding. Thus, working time is greatly saved and work efficiency is improved. | 2015-10-22 |
20150301288 | SELF-CLEANING OPTICAL CONNECTOR - An example medical device system includes a reusable connector cable having a female adaptor and a first fiber optic cable disposed within the reusable connector cable. A single use device is capable of connecting to the reusable connector cable and includes a male adaptor capable of mating with the female adaptor. A second fiber optic cable extends through the single use device such that the second fiber optic cable optically connects to the first fiber optic cable when the male adaptor of the single use device is disposed within the female adaptor of the reusable connector cable. A cleaning assembly is disposed within the single use device and is capable of cleaning an end of the first fiber optic cable when the male adaptor of the single use device is mated with the female adaptor of the reusable connector cable. | 2015-10-22 |
20150301289 | MULTI-PORT ADAPTER BLOCK - An adapter block constructed to mount to more than one mounting configuration of a telecommunications panel. The adapter block including a housing constructed to slide mount to a panel, and pivot mount to a panel from either a front or a rear of the panel. The housing including flexible levers that provide a snap-fit connection to secure the adapter block relative to the panel in each of the mounting configurations. The adapter block providing access to cable terminations of the block in each of the mounting configurations. | 2015-10-22 |
20150301290 | OPTICAL WIRING PART AND ELECTRONIC DEVICE - The object of the present invention is to provide an optical wiring part which can connect the optical waveguide and another optical element with high optical coupling efficiency while inhibiting the decrease of the transmission loss, and an electronic device with high reliability including the optical wiring part, the present invention provides an optical wiring part including a tape-shaped optical waveguide and a ferrule having a penetration hole which is formed from a base end to a tip end of the ferrule, and a part of the optical waveguide in a longitudinal direction is inserted into the penetration hole, wherein at least one main surface of two main surfaces of the optical waveguide is fixed to an inner wall of the penetration hole, and there is a clearance between the inner wall of the penetration hole and two side surfaces of the optical waveguide. | 2015-10-22 |
20150301291 | STRUCTURES AND TECHNIQUES FOR ALIGNING A MULTICORE FIBER IN A FERRULE OR PRODUCTION JIG - An alignment block for aligning a multicore fiber has a body with a front face and a rear face, and includes a capillary extending between a front opening at the first face and a rear opening at the rear face. The capillary has an inner circumference that includes an alignment surface corresponding to the multicore fiber alignment surface. The front opening is shaped to fit closely around the multicore fiber so as to prevent non-longitudinal movement of the multicore fiber relative to the alignment block body. The rear opening is shaped to fit around the multicore fiber so as to allow a selected amount of non-longitudinal movement of the multicore fiber relative to the alignment block body. The capillary provides tapered transition between the rear opening and the front opening. Movement of the multicore fiber along the capillary causes the multicore fiber alignment surface to be urged against the capillary alignment surface so as to align the multicore fiber cores relative to the alignment block body. | 2015-10-22 |
20150301292 | METHODS OF TERMINATING ONE OR MORE OPTICAL FIBERS - A method of terminating an optical fiber involves providing a ferrule having a front end, a rear end, a ferrule bore extending between the front and rear ends, and a bonding agent disposed in at least a portion of the ferrule bore. The method also involves applying energy to heat the bonding agent. An end section of an optical fiber is inserted into the ferrule bore and through the bonding agent when the bonding agent is heated. The end section of the optical fiber includes a primary coating prior to insertion into the ferrule bore. During insertion of the end section of the optical fiber through the bonding agent, the heated bonding agent thermally removes at least a portion of the primary coating during so that the optical fiber can be secured in the ferrule bore with the bonding agent. | 2015-10-22 |
20150301293 | OPTICAL COMMUNICATIONS MODULE HAVING A FLOATING FERRULE THAT REDUCES WIGGLE LOSS - A ferrule of an optical communications module is allowed to float to a limited degree within the module housing. Consequently, if a force is exerted on the connector that mates with the optical communications module, the mated ferrules of the module and of the connector moves, or floats, within defined limits so that the ferrules move together rather than relative to one another. In this way, the end faces of the ferrules remain in precise alignment to prevent wiggle losses from occurring due to movement of the connector relative to the module housing. | 2015-10-22 |
20150301294 | OPTICAL FIBER CONNECTOR ASSEMBLY - A crimp connector is disclosed for enhancing pull-retention of a fiber optic cable in a fiber optic connector assembly housing. The connector has a flange for engaging with the housing and crimp member for engaging with the cable. | 2015-10-22 |
20150301295 | MULTI-CHANNEL OPTICAL CONNECTOR WITH COUPLING LENSES - Optical connectors are provided for connecting sets of optical waveguides ( | 2015-10-22 |
20150301296 | DROP CABLE - A drop cable includes a jacket, first and second support members, and at least one optical fiber. The jacket has a oval-shaped cavity defined therein, where the minor dimension of the cavity is as small as about 0.25 mm and wherein the major dimension of the cavity is in a range of 0.25 mm to 10 mm. The first and second support members are arranged on opposing sides of the cavity and run generally longitudinally. The optical fiber is within the cavity and has a length greater than a length of the drop cable. Further, the optical fiber is in a substantially serpentine configuration in the cavity, where the serpentine configuration is substantially along a plane defined by a major axis of the oval-shape of the cavity. | 2015-10-22 |
20150301297 | DEFORMED STEEL WIRE FOR PROTECTION TUBE OF SUBMARINE CABLE, METHOD FOR MANUFACTURING SAME, AND PRESSURE-RESISTANT LAYER - There is provided a deformed steel wire includes, as a chemical component, by mass %; C: 0.30% to 1.10%, Si: 0.10% to 1.50%, and Mn: 0.20% to 1.50%, and the balance consists of Fe and unavoidable impurities, in which a metallographic structure is a ferrite-pearlite structure or a pearlite structure, integration degrees of a crystal orientation <110> in a longitudinal direction of a thickness center area and a surface area are in a range of 2.0 to 4.0, an absolute value of a difference in the integration degree between an inner surface and an outer surface of the surface area is 0.3 or less, an integration degree of a crystal orientation <100> in a thickness direction of the thickness center area is in a range of 1.2 to 3.8, and a dimensional accuracy index is in a range of 0.5 to 2.0. | 2015-10-22 |
20150301298 | Enclosure for Fiber Optic Splitter - An enclosure cabinet for connecting optical fiber from a head end to each of the premises of multiple dwellings has a door on an opening in a front wall of the cabinet and a support member on top and bottom slides that supports both a compartment in a container for fiber optic splitter modules and a vertical support panel for premise drop components. The slide out support member moves from a position retracted within the hollow interior for closing of the door to an extended position where the vertical panel is presented at least partly forwardly of the front wall to allow unencumbered access to both sides of the panel where the premise drop components are installed across an opening in the panel for installation, testing and visual inspection. | 2015-10-22 |
20150301299 | MODULAR OPTICAL BACKPLANE AND ENCLOSURE - Embodiments are directed to decomposing an all-to-all interconnection network topology into a plurality of smaller all-to-all interconnection network elements, replicating the interconnection network elements in a modular fashion, wherein the modular interconnection network elements construct the all-to-all interconnection network topology. Embodiments are directed to an apparatus comprising a shuffle cable assembly comprising a plurality of shuffle cables, where each of the plurality of shuffle cables comprises a plurality of optical fibers and a plurality of connectors, a block configured to organize, align, and maintain a position of the plurality of connectors, and at least one handle coupled to the block and configured to actuate the plurality of connectors. | 2015-10-22 |
20150301300 | FIELD INSTALLABLE HIGH STRENGTH BREAKOUT KIT - A fanout kit or assembly for holding furcation tubes may comprise a multifiber inlet screw on strain relief, a fanout housing, a plurality of furcation tubes, and a plurality of furcation assemblies for holding the plurality of furcation tubes. The fanout housing may have a fanout cover, a fanout base, a multifiber retention block for receiving the multifiber inlet screw on strain relief, and a furcation block for receiving the plurality of furcation tubes and the plurality of furcation assemblies. | 2015-10-22 |
20150301301 | DISTRIBUTED SPLIT CONFIGURATION FOR MULTI-DWELLING UNIT - Installing a fiber distribution system in a building having multiple floors includes routing a feed fiber to a first enclosure located at one of the floors of the building; disposing pre-connectorized ends of distribution fibers within the first enclosure; routing optical ferrules, which terminate second ends of the distribution fibers without connector bodies, through the building via a sheath; accessing the optical ferrules of the distribution fibers at respective floors; attaching connector bodies around the optical ferrules; and disposing the connector bodies within fiber distribution terminals at the appropriate floors. | 2015-10-22 |
20150301302 | LENS BARREL, IMAGE-CAPTURING DEVICE, AND METHOD FOR CONTROLLING LENS BARREL - A lens barrel in which tilt adjustment can be made depending on the position of a lens unit in the optical axis direction. This lens barrel includes: at least three guide bars provided so as to extend along the optical axis direction; a driving unit that respectively drives the at least three guide bars in the optical axis direction; a lens frame holding unit that holds an image-capturing lens, the lens frame holding unit being attached to at least three guide bars and being driven in the optical axis direction by the at least three guide bars; and a control unit that controls said at least three linear actuators so as to adjust the respective drive amounts in the optical axis direction of the at least three guide bars and to tilt the lens frame holding unit from a direction orthogonal to the optical axis. | 2015-10-22 |
20150301303 | LENS MODULE, METHOD OF MANUFACTURING THE SAME, AND CAMERA MODULE INCLUDING THE SAME - A lens module may include a lens inserted into a lens barrel. One surface of the lens facing one surface of the lens barrel in an optical axis direction may be disposed in a stress-free state, and the lens is movable relative to the lens barrel to allow optical axes of lenses to be aligned with each other. | 2015-10-22 |
20150301304 | CAMERA MODULE WITH FOREIGN OBJECTS INHIBITING STRUCTURE - A camera module is disclosed, the camera module including a lens barrel including more than one sheet of lens receiving an optical image of an object, an actuator moving the lens barrel, a PCB (Printed Circuit Board) formed with an image sensor at a bottom surface of the lens barrel for converting the optical image to an electrical signal, and a holder for supporting the lens barrel and the actuator and formed with a terminal electrically connected to the actuator, wherein an electrical contact point between the actuator and the terminal is formed with two or more tiers of coated layers. | 2015-10-22 |
20150301305 | LENS DRIVE APPARATUS AND CAMERA MODULE - The present invention makes it possible to more accurately determine a position of an imaging lens with respect to an imaging element at low cost. A lens holder ( | 2015-10-22 |
20150301306 | LIGHT CONCENTRATOR ALIGNMENT SYSTEM - The disclosure generally relates to concentrating daylight collectors and in particular to a light concentrator alignment system that can detect and correct for misalignment of the solar concentrator. The present disclosure generally relates to concentrating daylight collectors that can be used for illuminating interior spaces of a building with sunlight, and in particular to a light concentrator alignment system that can detect and correct for misalignment of the solar concentrator. | 2015-10-22 |